#!/usr/bin/env python3
# Copyright (c) 2021 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
""" Test a basic M-of-N multisig setup between multiple people using descriptor wallets and PSBTs, as well as a signing flow.
This is meant to be documentation as much as functional tests , so it is kept as simple and readable as possible .
"""
from test_framework . address import base58_to_byte
from test_framework . test_framework import BitcoinTestFramework
from test_framework . util import (
assert_approx ,
assert_equal ,
)
class WalletMultisigDescriptorPSBTTest ( BitcoinTestFramework ) :
def set_test_params ( self ) :
self . num_nodes = 3
self . setup_clean_chain = True
self . wallet_names = [ ]
self . extra_args = [ [ " -keypool=100 " ] ] * self . num_nodes
def skip_test_if_missing_module ( self ) :
self . skip_if_no_wallet ( )
self . skip_if_no_sqlite ( )
@staticmethod
def _get_xpub ( wallet ) :
""" Extract the wallet ' s xpubs using `listdescriptors` and pick the one from the `pkh` descriptor since it ' s least likely to be accidentally reused (legacy addresses). """
descriptor = next ( filter ( lambda d : d [ " desc " ] . startswith ( " pkh " ) , wallet . listdescriptors ( ) [ " descriptors " ] ) )
return descriptor [ " desc " ] . split ( " ] " ) [ - 1 ] . split ( " / " ) [ 0 ]
@staticmethod
def _check_psbt ( psbt , to , value , multisig ) :
""" Helper function for any of the N participants to check the psbt with decodepsbt and verify it is OK before signing. """
tx = multisig . decodepsbt ( psbt ) [ " tx " ]
amount = 0
for vout in tx [ " vout " ] :
address = vout [ " scriptPubKey " ] [ " address " ]
assert_equal ( multisig . getaddressinfo ( address ) [ " ischange " ] , address != to )
if address == to :
amount + = vout [ " value " ]
assert_approx ( amount , float ( value ) , vspan = 0.001 )
def participants_create_multisigs ( self , xpubs ) :
""" The multisig is created by importing the following descriptors. The resulting wallet is watch-only and every participant can do this. """
# some simple validation
assert_equal ( len ( xpubs ) , self . N )
# a sanity-check/assertion, this will throw if the base58 checksum of any of the provided xpubs are invalid
for xpub in xpubs :
base58_to_byte ( xpub )
for i , node in enumerate ( self . nodes ) :
node . createwallet ( wallet_name = f " { self . name } _ { i } " , blank = True , descriptors = True , disable_private_keys = True )
multisig = node . get_wallet_rpc ( f " { self . name } _ { i } " )
external = multisig . getdescriptorinfo ( f " wsh(sortedmulti( { self . M } , { f ' /0/*, ' . join ( xpubs ) } /0/*)) " )
internal = multisig . getdescriptorinfo ( f " wsh(sortedmulti( { self . M } , { f ' /1/*, ' . join ( xpubs ) } /1/*)) " )
result = multisig . importdescriptors ( [
{ # receiving addresses (internal: False)
" desc " : external [ " descriptor " ] ,
" active " : True ,
" internal " : False ,
" timestamp " : " now " ,
} ,
{ # change addresses (internal: True)
" desc " : internal [ " descriptor " ] ,
" active " : True ,
" internal " : True ,
" timestamp " : " now " ,
} ,
] )
assert all ( r [ " success " ] for r in result )
yield multisig
def run_test ( self ) :
self . M = 2
self . N = self . num_nodes
self . name = f " { self . M } _of_ { self . N } _multisig "
self . log . info ( f " Testing { self . name } ... " )
participants = {
# Every participant generates an xpub. The most straightforward way is to create a new descriptor wallet.
# This wallet will be the participant's `signer` for the resulting multisig. Avoid reusing this wallet for any other purpose (for privacy reasons).
" signers " : [ node . get_wallet_rpc ( node . createwallet ( wallet_name = f " participant_ { self . nodes . index ( node ) } " , descriptors = True ) [ " name " ] ) for node in self . nodes ] ,
# After participants generate and exchange their xpubs they will each create their own watch-only multisig.
# Note: these multisigs are all the same, this just highlights that each participant can independently verify everything on their own node.
" multisigs " : [ ]
}
self . log . info ( " Generate and exchange xpubs... " )
xpubs = [ self . _get_xpub ( signer ) for signer in participants [ " signers " ] ]
self . log . info ( " Every participant imports the following descriptors to create the watch-only multisig... " )
participants [ " multisigs " ] = list ( self . participants_create_multisigs ( xpubs ) )
self . log . info ( " Check that every participant ' s multisig generates the same addresses... " )
for _ in range ( 10 ) : # we check that the first 10 generated addresses are the same for all participant's multisigs
receive_addresses = [ multisig . getnewaddress ( ) for multisig in participants [ " multisigs " ] ]
all ( address == receive_addresses [ 0 ] for address in receive_addresses )
change_addresses = [ multisig . getrawchangeaddress ( ) for multisig in participants [ " multisigs " ] ]
all ( address == change_addresses [ 0 ] for address in change_addresses )
self . log . info ( " Get a mature utxo to send to the multisig... " )
coordinator_wallet = participants [ " signers " ] [ 0 ]
self . generatetoaddress ( self . nodes [ 0 ] , 101 , coordinator_wallet . getnewaddress ( ) )
deposit_amount = 6.15
multisig_receiving_address = participants [ " multisigs " ] [ 0 ] . getnewaddress ( )
self . log . info ( " Send funds to the resulting multisig receiving address... " )
coordinator_wallet . sendtoaddress ( multisig_receiving_address , deposit_amount )
self . generate ( self . nodes [ 0 ] , 1 )
for participant in participants [ " multisigs " ] :
assert_approx ( participant . getbalance ( ) , deposit_amount , vspan = 0.001 )
self . log . info ( " Send a transaction from the multisig! " )
to = participants [ " signers " ] [ self . N - 1 ] . getnewaddress ( )
value = 1
self . log . info ( " First, make a sending transaction, created using `walletcreatefundedpsbt` (anyone can initiate this)... " )
psbt = participants [ " multisigs " ] [ 0 ] . walletcreatefundedpsbt ( inputs = [ ] , outputs = { to : value } , options = { " feeRate " : 0.00010 } )
psbts = [ ]
self . log . info ( " Now at least M users check the psbt with decodepsbt and (if OK) signs it with walletprocesspsbt... " )
for m in range ( self . M ) :
signers_multisig = participants [ " multisigs " ] [ m ]
self . _check_psbt ( psbt [ " psbt " ] , to , value , signers_multisig )
signing_wallet = participants [ " signers " ] [ m ]
partially_signed_psbt = signing_wallet . walletprocesspsbt ( psbt [ " psbt " ] )
psbts . append ( partially_signed_psbt [ " psbt " ] )
self . log . info ( " Finally, collect the signed PSBTs with combinepsbt, finalizepsbt, then broadcast the resulting transaction... " )
combined = coordinator_wallet . combinepsbt ( psbts )
finalized = coordinator_wallet . finalizepsbt ( combined )
coordinator_wallet . sendrawtransaction ( finalized [ " hex " ] )
self . log . info ( " Check that balances are correct after the transaction has been included in a block. " )
self . generate ( self . nodes [ 0 ] , 1 )
assert_approx ( participants [ " multisigs " ] [ 0 ] . getbalance ( ) , deposit_amount - value , vspan = 0.001 )
assert_equal ( participants [ " signers " ] [ self . N - 1 ] . getbalance ( ) , value )
self . log . info ( " Send another transaction from the multisig, this time with a daisy chained signing flow (one after another in series)! " )
psbt = participants [ " multisigs " ] [ 0 ] . walletcreatefundedpsbt ( inputs = [ ] , outputs = { to : value } , options = { " feeRate " : 0.00010 } )
for m in range ( self . M ) :
signers_multisig = participants [ " multisigs " ] [ m ]
self . _check_psbt ( psbt [ " psbt " ] , to , value , signers_multisig )
signing_wallet = participants [ " signers " ] [ m ]
psbt = signing_wallet . walletprocesspsbt ( psbt [ " psbt " ] )
assert_equal ( psbt [ " complete " ] , m == self . M - 1 )
finalized = coordinator_wallet . finalizepsbt ( psbt [ " psbt " ] )
coordinator_wallet . sendrawtransaction ( finalized [ " hex " ] )
self . log . info ( " Check that balances are correct after the transaction has been included in a block. " )
self . generate ( self . nodes [ 0 ] , 1 )
assert_approx ( participants [ " multisigs " ] [ 0 ] . getbalance ( ) , deposit_amount - ( value * 2 ) , vspan = 0.001 )
assert_equal ( participants [ " signers " ] [ self . N - 1 ] . getbalance ( ) , value * 2 )
if __name__ == " __main__ " :
WalletMultisigDescriptorPSBTTest ( ) . main ( )
