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223588b1bb
Adds a --descriptors option globally to the test framework. This will make the test create and use descriptor wallets. However some tests may not work with this. Some tests are modified to work with --descriptors and run with that option in test_runer: * wallet_basic.py * wallet_encryption.py * wallet_keypool.py * wallet_keypool_topup.py * wallet_labels.py * wallet_avoidreuse.py
476 lines
27 KiB
Python
Executable File
476 lines
27 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2018-2020 The Bitcoin Core developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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"""Test the Partially Signed Transaction RPCs.
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"""
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from decimal import Decimal
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from test_framework.test_framework import BitcoinTestFramework
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from test_framework.util import (
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assert_equal,
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assert_greater_than,
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assert_raises_rpc_error,
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connect_nodes,
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disconnect_nodes,
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find_output,
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)
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import json
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import os
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MAX_BIP125_RBF_SEQUENCE = 0xfffffffd
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# Create one-input, one-output, no-fee transaction:
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class PSBTTest(BitcoinTestFramework):
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def set_test_params(self):
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self.setup_clean_chain = False
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self.num_nodes = 3
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self.extra_args = [
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["-walletrbf=1"],
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["-walletrbf=0"],
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[]
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]
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self.supports_cli = False
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def skip_test_if_missing_module(self):
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self.skip_if_no_wallet()
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def test_utxo_conversion(self):
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mining_node = self.nodes[2]
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offline_node = self.nodes[0]
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online_node = self.nodes[1]
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# Disconnect offline node from others
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disconnect_nodes(offline_node, 1)
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disconnect_nodes(online_node, 0)
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disconnect_nodes(offline_node, 2)
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disconnect_nodes(mining_node, 0)
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# Create watchonly on online_node
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online_node.createwallet(wallet_name='wonline', disable_private_keys=True)
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wonline = online_node.get_wallet_rpc('wonline')
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w2 = online_node.get_wallet_rpc('')
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# Mine a transaction that credits the offline address
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offline_addr = offline_node.getnewaddress(address_type="p2sh-segwit")
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online_addr = w2.getnewaddress(address_type="p2sh-segwit")
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wonline.importaddress(offline_addr, "", False)
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mining_node.sendtoaddress(address=offline_addr, amount=1.0)
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mining_node.generate(nblocks=1)
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self.sync_blocks([mining_node, online_node])
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# Construct an unsigned PSBT on the online node (who doesn't know the output is Segwit, so will include a non-witness UTXO)
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utxos = wonline.listunspent(addresses=[offline_addr])
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raw = wonline.createrawtransaction([{"txid":utxos[0]["txid"], "vout":utxos[0]["vout"]}],[{online_addr:0.9999}])
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psbt = wonline.walletprocesspsbt(online_node.converttopsbt(raw))["psbt"]
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assert "non_witness_utxo" in mining_node.decodepsbt(psbt)["inputs"][0]
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# Have the offline node sign the PSBT (which will update the UTXO to segwit)
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signed_psbt = offline_node.walletprocesspsbt(psbt)["psbt"]
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assert "witness_utxo" in mining_node.decodepsbt(signed_psbt)["inputs"][0]
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# Make sure we can mine the resulting transaction
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txid = mining_node.sendrawtransaction(mining_node.finalizepsbt(signed_psbt)["hex"])
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mining_node.generate(1)
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self.sync_blocks([mining_node, online_node])
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assert_equal(online_node.gettxout(txid,0)["confirmations"], 1)
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wonline.unloadwallet()
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# Reconnect
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connect_nodes(self.nodes[0], 1)
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connect_nodes(self.nodes[0], 2)
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def run_test(self):
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# Create and fund a raw tx for sending 10 BTC
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psbtx1 = self.nodes[0].walletcreatefundedpsbt([], {self.nodes[2].getnewaddress():10})['psbt']
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# Node 1 should not be able to add anything to it but still return the psbtx same as before
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psbtx = self.nodes[1].walletprocesspsbt(psbtx1)['psbt']
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assert_equal(psbtx1, psbtx)
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# Sign the transaction and send
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signed_tx = self.nodes[0].walletprocesspsbt(psbtx)['psbt']
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final_tx = self.nodes[0].finalizepsbt(signed_tx)['hex']
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self.nodes[0].sendrawtransaction(final_tx)
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# Get pubkeys
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pubkey0 = self.nodes[0].getaddressinfo(self.nodes[0].getnewaddress())['pubkey']
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pubkey1 = self.nodes[1].getaddressinfo(self.nodes[1].getnewaddress())['pubkey']
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pubkey2 = self.nodes[2].getaddressinfo(self.nodes[2].getnewaddress())['pubkey']
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# Setup watchonly wallets
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self.nodes[2].createwallet(wallet_name='wmulti', disable_private_keys=True)
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wmulti = self.nodes[2].get_wallet_rpc('wmulti')
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# Create all the addresses
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p2sh = wmulti.addmultisigaddress(2, [pubkey0, pubkey1, pubkey2], "", "legacy")['address']
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p2wsh = wmulti.addmultisigaddress(2, [pubkey0, pubkey1, pubkey2], "", "bech32")['address']
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p2sh_p2wsh = wmulti.addmultisigaddress(2, [pubkey0, pubkey1, pubkey2], "", "p2sh-segwit")['address']
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if not self.options.descriptors:
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wmulti.importaddress(p2sh)
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wmulti.importaddress(p2wsh)
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wmulti.importaddress(p2sh_p2wsh)
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p2wpkh = self.nodes[1].getnewaddress("", "bech32")
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p2pkh = self.nodes[1].getnewaddress("", "legacy")
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p2sh_p2wpkh = self.nodes[1].getnewaddress("", "p2sh-segwit")
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# fund those addresses
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rawtx = self.nodes[0].createrawtransaction([], {p2sh:10, p2wsh:10, p2wpkh:10, p2sh_p2wsh:10, p2sh_p2wpkh:10, p2pkh:10})
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rawtx = self.nodes[0].fundrawtransaction(rawtx, {"changePosition":3})
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signed_tx = self.nodes[0].signrawtransactionwithwallet(rawtx['hex'])['hex']
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txid = self.nodes[0].sendrawtransaction(signed_tx)
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self.nodes[0].generate(6)
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self.sync_all()
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# Find the output pos
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p2sh_pos = -1
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p2wsh_pos = -1
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p2wpkh_pos = -1
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p2pkh_pos = -1
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p2sh_p2wsh_pos = -1
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p2sh_p2wpkh_pos = -1
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decoded = self.nodes[0].decoderawtransaction(signed_tx)
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for out in decoded['vout']:
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if out['scriptPubKey']['addresses'][0] == p2sh:
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p2sh_pos = out['n']
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elif out['scriptPubKey']['addresses'][0] == p2wsh:
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p2wsh_pos = out['n']
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elif out['scriptPubKey']['addresses'][0] == p2wpkh:
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p2wpkh_pos = out['n']
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elif out['scriptPubKey']['addresses'][0] == p2sh_p2wsh:
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p2sh_p2wsh_pos = out['n']
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elif out['scriptPubKey']['addresses'][0] == p2sh_p2wpkh:
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p2sh_p2wpkh_pos = out['n']
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elif out['scriptPubKey']['addresses'][0] == p2pkh:
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p2pkh_pos = out['n']
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# spend single key from node 1
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rawtx = self.nodes[1].walletcreatefundedpsbt([{"txid":txid,"vout":p2wpkh_pos},{"txid":txid,"vout":p2sh_p2wpkh_pos},{"txid":txid,"vout":p2pkh_pos}], {self.nodes[1].getnewaddress():29.99})['psbt']
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walletprocesspsbt_out = self.nodes[1].walletprocesspsbt(rawtx)
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assert_equal(walletprocesspsbt_out['complete'], True)
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self.nodes[1].sendrawtransaction(self.nodes[1].finalizepsbt(walletprocesspsbt_out['psbt'])['hex'])
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# feeRate of 0.1 BTC / KB produces a total fee slightly below -maxtxfee (~0.05280000):
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res = self.nodes[1].walletcreatefundedpsbt([{"txid":txid,"vout":p2wpkh_pos},{"txid":txid,"vout":p2sh_p2wpkh_pos},{"txid":txid,"vout":p2pkh_pos}], {self.nodes[1].getnewaddress():29.99}, 0, {"feeRate": 0.1})
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assert_greater_than(res["fee"], 0.05)
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assert_greater_than(0.06, res["fee"])
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# feeRate of 10 BTC / KB produces a total fee well above -maxtxfee
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# previously this was silently capped at -maxtxfee
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assert_raises_rpc_error(-4, "Fee exceeds maximum configured by -maxtxfee", self.nodes[1].walletcreatefundedpsbt, [{"txid":txid,"vout":p2wpkh_pos},{"txid":txid,"vout":p2sh_p2wpkh_pos},{"txid":txid,"vout":p2pkh_pos}], {self.nodes[1].getnewaddress():29.99}, 0, {"feeRate": 10})
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# partially sign multisig things with node 1
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psbtx = wmulti.walletcreatefundedpsbt(inputs=[{"txid":txid,"vout":p2wsh_pos},{"txid":txid,"vout":p2sh_pos},{"txid":txid,"vout":p2sh_p2wsh_pos}], outputs={self.nodes[1].getnewaddress():29.99}, options={'changeAddress': self.nodes[1].getrawchangeaddress()})['psbt']
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walletprocesspsbt_out = self.nodes[1].walletprocesspsbt(psbtx)
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psbtx = walletprocesspsbt_out['psbt']
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assert_equal(walletprocesspsbt_out['complete'], False)
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# Unload wmulti, we don't need it anymore
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wmulti.unloadwallet()
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# partially sign with node 2. This should be complete and sendable
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walletprocesspsbt_out = self.nodes[2].walletprocesspsbt(psbtx)
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assert_equal(walletprocesspsbt_out['complete'], True)
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self.nodes[2].sendrawtransaction(self.nodes[2].finalizepsbt(walletprocesspsbt_out['psbt'])['hex'])
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# check that walletprocesspsbt fails to decode a non-psbt
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rawtx = self.nodes[1].createrawtransaction([{"txid":txid,"vout":p2wpkh_pos}], {self.nodes[1].getnewaddress():9.99})
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assert_raises_rpc_error(-22, "TX decode failed", self.nodes[1].walletprocesspsbt, rawtx)
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# Convert a non-psbt to psbt and make sure we can decode it
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rawtx = self.nodes[0].createrawtransaction([], {self.nodes[1].getnewaddress():10})
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rawtx = self.nodes[0].fundrawtransaction(rawtx)
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new_psbt = self.nodes[0].converttopsbt(rawtx['hex'])
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self.nodes[0].decodepsbt(new_psbt)
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# Make sure that a non-psbt with signatures cannot be converted
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# Error could be either "TX decode failed" (segwit inputs causes parsing to fail) or "Inputs must not have scriptSigs and scriptWitnesses"
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# We must set iswitness=True because the serialized transaction has inputs and is therefore a witness transaction
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signedtx = self.nodes[0].signrawtransactionwithwallet(rawtx['hex'])
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assert_raises_rpc_error(-22, "", self.nodes[0].converttopsbt, hexstring=signedtx['hex'], iswitness=True)
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assert_raises_rpc_error(-22, "", self.nodes[0].converttopsbt, hexstring=signedtx['hex'], permitsigdata=False, iswitness=True)
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# Unless we allow it to convert and strip signatures
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self.nodes[0].converttopsbt(signedtx['hex'], True)
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# Explicitly allow converting non-empty txs
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new_psbt = self.nodes[0].converttopsbt(rawtx['hex'])
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self.nodes[0].decodepsbt(new_psbt)
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# Create outputs to nodes 1 and 2
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node1_addr = self.nodes[1].getnewaddress()
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node2_addr = self.nodes[2].getnewaddress()
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txid1 = self.nodes[0].sendtoaddress(node1_addr, 13)
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txid2 = self.nodes[0].sendtoaddress(node2_addr, 13)
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blockhash = self.nodes[0].generate(6)[0]
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self.sync_all()
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vout1 = find_output(self.nodes[1], txid1, 13, blockhash=blockhash)
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vout2 = find_output(self.nodes[2], txid2, 13, blockhash=blockhash)
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# Create a psbt spending outputs from nodes 1 and 2
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psbt_orig = self.nodes[0].createpsbt([{"txid":txid1, "vout":vout1}, {"txid":txid2, "vout":vout2}], {self.nodes[0].getnewaddress():25.999})
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# Update psbts, should only have data for one input and not the other
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psbt1 = self.nodes[1].walletprocesspsbt(psbt_orig, False, "ALL")['psbt']
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psbt1_decoded = self.nodes[0].decodepsbt(psbt1)
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assert psbt1_decoded['inputs'][0] and not psbt1_decoded['inputs'][1]
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# Check that BIP32 path was added
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assert "bip32_derivs" in psbt1_decoded['inputs'][0]
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psbt2 = self.nodes[2].walletprocesspsbt(psbt_orig, False, "ALL", False)['psbt']
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psbt2_decoded = self.nodes[0].decodepsbt(psbt2)
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assert not psbt2_decoded['inputs'][0] and psbt2_decoded['inputs'][1]
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# Check that BIP32 paths were not added
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assert "bip32_derivs" not in psbt2_decoded['inputs'][1]
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# Sign PSBTs (workaround issue #18039)
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psbt1 = self.nodes[1].walletprocesspsbt(psbt_orig)['psbt']
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psbt2 = self.nodes[2].walletprocesspsbt(psbt_orig)['psbt']
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# Combine, finalize, and send the psbts
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combined = self.nodes[0].combinepsbt([psbt1, psbt2])
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finalized = self.nodes[0].finalizepsbt(combined)['hex']
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self.nodes[0].sendrawtransaction(finalized)
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self.nodes[0].generate(6)
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self.sync_all()
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# Test additional args in walletcreatepsbt
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# Make sure both pre-included and funded inputs
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# have the correct sequence numbers based on
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# replaceable arg
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block_height = self.nodes[0].getblockcount()
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unspent = self.nodes[0].listunspent()[0]
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psbtx_info = self.nodes[0].walletcreatefundedpsbt([{"txid":unspent["txid"], "vout":unspent["vout"]}], [{self.nodes[2].getnewaddress():unspent["amount"]+1}], block_height+2, {"replaceable": False}, False)
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decoded_psbt = self.nodes[0].decodepsbt(psbtx_info["psbt"])
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for tx_in, psbt_in in zip(decoded_psbt["tx"]["vin"], decoded_psbt["inputs"]):
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assert_greater_than(tx_in["sequence"], MAX_BIP125_RBF_SEQUENCE)
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assert "bip32_derivs" not in psbt_in
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assert_equal(decoded_psbt["tx"]["locktime"], block_height+2)
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# Same construction with only locktime set and RBF explicitly enabled
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psbtx_info = self.nodes[0].walletcreatefundedpsbt([{"txid":unspent["txid"], "vout":unspent["vout"]}], [{self.nodes[2].getnewaddress():unspent["amount"]+1}], block_height, {"replaceable": True}, True)
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decoded_psbt = self.nodes[0].decodepsbt(psbtx_info["psbt"])
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for tx_in, psbt_in in zip(decoded_psbt["tx"]["vin"], decoded_psbt["inputs"]):
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assert_equal(tx_in["sequence"], MAX_BIP125_RBF_SEQUENCE)
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assert "bip32_derivs" in psbt_in
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assert_equal(decoded_psbt["tx"]["locktime"], block_height)
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# Same construction without optional arguments
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psbtx_info = self.nodes[0].walletcreatefundedpsbt([{"txid":unspent["txid"], "vout":unspent["vout"]}], [{self.nodes[2].getnewaddress():unspent["amount"]+1}])
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decoded_psbt = self.nodes[0].decodepsbt(psbtx_info["psbt"])
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for tx_in, psbt_in in zip(decoded_psbt["tx"]["vin"], decoded_psbt["inputs"]):
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assert_equal(tx_in["sequence"], MAX_BIP125_RBF_SEQUENCE)
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assert "bip32_derivs" in psbt_in
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assert_equal(decoded_psbt["tx"]["locktime"], 0)
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# Same construction without optional arguments, for a node with -walletrbf=0
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unspent1 = self.nodes[1].listunspent()[0]
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psbtx_info = self.nodes[1].walletcreatefundedpsbt([{"txid":unspent1["txid"], "vout":unspent1["vout"]}], [{self.nodes[2].getnewaddress():unspent1["amount"]+1}], block_height)
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decoded_psbt = self.nodes[1].decodepsbt(psbtx_info["psbt"])
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for tx_in, psbt_in in zip(decoded_psbt["tx"]["vin"], decoded_psbt["inputs"]):
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assert_greater_than(tx_in["sequence"], MAX_BIP125_RBF_SEQUENCE)
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assert "bip32_derivs" in psbt_in
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# Make sure change address wallet does not have P2SH innerscript access to results in success
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# when attempting BnB coin selection
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self.nodes[0].walletcreatefundedpsbt([], [{self.nodes[2].getnewaddress():unspent["amount"]+1}], block_height+2, {"changeAddress":self.nodes[1].getnewaddress()}, False)
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# Regression test for 14473 (mishandling of already-signed witness transaction):
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psbtx_info = self.nodes[0].walletcreatefundedpsbt([{"txid":unspent["txid"], "vout":unspent["vout"]}], [{self.nodes[2].getnewaddress():unspent["amount"]+1}])
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complete_psbt = self.nodes[0].walletprocesspsbt(psbtx_info["psbt"])
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double_processed_psbt = self.nodes[0].walletprocesspsbt(complete_psbt["psbt"])
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assert_equal(complete_psbt, double_processed_psbt)
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# We don't care about the decode result, but decoding must succeed.
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self.nodes[0].decodepsbt(double_processed_psbt["psbt"])
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# BIP 174 Test Vectors
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# Check that unknown values are just passed through
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unknown_psbt = "cHNidP8BAD8CAAAAAf//////////////////////////////////////////AAAAAAD/////AQAAAAAAAAAAA2oBAAAAAAAACg8BAgMEBQYHCAkPAQIDBAUGBwgJCgsMDQ4PAAA="
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unknown_out = self.nodes[0].walletprocesspsbt(unknown_psbt)['psbt']
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assert_equal(unknown_psbt, unknown_out)
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# Open the data file
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with open(os.path.join(os.path.dirname(os.path.realpath(__file__)), 'data/rpc_psbt.json'), encoding='utf-8') as f:
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d = json.load(f)
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invalids = d['invalid']
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valids = d['valid']
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creators = d['creator']
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signers = d['signer']
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combiners = d['combiner']
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finalizers = d['finalizer']
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extractors = d['extractor']
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# Invalid PSBTs
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for invalid in invalids:
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assert_raises_rpc_error(-22, "TX decode failed", self.nodes[0].decodepsbt, invalid)
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# Valid PSBTs
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for valid in valids:
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self.nodes[0].decodepsbt(valid)
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# Creator Tests
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for creator in creators:
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created_tx = self.nodes[0].createpsbt(creator['inputs'], creator['outputs'])
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assert_equal(created_tx, creator['result'])
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# Signer tests
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for i, signer in enumerate(signers):
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self.nodes[2].createwallet(wallet_name="wallet{}".format(i))
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wrpc = self.nodes[2].get_wallet_rpc("wallet{}".format(i))
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for key in signer['privkeys']:
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wrpc.importprivkey(key)
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signed_tx = wrpc.walletprocesspsbt(signer['psbt'])['psbt']
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assert_equal(signed_tx, signer['result'])
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# Combiner test
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for combiner in combiners:
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combined = self.nodes[2].combinepsbt(combiner['combine'])
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assert_equal(combined, combiner['result'])
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# Empty combiner test
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assert_raises_rpc_error(-8, "Parameter 'txs' cannot be empty", self.nodes[0].combinepsbt, [])
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# Finalizer test
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for finalizer in finalizers:
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finalized = self.nodes[2].finalizepsbt(finalizer['finalize'], False)['psbt']
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assert_equal(finalized, finalizer['result'])
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# Extractor test
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for extractor in extractors:
|
|
extracted = self.nodes[2].finalizepsbt(extractor['extract'], True)['hex']
|
|
assert_equal(extracted, extractor['result'])
|
|
|
|
# Unload extra wallets
|
|
for i, signer in enumerate(signers):
|
|
self.nodes[2].unloadwallet("wallet{}".format(i))
|
|
|
|
self.test_utxo_conversion()
|
|
|
|
# Test that psbts with p2pkh outputs are created properly
|
|
p2pkh = self.nodes[0].getnewaddress(address_type='legacy')
|
|
psbt = self.nodes[1].walletcreatefundedpsbt([], [{p2pkh : 1}], 0, {"includeWatching" : True}, True)
|
|
self.nodes[0].decodepsbt(psbt['psbt'])
|
|
|
|
# Test decoding error: invalid base64
|
|
assert_raises_rpc_error(-22, "TX decode failed invalid base64", self.nodes[0].decodepsbt, ";definitely not base64;")
|
|
|
|
# Send to all types of addresses
|
|
addr1 = self.nodes[1].getnewaddress("", "bech32")
|
|
txid1 = self.nodes[0].sendtoaddress(addr1, 11)
|
|
vout1 = find_output(self.nodes[0], txid1, 11)
|
|
addr2 = self.nodes[1].getnewaddress("", "legacy")
|
|
txid2 = self.nodes[0].sendtoaddress(addr2, 11)
|
|
vout2 = find_output(self.nodes[0], txid2, 11)
|
|
addr3 = self.nodes[1].getnewaddress("", "p2sh-segwit")
|
|
txid3 = self.nodes[0].sendtoaddress(addr3, 11)
|
|
vout3 = find_output(self.nodes[0], txid3, 11)
|
|
self.sync_all()
|
|
|
|
def test_psbt_input_keys(psbt_input, keys):
|
|
"""Check that the psbt input has only the expected keys."""
|
|
assert_equal(set(keys), set(psbt_input.keys()))
|
|
|
|
# Create a PSBT. None of the inputs are filled initially
|
|
psbt = self.nodes[1].createpsbt([{"txid":txid1, "vout":vout1},{"txid":txid2, "vout":vout2},{"txid":txid3, "vout":vout3}], {self.nodes[0].getnewaddress():32.999})
|
|
decoded = self.nodes[1].decodepsbt(psbt)
|
|
test_psbt_input_keys(decoded['inputs'][0], [])
|
|
test_psbt_input_keys(decoded['inputs'][1], [])
|
|
test_psbt_input_keys(decoded['inputs'][2], [])
|
|
|
|
# Update a PSBT with UTXOs from the node
|
|
# Bech32 inputs should be filled with witness UTXO. Other inputs should not be filled because they are non-witness
|
|
updated = self.nodes[1].utxoupdatepsbt(psbt)
|
|
decoded = self.nodes[1].decodepsbt(updated)
|
|
test_psbt_input_keys(decoded['inputs'][0], ['witness_utxo'])
|
|
test_psbt_input_keys(decoded['inputs'][1], [])
|
|
test_psbt_input_keys(decoded['inputs'][2], [])
|
|
|
|
# Try again, now while providing descriptors, making P2SH-segwit work, and causing bip32_derivs and redeem_script to be filled in
|
|
descs = [self.nodes[1].getaddressinfo(addr)['desc'] for addr in [addr1,addr2,addr3]]
|
|
updated = self.nodes[1].utxoupdatepsbt(psbt=psbt, descriptors=descs)
|
|
decoded = self.nodes[1].decodepsbt(updated)
|
|
test_psbt_input_keys(decoded['inputs'][0], ['witness_utxo', 'bip32_derivs'])
|
|
test_psbt_input_keys(decoded['inputs'][1], [])
|
|
test_psbt_input_keys(decoded['inputs'][2], ['witness_utxo', 'bip32_derivs', 'redeem_script'])
|
|
|
|
# Two PSBTs with a common input should not be joinable
|
|
psbt1 = self.nodes[1].createpsbt([{"txid":txid1, "vout":vout1}], {self.nodes[0].getnewaddress():Decimal('10.999')})
|
|
assert_raises_rpc_error(-8, "exists in multiple PSBTs", self.nodes[1].joinpsbts, [psbt1, updated])
|
|
|
|
# Join two distinct PSBTs
|
|
addr4 = self.nodes[1].getnewaddress("", "p2sh-segwit")
|
|
txid4 = self.nodes[0].sendtoaddress(addr4, 5)
|
|
vout4 = find_output(self.nodes[0], txid4, 5)
|
|
self.nodes[0].generate(6)
|
|
self.sync_all()
|
|
psbt2 = self.nodes[1].createpsbt([{"txid":txid4, "vout":vout4}], {self.nodes[0].getnewaddress():Decimal('4.999')})
|
|
psbt2 = self.nodes[1].walletprocesspsbt(psbt2)['psbt']
|
|
psbt2_decoded = self.nodes[0].decodepsbt(psbt2)
|
|
assert "final_scriptwitness" in psbt2_decoded['inputs'][0] and "final_scriptSig" in psbt2_decoded['inputs'][0]
|
|
joined = self.nodes[0].joinpsbts([psbt, psbt2])
|
|
joined_decoded = self.nodes[0].decodepsbt(joined)
|
|
assert len(joined_decoded['inputs']) == 4 and len(joined_decoded['outputs']) == 2 and "final_scriptwitness" not in joined_decoded['inputs'][3] and "final_scriptSig" not in joined_decoded['inputs'][3]
|
|
|
|
# Check that joining shuffles the inputs and outputs
|
|
# 10 attempts should be enough to get a shuffled join
|
|
shuffled = False
|
|
for i in range(0, 10):
|
|
shuffled_joined = self.nodes[0].joinpsbts([psbt, psbt2])
|
|
shuffled |= joined != shuffled_joined
|
|
if shuffled:
|
|
break
|
|
assert shuffled
|
|
|
|
# Newly created PSBT needs UTXOs and updating
|
|
addr = self.nodes[1].getnewaddress("", "p2sh-segwit")
|
|
txid = self.nodes[0].sendtoaddress(addr, 7)
|
|
addrinfo = self.nodes[1].getaddressinfo(addr)
|
|
blockhash = self.nodes[0].generate(6)[0]
|
|
self.sync_all()
|
|
vout = find_output(self.nodes[0], txid, 7, blockhash=blockhash)
|
|
psbt = self.nodes[1].createpsbt([{"txid":txid, "vout":vout}], {self.nodes[0].getnewaddress("", "p2sh-segwit"):Decimal('6.999')})
|
|
analyzed = self.nodes[0].analyzepsbt(psbt)
|
|
assert not analyzed['inputs'][0]['has_utxo'] and not analyzed['inputs'][0]['is_final'] and analyzed['inputs'][0]['next'] == 'updater' and analyzed['next'] == 'updater'
|
|
|
|
# After update with wallet, only needs signing
|
|
updated = self.nodes[1].walletprocesspsbt(psbt, False, 'ALL', True)['psbt']
|
|
analyzed = self.nodes[0].analyzepsbt(updated)
|
|
assert analyzed['inputs'][0]['has_utxo'] and not analyzed['inputs'][0]['is_final'] and analyzed['inputs'][0]['next'] == 'signer' and analyzed['next'] == 'signer' and analyzed['inputs'][0]['missing']['signatures'][0] == addrinfo['embedded']['witness_program']
|
|
|
|
# Check fee and size things
|
|
assert analyzed['fee'] == Decimal('0.001') and analyzed['estimated_vsize'] == 134 and analyzed['estimated_feerate'] == Decimal('0.00746268')
|
|
|
|
# After signing and finalizing, needs extracting
|
|
signed = self.nodes[1].walletprocesspsbt(updated)['psbt']
|
|
analyzed = self.nodes[0].analyzepsbt(signed)
|
|
assert analyzed['inputs'][0]['has_utxo'] and analyzed['inputs'][0]['is_final'] and analyzed['next'] == 'extractor'
|
|
|
|
self.log.info("PSBT spending unspendable outputs should have error message and Creator as next")
|
|
analysis = self.nodes[0].analyzepsbt('cHNidP8BAJoCAAAAAljoeiG1ba8MI76OcHBFbDNvfLqlyHV5JPVFiHuyq911AAAAAAD/////g40EJ9DsZQpoqka7CwmK6kQiwHGyyng1Kgd5WdB86h0BAAAAAP////8CcKrwCAAAAAAWAEHYXCtx0AYLCcmIauuBXlCZHdoSTQDh9QUAAAAAFv8/wADXYP/7//////8JxOh0LR2HAI8AAAAAAAEBIADC6wsAAAAAF2oUt/X69ELjeX2nTof+fZ10l+OyAokDAQcJAwEHEAABAACAAAEBIADC6wsAAAAAF2oUt/X69ELjeX2nTof+fZ10l+OyAokDAQcJAwEHENkMak8AAAAA')
|
|
assert_equal(analysis['next'], 'creator')
|
|
assert_equal(analysis['error'], 'PSBT is not valid. Input 0 spends unspendable output')
|
|
|
|
self.log.info("PSBT with invalid values should have error message and Creator as next")
|
|
analysis = self.nodes[0].analyzepsbt('cHNidP8BAHECAAAAAfA00BFgAm6tp86RowwH6BMImQNL5zXUcTT97XoLGz0BAAAAAAD/////AgD5ApUAAAAAFgAUKNw0x8HRctAgmvoevm4u1SbN7XL87QKVAAAAABYAFPck4gF7iL4NL4wtfRAKgQbghiTUAAAAAAABAR8AgIFq49AHABYAFJUDtxf2PHo641HEOBOAIvFMNTr2AAAA')
|
|
assert_equal(analysis['next'], 'creator')
|
|
assert_equal(analysis['error'], 'PSBT is not valid. Input 0 has invalid value')
|
|
|
|
self.log.info("PSBT with signed, but not finalized, inputs should have Finalizer as next")
|
|
analysis = self.nodes[0].analyzepsbt('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')
|
|
assert_equal(analysis['next'], 'finalizer')
|
|
|
|
analysis = self.nodes[0].analyzepsbt('cHNidP8BAHECAAAAAfA00BFgAm6tp86RowwH6BMImQNL5zXUcTT97XoLGz0BAAAAAAD/////AgCAgWrj0AcAFgAUKNw0x8HRctAgmvoevm4u1SbN7XL87QKVAAAAABYAFPck4gF7iL4NL4wtfRAKgQbghiTUAAAAAAABAR8A8gUqAQAAABYAFJUDtxf2PHo641HEOBOAIvFMNTr2AAAA')
|
|
assert_equal(analysis['next'], 'creator')
|
|
assert_equal(analysis['error'], 'PSBT is not valid. Output amount invalid')
|
|
|
|
analysis = self.nodes[0].analyzepsbt('cHNidP8BAJoCAAAAAkvEW8NnDtdNtDpsmze+Ht2LH35IJcKv00jKAlUs21RrAwAAAAD/////S8Rbw2cO1020OmybN74e3Ysffkglwq/TSMoCVSzbVGsBAAAAAP7///8CwLYClQAAAAAWABSNJKzjaUb3uOxixsvh1GGE3fW7zQD5ApUAAAAAFgAUKNw0x8HRctAgmvoevm4u1SbN7XIAAAAAAAEAnQIAAAACczMa321tVHuN4GKWKRncycI22aX3uXgwSFUKM2orjRsBAAAAAP7///9zMxrfbW1Ue43gYpYpGdzJwjbZpfe5eDBIVQozaiuNGwAAAAAA/v///wIA+QKVAAAAABl2qRT9zXUVA8Ls5iVqynLHe5/vSe1XyYisQM0ClQAAAAAWABRmWQUcjSjghQ8/uH4Bn/zkakwLtAAAAAAAAQEfQM0ClQAAAAAWABRmWQUcjSjghQ8/uH4Bn/zkakwLtAAAAA==')
|
|
assert_equal(analysis['next'], 'creator')
|
|
assert_equal(analysis['error'], 'PSBT is not valid. Input 0 specifies invalid prevout')
|
|
|
|
assert_raises_rpc_error(-25, 'Missing inputs', self.nodes[0].walletprocesspsbt, 'cHNidP8BAJoCAAAAAkvEW8NnDtdNtDpsmze+Ht2LH35IJcKv00jKAlUs21RrAwAAAAD/////S8Rbw2cO1020OmybN74e3Ysffkglwq/TSMoCVSzbVGsBAAAAAP7///8CwLYClQAAAAAWABSNJKzjaUb3uOxixsvh1GGE3fW7zQD5ApUAAAAAFgAUKNw0x8HRctAgmvoevm4u1SbN7XIAAAAAAAEAnQIAAAACczMa321tVHuN4GKWKRncycI22aX3uXgwSFUKM2orjRsBAAAAAP7///9zMxrfbW1Ue43gYpYpGdzJwjbZpfe5eDBIVQozaiuNGwAAAAAA/v///wIA+QKVAAAAABl2qRT9zXUVA8Ls5iVqynLHe5/vSe1XyYisQM0ClQAAAAAWABRmWQUcjSjghQ8/uH4Bn/zkakwLtAAAAAAAAQEfQM0ClQAAAAAWABRmWQUcjSjghQ8/uH4Bn/zkakwLtAAAAA==')
|
|
|
|
if __name__ == '__main__':
|
|
PSBTTest().main()
|