192 lines
8.3 KiB
Python
Executable File
192 lines
8.3 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2018 The Zcash developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or https://www.opensource.org/licenses/mit-license.php .
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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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connect_nodes_bi,
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start_nodes,
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stop_nodes,
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wait_bitcoinds,
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NU5_BRANCH_ID,
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)
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from test_framework.mininode import nuparams
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# Test wallet address behaviour across network upgrades
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class WalletAddressesTest(BitcoinTestFramework):
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def __init__(self):
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super().__init__()
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# need 2 nodes to import addresses
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self.num_nodes = 2
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self.cache_behavior = 'clean'
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def setup_network(self):
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self.nodes = start_nodes(
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self.num_nodes, self.options.tmpdir,
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extra_args=[[nuparams(NU5_BRANCH_ID, 2),]] * self.num_nodes)
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connect_nodes_bi(self.nodes, 0, 1)
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self.is_network_split = False
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self.sync_all()
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def list_addresses(self, node, expected_sources):
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addrs = self.nodes[node].listaddresses()
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sources = [s['source'] for s in addrs]
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# Sources should be unique.
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assert_equal(len(set(sources)), len(sources))
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assert_equal(set(sources), set(expected_sources))
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# Extract a list of all addresses from the output.
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all_addrs = [
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source.get('transparent', {}).get('addresses', []) +
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source.get('transparent', {}).get('changeAddresses', []) +
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source.get('sprout', {}).get('addresses', []) +
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[s['addresses'] for s in source.get('sapling', [])] +
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[[a['address'] for a in s['addresses']] for s in source.get('unified', [])]
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for source in addrs]
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all_addrs = [a for s in all_addrs for a in s]
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all_addrs = [a if type(a) == list else [a] for a in all_addrs]
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all_addrs = [a for s in all_addrs for a in s]
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assert_equal(len(set(all_addrs)), len(all_addrs), "Duplicates in listaddresses output: %s" % addrs)
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return addrs
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def run_test(self):
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def get_source(listed_addresses, source):
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return next(src for src in listed_addresses if src['source'] == source)
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print("Testing height 1 (Sapling)")
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self.nodes[0].generate(1)
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self.sync_all()
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assert_equal(self.nodes[0].getblockcount(), 1)
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listed_addresses = self.list_addresses(0, ['mnemonic_seed'])
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# There should be a single address from the coinbase, which was derived
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# from the mnemonic seed.
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assert 'transparent' in get_source(listed_addresses, 'mnemonic_seed')
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# If we import a t-address, we should see imported_watchonly as a source.
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taddr_import = self.nodes[1].getnewaddress()
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self.nodes[0].importaddress(taddr_import)
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listed_addresses = self.list_addresses(0, ['imported_watchonly', 'mnemonic_seed'])
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imported_watchonly_src = get_source(listed_addresses, 'imported_watchonly')
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assert_equal(imported_watchonly_src['transparent']['addresses'][0], taddr_import)
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account = self.nodes[0].z_getnewaccount()['account']
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sprout_1 = self.nodes[0].z_getnewaddress('sprout')
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sapling_1 = self.nodes[0].z_getnewaddress('sapling')
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unified_1 = self.nodes[0].z_getaddressforaccount(account)['address']
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types_and_addresses = [
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('sprout', sprout_1),
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('sapling', sapling_1),
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('unified', unified_1),
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]
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for addr_type, addr in types_and_addresses:
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res = self.nodes[0].z_validateaddress(addr)
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assert res['isvalid']
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# assert res['ismine'] # this isn't present for unified addresses
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assert_equal(res['type'], addr_type)
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# We should see the following sources:
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# - imported_watchonly (for the previously-imported t-addr)
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# - legacy_random (for the new Sprout address)
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# - mnemonic_seed (for the previous t-addrs and the new Sapling and Unified addrs)
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listed_addresses = self.list_addresses(0, ['imported_watchonly', 'legacy_random', 'mnemonic_seed'])
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legacy_random_src = get_source(listed_addresses, 'legacy_random')
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mnemonic_seed_src = get_source(listed_addresses, 'mnemonic_seed')
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# Check Sprout addrs
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assert_equal(legacy_random_src['sprout']['addresses'], [sprout_1])
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# Check Sapling addrs
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assert_equal(
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set([(obj['zip32KeyPath'], x) for obj in mnemonic_seed_src['sapling'] for x in obj['addresses']]),
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set([("m/32'/1'/2147483647'/0'", sapling_1)]),
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)
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# Check Unified addrs
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unified_obj = mnemonic_seed_src['unified']
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assert_equal(unified_obj[0]['account'], 0)
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assert_equal(unified_obj[0]['addresses'][0]['address'], unified_1)
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assert 'diversifier_index' in unified_obj[0]['addresses'][0]
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assert_equal(unified_obj[0]['addresses'][0]['receiver_types'], ['p2pkh', 'sapling', 'orchard'])
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# import the key for sapling_1 into node 1
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sapling_1_key = self.nodes[0].z_exportkey(sapling_1)
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self.nodes[1].z_importkey(sapling_1_key)
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# verify that we see the imported source
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listed_addresses = self.list_addresses(1, ['imported', 'mnemonic_seed'])
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imported_src = get_source(listed_addresses, 'imported')
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assert_equal(imported_src['sapling'][0]['addresses'], [sapling_1])
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# stop the nodes & restart to ensure that the imported address
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# still shows up in listaddresses output
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stop_nodes(self.nodes)
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wait_bitcoinds()
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self.setup_network()
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listed_addresses = self.list_addresses(1, ['imported', 'mnemonic_seed'])
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imported_src = get_source(listed_addresses, 'imported')
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assert_equal(imported_src['sapling'][0]['addresses'], [sapling_1])
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print("Testing height 2 (NU5)")
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self.nodes[0].generate(1)
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self.sync_all()
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assert_equal(self.nodes[0].getblockcount(), 2)
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# Sprout address generation is no longer allowed
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sapling_2 = self.nodes[0].z_getnewaddress('sapling')
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unified_2 = self.nodes[0].z_getaddressforaccount(account)['address']
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types_and_addresses = [
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('sapling', sapling_2),
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('unified', unified_2),
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]
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for addr_type, addr in types_and_addresses:
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res = self.nodes[0].z_validateaddress(addr)
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assert res['isvalid']
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# assert res['ismine'] # this isn't present for unified addresses
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assert_equal(res['type'], addr_type)
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# We should see the same sources (address generation does not change across the NU5 boundary).
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listed_addresses = self.list_addresses(0, ['imported_watchonly', 'legacy_random', 'mnemonic_seed'])
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legacy_random_src = get_source(listed_addresses, 'legacy_random')
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mnemonic_seed_src = get_source(listed_addresses, 'mnemonic_seed')
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# Check Sprout addrs
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assert_equal(legacy_random_src['sprout']['addresses'], [sprout_1])
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# Check Sapling addrs
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assert_equal(
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set([(obj['zip32KeyPath'], x) for obj in mnemonic_seed_src['sapling'] for x in obj['addresses']]),
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set([
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("m/32'/1'/2147483647'/0'", sapling_1),
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("m/32'/1'/2147483647'/1'", sapling_2),
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]),
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)
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# Check Unified addrs
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unified_obj = mnemonic_seed_src['unified']
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assert_equal(unified_obj[0]['account'], 0)
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assert_equal(
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set([addr['address'] for addr in unified_obj[0]['addresses']]),
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set([unified_1, unified_2]),
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)
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assert 'diversifier_index' in unified_obj[0]['addresses'][0]
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assert 'diversifier_index' in unified_obj[0]['addresses'][1]
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assert_equal(unified_obj[0]['addresses'][0]['receiver_types'], ['p2pkh', 'sapling', 'orchard'])
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assert_equal(unified_obj[0]['addresses'][1]['receiver_types'], ['p2pkh', 'sapling', 'orchard'])
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print("Generate mature coinbase, spend to create and detect change")
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self.nodes[0].generate(100)
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self.sync_all()
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self.nodes[0].sendmany('', {taddr_import: 1})
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listed_addresses = self.list_addresses(0, ['imported_watchonly', 'legacy_random', 'mnemonic_seed'])
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mnemonic_seed_src = get_source(listed_addresses, 'mnemonic_seed')
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assert len(mnemonic_seed_src['transparent']['changeAddresses']) > 0
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if __name__ == '__main__':
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WalletAddressesTest().main()
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