/
wallet_listnotes.py
executable file
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/
wallet_listnotes.py
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#!/usr/bin/env python
# Copyright (c) 2018 The Zcash developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
import sys; assert sys.version_info < (3,), ur"This script does not run under Python 3. Please use Python 2.7.x."
from test_framework.test_framework import BitcoinTestFramework
from test_framework.util import (
assert_equal,
get_coinbase_address,
start_nodes,
wait_and_assert_operationid_status,
)
from decimal import Decimal
# Test wallet z_listunspent behaviour across network upgrades
class WalletListNotes(BitcoinTestFramework):
def setup_nodes(self):
return start_nodes(4, self.options.tmpdir, [[
'-nuparams=5ba81b19:202', # Overwinter
'-nuparams=76b809bb:214', # Sapling
]] * 4)
def run_test(self):
# Current height = 200 -> Sprout
assert_equal(200, self.nodes[0].getblockcount())
sproutzaddr = self.nodes[0].z_getnewaddress('sprout')
# test that we can create a sapling zaddr before sapling activates
saplingzaddr = self.nodes[0].z_getnewaddress('sapling')
# we've got lots of coinbase (taddr) but no shielded funds yet
assert_equal(0, Decimal(self.nodes[0].z_gettotalbalance()['private']))
# Set current height to 201 -> Sprout
self.nodes[0].generate(1)
self.sync_all()
assert_equal(201, self.nodes[0].getblockcount())
# Shield coinbase funds (must be a multiple of 10, no change allowed pre-sapling)
receive_amount_10 = Decimal('10.0') - Decimal('0.0001')
recipients = [{"address":sproutzaddr, "amount":receive_amount_10}]
myopid = self.nodes[0].z_sendmany(get_coinbase_address(self.nodes[0], 1), recipients)
txid_1 = wait_and_assert_operationid_status(self.nodes[0], myopid)
self.sync_all()
# No funds (with (default) one or more confirmations) in sproutzaddr yet
assert_equal(0, len(self.nodes[0].z_listunspent()))
assert_equal(0, len(self.nodes[0].z_listunspent(1)))
# no private balance because no confirmations yet
assert_equal(0, Decimal(self.nodes[0].z_gettotalbalance()['private']))
# list private unspent, this time allowing 0 confirmations
unspent_cb = self.nodes[0].z_listunspent(0)
assert_equal(1, len(unspent_cb))
assert_equal(False, unspent_cb[0]['change'])
assert_equal(txid_1, unspent_cb[0]['txid'])
assert_equal(True, unspent_cb[0]['spendable'])
assert_equal(sproutzaddr, unspent_cb[0]['address'])
assert_equal(receive_amount_10, unspent_cb[0]['amount'])
# list unspent, filtering by address, should produce same result
unspent_cb_filter = self.nodes[0].z_listunspent(0, 9999, False, [sproutzaddr])
assert_equal(unspent_cb, unspent_cb_filter)
# Generate a block to confirm shield coinbase tx
self.nodes[0].generate(1)
self.sync_all()
# Current height = 202 -> Overwinter. Default address type remains Sprout
assert_equal(202, self.nodes[0].getblockcount())
# Send 1.0 (actually 0.9999) from sproutzaddr to a new zaddr
sproutzaddr2 = self.nodes[0].z_getnewaddress('sprout')
receive_amount_1 = Decimal('1.0') - Decimal('0.0001')
change_amount_9 = receive_amount_10 - Decimal('1.0')
assert_equal('sprout', self.nodes[0].z_validateaddress(sproutzaddr2)['type'])
recipients = [{"address": sproutzaddr2, "amount":receive_amount_1}]
myopid = self.nodes[0].z_sendmany(sproutzaddr, recipients)
txid_2 = wait_and_assert_operationid_status(self.nodes[0], myopid)
self.sync_all()
# list unspent, allowing 0conf txs
unspent_tx = self.nodes[0].z_listunspent(0)
assert_equal(len(unspent_tx), 2)
# sort low-to-high by amount (order of returned entries is not guaranteed)
unspent_tx = sorted(unspent_tx, key=lambda k: k['amount'])
assert_equal(False, unspent_tx[0]['change'])
assert_equal(txid_2, unspent_tx[0]['txid'])
assert_equal(True, unspent_tx[0]['spendable'])
assert_equal(sproutzaddr2, unspent_tx[0]['address'])
assert_equal(receive_amount_1, unspent_tx[0]['amount'])
assert_equal(True, unspent_tx[1]['change'])
assert_equal(txid_2, unspent_tx[1]['txid'])
assert_equal(True, unspent_tx[1]['spendable'])
assert_equal(sproutzaddr, unspent_tx[1]['address'])
assert_equal(change_amount_9, unspent_tx[1]['amount'])
unspent_tx_filter = self.nodes[0].z_listunspent(0, 9999, False, [sproutzaddr2])
assert_equal(1, len(unspent_tx_filter))
assert_equal(unspent_tx[0], unspent_tx_filter[0])
unspent_tx_filter = self.nodes[0].z_listunspent(0, 9999, False, [sproutzaddr])
assert_equal(1, len(unspent_tx_filter))
assert_equal(unspent_tx[1], unspent_tx_filter[0])
# Set current height to 204 -> Sapling
self.nodes[0].generate(12)
self.sync_all()
assert_equal(214, self.nodes[0].getblockcount())
# No funds in saplingzaddr yet
assert_equal(0, len(self.nodes[0].z_listunspent(0, 9999, False, [saplingzaddr])))
# Send 0.9999 to our sapling zaddr
# (sending from a sprout zaddr to a sapling zaddr is disallowed,
# so send from coin base)
receive_amount_2 = Decimal('2.0') - Decimal('0.0001')
recipients = [{"address": saplingzaddr, "amount":receive_amount_2}]
myopid = self.nodes[0].z_sendmany(get_coinbase_address(self.nodes[0], 1), recipients)
txid_3 = wait_and_assert_operationid_status(self.nodes[0], myopid)
self.sync_all()
unspent_tx = self.nodes[0].z_listunspent(0)
assert_equal(3, len(unspent_tx))
# low-to-high in amount
unspent_tx = sorted(unspent_tx, key=lambda k: k['amount'])
assert_equal(False, unspent_tx[0]['change'])
assert_equal(txid_2, unspent_tx[0]['txid'])
assert_equal(True, unspent_tx[0]['spendable'])
assert_equal(sproutzaddr2, unspent_tx[0]['address'])
assert_equal(receive_amount_1, unspent_tx[0]['amount'])
assert_equal(False, unspent_tx[1]['change'])
assert_equal(txid_3, unspent_tx[1]['txid'])
assert_equal(True, unspent_tx[1]['spendable'])
assert_equal(saplingzaddr, unspent_tx[1]['address'])
assert_equal(receive_amount_2, unspent_tx[1]['amount'])
assert_equal(True, unspent_tx[2]['change'])
assert_equal(txid_2, unspent_tx[2]['txid'])
assert_equal(True, unspent_tx[2]['spendable'])
assert_equal(sproutzaddr, unspent_tx[2]['address'])
assert_equal(change_amount_9, unspent_tx[2]['amount'])
unspent_tx_filter = self.nodes[0].z_listunspent(0, 9999, False, [saplingzaddr])
assert_equal(1, len(unspent_tx_filter))
assert_equal(unspent_tx[1], unspent_tx_filter[0])
# test that pre- and post-sapling can be filtered in a single call
unspent_tx_filter = self.nodes[0].z_listunspent(0, 9999, False,
[sproutzaddr, saplingzaddr])
assert_equal(2, len(unspent_tx_filter))
unspent_tx_filter = sorted(unspent_tx_filter, key=lambda k: k['amount'])
assert_equal(unspent_tx[1], unspent_tx_filter[0])
assert_equal(unspent_tx[2], unspent_tx_filter[1])
# so far, this node has no watchonly addresses, so results are the same
unspent_tx_watchonly = self.nodes[0].z_listunspent(0, 9999, True)
unspent_tx_watchonly = sorted(unspent_tx_watchonly, key=lambda k: k['amount'])
assert_equal(unspent_tx, unspent_tx_watchonly)
# TODO: use z_exportviewingkey, z_importviewingkey to test includeWatchonly
# but this requires Sapling support for those RPCs
if __name__ == '__main__':
WalletListNotes().main()