neobytes/qa/rpc-tests/test_framework/test_framework.py

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#!/usr/bin/env python3
# Copyright (c) 2014-2016 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
Backports 0.15 pr2 (#2597) * Merge #9815: Trivial: use EXIT_ codes instead of magic numbers a87d02a use EXIT_ codes instead of magic numbers (Marko Bencun) * Merge #9801: Removed redundant parameter from mempool.PrioritiseTransaction eaea2bb Removed redundant parameter from mempool.PrioritiseTransaction (gubatron) * remove extra parameter (see 3a3745bb) in dash specific code * Merge #9819: Remove harmless read of unusued priority estimates bc8fd12 Remove harmless read of unusued priority estimates (Alex Morcos) * Merge #9766: Add --exclude option to rpc-tests.py c578408 Add exclude option to rpc-tests.py (John Newbery) * Merge #9577: Fix docstrings in qa tests 3f95a80 Fix docstrings in qa tests (John Newbery) * Merge #9823: qa: Set correct path for binaries in rpc tests 3333ad0 qa: Set correct path for binaries in rpc tests (MarcoFalke) * Merge #9833: Trivial: fix comments referencing AppInit2 ef9f495 Trivial: fix comments referencing AppInit2 (Marko Bencun) * Merge #9612: [trivial] Rephrase the definition of difficulty. dc222f8 Trivial: Rephrase the definition of difficulty in the code. (Karl-Johan Alm) * Merge #9847: Extra test vector for BIP32 30aedcb BIP32 extra test vector (Pieter Wuille) * Merge #9839: [qa] Make import-rescan.py watchonly check reliable 864890a [qa] Make import-rescan.py watchonly check reliable (Russell Yanofsky) Tree-SHA512: ea0e2b1d4fc8f35174c3d575fb751b428daf6ad3aa944fad4e3ddcc9195e4f17051473acabc54203b1d27cca64cf911b737ab92e986c40ef384410652e2dbea1 * Change back file params
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"""Base class for RPC testing."""
import logging
import optparse
import os
import sys
import shutil
import tempfile
import traceback
from concurrent.futures import ThreadPoolExecutor
from time import time, sleep
from .util import (
initialize_chain,
start_node,
start_nodes,
connect_nodes_bi,
connect_nodes,
sync_blocks,
sync_mempools,
sync_masternodes,
stop_nodes,
stop_node,
enable_coverage,
check_json_precision,
initialize_chain_clean,
PortSeed,
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set_cache_mocktime,
set_genesis_mocktime,
get_mocktime,
set_mocktime,
set_node_times,
p2p_port,
satoshi_round,
wait_to_sync,
copy_datadir)
from .authproxy import JSONRPCException
class BitcoinTestFramework(object):
def __init__(self):
self.num_nodes = 4
self.setup_clean_chain = False
self.nodes = None
def run_test(self):
raise NotImplementedError
def add_options(self, parser):
pass
def setup_chain(self):
print("Initializing test directory "+self.options.tmpdir)
if self.setup_clean_chain:
initialize_chain_clean(self.options.tmpdir, self.num_nodes)
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set_genesis_mocktime()
else:
initialize_chain(self.options.tmpdir, self.num_nodes, self.options.cachedir)
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set_cache_mocktime()
def stop_node(self, num_node):
stop_node(self.nodes[num_node], num_node)
def setup_nodes(self):
return start_nodes(self.num_nodes, self.options.tmpdir)
def setup_network(self, split = False):
self.nodes = self.setup_nodes()
# Connect the nodes as a "chain". This allows us
# to split the network between nodes 1 and 2 to get
# two halves that can work on competing chains.
# If we joined network halves, connect the nodes from the joint
# on outward. This ensures that chains are properly reorganised.
if not split:
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connect_nodes_bi(self.nodes, 1, 2)
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sync_blocks(self.nodes[1:3])
sync_mempools(self.nodes[1:3])
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connect_nodes_bi(self.nodes, 0, 1)
connect_nodes_bi(self.nodes, 2, 3)
self.is_network_split = split
self.sync_all()
def split_network(self):
"""
Split the network of four nodes into nodes 0/1 and 2/3.
"""
assert not self.is_network_split
stop_nodes(self.nodes)
self.setup_network(True)
def sync_all(self):
if self.is_network_split:
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sync_blocks(self.nodes[:2])
sync_blocks(self.nodes[2:])
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sync_mempools(self.nodes[:2])
sync_mempools(self.nodes[2:])
else:
sync_blocks(self.nodes)
sync_mempools(self.nodes)
def join_network(self):
"""
Join the (previously split) network halves together.
"""
assert self.is_network_split
stop_nodes(self.nodes)
self.setup_network(False)
def main(self):
parser = optparse.OptionParser(usage="%prog [options]")
parser.add_option("--nocleanup", dest="nocleanup", default=False, action="store_true",
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help="Leave dashds and test.* datadir on exit or error")
parser.add_option("--noshutdown", dest="noshutdown", default=False, action="store_true",
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help="Don't stop dashds after the test execution")
parser.add_option("--srcdir", dest="srcdir", default=os.path.normpath(os.path.dirname(os.path.realpath(__file__))+"/../../../src"),
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help="Source directory containing dashd/dash-cli (default: %default)")
parser.add_option("--cachedir", dest="cachedir", default=os.path.normpath(os.path.dirname(os.path.realpath(__file__))+"/../../cache"),
help="Directory for caching pregenerated datadirs")
parser.add_option("--tmpdir", dest="tmpdir", default=tempfile.mkdtemp(prefix="test"),
help="Root directory for datadirs")
parser.add_option("--tracerpc", dest="trace_rpc", default=False, action="store_true",
help="Print out all RPC calls as they are made")
parser.add_option("--portseed", dest="port_seed", default=os.getpid(), type='int',
help="The seed to use for assigning port numbers (default: current process id)")
parser.add_option("--coveragedir", dest="coveragedir",
help="Write tested RPC commands into this directory")
self.add_options(parser)
(self.options, self.args) = parser.parse_args()
# backup dir variable for removal at cleanup
self.options.root, self.options.tmpdir = self.options.tmpdir, self.options.tmpdir + '/' + str(self.options.port_seed)
if self.options.trace_rpc:
logging.basicConfig(level=logging.DEBUG, stream=sys.stdout)
if self.options.coveragedir:
enable_coverage(self.options.coveragedir)
PortSeed.n = self.options.port_seed
os.environ['PATH'] = self.options.srcdir+":"+self.options.srcdir+"/qt:"+os.environ['PATH']
check_json_precision()
success = False
try:
os.makedirs(self.options.tmpdir, exist_ok=False)
self.setup_chain()
self.setup_network()
self.run_test()
success = True
except JSONRPCException as e:
print("JSONRPC error: "+e.error['message'])
traceback.print_tb(sys.exc_info()[2])
except AssertionError as e:
print("Assertion failed: " + str(e))
traceback.print_tb(sys.exc_info()[2])
except KeyError as e:
print("key not found: "+ str(e))
traceback.print_tb(sys.exc_info()[2])
except Exception as e:
print("Unexpected exception caught during testing: " + repr(e))
traceback.print_tb(sys.exc_info()[2])
except KeyboardInterrupt as e:
print("Exiting after " + repr(e))
if not self.options.noshutdown:
print("Stopping nodes")
stop_nodes(self.nodes)
else:
print("Note: dashds were not stopped and may still be running")
if not self.options.nocleanup and not self.options.noshutdown and success:
print("Cleaning up")
shutil.rmtree(self.options.tmpdir)
if not os.listdir(self.options.root):
os.rmdir(self.options.root)
else:
print("Not cleaning up dir %s" % self.options.tmpdir)
if os.getenv("PYTHON_DEBUG", ""):
# Dump the end of the debug logs, to aid in debugging rare
# travis failures.
import glob
filenames = glob.glob(self.options.tmpdir + "/node*/regtest/debug.log")
MAX_LINES_TO_PRINT = 1000
for f in filenames:
print("From" , f, ":")
from collections import deque
print("".join(deque(open(f), MAX_LINES_TO_PRINT)))
if success:
print("Tests successful")
sys.exit(0)
else:
print("Failed")
sys.exit(1)
MASTERNODE_COLLATERAL = 1000
class MasternodeInfo:
def __init__(self, proTxHash, ownerAddr, votingAddr, pubKeyOperator, keyOperator, collateral_address, collateral_txid, collateral_vout):
self.proTxHash = proTxHash
self.ownerAddr = ownerAddr
self.votingAddr = votingAddr
self.pubKeyOperator = pubKeyOperator
self.keyOperator = keyOperator
self.collateral_address = collateral_address
self.collateral_txid = collateral_txid
self.collateral_vout = collateral_vout
class DashTestFramework(BitcoinTestFramework):
def __init__(self, num_nodes, masterodes_count, extra_args, fast_dip3_enforcement=False):
super().__init__()
self.mn_count = masterodes_count
self.num_nodes = num_nodes
self.mninfo = []
self.setup_clean_chain = True
self.is_network_split = False
# additional args
self.extra_args = extra_args
self.extra_args += ["-sporkkey=cP4EKFyJsHT39LDqgdcB43Y3YXjNyjb5Fuas1GQSeAtjnZWmZEQK"]
self.fast_dip3_enforcement = fast_dip3_enforcement
if fast_dip3_enforcement:
self.extra_args += ["-bip9params=dip0003:0:999999999999:10:5", "-dip3enforcementheight=50"]
def create_simple_node(self):
idx = len(self.nodes)
args = self.extra_args
self.nodes.append(start_node(idx, self.options.tmpdir, args))
for i in range(0, idx):
connect_nodes(self.nodes[i], idx)
def prepare_masternodes(self):
for idx in range(0, self.mn_count):
bls = self.nodes[0].bls('generate')
address = self.nodes[0].getnewaddress()
txid = self.nodes[0].sendtoaddress(address, MASTERNODE_COLLATERAL)
txraw = self.nodes[0].getrawtransaction(txid, True)
collateral_vout = 0
for vout_idx in range(0, len(txraw["vout"])):
vout = txraw["vout"][vout_idx]
if vout["value"] == MASTERNODE_COLLATERAL:
collateral_vout = vout_idx
self.nodes[0].lockunspent(False, [{'txid': txid, 'vout': collateral_vout}])
# send to same address to reserve some funds for fees
self.nodes[0].sendtoaddress(address, 0.001)
ownerAddr = self.nodes[0].getnewaddress()
votingAddr = self.nodes[0].getnewaddress()
rewardsAddr = self.nodes[0].getnewaddress()
port = p2p_port(len(self.nodes) + idx)
if (idx % 2) == 0:
self.nodes[0].lockunspent(True, [{'txid': txid, 'vout': collateral_vout}])
proTxHash = self.nodes[0].protx('register_fund', address, '127.0.0.1:%d' % port, ownerAddr, bls['public'], votingAddr, 0, rewardsAddr, address)
else:
self.nodes[0].generate(1)
proTxHash = self.nodes[0].protx('register', txid, collateral_vout, '127.0.0.1:%d' % port, ownerAddr, bls['public'], votingAddr, 0, rewardsAddr, address)
self.nodes[0].generate(1)
self.mninfo.append(MasternodeInfo(proTxHash, ownerAddr, votingAddr, bls['public'], bls['secret'], address, txid, collateral_vout))
self.sync_all()
def prepare_datadirs(self):
# stop faucet node so that we can copy the datadir
stop_node(self.nodes[0], 0)
start_idx = len(self.nodes)
for idx in range(0, self.mn_count):
copy_datadir(0, idx + start_idx, self.options.tmpdir)
# restart faucet node
self.nodes[0] = start_node(0, self.options.tmpdir, self.extra_args)
def start_masternodes(self):
start_idx = len(self.nodes)
for idx in range(0, self.mn_count):
self.nodes.append(None)
executor = ThreadPoolExecutor(max_workers=20)
def do_start(idx):
args = ['-masternode=1',
'-masternodeblsprivkey=%s' % self.mninfo[idx].keyOperator] + self.extra_args
node = start_node(idx + start_idx, self.options.tmpdir, args)
self.mninfo[idx].node = node
self.nodes[idx + start_idx] = node
wait_to_sync(node, True)
def do_connect(idx):
for i in range(0, idx + 1):
connect_nodes(self.nodes[idx + start_idx], i)
jobs = []
# start up nodes in parallel
for idx in range(0, self.mn_count):
jobs.append(executor.submit(do_start, idx))
# wait for all nodes to start up
for job in jobs:
job.result()
jobs.clear()
# connect nodes in parallel
for idx in range(0, self.mn_count):
jobs.append(executor.submit(do_connect, idx))
# wait for all nodes to connect
for job in jobs:
job.result()
jobs.clear()
sync_masternodes(self.nodes, True)
executor.shutdown()
def setup_network(self):
self.nodes = []
# create faucet node for collateral and transactions
self.nodes.append(start_node(0, self.options.tmpdir, self.extra_args))
required_balance = MASTERNODE_COLLATERAL * self.mn_count + 1
while self.nodes[0].getbalance() < required_balance:
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(1)
# create connected simple nodes
for i in range(0, self.num_nodes - self.mn_count - 1):
self.create_simple_node()
sync_masternodes(self.nodes, True)
# activate DIP3
if not self.fast_dip3_enforcement:
while self.nodes[0].getblockcount() < 500:
self.nodes[0].generate(10)
self.sync_all()
# create masternodes
self.prepare_masternodes()
self.prepare_datadirs()
self.start_masternodes()
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(1)
# sync nodes
self.sync_all()
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
mn_info = self.nodes[0].masternodelist("status")
assert (len(mn_info) == self.mn_count)
for status in mn_info.values():
assert (status == 'ENABLED')
def create_raw_trx(self, node_from, node_to, amount, min_inputs, max_inputs):
assert (min_inputs <= max_inputs)
# fill inputs
inputs = []
balances = node_from.listunspent()
in_amount = 0.0
last_amount = 0.0
for tx in balances:
if len(inputs) < min_inputs:
input = {}
input["txid"] = tx['txid']
input['vout'] = tx['vout']
in_amount += float(tx['amount'])
inputs.append(input)
elif in_amount > amount:
break
elif len(inputs) < max_inputs:
input = {}
input["txid"] = tx['txid']
input['vout'] = tx['vout']
in_amount += float(tx['amount'])
inputs.append(input)
else:
input = {}
input["txid"] = tx['txid']
input['vout'] = tx['vout']
in_amount -= last_amount
in_amount += float(tx['amount'])
inputs[-1] = input
last_amount = float(tx['amount'])
assert (len(inputs) > 0)
assert (in_amount > amount)
# fill outputs
receiver_address = node_to.getnewaddress()
change_address = node_from.getnewaddress()
fee = 0.001
outputs = {}
outputs[receiver_address] = satoshi_round(amount)
outputs[change_address] = satoshi_round(in_amount - amount - fee)
rawtx = node_from.createrawtransaction(inputs, outputs)
return node_from.signrawtransaction(rawtx)
def wait_for_instantlock(self, txid, node):
# wait for instantsend locks
start = time()
locked = False
while True:
is_trx = node.gettransaction(txid)
if is_trx['instantlock']:
locked = True
break
if time() > start + 10:
break
sleep(0.1)
return locked
def wait_for_sporks_same(self, timeout=30):
st = time()
while time() < st + timeout:
if self.check_sporks_same():
return
sleep(0.5)
raise AssertionError("wait_for_sporks_same timed out")
def check_sporks_same(self):
sporks = self.nodes[0].spork('show')
for node in self.nodes[1:]:
sporks2 = node.spork('show')
if sporks != sporks2:
return False
return True
def wait_for_quorum_phase(self, phase, check_received_messages, check_received_messages_count, timeout=15):
t = time()
while time() - t < timeout:
all_ok = True
for mn in self.mninfo:
s = mn.node.quorum("dkgstatus")["session"]
if "llmq_10" not in s:
all_ok = False
break
s = s["llmq_10"]
if "phase" not in s:
all_ok = False
break
if s["phase"] != phase:
all_ok = False
break
if check_received_messages is not None:
if s[check_received_messages] < check_received_messages_count:
all_ok = False
break
if all_ok:
return
sleep(0.1)
raise AssertionError("wait_for_quorum_phase timed out")
def wait_for_quorum_commitment(self, timeout = 15):
t = time()
while time() - t < timeout:
all_ok = True
for node in self.nodes:
s = node.quorum("dkgstatus")
if "minableCommitments" not in s:
all_ok = False
break
s = s["minableCommitments"]
if "llmq_10" not in s:
all_ok = False
break
if all_ok:
return
sleep(0.1)
raise AssertionError("wait_for_quorum_commitment timed out")
def mine_quorum(self, expected_valid_count=10):
quorums = self.nodes[0].quorum("list")
# move forward to next DKG
skip_count = 24 - (self.nodes[0].getblockcount() % 24)
if skip_count != 0:
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(skip_count)
# Make sure all reached phase 1 (init)
self.wait_for_quorum_phase(1, None, 0)
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(2)
# Make sure all reached phase 2 (contribute) and received all contributions
self.wait_for_quorum_phase(2, "receivedContributions", expected_valid_count)
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(2)
# Make sure all reached phase 3 (complain) and received all complaints
self.wait_for_quorum_phase(3, "receivedComplaints" if expected_valid_count != 10 else None, expected_valid_count)
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(2)
# Make sure all reached phase 4 (justify)
self.wait_for_quorum_phase(4, None, 0)
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(2)
# Make sure all reached phase 5 (commit)
self.wait_for_quorum_phase(5, "receivedPrematureCommitments", expected_valid_count)
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(2)
# Make sure all reached phase 6 (mining)
self.wait_for_quorum_phase(6, None, 0)
# Wait for final commitment
self.wait_for_quorum_commitment()
# mine the final commitment
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(1)
while quorums == self.nodes[0].quorum("list"):
sleep(2)
set_mocktime(get_mocktime() + 1)
set_node_times(self.nodes, get_mocktime())
self.nodes[0].generate(1)
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sync_blocks(self.nodes)
# Test framework for doing p2p comparison testing, which sets up some bitcoind
# binaries:
# 1 binary: test binary
# 2 binaries: 1 test binary, 1 ref binary
# n>2 binaries: 1 test binary, n-1 ref binaries
class ComparisonTestFramework(BitcoinTestFramework):
def __init__(self):
super().__init__()
self.num_nodes = 2
self.setup_clean_chain = True
def add_options(self, parser):
parser.add_option("--testbinary", dest="testbinary",
default=os.getenv("BITCOIND", "dashd"),
help="dashd binary to test")
parser.add_option("--refbinary", dest="refbinary",
default=os.getenv("BITCOIND", "dashd"),
help="dashd binary to use for reference nodes (if any)")
def setup_network(self):
self.nodes = start_nodes(
self.num_nodes, self.options.tmpdir,
extra_args=[['-debug', '-whitelist=127.0.0.1']] * self.num_nodes,
binary=[self.options.testbinary] +
[self.options.refbinary]*(self.num_nodes-1))