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#!/usr/bin/env python3
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# Copyright (c) 2016-2019 The Bitcoin Core developers
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# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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""" Test segwit transactions and blocks on P2P network. """
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import math
import random
import struct
import time
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from test_framework . blocktools import create_block , create_coinbase , add_witness_commitment , get_witness_script , WITNESS_COMMITMENT_HEADER
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from test_framework . key import ECKey
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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_block ,
msg_getdata ,
msg_headers ,
msg_inv ,
msg_tx ,
msg_witness_block ,
msg_witness_tx ,
ser_uint256 ,
ser_vector ,
sha256 ,
uint256_from_str ,
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FromHex ,
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)
from test_framework . mininode import (
P2PInterface ,
mininode_lock ,
)
from test_framework . script import (
CScript ,
CScriptNum ,
CScriptOp ,
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MAX_SCRIPT_ELEMENT_SIZE ,
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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 ,
SegwitVersion1SignatureHash ,
SignatureHash ,
hash160 ,
)
from test_framework . test_framework import BitcoinTestFramework
from test_framework . util import (
assert_equal ,
connect_nodes ,
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disconnect_nodes ,
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get_bip9_status ,
hex_str_to_bytes ,
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assert_raises_rpc_error ,
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)
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# The versionbit bit used to signal activation of SegWit
VB_WITNESS_BIT = 1
VB_PERIOD = 144
VB_TOP_BITS = 0x20000000
MAX_SIGOP_COST = 80000
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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 = SegwitVersion1SignatureHash ( script , tx_to , in_idx , hashtype , value )
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signature = key . sign_ecdsa ( tx_hash ) + chr ( hashtype ) . encode ( ' latin-1 ' )
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tx_to . wit . vtxinwit [ in_idx ] . scriptWitness . stack = [ signature , script ]
tx_to . rehash ( )
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def get_virtual_size ( witness_block ) :
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""" Calculate the virtual size of a witness block.
Virtual size is base + witness / 4. """
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base_size = len ( witness_block . serialize ( with_witness = False ) )
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total_size = len ( witness_block . serialize ( ) )
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# the "+3" is so we round up
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vsize = int ( ( 3 * base_size + total_size + 3 ) / 4 )
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return vsize
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def test_transaction_acceptance ( node , p2p , tx , with_witness , accepted , reason = None ) :
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""" 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 . """
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reason = [ reason ] if reason else [ ]
with node . assert_debug_log ( expected_msgs = reason ) :
p2p . send_message ( msg_witness_tx ( tx ) if with_witness else msg_tx ( tx ) )
p2p . sync_with_ping ( )
assert_equal ( tx . hash in node . getrawmempool ( ) , accepted )
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def test_witness_block ( node , p2p , block , accepted , with_witness = True , reason = None ) :
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""" 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 . """
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reason = [ reason ] if reason else [ ]
with node . assert_debug_log ( expected_msgs = reason ) :
p2p . send_message ( msg_witness_block ( block ) if with_witness else msg_block ( block ) )
p2p . sync_with_ping ( )
assert_equal ( node . getbestblockhash ( ) == block . hash , accepted )
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class TestP2PConn ( P2PInterface ) :
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def __init__ ( self ) :
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super ( ) . __init__ ( )
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self . getdataset = set ( )
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def on_getdata ( self , message ) :
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for inv in message . inv :
self . getdataset . add ( inv . hash )
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def announce_tx_and_wait_for_getdata ( self , tx , timeout = 60 , success = True ) :
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with mininode_lock :
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self . last_message . pop ( " getdata " , None )
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self . send_message ( msg_inv ( inv = [ CInv ( 1 , tx . sha256 ) ] ) )
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if success :
self . wait_for_getdata ( timeout )
else :
time . sleep ( timeout )
assert not self . last_message . get ( " getdata " )
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def announce_block_and_wait_for_getdata ( self , block , use_header , timeout = 60 ) :
with mininode_lock :
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self . last_message . pop ( " getdata " , None )
self . last_message . pop ( " getheaders " , None )
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msg = msg_headers ( )
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msg . headers = [ CBlockHeader ( block ) ]
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if use_header :
self . send_message ( msg )
else :
self . send_message ( msg_inv ( inv = [ CInv ( 2 , block . sha256 ) ] ) )
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self . wait_for_getheaders ( )
self . send_message ( msg )
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self . wait_for_getdata ( )
def request_block ( self , blockhash , inv_type , timeout = 60 ) :
with mininode_lock :
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self . last_message . pop ( " block " , None )
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self . send_message ( msg_getdata ( inv = [ CInv ( inv_type , blockhash ) ] ) )
self . wait_for_block ( blockhash , timeout )
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return self . last_message [ " block " ] . block
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class SegWitTest ( BitcoinTestFramework ) :
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def set_test_params ( self ) :
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self . setup_clean_chain = True
self . num_nodes = 3
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# This test tests SegWit both pre and post-activation, so use the normal BIP9 activation.
self . extra_args = [ [ " -whitelist=127.0.0.1 " , " -vbparams=segwit:0:999999999999 " ] , [ " -whitelist=127.0.0.1 " , " -acceptnonstdtxn=0 " , " -vbparams=segwit:0:999999999999 " ] , [ " -whitelist=127.0.0.1 " , " -vbparams=segwit:0:0 " ] ]
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def skip_test_if_missing_module ( self ) :
self . skip_if_no_wallet ( )
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def setup_network ( self ) :
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self . setup_nodes ( )
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connect_nodes ( self . nodes [ 0 ] , 1 )
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connect_nodes ( self . nodes [ 0 ] , 2 )
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self . sync_all ( )
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# Helper functions
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def build_next_block ( self , version = 4 ) :
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""" Build a block on top of node0 ' s tip. """
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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 )
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block . nVersion = version
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block . rehash ( )
return block
def update_witness_block_with_transactions ( self , block , tx_list , nonce = 0 ) :
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""" Add list of transactions to block, adds witness commitment, then solves. """
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block . vtx . extend ( tx_list )
add_witness_commitment ( block , nonce )
block . solve ( )
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def run_test ( self ) :
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# Setup the p2p connections
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# 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 )
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assert self . test_node . nServices & NODE_WITNESS != 0
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# Keep a place to store utxo's that can be used in later tests
self . utxo = [ ]
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# Segwit status 'defined'
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self . segwit_status = ' defined '
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self . test_non_witness_transaction ( )
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self . test_unnecessary_witness_before_segwit_activation ( )
self . test_v0_outputs_arent_spendable ( )
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self . test_block_relay ( )
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self . advance_to_segwit_started ( )
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# Segwit status 'started'
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self . test_getblocktemplate_before_lockin ( )
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self . advance_to_segwit_lockin ( )
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# Segwit status 'locked_in'
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self . test_unnecessary_witness_before_segwit_activation ( )
self . test_witness_tx_relay_before_segwit_activation ( )
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self . test_block_relay ( )
self . test_standardness_v0 ( )
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self . advance_to_segwit_active ( )
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# Segwit status 'active'
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self . test_p2sh_witness ( )
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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 ( )
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self . test_block_relay ( )
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self . test_tx_relay_after_segwit_activation ( )
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self . test_standardness_v0 ( )
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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 ( )
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self . test_upgrade_after_activation ( )
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self . test_witness_sigops ( )
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self . test_superfluous_witness ( )
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# Individual tests
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def subtest ( func ) : # noqa: N805
""" Wraps the subtests for logging and state assertions. """
def func_wrapper ( self , * args , * * kwargs ) :
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self . log . info ( " Subtest: {} (Segwit status = {} ) " . format ( func . __name__ , self . segwit_status ) )
# Assert segwit status is as expected
assert_equal ( get_bip9_status ( self . nodes [ 0 ] , ' segwit ' ) [ ' status ' ] , self . segwit_status )
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func ( self , * args , * * kwargs )
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# Each subtest should leave some utxos for the next subtest
assert self . utxo
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self . sync_blocks ( )
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# Assert segwit status is as expected at end of subtest
assert_equal ( get_bip9_status ( self . nodes [ 0 ] , ' segwit ' ) [ ' status ' ] , self . segwit_status )
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return func_wrapper
@subtest
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def test_non_witness_transaction ( self ) :
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""" See if sending a regular transaction works, and create a utxo to use in later tests. """
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# Mine a block with an anyone-can-spend coinbase,
# let it mature, then try to spend it.
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block = self . build_next_block ( version = 1 )
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block . solve ( )
self . test_node . send_message ( msg_block ( block ) )
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self . test_node . sync_with_ping ( ) # make sure the block was processed
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txid = block . vtx [ 0 ] . sha256
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self . nodes [ 0 ] . generate ( 99 ) # let the block mature
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# Create a transaction that spends the coinbase
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( txid , 0 ) , b " " ) )
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tx . vout . append ( CTxOut ( 49 * 100000000 , CScript ( [ OP_TRUE , OP_DROP ] * 15 + [ OP_TRUE ] ) ) )
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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_tx ( tx ) . serialize ( ) , msg_witness_tx ( tx ) . serialize ( ) )
self . test_node . send_message ( msg_witness_tx ( tx ) )
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self . test_node . sync_with_ping ( ) # make sure the tx was processed
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assert tx . hash in self . nodes [ 0 ] . getrawmempool ( )
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# Save this transaction for later
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self . utxo . append ( UTXO ( tx . sha256 , 0 , 49 * 100000000 ) )
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self . nodes [ 0 ] . generate ( 1 )
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@subtest
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def test_unnecessary_witness_before_segwit_activation ( self ) :
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""" Verify that blocks with witnesses are rejected before activation. """
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tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
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tx . vout . append ( CTxOut ( self . utxo [ 0 ] . nValue - 1000 , CScript ( [ OP_TRUE ] ) ) )
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tx . wit . vtxinwit . append ( CTxInWitness ( ) )
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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 ( )
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assert tx . sha256 != tx . calc_sha256 ( with_witness = True )
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# Construct a segwit-signaling block that includes the transaction.
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block = self . build_next_block ( version = ( VB_TOP_BITS | ( 1 << VB_WITNESS_BIT ) ) )
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self . update_witness_block_with_transactions ( block , [ tx ] )
# Sending witness data before activation is not allowed (anti-spam
# rule).
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False , reason = ' unexpected-witness ' )
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# But it should not be permanently marked bad...
# Resend without witness information.
self . test_node . send_message ( msg_block ( block ) )
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self . test_node . sync_with_ping ( )
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assert_equal ( self . nodes [ 0 ] . getbestblockhash ( ) , block . hash )
# Update our utxo list; we spent the first entry.
self . utxo . pop ( 0 )
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self . utxo . append ( UTXO ( tx . sha256 , 0 , tx . vout [ 0 ] . nValue ) )
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@subtest
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def test_block_relay ( self ) :
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""" 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 )
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assert self . test_node . last_message [ " getdata " ] . inv [ 0 ] . type == blocktype
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block1 , True )
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block2 = self . build_next_block ( version = 4 )
block2 . solve ( )
self . test_node . announce_block_and_wait_for_getdata ( block2 , use_header = True )
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assert self . test_node . last_message [ " getdata " ] . inv [ 0 ] . type == blocktype
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block2 , True )
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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 )
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assert self . test_node . last_message [ " getdata " ] . inv [ 0 ] . type == blocktype
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block3 , True )
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# Check that we can getdata for witness blocks or regular blocks,
# and the right thing happens.
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if self . segwit_status != ' active ' :
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# 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 )
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assert_equal ( block . serialize ( ) , wit_block . serialize ( ) )
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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.
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assert len ( block . vtx [ 0 ] . wit . vtxinwit ) == 1
assert len ( block . vtx [ 0 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack ) == 1
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# 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 )
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assert_equal ( wit_block . serialize ( ) , hex_str_to_bytes ( rpc_block ) )
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assert_equal ( wit_block . serialize ( False ) , non_wit_block . serialize ( ) )
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assert_equal ( wit_block . serialize ( ) , block . serialize ( ) )
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# Test size, vsize, weight
rpc_details = self . nodes [ 0 ] . getblock ( block . hash , True )
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assert_equal ( rpc_details [ " size " ] , len ( block . serialize ( ) ) )
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assert_equal ( rpc_details [ " strippedsize " ] , len ( block . serialize ( False ) ) )
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weight = 3 * len ( block . serialize ( False ) ) + len ( block . serialize ( ) )
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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 ] )
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assert block4 . sha256 not in self . old_node . getdataset
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@subtest
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def test_v0_outputs_arent_spendable ( self ) :
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""" 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 ) . """
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# node2 doesn't need to be connected for this test.
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# (If it's connected, node0 may propagate an invalid block to it over
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# compact blocks and the nodes would have inconsistent tips.)
disconnect_nodes ( self . nodes [ 0 ] , 2 )
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# Create two outputs, a p2wsh and p2sh-p2wsh
witness_program = CScript ( [ OP_TRUE ] )
witness_hash = sha256 ( witness_program )
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script_pubkey = CScript ( [ OP_0 , witness_hash ] )
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p2sh_pubkey = hash160 ( script_pubkey )
p2sh_script_pubkey = CScript ( [ OP_HASH160 , p2sh_pubkey , OP_EQUAL ] )
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value = self . utxo [ 0 ] . nValue / / 3
tx = CTransaction ( )
tx . vin = [ CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b ' ' ) ]
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tx . vout = [ CTxOut ( value , script_pubkey ) , CTxOut ( value , p2sh_script_pubkey ) ]
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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.
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False , with_witness = True , reason = ' unexpected-witness ' )
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# 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 ( )
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p2sh_p2wsh_tx . vin = [ CTxIn ( COutPoint ( txid , 1 ) , CScript ( [ script_pubkey ] ) ) ]
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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.
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False , with_witness = True , reason = ' unexpected-witness ' )
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# 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 )
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connect_nodes ( self . nodes [ 0 ] , 2 )
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self . utxo . pop ( 0 )
self . utxo . append ( UTXO ( txid , 2 , value ) )
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@subtest
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def advance_to_segwit_started ( self ) :
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""" Mine enough blocks for segwit ' s vb state to be ' started ' . """
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height = self . nodes [ 0 ] . getblockcount ( )
# Will need to rewrite the tests here if we are past the first period
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assert height < VB_PERIOD - 1
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# Advance to end of period, status should now be 'started'
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self . nodes [ 0 ] . generate ( VB_PERIOD - height - 1 )
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assert_equal ( get_bip9_status ( self . nodes [ 0 ] , ' segwit ' ) [ ' status ' ] , ' started ' )
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self . segwit_status = ' started '
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@subtest
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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 " ] } )
block_version = gbt_results [ ' version ' ]
if node == self . nodes [ 2 ] :
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# If this is a non-segwit node, we should not get a witness
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# commitment, nor a version bit signalling segwit.
assert_equal ( block_version & ( 1 << VB_WITNESS_BIT ) , 0 )
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assert ' default_witness_commitment ' not in gbt_results
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else :
# For segwit-aware nodes, check the version bit and the witness
# commitment are correct.
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assert block_version & ( 1 << VB_WITNESS_BIT ) != 0
assert ' default_witness_commitment ' in gbt_results
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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 )
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assert_equal ( witness_commitment , script . hex ( ) )
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@subtest
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def advance_to_segwit_lockin ( self ) :
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""" Mine enough blocks to lock in segwit, but don ' t activate. """
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height = self . nodes [ 0 ] . getblockcount ( )
# Advance to end of period, and verify lock-in happens at the end
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self . nodes [ 0 ] . generate ( VB_PERIOD - 1 )
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height = self . nodes [ 0 ] . getblockcount ( )
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assert ( height % VB_PERIOD ) == VB_PERIOD - 2
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assert_equal ( get_bip9_status ( self . nodes [ 0 ] , ' segwit ' ) [ ' status ' ] , ' started ' )
self . nodes [ 0 ] . generate ( 1 )
assert_equal ( get_bip9_status ( self . nodes [ 0 ] , ' segwit ' ) [ ' status ' ] , ' locked_in ' )
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self . segwit_status = ' locked_in '
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@subtest
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def test_witness_tx_relay_before_segwit_activation ( self ) :
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# 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 )
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assert self . old_node . last_message [ " getdata " ] . inv [ 0 ] . type == 1
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# 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 )
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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 )
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# But eliminating the witness should fix it
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx , with_witness = False , accepted = True )
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# 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 ) )
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@subtest
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def test_standardness_v0 ( self ) :
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""" 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.
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2sh_tx , with_witness = True , accepted = True )
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self . nodes [ 0 ] . generate ( 1 )
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self . sync_blocks ( )
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# 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
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , tx , with_witness = True , accepted = True )
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# 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 ( )
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , tx2 , with_witness = True , accepted = True )
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# 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.
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self . sync_mempools ( [ self . nodes [ 0 ] , self . nodes [ 1 ] ] )
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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 ( )
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if self . segwit_status != ' active ' :
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# 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.
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assert_equal ( self . nodes [ 0 ] . testmempoolaccept ( [ tx3 . serialize_with_witness ( ) . hex ( ) ] ) , [ { ' txid ' : tx3 . hash , ' allowed ' : True } ] )
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# Create the same output as tx3, but by replacing tx
tx3_out = tx3 . vout [ 0 ]
tx3 = tx
tx3 . vout = [ tx3_out ]
tx3 . rehash ( )
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assert_equal ( self . nodes [ 0 ] . testmempoolaccept ( [ tx3 . serialize_with_witness ( ) . hex ( ) ] ) , [ { ' txid ' : tx3 . hash , ' allowed ' : True } ] )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx3 , with_witness = True , accepted = True )
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self . nodes [ 0 ] . generate ( 1 )
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self . sync_blocks ( )
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self . utxo . pop ( 0 )
self . utxo . append ( UTXO ( tx3 . sha256 , 0 , tx3 . vout [ 0 ] . nValue ) )
assert_equal ( len ( self . nodes [ 1 ] . getrawmempool ( ) ) , 0 )
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@subtest
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def advance_to_segwit_active ( self ) :
""" Mine enough blocks to activate segwit. """
height = self . nodes [ 0 ] . getblockcount ( )
self . nodes [ 0 ] . generate ( VB_PERIOD - ( height % VB_PERIOD ) - 2 )
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assert_equal ( get_bip9_status ( self . nodes [ 0 ] , ' segwit ' ) [ ' status ' ] , ' locked_in ' )
self . nodes [ 0 ] . generate ( 1 )
assert_equal ( get_bip9_status ( self . nodes [ 0 ] , ' segwit ' ) [ ' status ' ] , ' active ' )
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self . segwit_status = ' active '
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@subtest
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def test_p2sh_witness ( self ) :
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""" 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
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx , with_witness = False , accepted = True )
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block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True , with_witness = True )
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self . sync_blocks ( )
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# 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.
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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 )
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# Try to put the witness script in the scriptSig, should also fail.
spend_tx . vin [ 0 ] . scriptSig = CScript ( [ p2wsh_pubkey , b ' a ' ] )
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spend_tx . rehash ( )
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with self . nodes [ 0 ] . assert_debug_log (
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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) ' ) ) :
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , spend_tx , with_witness = False , accepted = False )
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# 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
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , spend_tx , with_witness = True , accepted = True )
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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.
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Update self.utxo
self . utxo . pop ( 0 )
self . utxo . append ( UTXO ( spend_tx . sha256 , 0 , spend_tx . vout [ 0 ] . nValue ) )
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@subtest
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def test_witness_commitments ( self ) :
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""" Test witness commitments.
This test can only be run after segwit has activated . """
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# 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
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assert msg_witness_block ( block ) . serialize ( ) != msg_block ( block ) . serialize ( )
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# This empty block should be valid.
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# 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!
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assert block_2 . vtx [ 0 ] . vout [ - 1 ] != block . vtx [ 0 ] . vout [ - 1 ]
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# This should also be valid.
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_2 , accepted = True )
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# 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 )
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script_pubkey = CScript ( [ OP_0 , witness_hash ] )
tx . vout . append ( CTxOut ( self . utxo [ 0 ] . nValue - 1000 , script_pubkey ) )
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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 " " ) )
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tx2 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue - 1000 , witness_program ) )
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
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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 ( )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_3 , accepted = False )
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# 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 ( )
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assert len ( block_3 . vtx [ 0 ] . vout ) == 4 # 3 OP_returns
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block_3 . solve ( )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_3 , accepted = True )
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# 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 " " ) )
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tx3 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue - 1000 , witness_program ) )
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tx3 . rehash ( )
block_4 . vtx . append ( tx3 )
block_4 . hashMerkleRoot = block_4 . calc_merkle_root ( )
block_4 . solve ( )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_4 , with_witness = False , accepted = True )
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# Update available utxo's for use in later test.
self . utxo . pop ( 0 )
self . utxo . append ( UTXO ( tx3 . sha256 , 0 , tx3 . vout [ 0 ] . nValue ) )
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@subtest
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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 ( )
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block . vtx [ 0 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack . append ( b ' a ' * 5000000 )
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assert get_virtual_size ( block ) > MAX_BLOCK_BASE_SIZE
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# 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
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self . nodes [ 0 ] . submitblock ( block . serialize ( ) . hex ( ) )
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assert self . nodes [ 0 ] . getbestblockhash ( ) != block . hash
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block . vtx [ 0 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack . pop ( )
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assert get_virtual_size ( block ) < MAX_BLOCK_BASE_SIZE
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self . nodes [ 0 ] . submitblock ( block . serialize ( ) . hex ( ) )
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assert self . nodes [ 0 ] . getbestblockhash ( ) == block . hash
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# Now make sure that malleating the witness reserved value doesn't
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# 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
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block . vtx [ 0 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ ser_uint256 ( 1 ) ]
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Changing the witness reserved value doesn't change the block hash
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block . vtx [ 0 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ ser_uint256 ( 0 ) ]
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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@subtest
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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 ( )
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assert len ( self . utxo ) > 0
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# 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.
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NUM_DROPS = 200 # 201 max ops per script!
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NUM_OUTPUTS = 50
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witness_program = CScript ( [ OP_2DROP ] * NUM_DROPS + [ OP_TRUE ] )
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witness_hash = uint256_from_str ( sha256 ( witness_program ) )
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script_pubkey = CScript ( [ OP_0 , ser_uint256 ( witness_hash ) ] )
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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 " " ) )
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child_value = int ( value / NUM_OUTPUTS )
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for i in range ( NUM_OUTPUTS ) :
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parent_tx . vout . append ( CTxOut ( child_value , script_pubkey ) )
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parent_tx . vout [ 0 ] . nValue - = 50000
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assert parent_tx . vout [ 0 ] . nValue > 0
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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 ) :
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child_tx . wit . vtxinwit . append ( CTxInWitness ( ) )
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child_tx . wit . vtxinwit [ - 1 ] . scriptWitness . stack = [ b ' a ' * 195 ] * ( 2 * NUM_DROPS ) + [ witness_program ]
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child_tx . rehash ( )
self . update_witness_block_with_transactions ( block , [ parent_tx , child_tx ] )
vsize = get_virtual_size ( block )
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additional_bytes = ( MAX_BLOCK_BASE_SIZE - vsize ) * 4
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i = 0
while additional_bytes > 0 :
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# Add some more bytes to each input until we hit MAX_BLOCK_BASE_SIZE+1
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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 )
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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 )
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assert_equal ( vsize , MAX_BLOCK_BASE_SIZE + 1 )
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# Make sure that our test case would exceed the old max-network-message
# limit
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assert len ( block . serialize ( ) ) > 2 * 1024 * 1024
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Now resize the second transaction to make the block fit.
cur_length = len ( block . vtx [ - 1 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack [ 0 ] )
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block . vtx [ - 1 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack [ 0 ] = b ' a ' * ( cur_length - 1 )
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block . vtx [ 0 ] . vout . pop ( )
add_witness_commitment ( block )
block . solve ( )
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assert get_virtual_size ( block ) == MAX_BLOCK_BASE_SIZE
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Update available utxo's
self . utxo . pop ( 0 )
self . utxo . append ( UTXO ( block . vtx [ - 1 ] . sha256 , 0 , block . vtx [ - 1 ] . vout [ 0 ] . nValue ) )
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@subtest
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def test_submit_block ( self ) :
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""" Test that submitblock adds the nonce automatically when possible. """
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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 )
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block . vtx [ 0 ] . wit = CTxWitness ( ) # drop the nonce
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block . solve ( )
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self . nodes [ 0 ] . submitblock ( block . serialize ( ) . hex ( ) )
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assert self . nodes [ 0 ] . getbestblockhash ( ) != block . hash
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# 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 ( )
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self . nodes [ 0 ] . submitblock ( block . serialize ( ) . hex ( ) )
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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 ( )
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self . nodes [ 0 ] . submitblock ( block_2 . serialize ( ) . hex ( ) )
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# Tip should not advance!
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assert self . nodes [ 0 ] . getbestblockhash ( ) != block_2 . hash
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@subtest
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def test_extra_witness_data ( self ) :
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""" Test extra witness data in a transaction. """
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block = self . build_next_block ( )
witness_program = CScript ( [ OP_DROP , OP_TRUE ] )
witness_hash = sha256 ( witness_program )
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script_pubkey = CScript ( [ OP_0 , witness_hash ] )
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# First try extra witness data on a tx that doesn't require a witness
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
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tx . vout . append ( CTxOut ( self . utxo [ 0 ] . nValue - 2000 , script_pubkey ) )
tx . vout . append ( CTxOut ( 1000 , CScript ( [ OP_TRUE ] ) ) ) # non-witness output
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tx . wit . vtxinwit . append ( CTxInWitness ( ) )
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tx . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ CScript ( [ ] ) ]
tx . rehash ( )
self . update_witness_block_with_transactions ( block , [ tx ] )
# Extra witness data should not be allowed.
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Try extra signature data. Ok if we're not spending a witness output.
block . vtx [ 1 ] . wit . vtxinwit = [ ]
block . vtx [ 1 ] . vin [ 0 ] . scriptSig = CScript ( [ OP_0 ] )
block . vtx [ 1 ] . rehash ( )
add_witness_commitment ( block )
block . solve ( )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Now try extra witness/signature data on an input that DOES require a
# witness
tx2 = CTransaction ( )
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tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , 0 ) , b " " ) ) # witness output
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , 1 ) , b " " ) ) # non-witness
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tx2 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue , CScript ( [ OP_TRUE ] ) ) )
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tx2 . wit . vtxinwit . extend ( [ CTxInWitness ( ) , CTxInWitness ( ) ] )
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tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ CScript ( [ CScriptNum ( 1 ) ] ) , CScript ( [ CScriptNum ( 1 ) ] ) , witness_program ]
tx2 . wit . vtxinwit [ 1 ] . scriptWitness . stack = [ CScript ( [ OP_TRUE ] ) ]
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block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx2 ] )
# This has extra witness data, so it should fail.
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Now get rid of the extra witness, but add extra scriptSig data
tx2 . vin [ 0 ] . scriptSig = CScript ( [ OP_TRUE ] )
tx2 . vin [ 1 ] . scriptSig = CScript ( [ OP_TRUE ] )
tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack . pop ( 0 )
tx2 . wit . vtxinwit [ 1 ] . scriptWitness . stack = [ ]
tx2 . rehash ( )
add_witness_commitment ( block )
block . solve ( )
# This has extra signature data for a witness input, so it should fail.
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Now get rid of the extra scriptsig on the witness input, and verify
# success (even with extra scriptsig data in the non-witness input)
tx2 . vin [ 0 ] . scriptSig = b " "
tx2 . rehash ( )
add_witness_commitment ( block )
block . solve ( )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Update utxo for later tests
self . utxo . pop ( 0 )
self . utxo . append ( UTXO ( tx2 . sha256 , 0 , tx2 . vout [ 0 ] . nValue ) )
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@subtest
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def test_max_witness_push_length ( self ) :
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""" Test that witness stack can only allow up to 520 byte pushes. """
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block = self . build_next_block ( )
witness_program = CScript ( [ OP_DROP , OP_TRUE ] )
witness_hash = sha256 ( witness_program )
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script_pubkey = CScript ( [ OP_0 , witness_hash ] )
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tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
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tx . vout . append ( CTxOut ( self . utxo [ 0 ] . nValue - 1000 , script_pubkey ) )
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tx . rehash ( )
tx2 = CTransaction ( )
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , 0 ) , b " " ) )
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tx2 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue - 1000 , CScript ( [ OP_TRUE ] ) ) )
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
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# First try a 521-byte stack element
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tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ b ' a ' * ( MAX_SCRIPT_ELEMENT_SIZE + 1 ) , witness_program ]
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tx2 . rehash ( )
self . update_witness_block_with_transactions ( block , [ tx , tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Now reduce the length of the stack element
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tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack [ 0 ] = b ' a ' * ( MAX_SCRIPT_ELEMENT_SIZE )
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add_witness_commitment ( block )
block . solve ( )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Update the utxo for later tests
self . utxo . pop ( )
self . utxo . append ( UTXO ( tx2 . sha256 , 0 , tx2 . vout [ 0 ] . nValue ) )
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@subtest
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def test_max_witness_program_length ( self ) :
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""" Test that witness outputs greater than 10kB can ' t be spent. """
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MAX_PROGRAM_LENGTH = 10000
# This program is 19 max pushes (9937 bytes), then 64 more opcode-bytes.
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long_witness_program = CScript ( [ b ' a ' * 520 ] * 19 + [ OP_DROP ] * 63 + [ OP_TRUE ] )
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assert len ( long_witness_program ) == MAX_PROGRAM_LENGTH + 1
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long_witness_hash = sha256 ( long_witness_program )
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long_script_pubkey = CScript ( [ OP_0 , long_witness_hash ] )
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block = self . build_next_block ( )
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
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tx . vout . append ( CTxOut ( self . utxo [ 0 ] . nValue - 1000 , long_script_pubkey ) )
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tx . rehash ( )
tx2 = CTransaction ( )
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , 0 ) , b " " ) )
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tx2 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue - 1000 , CScript ( [ OP_TRUE ] ) ) )
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
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tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ b ' a ' ] * 44 + [ long_witness_program ]
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tx2 . rehash ( )
self . update_witness_block_with_transactions ( block , [ tx , tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Try again with one less byte in the witness program
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witness_program = CScript ( [ b ' a ' * 520 ] * 19 + [ OP_DROP ] * 62 + [ OP_TRUE ] )
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assert len ( witness_program ) == MAX_PROGRAM_LENGTH
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witness_hash = sha256 ( witness_program )
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script_pubkey = CScript ( [ OP_0 , witness_hash ] )
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tx . vout [ 0 ] = CTxOut ( tx . vout [ 0 ] . nValue , script_pubkey )
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tx . rehash ( )
tx2 . vin [ 0 ] . prevout . hash = tx . sha256
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tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ b ' a ' ] * 43 + [ witness_program ]
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tx2 . rehash ( )
block . vtx = [ block . vtx [ 0 ] ]
self . update_witness_block_with_transactions ( block , [ tx , tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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self . utxo . pop ( )
self . utxo . append ( UTXO ( tx2 . sha256 , 0 , tx2 . vout [ 0 ] . nValue ) )
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@subtest
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def test_witness_input_length ( self ) :
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""" Test that vin length must match vtxinwit length. """
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witness_program = CScript ( [ OP_DROP , OP_TRUE ] )
witness_hash = sha256 ( witness_program )
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script_pubkey = CScript ( [ OP_0 , witness_hash ] )
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# Create a transaction that splits our utxo into many outputs
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
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value = self . utxo [ 0 ] . nValue
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for i in range ( 10 ) :
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tx . vout . append ( CTxOut ( int ( value / 10 ) , script_pubkey ) )
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tx . vout [ 0 ] . nValue - = 1000
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assert tx . vout [ 0 ] . nValue > = 0
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block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Try various ways to spend tx that should all break.
# This "broken" transaction serializer will not normalize
# the length of vtxinwit.
class BrokenCTransaction ( CTransaction ) :
def serialize_with_witness ( self ) :
flags = 0
if not self . wit . is_null ( ) :
flags | = 1
r = b " "
r + = struct . pack ( " <i " , self . nVersion )
if flags :
dummy = [ ]
r + = ser_vector ( dummy )
r + = struct . pack ( " <B " , flags )
r + = ser_vector ( self . vin )
r + = ser_vector ( self . vout )
if flags & 1 :
r + = self . wit . serialize ( )
r + = struct . pack ( " <I " , self . nLockTime )
return r
tx2 = BrokenCTransaction ( )
for i in range ( 10 ) :
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , i ) , b " " ) )
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tx2 . vout . append ( CTxOut ( value - 3000 , CScript ( [ OP_TRUE ] ) ) )
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# First try using a too long vtxinwit
for i in range ( 11 ) :
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
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tx2 . wit . vtxinwit [ i ] . scriptWitness . stack = [ b ' a ' , witness_program ]
block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Now try using a too short vtxinwit
tx2 . wit . vtxinwit . pop ( )
tx2 . wit . vtxinwit . pop ( )
block . vtx = [ block . vtx [ 0 ] ]
self . update_witness_block_with_transactions ( block , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Now make one of the intermediate witnesses be incorrect
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
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tx2 . wit . vtxinwit [ - 1 ] . scriptWitness . stack = [ b ' a ' , witness_program ]
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tx2 . wit . vtxinwit [ 5 ] . scriptWitness . stack = [ witness_program ]
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block . vtx = [ block . vtx [ 0 ] ]
self . update_witness_block_with_transactions ( block , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Fix the broken witness and the block should be accepted.
tx2 . wit . vtxinwit [ 5 ] . scriptWitness . stack = [ b ' a ' , witness_program ]
block . vtx = [ block . vtx [ 0 ] ]
self . update_witness_block_with_transactions ( block , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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self . utxo . pop ( )
self . utxo . append ( UTXO ( tx2 . sha256 , 0 , tx2 . vout [ 0 ] . nValue ) )
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@subtest
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def test_tx_relay_after_segwit_activation ( self ) :
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""" Test transaction relay after segwit activation.
After segwit activates , verify that mempool :
- rejects transactions with unnecessary / extra witnesses
- accepts transactions with valid witnesses
and that witness transactions are relayed to non - upgraded peers . """
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# Generate a transaction that doesn't require a witness, but send it
# with a witness. Should be rejected because we can't use a witness
# when spending a non-witness output.
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
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tx . vout . append ( CTxOut ( self . utxo [ 0 ] . nValue - 1000 , CScript ( [ OP_TRUE , OP_DROP ] * 15 + [ OP_TRUE ] ) ) )
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tx . wit . vtxinwit . append ( CTxInWitness ( ) )
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tx . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ b ' a ' ]
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tx . rehash ( )
tx_hash = tx . sha256
# Verify that unnecessary witnesses are rejected.
self . test_node . announce_tx_and_wait_for_getdata ( tx )
assert_equal ( len ( self . nodes [ 0 ] . getrawmempool ( ) ) , 0 )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx , with_witness = True , accepted = False )
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# Verify that removing the witness succeeds.
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self . test_node . announce_tx_and_wait_for_getdata ( tx )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx , with_witness = False , accepted = True )
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# Now try to add extra witness data to a valid witness tx.
witness_program = CScript ( [ OP_TRUE ] )
witness_hash = sha256 ( witness_program )
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script_pubkey = CScript ( [ OP_0 , witness_hash ] )
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tx2 = CTransaction ( )
tx2 . vin . append ( CTxIn ( COutPoint ( tx_hash , 0 ) , b " " ) )
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tx2 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue - 1000 , script_pubkey ) )
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tx2 . rehash ( )
tx3 = CTransaction ( )
tx3 . vin . append ( CTxIn ( COutPoint ( tx2 . sha256 , 0 ) , b " " ) )
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tx3 . wit . vtxinwit . append ( CTxInWitness ( ) )
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# Add too-large for IsStandard witness and check that it does not enter reject filter
p2sh_program = CScript ( [ OP_TRUE ] )
p2sh_pubkey = hash160 ( p2sh_program )
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witness_program2 = CScript ( [ b ' a ' * 400000 ] )
tx3 . vout . append ( CTxOut ( tx2 . vout [ 0 ] . nValue - 1000 , CScript ( [ OP_HASH160 , p2sh_pubkey , OP_EQUAL ] ) ) )
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tx3 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ witness_program2 ]
tx3 . rehash ( )
# Node will not be blinded to the transaction
self . std_node . announce_tx_and_wait_for_getdata ( tx3 )
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , tx3 , True , False , ' tx-size ' )
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self . std_node . announce_tx_and_wait_for_getdata ( tx3 )
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , tx3 , True , False , ' tx-size ' )
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# Remove witness stuffing, instead add extra witness push on stack
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tx3 . vout [ 0 ] = CTxOut ( tx2 . vout [ 0 ] . nValue - 1000 , CScript ( [ OP_TRUE , OP_DROP ] * 15 + [ OP_TRUE ] ) )
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tx3 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ CScript ( [ CScriptNum ( 1 ) ] ) , witness_program ]
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tx3 . rehash ( )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx2 , with_witness = True , accepted = True )
test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx3 , with_witness = True , accepted = False )
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# Get rid of the extra witness, and verify acceptance.
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tx3 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ witness_program ]
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# Also check that old_node gets a tx announcement, even though this is
# a witness transaction.
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self . old_node . wait_for_inv ( [ CInv ( 1 , tx2 . sha256 ) ] ) # wait until tx2 was inv'ed
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx3 , with_witness = True , accepted = True )
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self . old_node . wait_for_inv ( [ CInv ( 1 , tx3 . sha256 ) ] )
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# Test that getrawtransaction returns correct witness information
# hash, size, vsize
raw_tx = self . nodes [ 0 ] . getrawtransaction ( tx3 . hash , 1 )
assert_equal ( int ( raw_tx [ " hash " ] , 16 ) , tx3 . calc_sha256 ( True ) )
assert_equal ( raw_tx [ " size " ] , len ( tx3 . serialize_with_witness ( ) ) )
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weight = len ( tx3 . serialize_with_witness ( ) ) + 3 * len ( tx3 . serialize_without_witness ( ) )
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vsize = math . ceil ( weight / 4 )
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assert_equal ( raw_tx [ " vsize " ] , vsize )
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assert_equal ( raw_tx [ " weight " ] , weight )
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assert_equal ( len ( raw_tx [ " vin " ] [ 0 ] [ " txinwitness " ] ) , 1 )
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assert_equal ( raw_tx [ " vin " ] [ 0 ] [ " txinwitness " ] [ 0 ] , witness_program . hex ( ) )
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assert vsize != raw_tx [ " size " ]
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# Cleanup: mine the transactions and update utxo for next test
self . nodes [ 0 ] . generate ( 1 )
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assert_equal ( len ( self . nodes [ 0 ] . getrawmempool ( ) ) , 0 )
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self . utxo . pop ( 0 )
self . utxo . append ( UTXO ( tx3 . sha256 , 0 , tx3 . vout [ 0 ] . nValue ) )
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@subtest
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def test_segwit_versions ( self ) :
""" Test validity of future segwit version transactions.
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Future segwit versions are non - standard to spend , but valid in blocks .
Sending to future segwit versions is always allowed .
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Can run this before and after segwit activation . """
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NUM_SEGWIT_VERSIONS = 17 # will test OP_0, OP1, ..., OP_16
if len ( self . utxo ) < NUM_SEGWIT_VERSIONS :
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tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
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split_value = ( self . utxo [ 0 ] . nValue - 4000 ) / / NUM_SEGWIT_VERSIONS
for i in range ( NUM_SEGWIT_VERSIONS ) :
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tx . vout . append ( CTxOut ( split_value , CScript ( [ OP_TRUE ] ) ) )
tx . rehash ( )
block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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self . utxo . pop ( 0 )
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for i in range ( NUM_SEGWIT_VERSIONS ) :
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self . utxo . append ( UTXO ( tx . sha256 , i , split_value ) )
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self . sync_blocks ( )
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temp_utxo = [ ]
tx = CTransaction ( )
witness_program = CScript ( [ OP_TRUE ] )
witness_hash = sha256 ( witness_program )
assert_equal ( len ( self . nodes [ 1 ] . getrawmempool ( ) ) , 0 )
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for version in list ( range ( OP_1 , OP_16 + 1 ) ) + [ OP_0 ] :
# First try to spend to a future version segwit script_pubkey.
script_pubkey = CScript ( [ CScriptOp ( version ) , witness_hash ] )
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tx . vin = [ CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) ]
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tx . vout = [ CTxOut ( self . utxo [ 0 ] . nValue - 1000 , script_pubkey ) ]
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tx . rehash ( )
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , tx , with_witness = True , accepted = False )
test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx , with_witness = True , accepted = True )
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self . utxo . pop ( 0 )
temp_utxo . append ( UTXO ( tx . sha256 , 0 , tx . vout [ 0 ] . nValue ) )
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self . nodes [ 0 ] . generate ( 1 ) # Mine all the transactions
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self . sync_blocks ( )
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assert len ( self . nodes [ 0 ] . getrawmempool ( ) ) == 0
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# Finally, verify that version 0 -> version 1 transactions
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# are standard
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script_pubkey = CScript ( [ CScriptOp ( OP_1 ) , witness_hash ] )
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tx2 = CTransaction ( )
tx2 . vin = [ CTxIn ( COutPoint ( tx . sha256 , 0 ) , b " " ) ]
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tx2 . vout = [ CTxOut ( tx . vout [ 0 ] . nValue - 1000 , script_pubkey ) ]
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
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tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ witness_program ]
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tx2 . rehash ( )
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# Gets accepted to both policy-enforcing nodes and others.
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx2 , with_witness = True , accepted = True )
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , tx2 , with_witness = True , accepted = True )
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temp_utxo . pop ( ) # last entry in temp_utxo was the output we just spent
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temp_utxo . append ( UTXO ( tx2 . sha256 , 0 , tx2 . vout [ 0 ] . nValue ) )
# Spend everything in temp_utxo back to an OP_TRUE output.
tx3 = CTransaction ( )
total_value = 0
for i in temp_utxo :
tx3 . vin . append ( CTxIn ( COutPoint ( i . sha256 , i . n ) , b " " ) )
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tx3 . wit . vtxinwit . append ( CTxInWitness ( ) )
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total_value + = i . nValue
tx3 . wit . vtxinwit [ - 1 ] . scriptWitness . stack = [ witness_program ]
tx3 . vout . append ( CTxOut ( total_value - 1000 , CScript ( [ OP_TRUE ] ) ) )
tx3 . rehash ( )
# Spending a higher version witness output is not allowed by policy,
# even with fRequireStandard=false.
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx3 , with_witness = True , accepted = False , reason = " reserved for soft-fork upgrades " )
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# Building a block with the transaction must be valid, however.
block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx2 , tx3 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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self . sync_blocks ( )
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# Add utxo to our list
self . utxo . append ( UTXO ( tx3 . sha256 , 0 , tx3 . vout [ 0 ] . nValue ) )
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@subtest
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def test_premature_coinbase_witness_spend ( self ) :
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block = self . build_next_block ( )
# Change the output of the block to be a witness output.
witness_program = CScript ( [ OP_TRUE ] )
witness_hash = sha256 ( witness_program )
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script_pubkey = CScript ( [ OP_0 , witness_hash ] )
block . vtx [ 0 ] . vout [ 0 ] . scriptPubKey = script_pubkey
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# This next line will rehash the coinbase and update the merkle
# root, and solve.
self . update_witness_block_with_transactions ( block , [ ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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spend_tx = CTransaction ( )
spend_tx . vin = [ CTxIn ( COutPoint ( block . vtx [ 0 ] . sha256 , 0 ) , b " " ) ]
spend_tx . vout = [ CTxOut ( block . vtx [ 0 ] . vout [ 0 ] . nValue , witness_program ) ]
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spend_tx . wit . vtxinwit . append ( CTxInWitness ( ) )
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spend_tx . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ witness_program ]
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spend_tx . rehash ( )
# Now test a premature spend.
self . nodes [ 0 ] . generate ( 98 )
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self . sync_blocks ( )
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block2 = self . build_next_block ( )
self . update_witness_block_with_transactions ( block2 , [ spend_tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block2 , accepted = False )
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# Advancing one more block should allow the spend.
self . nodes [ 0 ] . generate ( 1 )
block2 = self . build_next_block ( )
self . update_witness_block_with_transactions ( block2 , [ spend_tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block2 , accepted = True )
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self . sync_blocks ( )
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@subtest
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def test_uncompressed_pubkey ( self ) :
""" Test uncompressed pubkey validity in segwit transactions.
Uncompressed pubkeys are no longer supported in default relay policy ,
but ( for now ) are still valid in blocks . """
# Segwit transactions using uncompressed pubkeys are not accepted
# under default policy, but should still pass consensus.
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key = ECKey ( )
key . generate ( False )
pubkey = key . get_pubkey ( ) . get_bytes ( )
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assert_equal ( len ( pubkey ) , 65 ) # This should be an uncompressed pubkey
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utxo = self . utxo . pop ( 0 )
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# Test 1: P2WPKH
# First create a P2WPKH output that uses an uncompressed pubkey
pubkeyhash = hash160 ( pubkey )
script_pkh = CScript ( [ OP_0 , pubkeyhash ] )
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tx = CTransaction ( )
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tx . vin . append ( CTxIn ( COutPoint ( utxo . sha256 , utxo . n ) , b " " ) )
tx . vout . append ( CTxOut ( utxo . nValue - 1000 , script_pkh ) )
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tx . rehash ( )
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# Confirm it in a block.
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block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Now try to spend it. Send it to a P2WSH output, which we'll
# use in the next test.
witness_program = CScript ( [ pubkey , CScriptOp ( OP_CHECKSIG ) ] )
witness_hash = sha256 ( witness_program )
script_wsh = CScript ( [ OP_0 , witness_hash ] )
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tx2 = CTransaction ( )
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , 0 ) , b " " ) )
tx2 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue - 1000 , script_wsh ) )
script = get_p2pkh_script ( pubkeyhash )
sig_hash = SegwitVersion1SignatureHash ( script , tx2 , 0 , SIGHASH_ALL , tx . vout [ 0 ] . nValue )
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signature = key . sign_ecdsa ( sig_hash ) + b ' \x01 ' # 0x1 is SIGHASH_ALL
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ signature , pubkey ]
tx2 . rehash ( )
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# Should fail policy test.
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx2 , True , False , ' non-mandatory-script-verify-flag (Using non-compressed keys in segwit) ' )
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# But passes consensus.
block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Test 2: P2WSH
# Try to spend the P2WSH output created in last test.
# Send it to a P2SH(P2WSH) output, which we'll use in the next test.
p2sh_witness_hash = hash160 ( script_wsh )
script_p2sh = CScript ( [ OP_HASH160 , p2sh_witness_hash , OP_EQUAL ] )
script_sig = CScript ( [ script_wsh ] )
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tx3 = CTransaction ( )
tx3 . vin . append ( CTxIn ( COutPoint ( tx2 . sha256 , 0 ) , b " " ) )
tx3 . vout . append ( CTxOut ( tx2 . vout [ 0 ] . nValue - 1000 , script_p2sh ) )
tx3 . wit . vtxinwit . append ( CTxInWitness ( ) )
sign_p2pk_witness_input ( witness_program , tx3 , 0 , SIGHASH_ALL , tx2 . vout [ 0 ] . nValue , key )
# Should fail policy test.
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx3 , True , False , ' non-mandatory-script-verify-flag (Using non-compressed keys in segwit) ' )
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# But passes consensus.
block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx3 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Test 3: P2SH(P2WSH)
# Try to spend the P2SH output created in the last test.
# Send it to a P2PKH output, which we'll use in the next test.
script_pubkey = get_p2pkh_script ( pubkeyhash )
tx4 = CTransaction ( )
tx4 . vin . append ( CTxIn ( COutPoint ( tx3 . sha256 , 0 ) , script_sig ) )
tx4 . vout . append ( CTxOut ( tx3 . vout [ 0 ] . nValue - 1000 , script_pubkey ) )
tx4 . wit . vtxinwit . append ( CTxInWitness ( ) )
sign_p2pk_witness_input ( witness_program , tx4 , 0 , SIGHASH_ALL , tx3 . vout [ 0 ] . nValue , key )
# Should fail policy test.
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx4 , True , False , ' non-mandatory-script-verify-flag (Using non-compressed keys in segwit) ' )
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block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx4 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Test 4: Uncompressed pubkeys should still be valid in non-segwit
# transactions.
tx5 = CTransaction ( )
tx5 . vin . append ( CTxIn ( COutPoint ( tx4 . sha256 , 0 ) , b " " ) )
tx5 . vout . append ( CTxOut ( tx4 . vout [ 0 ] . nValue - 1000 , CScript ( [ OP_TRUE ] ) ) )
( sig_hash , err ) = SignatureHash ( script_pubkey , tx5 , 0 , SIGHASH_ALL )
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signature = key . sign_ecdsa ( sig_hash ) + b ' \x01 ' # 0x1 is SIGHASH_ALL
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tx5 . vin [ 0 ] . scriptSig = CScript ( [ signature , pubkey ] )
tx5 . rehash ( )
# Should pass policy and consensus.
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx5 , True , True )
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block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx5 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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self . utxo . append ( UTXO ( tx5 . sha256 , 0 , tx5 . vout [ 0 ] . nValue ) )
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@subtest
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def test_signature_version_1 ( self ) :
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key = ECKey ( )
key . generate ( )
pubkey = key . get_pubkey ( ) . get_bytes ( )
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witness_program = CScript ( [ pubkey , CScriptOp ( OP_CHECKSIG ) ] )
witness_hash = sha256 ( witness_program )
script_pubkey = CScript ( [ OP_0 , witness_hash ] )
# First create a witness output for use in the tests.
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 ( )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx , with_witness = True , accepted = True )
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# Mine this transaction in preparation for following tests.
block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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self . sync_blocks ( )
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self . utxo . pop ( 0 )
# Test each hashtype
prev_utxo = UTXO ( tx . sha256 , 0 , tx . vout [ 0 ] . nValue )
for sigflag in [ 0 , SIGHASH_ANYONECANPAY ] :
for hashtype in [ SIGHASH_ALL , SIGHASH_NONE , SIGHASH_SINGLE ] :
hashtype | = sigflag
block = self . build_next_block ( )
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( prev_utxo . sha256 , prev_utxo . n ) , b " " ) )
tx . vout . append ( CTxOut ( prev_utxo . nValue - 1000 , script_pubkey ) )
tx . wit . vtxinwit . append ( CTxInWitness ( ) )
# Too-large input value
sign_p2pk_witness_input ( witness_program , tx , 0 , hashtype , prev_utxo . nValue + 1 , key )
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Too-small input value
sign_p2pk_witness_input ( witness_program , tx , 0 , hashtype , prev_utxo . nValue - 1 , key )
block . vtx . pop ( ) # remove last tx
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Now try correct value
sign_p2pk_witness_input ( witness_program , tx , 0 , hashtype , prev_utxo . nValue , key )
block . vtx . pop ( )
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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prev_utxo = UTXO ( tx . sha256 , 0 , tx . vout [ 0 ] . nValue )
# Test combinations of signature hashes.
# Split the utxo into a lot of outputs.
# Randomly choose up to 10 to spend, sign with different hashtypes, and
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# output to a random number of outputs. Repeat NUM_SIGHASH_TESTS times.
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# Ensure that we've tested a situation where we use SIGHASH_SINGLE with
# an input index > number of outputs.
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NUM_SIGHASH_TESTS = 500
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temp_utxos = [ ]
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( prev_utxo . sha256 , prev_utxo . n ) , b " " ) )
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split_value = prev_utxo . nValue / / NUM_SIGHASH_TESTS
for i in range ( NUM_SIGHASH_TESTS ) :
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tx . vout . append ( CTxOut ( split_value , script_pubkey ) )
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tx . wit . vtxinwit . append ( CTxInWitness ( ) )
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sign_p2pk_witness_input ( witness_program , tx , 0 , SIGHASH_ALL , prev_utxo . nValue , key )
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for i in range ( NUM_SIGHASH_TESTS ) :
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temp_utxos . append ( UTXO ( tx . sha256 , i , split_value ) )
block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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block = self . build_next_block ( )
used_sighash_single_out_of_bounds = False
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for i in range ( NUM_SIGHASH_TESTS ) :
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# Ping regularly to keep the connection alive
if ( not i % 100 ) :
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self . test_node . sync_with_ping ( )
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# Choose random number of inputs to use.
num_inputs = random . randint ( 1 , 10 )
# Create a slight bias for producing more utxos
num_outputs = random . randint ( 1 , 11 )
random . shuffle ( temp_utxos )
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assert len ( temp_utxos ) > num_inputs
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tx = CTransaction ( )
total_value = 0
for i in range ( num_inputs ) :
tx . vin . append ( CTxIn ( COutPoint ( temp_utxos [ i ] . sha256 , temp_utxos [ i ] . n ) , b " " ) )
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tx . wit . vtxinwit . append ( CTxInWitness ( ) )
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total_value + = temp_utxos [ i ] . nValue
split_value = total_value / / num_outputs
for i in range ( num_outputs ) :
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tx . vout . append ( CTxOut ( split_value , script_pubkey ) )
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for i in range ( num_inputs ) :
# Now try to sign each input, using a random hashtype.
anyonecanpay = 0
if random . randint ( 0 , 1 ) :
anyonecanpay = SIGHASH_ANYONECANPAY
hashtype = random . randint ( 1 , 3 ) | anyonecanpay
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sign_p2pk_witness_input ( witness_program , tx , i , hashtype , temp_utxos [ i ] . nValue , key )
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if ( hashtype == SIGHASH_SINGLE and i > = num_outputs ) :
used_sighash_single_out_of_bounds = True
tx . rehash ( )
for i in range ( num_outputs ) :
temp_utxos . append ( UTXO ( tx . sha256 , i , split_value ) )
temp_utxos = temp_utxos [ num_inputs : ]
block . vtx . append ( tx )
# Test the block periodically, if we're close to maxblocksize
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if ( get_virtual_size ( block ) > MAX_BLOCK_BASE_SIZE - 1000 ) :
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self . update_witness_block_with_transactions ( block , [ ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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block = self . build_next_block ( )
if ( not used_sighash_single_out_of_bounds ) :
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self . log . info ( " WARNING: this test run didn ' t attempt SIGHASH_SINGLE with out-of-bounds index value " )
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# Test the transactions we've added to the block
if ( len ( block . vtx ) > 1 ) :
self . update_witness_block_with_transactions ( block , [ ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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# Now test witness version 0 P2PKH transactions
pubkeyhash = hash160 ( pubkey )
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script_pkh = CScript ( [ OP_0 , pubkeyhash ] )
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tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( temp_utxos [ 0 ] . sha256 , temp_utxos [ 0 ] . n ) , b " " ) )
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tx . vout . append ( CTxOut ( temp_utxos [ 0 ] . nValue , script_pkh ) )
tx . wit . vtxinwit . append ( CTxInWitness ( ) )
sign_p2pk_witness_input ( witness_program , tx , 0 , SIGHASH_ALL , temp_utxos [ 0 ] . nValue , key )
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tx2 = CTransaction ( )
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , 0 ) , b " " ) )
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tx2 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue , CScript ( [ OP_TRUE ] ) ) )
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script = get_p2pkh_script ( pubkeyhash )
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sig_hash = SegwitVersion1SignatureHash ( script , tx2 , 0 , SIGHASH_ALL , tx . vout [ 0 ] . nValue )
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signature = key . sign_ecdsa ( sig_hash ) + b ' \x01 ' # 0x1 is SIGHASH_ALL
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# Check that we can't have a scriptSig
tx2 . vin [ 0 ] . scriptSig = CScript ( [ signature , pubkey ] )
block = self . build_next_block ( )
self . update_witness_block_with_transactions ( block , [ tx , tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = False )
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# Move the signature to the witness.
block . vtx . pop ( )
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
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tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ signature , pubkey ]
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tx2 . vin [ 0 ] . scriptSig = b " "
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tx2 . rehash ( )
self . update_witness_block_with_transactions ( block , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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temp_utxos . pop ( 0 )
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# Update self.utxos for later tests by creating two outputs
# that consolidate all the coins in temp_utxos.
output_value = sum ( i . nValue for i in temp_utxos ) / / 2
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tx = CTransaction ( )
index = 0
# Just spend to our usual anyone-can-spend output
tx . vout = [ CTxOut ( output_value , CScript ( [ OP_TRUE ] ) ) ] * 2
for i in temp_utxos :
# Use SIGHASH_ALL|SIGHASH_ANYONECANPAY so we can build up
# the signatures as we go.
tx . vin . append ( CTxIn ( COutPoint ( i . sha256 , i . n ) , b " " ) )
tx . wit . vtxinwit . append ( CTxInWitness ( ) )
sign_p2pk_witness_input ( witness_program , tx , index , SIGHASH_ALL | SIGHASH_ANYONECANPAY , i . nValue , key )
index + = 1
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block = self . build_next_block ( )
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self . update_witness_block_with_transactions ( block , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block , accepted = True )
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for i in range ( len ( tx . vout ) ) :
self . utxo . append ( UTXO ( tx . sha256 , i , tx . vout [ i ] . nValue ) )
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@subtest
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def test_non_standard_witness_blinding ( self ) :
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""" Test behavior of unnecessary witnesses in transactions does not blind the node for the transaction """
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# Create a p2sh output -- this is so we can pass the standardness
# rules (an anyone-can-spend OP_TRUE would be rejected, if not wrapped
# in P2SH).
p2sh_program = CScript ( [ OP_TRUE ] )
p2sh_pubkey = hash160 ( p2sh_program )
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script_pubkey = CScript ( [ OP_HASH160 , p2sh_pubkey , OP_EQUAL ] )
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# Now check that unnecessary witnesses can't be used to blind a node
# to a transaction, eg by violating standardness checks.
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
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tx . vout . append ( CTxOut ( self . utxo [ 0 ] . nValue - 1000 , script_pubkey ) )
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tx . rehash ( )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx , False , True )
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self . nodes [ 0 ] . generate ( 1 )
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self . sync_blocks ( )
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# We'll add an unnecessary witness to this transaction that would cause
# it to be non-standard, to test that violating policy with a witness
# doesn't blind a node to a transaction. Transactions
# rejected for having a witness shouldn't be added
# to the rejection cache.
tx2 = CTransaction ( )
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , 0 ) , CScript ( [ p2sh_program ] ) ) )
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tx2 . vout . append ( CTxOut ( tx . vout [ 0 ] . nValue - 1000 , script_pubkey ) )
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tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
tx2 . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ b ' a ' * 400 ]
tx2 . rehash ( )
# This will be rejected due to a policy check:
# No witness is allowed, since it is not a witness program but a p2sh program
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , tx2 , True , False , ' bad-witness-nonstandard ' )
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# If we send without witness, it should be accepted.
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , tx2 , False , True )
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# Now create a new anyone-can-spend utxo for the next test.
tx3 = CTransaction ( )
tx3 . vin . append ( CTxIn ( COutPoint ( tx2 . sha256 , 0 ) , CScript ( [ p2sh_program ] ) ) )
tx3 . vout . append ( CTxOut ( tx2 . vout [ 0 ] . nValue - 1000 , CScript ( [ OP_TRUE , OP_DROP ] * 15 + [ OP_TRUE ] ) ) )
tx3 . rehash ( )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx2 , False , True )
test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx3 , False , True )
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self . nodes [ 0 ] . generate ( 1 )
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self . sync_blocks ( )
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# Update our utxo list; we spent the first entry.
self . utxo . pop ( 0 )
self . utxo . append ( UTXO ( tx3 . sha256 , 0 , tx3 . vout [ 0 ] . nValue ) )
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@subtest
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def test_non_standard_witness ( self ) :
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""" Test detection of non-standard P2WSH witness """
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pad = chr ( 1 ) . encode ( ' latin-1 ' )
# Create scripts for tests
scripts = [ ]
scripts . append ( CScript ( [ OP_DROP ] * 100 ) )
scripts . append ( CScript ( [ OP_DROP ] * 99 ) )
scripts . append ( CScript ( [ pad * 59 ] * 59 + [ OP_DROP ] * 60 ) )
scripts . append ( CScript ( [ pad * 59 ] * 59 + [ OP_DROP ] * 61 ) )
p2wsh_scripts = [ ]
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
# For each script, generate a pair of P2WSH and P2SH-P2WSH output.
outputvalue = ( self . utxo [ 0 ] . nValue - 1000 ) / / ( len ( scripts ) * 2 )
for i in scripts :
p2wsh = CScript ( [ OP_0 , sha256 ( i ) ] )
p2sh = hash160 ( p2wsh )
p2wsh_scripts . append ( p2wsh )
tx . vout . append ( CTxOut ( outputvalue , p2wsh ) )
tx . vout . append ( CTxOut ( outputvalue , CScript ( [ OP_HASH160 , p2sh , OP_EQUAL ] ) ) )
tx . rehash ( )
txid = tx . sha256
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , tx , with_witness = False , accepted = True )
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self . nodes [ 0 ] . generate ( 1 )
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self . sync_blocks ( )
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# Creating transactions for tests
p2wsh_txs = [ ]
p2sh_txs = [ ]
for i in range ( len ( scripts ) ) :
p2wsh_tx = CTransaction ( )
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p2wsh_tx . vin . append ( CTxIn ( COutPoint ( txid , i * 2 ) ) )
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p2wsh_tx . vout . append ( CTxOut ( outputvalue - 5000 , CScript ( [ OP_0 , hash160 ( hex_str_to_bytes ( " " ) ) ] ) ) )
p2wsh_tx . wit . vtxinwit . append ( CTxInWitness ( ) )
p2wsh_tx . rehash ( )
p2wsh_txs . append ( p2wsh_tx )
p2sh_tx = CTransaction ( )
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p2sh_tx . vin . append ( CTxIn ( COutPoint ( txid , i * 2 + 1 ) , CScript ( [ p2wsh_scripts [ i ] ] ) ) )
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p2sh_tx . vout . append ( CTxOut ( outputvalue - 5000 , CScript ( [ OP_0 , hash160 ( hex_str_to_bytes ( " " ) ) ] ) ) )
p2sh_tx . wit . vtxinwit . append ( CTxInWitness ( ) )
p2sh_tx . rehash ( )
p2sh_txs . append ( p2sh_tx )
# Testing native P2WSH
# Witness stack size, excluding witnessScript, over 100 is non-standard
p2wsh_txs [ 0 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad ] * 101 + [ scripts [ 0 ] ]
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2wsh_txs [ 0 ] , True , False , ' bad-witness-nonstandard ' )
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# Non-standard nodes should accept
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2wsh_txs [ 0 ] , True , True )
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# Stack element size over 80 bytes is non-standard
p2wsh_txs [ 1 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad * 81 ] * 100 + [ scripts [ 1 ] ]
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2wsh_txs [ 1 ] , True , False , ' bad-witness-nonstandard ' )
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# Non-standard nodes should accept
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2wsh_txs [ 1 ] , True , True )
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# Standard nodes should accept if element size is not over 80 bytes
p2wsh_txs [ 1 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad * 80 ] * 100 + [ scripts [ 1 ] ]
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2wsh_txs [ 1 ] , True , True )
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# witnessScript size at 3600 bytes is standard
p2wsh_txs [ 2 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad , pad , scripts [ 2 ] ]
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2wsh_txs [ 2 ] , True , True )
test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2wsh_txs [ 2 ] , True , True )
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# witnessScript size at 3601 bytes is non-standard
p2wsh_txs [ 3 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad , pad , pad , scripts [ 3 ] ]
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2wsh_txs [ 3 ] , True , False , ' bad-witness-nonstandard ' )
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# Non-standard nodes should accept
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2wsh_txs [ 3 ] , True , True )
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# Repeating the same tests with P2SH-P2WSH
p2sh_txs [ 0 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad ] * 101 + [ scripts [ 0 ] ]
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2sh_txs [ 0 ] , True , False , ' bad-witness-nonstandard ' )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2sh_txs [ 0 ] , True , True )
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p2sh_txs [ 1 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad * 81 ] * 100 + [ scripts [ 1 ] ]
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2sh_txs [ 1 ] , True , False , ' bad-witness-nonstandard ' )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2sh_txs [ 1 ] , True , True )
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p2sh_txs [ 1 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad * 80 ] * 100 + [ scripts [ 1 ] ]
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2sh_txs [ 1 ] , True , True )
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p2sh_txs [ 2 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad , pad , scripts [ 2 ] ]
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2sh_txs [ 2 ] , True , True )
test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2sh_txs [ 2 ] , True , True )
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p2sh_txs [ 3 ] . wit . vtxinwit [ 0 ] . scriptWitness . stack = [ pad , pad , pad , scripts [ 3 ] ]
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test_transaction_acceptance ( self . nodes [ 1 ] , self . std_node , p2sh_txs [ 3 ] , True , False , ' bad-witness-nonstandard ' )
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test_transaction_acceptance ( self . nodes [ 0 ] , self . test_node , p2sh_txs [ 3 ] , True , True )
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self . nodes [ 0 ] . generate ( 1 ) # Mine and clean up the mempool of non-standard node
# Valid but non-standard transactions in a block should be accepted by standard node
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self . sync_blocks ( )
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assert_equal ( len ( self . nodes [ 0 ] . getrawmempool ( ) ) , 0 )
assert_equal ( len ( self . nodes [ 1 ] . getrawmempool ( ) ) , 0 )
self . utxo . pop ( 0 )
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@subtest
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def test_upgrade_after_activation ( self ) :
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""" Test the behavior of starting up a segwit-aware node after the softfork has activated. """
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# Restart with the new binary
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self . stop_node ( 2 )
self . start_node ( 2 , extra_args = [ " -vbparams=segwit:0:999999999999 " ] )
connect_nodes ( self . nodes [ 0 ] , 2 )
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self . sync_blocks ( )
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# Make sure that this peer thinks segwit has activated.
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assert get_bip9_status ( self . nodes [ 2 ] , ' segwit ' ) [ ' status ' ] == " active "
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# Make sure this peer's blocks match those of node0.
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height = self . nodes [ 2 ] . getblockcount ( )
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while height > = 0 :
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block_hash = self . nodes [ 2 ] . getblockhash ( height )
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assert_equal ( block_hash , self . nodes [ 0 ] . getblockhash ( height ) )
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assert_equal ( self . nodes [ 0 ] . getblock ( block_hash ) , self . nodes [ 2 ] . getblock ( block_hash ) )
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height - = 1
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@subtest
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def test_witness_sigops ( self ) :
""" Test sigop counting is correct inside witnesses. """
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# Keep this under MAX_OPS_PER_SCRIPT (201)
witness_program = CScript ( [ OP_TRUE , OP_IF , OP_TRUE , OP_ELSE ] + [ OP_CHECKMULTISIG ] * 5 + [ OP_CHECKSIG ] * 193 + [ OP_ENDIF ] )
witness_hash = sha256 ( witness_program )
script_pubkey = CScript ( [ OP_0 , witness_hash ] )
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sigops_per_script = 20 * 5 + 193 * 1
# We'll produce 2 extra outputs, one with a program that would take us
# over max sig ops, and one with a program that would exactly reach max
# sig ops
outputs = ( MAX_SIGOP_COST / / sigops_per_script ) + 2
extra_sigops_available = MAX_SIGOP_COST % sigops_per_script
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# We chose the number of checkmultisigs/checksigs to make this work:
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assert extra_sigops_available < 100 # steer clear of MAX_OPS_PER_SCRIPT
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# This script, when spent with the first
# N(=MAX_SIGOP_COST//sigops_per_script) outputs of our transaction,
# would push us just over the block sigop limit.
witness_program_toomany = CScript ( [ OP_TRUE , OP_IF , OP_TRUE , OP_ELSE ] + [ OP_CHECKSIG ] * ( extra_sigops_available + 1 ) + [ OP_ENDIF ] )
witness_hash_toomany = sha256 ( witness_program_toomany )
script_pubkey_toomany = CScript ( [ OP_0 , witness_hash_toomany ] )
# If we spend this script instead, we would exactly reach our sigop
# limit (for witness sigops).
witness_program_justright = CScript ( [ OP_TRUE , OP_IF , OP_TRUE , OP_ELSE ] + [ OP_CHECKSIG ] * ( extra_sigops_available ) + [ OP_ENDIF ] )
witness_hash_justright = sha256 ( witness_program_justright )
script_pubkey_justright = CScript ( [ OP_0 , witness_hash_justright ] )
# First split our available utxo into a bunch of outputs
split_value = self . utxo [ 0 ] . nValue / / outputs
tx = CTransaction ( )
tx . vin . append ( CTxIn ( COutPoint ( self . utxo [ 0 ] . sha256 , self . utxo [ 0 ] . n ) , b " " ) )
for i in range ( outputs ) :
tx . vout . append ( CTxOut ( split_value , script_pubkey ) )
tx . vout [ - 2 ] . scriptPubKey = script_pubkey_toomany
tx . vout [ - 1 ] . scriptPubKey = script_pubkey_justright
tx . rehash ( )
block_1 = self . build_next_block ( )
self . update_witness_block_with_transactions ( block_1 , [ tx ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_1 , accepted = True )
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tx2 = CTransaction ( )
# If we try to spend the first n-1 outputs from tx, that should be
# too many sigops.
total_value = 0
for i in range ( outputs - 1 ) :
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , i ) , b " " ) )
tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
tx2 . wit . vtxinwit [ - 1 ] . scriptWitness . stack = [ witness_program ]
total_value + = tx . vout [ i ] . nValue
tx2 . wit . vtxinwit [ - 1 ] . scriptWitness . stack = [ witness_program_toomany ]
tx2 . vout . append ( CTxOut ( total_value , CScript ( [ OP_TRUE ] ) ) )
tx2 . rehash ( )
block_2 = self . build_next_block ( )
self . update_witness_block_with_transactions ( block_2 , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_2 , accepted = False )
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# Try dropping the last input in tx2, and add an output that has
# too many sigops (contributing to legacy sigop count).
checksig_count = ( extra_sigops_available / / 4 ) + 1
script_pubkey_checksigs = CScript ( [ OP_CHECKSIG ] * checksig_count )
tx2 . vout . append ( CTxOut ( 0 , script_pubkey_checksigs ) )
tx2 . vin . pop ( )
tx2 . wit . vtxinwit . pop ( )
tx2 . vout [ 0 ] . nValue - = tx . vout [ - 2 ] . nValue
tx2 . rehash ( )
block_3 = self . build_next_block ( )
self . update_witness_block_with_transactions ( block_3 , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_3 , accepted = False )
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# If we drop the last checksig in this output, the tx should succeed.
block_4 = self . build_next_block ( )
tx2 . vout [ - 1 ] . scriptPubKey = CScript ( [ OP_CHECKSIG ] * ( checksig_count - 1 ) )
tx2 . rehash ( )
self . update_witness_block_with_transactions ( block_4 , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_4 , accepted = True )
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# Reset the tip back down for the next test
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self . sync_blocks ( )
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for x in self . nodes :
x . invalidateblock ( block_4 . hash )
# Try replacing the last input of tx2 to be spending the last
# output of tx
block_5 = self . build_next_block ( )
tx2 . vout . pop ( )
tx2 . vin . append ( CTxIn ( COutPoint ( tx . sha256 , outputs - 1 ) , b " " ) )
tx2 . wit . vtxinwit . append ( CTxInWitness ( ) )
tx2 . wit . vtxinwit [ - 1 ] . scriptWitness . stack = [ witness_program_justright ]
tx2 . rehash ( )
self . update_witness_block_with_transactions ( block_5 , [ tx2 ] )
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test_witness_block ( self . nodes [ 0 ] , self . test_node , block_5 , accepted = True )
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# TODO: test p2sh sigop counting
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def test_superfluous_witness ( self ) :
# Serialization of tx that puts witness flag to 1 always
def serialize_with_bogus_witness ( tx ) :
flags = 1
r = b " "
r + = struct . pack ( " <i " , tx . nVersion )
if flags :
dummy = [ ]
r + = ser_vector ( dummy )
r + = struct . pack ( " <B " , flags )
r + = ser_vector ( tx . vin )
r + = ser_vector ( tx . vout )
if flags & 1 :
if ( len ( tx . wit . vtxinwit ) != len ( tx . vin ) ) :
# vtxinwit must have the same length as vin
tx . wit . vtxinwit = tx . wit . vtxinwit [ : len ( tx . vin ) ]
for i in range ( len ( tx . wit . vtxinwit ) , len ( tx . vin ) ) :
tx . wit . vtxinwit . append ( CTxInWitness ( ) )
r + = tx . wit . serialize ( )
r + = struct . pack ( " <I " , tx . nLockTime )
return r
raw = self . nodes [ 0 ] . createrawtransaction ( [ { " txid " : " 00 " * 32 , " vout " : 0 } ] , { self . nodes [ 0 ] . getnewaddress ( ) : 1 } )
tx = FromHex ( CTransaction ( ) , raw )
assert_raises_rpc_error ( - 22 , " TX decode failed " , self . nodes [ 0 ] . decoderawtransaction , serialize_with_bogus_witness ( tx ) . hex ( ) )
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if __name__ == ' __main__ ' :
SegWitTest ( ) . main ( )