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#!/usr/bin/env python3
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# Copyright (c) 2015-2019 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 multisig RPCs """
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from test_framework . test_framework import BitcoinTestFramework
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from test_framework . util import (
assert_raises_rpc_error ,
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assert_equal ,
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)
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from test_framework . key import ECPubKey
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import binascii
import decimal
import itertools
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class RpcCreateMultiSigTest ( BitcoinTestFramework ) :
def set_test_params ( self ) :
self . setup_clean_chain = True
self . num_nodes = 3
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def skip_test_if_missing_module ( self ) :
self . skip_if_no_wallet ( )
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def get_keys ( self ) :
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node0 , node1 , node2 = self . nodes
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add = [ node1 . getnewaddress ( ) for _ in range ( self . nkeys ) ]
self . pub = [ node1 . getaddressinfo ( a ) [ " pubkey " ] for a in add ]
self . priv = [ node1 . dumpprivkey ( a ) for a in add ]
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self . final = node2 . getnewaddress ( )
def run_test ( self ) :
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node0 , node1 , node2 = self . nodes
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self . check_addmultisigaddress_errors ( )
self . log . info ( ' Generating blocks ... ' )
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node0 . generate ( 149 )
self . sync_all ( )
self . moved = 0
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for self . nkeys in [ 3 , 5 ] :
for self . nsigs in [ 2 , 3 ] :
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for self . output_type in [ " bech32 " , " p2sh-segwit " , " legacy " ] :
self . get_keys ( )
self . do_multisig ( )
self . checkbalances ( )
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# Test mixed compressed and uncompressed pubkeys
self . log . info ( ' Mixed compressed and uncompressed multisigs are not allowed ' )
pk0 = node0 . getaddressinfo ( node0 . getnewaddress ( ) ) [ ' pubkey ' ]
pk1 = node1 . getaddressinfo ( node1 . getnewaddress ( ) ) [ ' pubkey ' ]
pk2 = node2 . getaddressinfo ( node2 . getnewaddress ( ) ) [ ' pubkey ' ]
# decompress pk2
pk_obj = ECPubKey ( )
pk_obj . set ( binascii . unhexlify ( pk2 ) )
pk_obj . compressed = False
pk2 = binascii . hexlify ( pk_obj . get_bytes ( ) ) . decode ( )
# Check all permutations of keys because order matters apparently
for keys in itertools . permutations ( [ pk0 , pk1 , pk2 ] ) :
# Results should be the same as this legacy one
legacy_addr = node0 . createmultisig ( 2 , keys , ' legacy ' ) [ ' address ' ]
assert_equal ( legacy_addr , node0 . addmultisigaddress ( 2 , keys , ' ' , ' legacy ' ) [ ' address ' ] )
# Generate addresses with the segwit types. These should all make legacy addresses
assert_equal ( legacy_addr , node0 . createmultisig ( 2 , keys , ' bech32 ' ) [ ' address ' ] )
assert_equal ( legacy_addr , node0 . createmultisig ( 2 , keys , ' p2sh-segwit ' ) [ ' address ' ] )
assert_equal ( legacy_addr , node0 . addmultisigaddress ( 2 , keys , ' ' , ' bech32 ' ) [ ' address ' ] )
assert_equal ( legacy_addr , node0 . addmultisigaddress ( 2 , keys , ' ' , ' p2sh-segwit ' ) [ ' address ' ] )
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def check_addmultisigaddress_errors ( self ) :
self . log . info ( ' Check that addmultisigaddress fails when the private keys are missing ' )
addresses = [ self . nodes [ 1 ] . getnewaddress ( address_type = ' legacy ' ) for _ in range ( 2 ) ]
assert_raises_rpc_error ( - 5 , ' no full public key for address ' , lambda : self . nodes [ 0 ] . addmultisigaddress ( nrequired = 1 , keys = addresses ) )
for a in addresses :
# Importing all addresses should not change the result
self . nodes [ 0 ] . importaddress ( a )
assert_raises_rpc_error ( - 5 , ' no full public key for address ' , lambda : self . nodes [ 0 ] . addmultisigaddress ( nrequired = 1 , keys = addresses ) )
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def checkbalances ( self ) :
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node0 , node1 , node2 = self . nodes
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node0 . generate ( 100 )
self . sync_all ( )
bal0 = node0 . getbalance ( )
bal1 = node1 . getbalance ( )
bal2 = node2 . getbalance ( )
height = node0 . getblockchaininfo ( ) [ " blocks " ]
assert 150 < height < 350
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total = 149 * 1 + ( height - 149 - 100 ) * 1
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assert bal1 == 0
assert bal2 == self . moved
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assert bal0 + bal1 + bal2 == total
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def do_multisig ( self ) :
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node0 , node1 , node2 = self . nodes
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msig = node2 . createmultisig ( self . nsigs , self . pub , self . output_type )
madd = msig [ " address " ]
mredeem = msig [ " redeemScript " ]
if self . output_type == ' bech32 ' :
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assert madd [ 0 : 4 ] == " rlbc " # actually a bech32 address
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# compare against addmultisigaddress
msigw = node1 . addmultisigaddress ( self . nsigs , self . pub , None , self . output_type )
maddw = msigw [ " address " ]
mredeemw = msigw [ " redeemScript " ]
# addmultisigiaddress and createmultisig work the same
assert maddw == madd
assert mredeemw == mredeem
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txid = node0 . sendtoaddress ( madd , 0.8 )
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tx = node0 . getrawtransaction ( txid , True )
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vout = [ v [ " n " ] for v in tx [ " vout " ] if madd in v [ " scriptPubKey " ] . get ( " addresses " , [ ] ) ]
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assert len ( vout ) == 1
vout = vout [ 0 ]
scriptPubKey = tx [ " vout " ] [ vout ] [ " scriptPubKey " ] [ " hex " ]
value = tx [ " vout " ] [ vout ] [ " value " ]
prevtxs = [ { " txid " : txid , " vout " : vout , " scriptPubKey " : scriptPubKey , " redeemScript " : mredeem , " amount " : value } ]
node0 . generate ( 1 )
outval = value - decimal . Decimal ( " 0.00001000 " )
rawtx = node2 . createrawtransaction ( [ { " txid " : txid , " vout " : vout } ] , [ { self . final : outval } ] )
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prevtx_err = dict ( prevtxs [ 0 ] )
del prevtx_err [ " redeemScript " ]
assert_raises_rpc_error ( - 8 , " Missing redeemScript/witnessScript " , node2 . signrawtransactionwithkey , rawtx , self . priv [ 0 : self . nsigs - 1 ] , [ prevtx_err ] )
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# if witnessScript specified, all ok
prevtx_err [ " witnessScript " ] = prevtxs [ 0 ] [ " redeemScript " ]
node2 . signrawtransactionwithkey ( rawtx , self . priv [ 0 : self . nsigs - 1 ] , [ prevtx_err ] )
# both specified, also ok
prevtx_err [ " redeemScript " ] = prevtxs [ 0 ] [ " redeemScript " ]
node2 . signrawtransactionwithkey ( rawtx , self . priv [ 0 : self . nsigs - 1 ] , [ prevtx_err ] )
# redeemScript mismatch to witnessScript
prevtx_err [ " redeemScript " ] = " 6a " # OP_RETURN
assert_raises_rpc_error ( - 8 , " redeemScript does not correspond to witnessScript " , node2 . signrawtransactionwithkey , rawtx , self . priv [ 0 : self . nsigs - 1 ] , [ prevtx_err ] )
# redeemScript does not match scriptPubKey
del prevtx_err [ " witnessScript " ]
assert_raises_rpc_error ( - 8 , " redeemScript/witnessScript does not match scriptPubKey " , node2 . signrawtransactionwithkey , rawtx , self . priv [ 0 : self . nsigs - 1 ] , [ prevtx_err ] )
# witnessScript does not match scriptPubKey
prevtx_err [ " witnessScript " ] = prevtx_err [ " redeemScript " ]
del prevtx_err [ " redeemScript " ]
assert_raises_rpc_error ( - 8 , " redeemScript/witnessScript does not match scriptPubKey " , node2 . signrawtransactionwithkey , rawtx , self . priv [ 0 : self . nsigs - 1 ] , [ prevtx_err ] )
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rawtx2 = node2 . signrawtransactionwithkey ( rawtx , self . priv [ 0 : self . nsigs - 1 ] , prevtxs )
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rawtx3 = node2 . signrawtransactionwithkey ( rawtx2 [ " hex " ] , [ self . priv [ - 1 ] ] , prevtxs )
self . moved + = outval
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tx = node0 . sendrawtransaction ( rawtx3 [ " hex " ] , 0 )
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blk = node0 . generate ( 1 ) [ 0 ]
assert tx in node0 . getblock ( blk ) [ " tx " ]
txinfo = node0 . getrawtransaction ( tx , True , blk )
self . log . info ( " n/m= %d / %d %s size= %d vsize= %d weight= %d " % ( self . nsigs , self . nkeys , self . output_type , txinfo [ " size " ] , txinfo [ " vsize " ] , txinfo [ " weight " ] ) )
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if __name__ == ' __main__ ' :
RpcCreateMultiSigTest ( ) . main ( )