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#!/usr/bin/env python3
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# Copyright (c) 2014-2020 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 wallet import RPCs.
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Test rescan behavior of importaddress, importpubkey, importprivkey, and
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importmulti RPCs with different types of keys and rescan options.
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In the first part of the test, node 0 creates an address for each type of
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import RPC call and sends BTC to it. Then other nodes import the addresses,
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and the test makes listtransactions and getbalance calls to confirm that the
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importing node either did or did not execute rescans picking up the send
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transactions.
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In the second part of the test, node 0 sends more BTC to each address, and the
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test makes more listtransactions and getbalance calls to confirm that the
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importing nodes pick up the new transactions regardless of whether rescans
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happened previously.
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"""
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from test_framework.test_framework import BitcoinTestFramework
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from test_framework.address import AddressType
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from test_framework.util import (
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assert_equal,
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set_node_times,
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)
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import collections
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from decimal import Decimal
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import enum
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import itertools
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import random
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Call = enum.Enum("Call", "single multiaddress multiscript")
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Data = enum.Enum("Data", "address pub priv")
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Rescan = enum.Enum("Rescan", "no yes late_timestamp")
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class Variant(collections.namedtuple("Variant", "call data address_type rescan prune")):
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"""Helper for importing one key and verifying scanned transactions."""
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def do_import(self, timestamp):
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"""Call one key import RPC."""
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rescan = self.rescan == Rescan.yes
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assert_equal(self.address["solvable"], True)
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assert_equal(self.address["isscript"], self.address_type == AddressType.p2sh_segwit)
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assert_equal(self.address["iswitness"], self.address_type == AddressType.bech32)
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if self.address["isscript"]:
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assert_equal(self.address["embedded"]["isscript"], False)
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assert_equal(self.address["embedded"]["iswitness"], True)
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if self.call == Call.single:
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if self.data == Data.address:
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response = self.node.importaddress(address=self.address["address"], label=self.label, rescan=rescan)
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elif self.data == Data.pub:
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response = self.node.importpubkey(pubkey=self.address["pubkey"], label=self.label, rescan=rescan)
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elif self.data == Data.priv:
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response = self.node.importprivkey(privkey=self.key, label=self.label, rescan=rescan)
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assert_equal(response, None)
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elif self.call in (Call.multiaddress, Call.multiscript):
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request = {
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"scriptPubKey": {
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"address": self.address["address"]
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} if self.call == Call.multiaddress else self.address["scriptPubKey"],
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"timestamp": timestamp + TIMESTAMP_WINDOW + (1 if self.rescan == Rescan.late_timestamp else 0),
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"pubkeys": [self.address["pubkey"]] if self.data == Data.pub else [],
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"keys": [self.key] if self.data == Data.priv else [],
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"label": self.label,
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"watchonly": self.data != Data.priv
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}
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if self.address_type == AddressType.p2sh_segwit and self.data != Data.address:
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# We need solving data when providing a pubkey or privkey as data
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request.update({"redeemscript": self.address['embedded']['scriptPubKey']})
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response = self.node.importmulti(
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requests=[request],
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options={"rescan": self.rescan in (Rescan.yes, Rescan.late_timestamp)},
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)
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assert_equal(response, [{"success": True}])
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def check(self, txid=None, amount=None, confirmation_height=None):
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"""Verify that listtransactions/listreceivedbyaddress return expected values."""
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txs = self.node.listtransactions(label=self.label, count=10000, include_watchonly=True)
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current_height = self.node.getblockcount()
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assert_equal(len(txs), self.expected_txs)
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addresses = self.node.listreceivedbyaddress(minconf=0, include_watchonly=True, address_filter=self.address['address'])
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if self.expected_txs:
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assert_equal(len(addresses[0]["txids"]), self.expected_txs)
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if txid is not None:
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tx, = [tx for tx in txs if tx["txid"] == txid]
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assert_equal(tx["label"], self.label)
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assert_equal(tx["address"], self.address["address"])
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assert_equal(tx["amount"], amount)
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assert_equal(tx["category"], "receive")
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assert_equal(tx["label"], self.label)
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assert_equal(tx["txid"], txid)
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assert_equal(tx["confirmations"], 1 + current_height - confirmation_height)
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assert_equal("trusted" not in tx, True)
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address, = [ad for ad in addresses if txid in ad["txids"]]
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assert_equal(address["address"], self.address["address"])
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assert_equal(address["amount"], self.expected_balance)
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assert_equal(address["confirmations"], 1 + current_height - confirmation_height)
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# Verify the transaction is correctly marked watchonly depending on
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# whether the transaction pays to an imported public key or
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# imported private key. The test setup ensures that transaction
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# inputs will not be from watchonly keys (important because
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# involvesWatchonly will be true if either the transaction output
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# or inputs are watchonly).
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if self.data != Data.priv:
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assert_equal(address["involvesWatchonly"], True)
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else:
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assert_equal("involvesWatchonly" not in address, True)
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# List of Variants for each way a key or address could be imported.
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IMPORT_VARIANTS = [Variant(*variants) for variants in itertools.product(Call, Data, AddressType, Rescan, (False, True))]
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# List of nodes to import keys to. Half the nodes will have pruning disabled,
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# half will have it enabled. Different nodes will be used for imports that are
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# expected to cause rescans, and imports that are not expected to cause
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# rescans, in order to prevent rescans during later imports picking up
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# transactions associated with earlier imports. This makes it easier to keep
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# track of expected balances and transactions.
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ImportNode = collections.namedtuple("ImportNode", "prune rescan")
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IMPORT_NODES = [ImportNode(*fields) for fields in itertools.product((False, True), repeat=2)]
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# Rescans start at the earliest block up to 2 hours before the key timestamp.
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TIMESTAMP_WINDOW = 2 * 60 * 60
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AMOUNT_DUST = 0.00000546
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def get_rand_amount():
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r = random.uniform(AMOUNT_DUST, 1)
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return Decimal(str(round(r, 8)))
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class ImportRescanTest(BitcoinTestFramework):
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def set_test_params(self):
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self.num_nodes = 2 + len(IMPORT_NODES)
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self.supports_cli = False
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self.rpc_timeout = 120
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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 setup_network(self):
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self.extra_args = [[] for _ in range(self.num_nodes)]
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for i, import_node in enumerate(IMPORT_NODES, 2):
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if import_node.prune:
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self.extra_args[i] += ["-prune=1"]
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self.add_nodes(self.num_nodes, extra_args=self.extra_args)
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# Import keys with pruning disabled
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self.start_nodes(extra_args=[[]] * self.num_nodes)
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self.import_deterministic_coinbase_privkeys()
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self.stop_nodes()
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self.start_nodes()
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for i in range(1, self.num_nodes):
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self.connect_nodes(i, 0)
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def run_test(self):
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# Create one transaction on node 0 with a unique amount for
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# each possible type of wallet import RPC.
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for i, variant in enumerate(IMPORT_VARIANTS):
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variant.label = "label {} {}".format(i, variant)
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variant.address = self.nodes[1].getaddressinfo(self.nodes[1].getnewaddress(
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label=variant.label,
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address_type=variant.address_type.value,
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))
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variant.key = self.nodes[1].dumpprivkey(variant.address["address"])
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variant.initial_amount = get_rand_amount()
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variant.initial_txid = self.nodes[0].sendtoaddress(variant.address["address"], variant.initial_amount)
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self.nodes[0].generate(1) # Generate one block for each send
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variant.confirmation_height = self.nodes[0].getblockcount()
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variant.timestamp = self.nodes[0].getblockheader(self.nodes[0].getbestblockhash())["time"]
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self.sync_all() # Conclude sync before calling setmocktime to avoid timeouts
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# Generate a block further in the future (past the rescan window).
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assert_equal(self.nodes[0].getrawmempool(), [])
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set_node_times(
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self.nodes,
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self.nodes[0].getblockheader(self.nodes[0].getbestblockhash())["time"] + TIMESTAMP_WINDOW + 1,
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)
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self.nodes[0].generate(1)
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self.sync_all()
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# For each variation of wallet key import, invoke the import RPC and
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# check the results from getbalance and listtransactions.
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for variant in IMPORT_VARIANTS:
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self.log.info('Run import for variant {}'.format(variant))
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expect_rescan = variant.rescan == Rescan.yes
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variant.node = self.nodes[2 + IMPORT_NODES.index(ImportNode(variant.prune, expect_rescan))]
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variant.do_import(variant.timestamp)
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if expect_rescan:
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variant.expected_balance = variant.initial_amount
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variant.expected_txs = 1
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variant.check(variant.initial_txid, variant.initial_amount, variant.confirmation_height)
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else:
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variant.expected_balance = 0
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variant.expected_txs = 0
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variant.check()
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# Create new transactions sending to each address.
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for i, variant in enumerate(IMPORT_VARIANTS):
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variant.sent_amount = get_rand_amount()
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variant.sent_txid = self.nodes[0].sendtoaddress(variant.address["address"], variant.sent_amount)
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self.nodes[0].generate(1) # Generate one block for each send
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variant.confirmation_height = self.nodes[0].getblockcount()
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assert_equal(self.nodes[0].getrawmempool(), [])
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self.sync_all()
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# Check the latest results from getbalance and listtransactions.
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for variant in IMPORT_VARIANTS:
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self.log.info('Run check for variant {}'.format(variant))
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variant.expected_balance += variant.sent_amount
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variant.expected_txs += 1
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variant.check(variant.sent_txid, variant.sent_amount, variant.confirmation_height)
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if __name__ == "__main__":
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ImportRescanTest().main()
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