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|
#!/usr/bin/env python3
# Copyright (c) 2020-2022 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 the send RPC command."""
from decimal import Decimal, getcontext
from itertools import product
from test_framework.authproxy import JSONRPCException
from test_framework.descriptors import descsum_create
from test_framework.test_framework import BitcoinTestFramework
from test_framework.util import (
assert_equal,
assert_fee_amount,
assert_greater_than,
assert_raises_rpc_error,
count_bytes,
)
from test_framework.wallet_util import (
calculate_input_weight,
generate_keypair,
)
class WalletSendTest(BitcoinTestFramework):
def add_options(self, parser):
self.add_wallet_options(parser)
def set_test_params(self):
self.num_nodes = 2
# whitelist peers to speed up tx relay / mempool sync
self.noban_tx_relay = True
self.extra_args = [
["-walletrbf=1"],
["-walletrbf=1"]
]
getcontext().prec = 8 # Satoshi precision for Decimal
def skip_test_if_missing_module(self):
self.skip_if_no_wallet()
def test_send(self, from_wallet, to_wallet=None, amount=None, data=None,
arg_conf_target=None, arg_estimate_mode=None, arg_fee_rate=None,
conf_target=None, estimate_mode=None, fee_rate=None, add_to_wallet=None, psbt=None,
inputs=None, add_inputs=None, include_unsafe=None, change_address=None, change_position=None, change_type=None,
include_watching=None, locktime=None, lock_unspents=None, replaceable=None, subtract_fee_from_outputs=None,
expect_error=None, solving_data=None, minconf=None):
assert (amount is None) != (data is None)
from_balance_before = from_wallet.getbalances()["mine"]["trusted"]
if include_unsafe:
from_balance_before += from_wallet.getbalances()["mine"]["untrusted_pending"]
if to_wallet is None:
assert amount is None
else:
to_untrusted_pending_before = to_wallet.getbalances()["mine"]["untrusted_pending"]
if amount:
dest = to_wallet.getnewaddress()
outputs = {dest: amount}
else:
outputs = {"data": data}
# Construct options dictionary
options = {}
if add_to_wallet is not None:
options["add_to_wallet"] = add_to_wallet
else:
if psbt:
add_to_wallet = False
else:
add_to_wallet = from_wallet.getwalletinfo()["private_keys_enabled"] # Default value
if psbt is not None:
options["psbt"] = psbt
if conf_target is not None:
options["conf_target"] = conf_target
if estimate_mode is not None:
options["estimate_mode"] = estimate_mode
if fee_rate is not None:
options["fee_rate"] = fee_rate
if inputs is not None:
options["inputs"] = inputs
if add_inputs is not None:
options["add_inputs"] = add_inputs
if include_unsafe is not None:
options["include_unsafe"] = include_unsafe
if change_address is not None:
options["change_address"] = change_address
if change_position is not None:
options["change_position"] = change_position
if change_type is not None:
options["change_type"] = change_type
if include_watching is not None:
options["include_watching"] = include_watching
if locktime is not None:
options["locktime"] = locktime
if lock_unspents is not None:
options["lock_unspents"] = lock_unspents
if replaceable is None:
replaceable = True # default
else:
options["replaceable"] = replaceable
if subtract_fee_from_outputs is not None:
options["subtract_fee_from_outputs"] = subtract_fee_from_outputs
if solving_data is not None:
options["solving_data"] = solving_data
if minconf is not None:
options["minconf"] = minconf
if len(options.keys()) == 0:
options = None
if expect_error is None:
res = from_wallet.send(outputs=outputs, conf_target=arg_conf_target, estimate_mode=arg_estimate_mode, fee_rate=arg_fee_rate, options=options)
else:
try:
assert_raises_rpc_error(expect_error[0], expect_error[1], from_wallet.send,
outputs=outputs, conf_target=arg_conf_target, estimate_mode=arg_estimate_mode, fee_rate=arg_fee_rate, options=options)
except AssertionError:
# Provide debug info if the test fails
self.log.error("Unexpected successful result:")
self.log.error(arg_conf_target)
self.log.error(arg_estimate_mode)
self.log.error(arg_fee_rate)
self.log.error(options)
res = from_wallet.send(outputs=outputs, conf_target=arg_conf_target, estimate_mode=arg_estimate_mode, fee_rate=arg_fee_rate, options=options)
self.log.error(res)
if "txid" in res and add_to_wallet:
self.log.error("Transaction details:")
try:
tx = from_wallet.gettransaction(res["txid"])
self.log.error(tx)
self.log.error("testmempoolaccept (transaction may already be in mempool):")
self.log.error(from_wallet.testmempoolaccept([tx["hex"]]))
except JSONRPCException as exc:
self.log.error(exc)
raise
return
if locktime:
return res
if from_wallet.getwalletinfo()["private_keys_enabled"] and not include_watching:
assert_equal(res["complete"], True)
assert "txid" in res
else:
assert_equal(res["complete"], False)
assert not "txid" in res
assert "psbt" in res
from_balance = from_wallet.getbalances()["mine"]["trusted"]
if include_unsafe:
from_balance += from_wallet.getbalances()["mine"]["untrusted_pending"]
if add_to_wallet and not include_watching:
# Ensure transaction exists in the wallet:
tx = from_wallet.gettransaction(res["txid"])
assert tx
assert_equal(tx["bip125-replaceable"], "yes" if replaceable else "no")
# Ensure transaction exists in the mempool:
tx = from_wallet.getrawtransaction(res["txid"], True)
assert tx
if amount:
if subtract_fee_from_outputs:
assert_equal(from_balance_before - from_balance, amount)
else:
assert_greater_than(from_balance_before - from_balance, amount)
else:
assert next((out for out in tx["vout"] if out["scriptPubKey"]["asm"] == "OP_RETURN 35"), None)
else:
assert_equal(from_balance_before, from_balance)
if to_wallet:
self.sync_mempools()
if add_to_wallet:
if not subtract_fee_from_outputs:
assert_equal(to_wallet.getbalances()["mine"]["untrusted_pending"], to_untrusted_pending_before + Decimal(amount if amount else 0))
else:
assert_equal(to_wallet.getbalances()["mine"]["untrusted_pending"], to_untrusted_pending_before)
return res
def run_test(self):
self.log.info("Setup wallets...")
# w0 is a wallet with coinbase rewards
w0 = self.nodes[0].get_wallet_rpc(self.default_wallet_name)
# w1 is a regular wallet
self.nodes[1].createwallet(wallet_name="w1")
w1 = self.nodes[1].get_wallet_rpc("w1")
# w2 contains the private keys for w3
self.nodes[1].createwallet(wallet_name="w2", blank=True)
w2 = self.nodes[1].get_wallet_rpc("w2")
xpriv = "tprv8ZgxMBicQKsPfHCsTwkiM1KT56RXbGGTqvc2hgqzycpwbHqqpcajQeMRZoBD35kW4RtyCemu6j34Ku5DEspmgjKdt2qe4SvRch5Kk8B8A2v"
xpub = "tpubD6NzVbkrYhZ4YkEfMbRJkQyZe7wTkbTNRECozCtJPtdLRn6cT1QKb8yHjwAPcAr26eHBFYs5iLiFFnCbwPRsncCKUKCfubHDMGKzMVcN1Jg"
if self.options.descriptors:
w2.importdescriptors([{
"desc": descsum_create("wpkh(" + xpriv + "/0/0/*)"),
"timestamp": "now",
"range": [0, 100],
"active": True
},{
"desc": descsum_create("wpkh(" + xpriv + "/0/1/*)"),
"timestamp": "now",
"range": [0, 100],
"active": True,
"internal": True
}])
else:
w2.sethdseed(True)
# w3 is a watch-only wallet, based on w2
self.nodes[1].createwallet(wallet_name="w3", disable_private_keys=True)
w3 = self.nodes[1].get_wallet_rpc("w3")
if self.options.descriptors:
# Match the privkeys in w2 for descriptors
res = w3.importdescriptors([{
"desc": descsum_create("wpkh(" + xpub + "/0/0/*)"),
"timestamp": "now",
"range": [0, 100],
"keypool": True,
"active": True,
"watchonly": True
},{
"desc": descsum_create("wpkh(" + xpub + "/0/1/*)"),
"timestamp": "now",
"range": [0, 100],
"keypool": True,
"active": True,
"internal": True,
"watchonly": True
}])
assert_equal(res, [{"success": True}, {"success": True}])
for _ in range(3):
a2_receive = w2.getnewaddress()
if not self.options.descriptors:
# Because legacy wallets use exclusively hardened derivation, we can't do a ranged import like we do for descriptors
a2_change = w2.getrawchangeaddress() # doesn't actually use change derivation
res = w3.importmulti([{
"desc": w2.getaddressinfo(a2_receive)["desc"],
"timestamp": "now",
"keypool": True,
"watchonly": True
},{
"desc": w2.getaddressinfo(a2_change)["desc"],
"timestamp": "now",
"keypool": True,
"internal": True,
"watchonly": True
}])
assert_equal(res, [{"success": True}, {"success": True}])
w0.sendtoaddress(a2_receive, 10) # fund w3
self.generate(self.nodes[0], 1)
if not self.options.descriptors:
# w4 has private keys enabled, but only contains watch-only keys (from w2)
# This is legacy wallet behavior only as descriptor wallets don't allow watchonly and non-watchonly things in the same wallet.
self.nodes[1].createwallet(wallet_name="w4", disable_private_keys=False)
w4 = self.nodes[1].get_wallet_rpc("w4")
for _ in range(3):
a2_receive = w2.getnewaddress()
res = w4.importmulti([{
"desc": w2.getaddressinfo(a2_receive)["desc"],
"timestamp": "now",
"keypool": False,
"watchonly": True
}])
assert_equal(res, [{"success": True}])
w0.sendtoaddress(a2_receive, 10) # fund w4
self.generate(self.nodes[0], 1)
self.log.info("Send to address...")
self.test_send(from_wallet=w0, to_wallet=w1, amount=1)
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, add_to_wallet=True)
self.log.info("Don't broadcast...")
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, add_to_wallet=False)
assert res["hex"]
self.log.info("Return PSBT...")
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, psbt=True)
assert res["psbt"]
self.log.info("Create transaction that spends to address, but don't broadcast...")
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, add_to_wallet=False)
# conf_target & estimate_mode can be set as argument or option
res1 = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_conf_target=1, arg_estimate_mode="economical", add_to_wallet=False)
res2 = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, conf_target=1, estimate_mode="economical", add_to_wallet=False)
assert_equal(self.nodes[1].decodepsbt(res1["psbt"])["fee"],
self.nodes[1].decodepsbt(res2["psbt"])["fee"])
# but not at the same time
for mode in ["unset", "economical", "conservative"]:
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_conf_target=1, arg_estimate_mode="economical",
conf_target=1, estimate_mode=mode, add_to_wallet=False,
expect_error=(-8, "Pass conf_target and estimate_mode either as arguments or in the options object, but not both"))
self.log.info("Create PSBT from watch-only wallet w3, sign with w2...")
res = self.test_send(from_wallet=w3, to_wallet=w1, amount=1)
res = w2.walletprocesspsbt(res["psbt"])
assert res["complete"]
if not self.options.descriptors:
# Descriptor wallets do not allow mixed watch-only and non-watch-only things in the same wallet.
# This is specifically testing that w4 ignores its own private keys and creates a psbt with send
# which is not something that needs to be tested in descriptor wallets.
self.log.info("Create PSBT from wallet w4 with watch-only keys, sign with w2...")
self.test_send(from_wallet=w4, to_wallet=w1, amount=1, expect_error=(-4, "Insufficient funds"))
res = self.test_send(from_wallet=w4, to_wallet=w1, amount=1, include_watching=True, add_to_wallet=False)
res = w2.walletprocesspsbt(res["psbt"])
assert res["complete"]
self.log.info("Create OP_RETURN...")
self.test_send(from_wallet=w0, to_wallet=w1, amount=1)
self.test_send(from_wallet=w0, data="Hello World", expect_error=(-8, "Data must be hexadecimal string (not 'Hello World')"))
self.test_send(from_wallet=w0, data="23")
res = self.test_send(from_wallet=w3, data="23")
res = w2.walletprocesspsbt(res["psbt"])
assert res["complete"]
self.log.info("Test setting explicit fee rate")
res1 = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate="1", add_to_wallet=False)
res2 = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate="1", add_to_wallet=False)
assert_equal(self.nodes[1].decodepsbt(res1["psbt"])["fee"], self.nodes[1].decodepsbt(res2["psbt"])["fee"])
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate=7, add_to_wallet=False)
fee = self.nodes[1].decodepsbt(res["psbt"])["fee"]
assert_fee_amount(fee, count_bytes(res["hex"]), Decimal("0.00007"))
# "unset" and None are treated the same for estimate_mode
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate=2, estimate_mode="unset", add_to_wallet=False)
fee = self.nodes[1].decodepsbt(res["psbt"])["fee"]
assert_fee_amount(fee, count_bytes(res["hex"]), Decimal("0.00002"))
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=4.531, add_to_wallet=False)
fee = self.nodes[1].decodepsbt(res["psbt"])["fee"]
assert_fee_amount(fee, count_bytes(res["hex"]), Decimal("0.00004531"))
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=3, add_to_wallet=False)
fee = self.nodes[1].decodepsbt(res["psbt"])["fee"]
assert_fee_amount(fee, count_bytes(res["hex"]), Decimal("0.00003"))
# Test that passing fee_rate as both an argument and an option raises.
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=1, fee_rate=1, add_to_wallet=False,
expect_error=(-8, "Pass the fee_rate either as an argument, or in the options object, but not both"))
assert_raises_rpc_error(-8, "Use fee_rate (sat/vB) instead of feeRate", w0.send, {w1.getnewaddress(): 1}, 6, "conservative", 1, {"feeRate": 0.01})
assert_raises_rpc_error(-3, "Unexpected key totalFee", w0.send, {w1.getnewaddress(): 1}, 6, "conservative", 1, {"totalFee": 0.01})
for target, mode in product([-1, 0, 1009], ["economical", "conservative"]):
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, conf_target=target, estimate_mode=mode,
expect_error=(-8, "Invalid conf_target, must be between 1 and 1008")) # max value of 1008 per src/policy/fees.h
msg = 'Invalid estimate_mode parameter, must be one of: "unset", "economical", "conservative"'
for target, mode in product([-1, 0], ["btc/kb", "sat/b"]):
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, conf_target=target, estimate_mode=mode, expect_error=(-8, msg))
for mode in ["", "foo", Decimal("3.141592")]:
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, conf_target=0.1, estimate_mode=mode, expect_error=(-8, msg))
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_conf_target=0.1, arg_estimate_mode=mode, expect_error=(-8, msg))
assert_raises_rpc_error(-8, msg, w0.send, {w1.getnewaddress(): 1}, 0.1, mode)
for mode in ["economical", "conservative"]:
for k, v in {"string": "true", "bool": True, "object": {"foo": "bar"}}.items():
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, conf_target=v, estimate_mode=mode,
expect_error=(-3, f"JSON value of type {k} for field conf_target is not of expected type number"))
# Test setting explicit fee rate just below the minimum of 1 sat/vB.
self.log.info("Explicit fee rate raises RPC error 'fee rate too low' if fee_rate of 0.99999999 is passed")
msg = "Fee rate (0.999 sat/vB) is lower than the minimum fee rate setting (1.000 sat/vB)"
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate=0.999, expect_error=(-4, msg))
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=0.999, expect_error=(-4, msg))
self.log.info("Explicit fee rate raises if invalid fee_rate is passed")
# Test fee_rate with zero values.
msg = "Fee rate (0.000 sat/vB) is lower than the minimum fee rate setting (1.000 sat/vB)"
for zero_value in [0, 0.000, 0.00000000, "0", "0.000", "0.00000000"]:
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate=zero_value, expect_error=(-4, msg))
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=zero_value, expect_error=(-4, msg))
msg = "Invalid amount"
# Test fee_rate values that don't pass fixed-point parsing checks.
for invalid_value in ["", 0.000000001, 1e-09, 1.111111111, 1111111111111111, "31.999999999999999999999"]:
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate=invalid_value, expect_error=(-3, msg))
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=invalid_value, expect_error=(-3, msg))
# Test fee_rate values that cannot be represented in sat/vB.
for invalid_value in [0.0001, 0.00000001, 0.00099999, 31.99999999]:
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate=invalid_value, expect_error=(-3, msg))
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=invalid_value, expect_error=(-3, msg))
# Test fee_rate out of range (negative number).
msg = "Amount out of range"
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate=-1, expect_error=(-3, msg))
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=-1, expect_error=(-3, msg))
# Test type error.
msg = "Amount is not a number or string"
for invalid_value in [True, {"foo": "bar"}]:
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, fee_rate=invalid_value, expect_error=(-3, msg))
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, arg_fee_rate=invalid_value, expect_error=(-3, msg))
# TODO: Return hex if fee rate is below -maxmempool
# res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, conf_target=0.1, estimate_mode="sat/b", add_to_wallet=False)
# assert res["hex"]
# hex = res["hex"]
# res = self.nodes[0].testmempoolaccept([hex])
# assert not res[0]["allowed"]
# assert_equal(res[0]["reject-reason"], "...") # low fee
# assert_fee_amount(fee, Decimal(len(res["hex"]) / 2), Decimal("0.000001"))
self.log.info("If inputs are specified, do not automatically add more...")
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=51, inputs=[], add_to_wallet=False)
assert res["complete"]
utxo1 = w0.listunspent()[0]
assert_equal(utxo1["amount"], 50)
ERR_NOT_ENOUGH_PRESET_INPUTS = "The preselected coins total amount does not cover the transaction target. " \
"Please allow other inputs to be automatically selected or include more coins manually"
self.test_send(from_wallet=w0, to_wallet=w1, amount=51, inputs=[utxo1],
expect_error=(-4, ERR_NOT_ENOUGH_PRESET_INPUTS))
self.test_send(from_wallet=w0, to_wallet=w1, amount=51, inputs=[utxo1], add_inputs=False,
expect_error=(-4, ERR_NOT_ENOUGH_PRESET_INPUTS))
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=51, inputs=[utxo1], add_inputs=True, add_to_wallet=False)
assert res["complete"]
self.log.info("Manual change address and position...")
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, change_address="not an address",
expect_error=(-5, "Change address must be a valid bitcoin address"))
change_address = w0.getnewaddress()
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, add_to_wallet=False, change_address=change_address)
assert res["complete"]
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, add_to_wallet=False, change_address=change_address, change_position=0)
assert res["complete"]
assert_equal(self.nodes[0].decodepsbt(res["psbt"])["tx"]["vout"][0]["scriptPubKey"]["address"], change_address)
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, add_to_wallet=False, change_type="legacy", change_position=0)
assert res["complete"]
change_address = self.nodes[0].decodepsbt(res["psbt"])["tx"]["vout"][0]["scriptPubKey"]["address"]
assert change_address[0] == "m" or change_address[0] == "n"
self.log.info("Set lock time...")
height = self.nodes[0].getblockchaininfo()["blocks"]
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, locktime=height + 1)
assert res["complete"]
assert res["txid"]
txid = res["txid"]
# Although the wallet finishes the transaction, it can't be added to the mempool yet:
hex = self.nodes[0].gettransaction(res["txid"])["hex"]
res = self.nodes[0].testmempoolaccept([hex])
assert not res[0]["allowed"]
assert_equal(res[0]["reject-reason"], "non-final")
# It shouldn't be confirmed in the next block
self.generate(self.nodes[0], 1)
assert_equal(self.nodes[0].gettransaction(txid)["confirmations"], 0)
# The mempool should allow it now:
res = self.nodes[0].testmempoolaccept([hex])
assert res[0]["allowed"]
# Don't wait for wallet to add it to the mempool:
res = self.nodes[0].sendrawtransaction(hex)
self.generate(self.nodes[0], 1)
assert_equal(self.nodes[0].gettransaction(txid)["confirmations"], 1)
self.log.info("Lock unspents...")
utxo1 = w0.listunspent()[0]
assert_greater_than(utxo1["amount"], 1)
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, inputs=[utxo1], add_to_wallet=False, lock_unspents=True)
assert res["complete"]
locked_coins = w0.listlockunspent()
assert_equal(len(locked_coins), 1)
# Locked coins are automatically unlocked when manually selected
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, inputs=[utxo1], add_to_wallet=False)
assert res["complete"]
self.log.info("Replaceable...")
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, add_to_wallet=True, replaceable=True)
assert res["complete"]
assert_equal(self.nodes[0].gettransaction(res["txid"])["bip125-replaceable"], "yes")
res = self.test_send(from_wallet=w0, to_wallet=w1, amount=1, add_to_wallet=True, replaceable=False)
assert res["complete"]
assert_equal(self.nodes[0].gettransaction(res["txid"])["bip125-replaceable"], "no")
self.log.info("Subtract fee from output")
self.test_send(from_wallet=w0, to_wallet=w1, amount=1, subtract_fee_from_outputs=[0])
self.log.info("Include unsafe inputs")
self.nodes[1].createwallet(wallet_name="w5")
w5 = self.nodes[1].get_wallet_rpc("w5")
self.test_send(from_wallet=w0, to_wallet=w5, amount=2)
self.test_send(from_wallet=w5, to_wallet=w0, amount=1, expect_error=(-4, "Insufficient funds"))
res = self.test_send(from_wallet=w5, to_wallet=w0, amount=1, include_unsafe=True)
assert res["complete"]
self.log.info("Minconf")
self.nodes[1].createwallet(wallet_name="minconfw")
minconfw= self.nodes[1].get_wallet_rpc("minconfw")
self.test_send(from_wallet=w0, to_wallet=minconfw, amount=2)
self.generate(self.nodes[0], 3)
self.test_send(from_wallet=minconfw, to_wallet=w0, amount=1, minconf=4, expect_error=(-4, "Insufficient funds"))
self.test_send(from_wallet=minconfw, to_wallet=w0, amount=1, minconf=-4, expect_error=(-8, "Negative minconf"))
res = self.test_send(from_wallet=minconfw, to_wallet=w0, amount=1, minconf=3)
assert res["complete"]
self.log.info("External outputs")
privkey, _ = generate_keypair(wif=True)
self.nodes[1].createwallet("extsend")
ext_wallet = self.nodes[1].get_wallet_rpc("extsend")
self.nodes[1].createwallet("extfund")
ext_fund = self.nodes[1].get_wallet_rpc("extfund")
# Make a weird but signable script. sh(wsh(pkh())) descriptor accomplishes this
desc = descsum_create("sh(wsh(pkh({})))".format(privkey))
if self.options.descriptors:
res = ext_fund.importdescriptors([{"desc": desc, "timestamp": "now"}])
else:
res = ext_fund.importmulti([{"desc": desc, "timestamp": "now"}])
assert res[0]["success"]
addr = self.nodes[0].deriveaddresses(desc)[0]
addr_info = ext_fund.getaddressinfo(addr)
self.nodes[0].sendtoaddress(addr, 10)
self.nodes[0].sendtoaddress(ext_wallet.getnewaddress(), 10)
self.generate(self.nodes[0], 6)
ext_utxo = ext_fund.listunspent(addresses=[addr])[0]
# An external input without solving data should result in an error
self.test_send(from_wallet=ext_wallet, to_wallet=self.nodes[0], amount=15, inputs=[ext_utxo], add_inputs=True, psbt=True, include_watching=True, expect_error=(-4, "Not solvable pre-selected input COutPoint(%s, %s)" % (ext_utxo["txid"][0:10], ext_utxo["vout"])))
# But funding should work when the solving data is provided
res = self.test_send(from_wallet=ext_wallet, to_wallet=self.nodes[0], amount=15, inputs=[ext_utxo], add_inputs=True, psbt=True, include_watching=True, solving_data={"pubkeys": [addr_info['pubkey']], "scripts": [addr_info["embedded"]["scriptPubKey"], addr_info["embedded"]["embedded"]["scriptPubKey"]]})
signed = ext_wallet.walletprocesspsbt(res["psbt"])
signed = ext_fund.walletprocesspsbt(res["psbt"])
assert signed["complete"]
res = self.test_send(from_wallet=ext_wallet, to_wallet=self.nodes[0], amount=15, inputs=[ext_utxo], add_inputs=True, psbt=True, include_watching=True, solving_data={"descriptors": [desc]})
signed = ext_wallet.walletprocesspsbt(res["psbt"])
signed = ext_fund.walletprocesspsbt(res["psbt"])
assert signed["complete"]
dec = self.nodes[0].decodepsbt(signed["psbt"])
for i, txin in enumerate(dec["tx"]["vin"]):
if txin["txid"] == ext_utxo["txid"] and txin["vout"] == ext_utxo["vout"]:
input_idx = i
break
psbt_in = dec["inputs"][input_idx]
scriptsig_hex = psbt_in["final_scriptSig"]["hex"] if "final_scriptSig" in psbt_in else ""
witness_stack_hex = psbt_in["final_scriptwitness"] if "final_scriptwitness" in psbt_in else None
input_weight = calculate_input_weight(scriptsig_hex, witness_stack_hex)
# Input weight error conditions
assert_raises_rpc_error(
-8,
"Input weights should be specified in inputs rather than in options.",
ext_wallet.send,
outputs={self.nodes[0].getnewaddress(): 15},
options={"inputs": [ext_utxo], "input_weights": [{"txid": ext_utxo["txid"], "vout": ext_utxo["vout"], "weight": 1000}]}
)
target_fee_rate_sat_vb = 10
# Funding should also work when input weights are provided
res = self.test_send(
from_wallet=ext_wallet,
to_wallet=self.nodes[0],
amount=15,
inputs=[{"txid": ext_utxo["txid"], "vout": ext_utxo["vout"], "weight": input_weight}],
add_inputs=True,
psbt=True,
include_watching=True,
fee_rate=target_fee_rate_sat_vb
)
signed = ext_wallet.walletprocesspsbt(res["psbt"])
signed = ext_fund.walletprocesspsbt(res["psbt"])
assert signed["complete"]
testres = self.nodes[0].testmempoolaccept([signed["hex"]])[0]
assert_equal(testres["allowed"], True)
actual_fee_rate_sat_vb = Decimal(testres["fees"]["base"]) * Decimal(1e8) / Decimal(testres["vsize"])
# Due to ECDSA signatures not always being the same length, the actual fee rate may be slightly different
# but rounded to nearest integer, it should be the same as the target fee rate
assert_equal(round(actual_fee_rate_sat_vb), target_fee_rate_sat_vb)
# Check tx creation size limits
self.test_weight_limits()
def test_weight_limits(self):
self.log.info("Test weight limits")
self.nodes[1].createwallet("test_weight_limits")
wallet = self.nodes[1].get_wallet_rpc("test_weight_limits")
# Generate future inputs; 272 WU per input (273 when high-s).
# Picking 1471 inputs will exceed the max standard tx weight.
outputs = []
for _ in range(1472):
outputs.append({wallet.getnewaddress(address_type="legacy"): 0.1})
self.nodes[0].send(outputs=outputs)
self.generate(self.nodes[0], 1)
# 1) Try to fund transaction only using the preset inputs
inputs = wallet.listunspent()
assert_raises_rpc_error(-4, "Transaction too large",
wallet.send, outputs=[{wallet.getnewaddress(): 0.1 * 1471}], options={"inputs": inputs, "add_inputs": False})
# 2) Let the wallet fund the transaction
assert_raises_rpc_error(-4, "The inputs size exceeds the maximum weight. Please try sending a smaller amount or manually consolidating your wallet's UTXOs",
wallet.send, outputs=[{wallet.getnewaddress(): 0.1 * 1471}])
# 3) Pre-select some inputs and let the wallet fill-up the remaining amount
inputs = inputs[0:1000]
assert_raises_rpc_error(-4, "The combination of the pre-selected inputs and the wallet automatic inputs selection exceeds the transaction maximum weight. Please try sending a smaller amount or manually consolidating your wallet's UTXOs",
wallet.send, outputs=[{wallet.getnewaddress(): 0.1 * 1471}], options={"inputs": inputs, "add_inputs": True})
self.nodes[1].unloadwallet("test_weight_limits")
if __name__ == '__main__':
WalletSendTest().main()
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