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p2p_blockfilters.py
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p2p_blockfilters.py
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#!/usr/bin/env python3
# Copyright (c) 2019-2021 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Tests NODE_COMPACT_FILTERS (BIP 157/158).
Tests that a node configured with -blockfilterindex and -peerblockfilters signals
NODE_COMPACT_FILTERS and can serve cfilters, cfheaders and cfcheckpts.
"""
from test_framework.messages import (
FILTER_TYPE_BASIC,
NODE_COMPACT_FILTERS,
hash256,
msg_getcfcheckpt,
msg_getcfheaders,
msg_getcfilters,
ser_uint256,
uint256_from_str,
)
from test_framework.p2p import P2PInterface
from test_framework.test_framework import SyscoinTestFramework
from test_framework.util import (
assert_equal,
)
class FiltersClient(P2PInterface):
def __init__(self):
super().__init__()
# Store the cfilters received.
self.cfilters = []
def pop_cfilters(self):
cfilters = self.cfilters
self.cfilters = []
return cfilters
def on_cfilter(self, message):
"""Store cfilters received in a list."""
self.cfilters.append(message)
class CompactFiltersTest(SyscoinTestFramework):
def set_test_params(self):
self.setup_clean_chain = True
self.rpc_timeout = 480
self.num_nodes = 2
self.extra_args = [
["-blockfilterindex", "-peerblockfilters"],
["-blockfilterindex"],
]
def run_test(self):
# Node 0 supports COMPACT_FILTERS, node 1 does not.
peer_0 = self.nodes[0].add_p2p_connection(FiltersClient())
peer_1 = self.nodes[1].add_p2p_connection(FiltersClient())
# Nodes 0 & 1 share the same first 999 blocks in the chain.
self.generate(self.nodes[0], 999)
# Stale blocks by disconnecting nodes 0 & 1, mining, then reconnecting
self.disconnect_nodes(0, 1)
stale_block_hash = self.generate(self.nodes[0], 1, sync_fun=self.no_op)[0]
self.nodes[0].syncwithvalidationinterfacequeue()
assert_equal(self.nodes[0].getblockcount(), 1000)
self.generate(self.nodes[1], 1001, sync_fun=self.no_op)
assert_equal(self.nodes[1].getblockcount(), 2000)
# Check that nodes have signalled NODE_COMPACT_FILTERS correctly.
assert peer_0.nServices & NODE_COMPACT_FILTERS != 0
assert peer_1.nServices & NODE_COMPACT_FILTERS == 0
# Check that the localservices is as expected.
assert int(self.nodes[0].getnetworkinfo()['localservices'], 16) & NODE_COMPACT_FILTERS != 0
assert int(self.nodes[1].getnetworkinfo()['localservices'], 16) & NODE_COMPACT_FILTERS == 0
self.log.info("get cfcheckpt on chain to be re-orged out.")
request = msg_getcfcheckpt(
filter_type=FILTER_TYPE_BASIC,
stop_hash=int(stale_block_hash, 16),
)
peer_0.send_and_ping(message=request)
response = peer_0.last_message['cfcheckpt']
assert_equal(response.filter_type, request.filter_type)
assert_equal(response.stop_hash, request.stop_hash)
assert_equal(len(response.headers), 1)
self.log.info("Reorg node 0 to a new chain.")
self.connect_nodes(0, 1)
self.sync_blocks(timeout=600)
self.nodes[0].syncwithvalidationinterfacequeue()
main_block_hash = self.nodes[0].getblockhash(1000)
assert main_block_hash != stale_block_hash, "node 0 chain did not reorganize"
self.log.info("Check that peers can fetch cfcheckpt on active chain.")
tip_hash = self.nodes[0].getbestblockhash()
request = msg_getcfcheckpt(
filter_type=FILTER_TYPE_BASIC,
stop_hash=int(tip_hash, 16),
)
peer_0.send_and_ping(request)
response = peer_0.last_message['cfcheckpt']
assert_equal(response.filter_type, request.filter_type)
assert_equal(response.stop_hash, request.stop_hash)
main_cfcheckpt = self.nodes[0].getblockfilter(main_block_hash, 'basic')['header']
tip_cfcheckpt = self.nodes[0].getblockfilter(tip_hash, 'basic')['header']
assert_equal(
response.headers,
[int(header, 16) for header in (main_cfcheckpt, tip_cfcheckpt)],
)
self.log.info("Check that peers can fetch cfcheckpt on stale chain.")
request = msg_getcfcheckpt(
filter_type=FILTER_TYPE_BASIC,
stop_hash=int(stale_block_hash, 16),
)
peer_0.send_and_ping(request)
response = peer_0.last_message['cfcheckpt']
stale_cfcheckpt = self.nodes[0].getblockfilter(stale_block_hash, 'basic')['header']
assert_equal(
response.headers,
[int(header, 16) for header in (stale_cfcheckpt, )],
)
self.log.info("Check that peers can fetch cfheaders on active chain.")
request = msg_getcfheaders(
filter_type=FILTER_TYPE_BASIC,
start_height=1,
stop_hash=int(main_block_hash, 16),
)
peer_0.send_and_ping(request)
response = peer_0.last_message['cfheaders']
main_cfhashes = response.hashes
assert_equal(len(main_cfhashes), 1000)
assert_equal(
compute_last_header(response.prev_header, response.hashes),
int(main_cfcheckpt, 16),
)
self.log.info("Check that peers can fetch cfheaders on stale chain.")
request = msg_getcfheaders(
filter_type=FILTER_TYPE_BASIC,
start_height=1,
stop_hash=int(stale_block_hash, 16),
)
peer_0.send_and_ping(request)
response = peer_0.last_message['cfheaders']
stale_cfhashes = response.hashes
assert_equal(len(stale_cfhashes), 1000)
assert_equal(
compute_last_header(response.prev_header, response.hashes),
int(stale_cfcheckpt, 16),
)
self.log.info("Check that peers can fetch cfilters.")
stop_hash = self.nodes[0].getblockhash(10)
request = msg_getcfilters(
filter_type=FILTER_TYPE_BASIC,
start_height=1,
stop_hash=int(stop_hash, 16),
)
peer_0.send_and_ping(request)
response = peer_0.pop_cfilters()
assert_equal(len(response), 10)
self.log.info("Check that cfilter responses are correct.")
for cfilter, cfhash, height in zip(response, main_cfhashes, range(1, 11)):
block_hash = self.nodes[0].getblockhash(height)
assert_equal(cfilter.filter_type, FILTER_TYPE_BASIC)
assert_equal(cfilter.block_hash, int(block_hash, 16))
computed_cfhash = uint256_from_str(hash256(cfilter.filter_data))
assert_equal(computed_cfhash, cfhash)
self.log.info("Check that peers can fetch cfilters for stale blocks.")
request = msg_getcfilters(
filter_type=FILTER_TYPE_BASIC,
start_height=1000,
stop_hash=int(stale_block_hash, 16),
)
peer_0.send_and_ping(request)
response = peer_0.pop_cfilters()
assert_equal(len(response), 1)
cfilter = response[0]
assert_equal(cfilter.filter_type, FILTER_TYPE_BASIC)
assert_equal(cfilter.block_hash, int(stale_block_hash, 16))
computed_cfhash = uint256_from_str(hash256(cfilter.filter_data))
assert_equal(computed_cfhash, stale_cfhashes[999])
self.log.info("Requests to node 1 without NODE_COMPACT_FILTERS results in disconnection.")
requests = [
msg_getcfcheckpt(
filter_type=FILTER_TYPE_BASIC,
stop_hash=int(main_block_hash, 16),
),
msg_getcfheaders(
filter_type=FILTER_TYPE_BASIC,
start_height=1000,
stop_hash=int(main_block_hash, 16),
),
msg_getcfilters(
filter_type=FILTER_TYPE_BASIC,
start_height=1000,
stop_hash=int(main_block_hash, 16),
),
]
for request in requests:
peer_1 = self.nodes[1].add_p2p_connection(P2PInterface())
peer_1.send_message(request)
peer_1.wait_for_disconnect()
self.log.info("Check that invalid requests result in disconnection.")
requests = [
# Requesting too many filters results in disconnection.
msg_getcfilters(
filter_type=FILTER_TYPE_BASIC,
start_height=0,
stop_hash=int(main_block_hash, 16),
),
# Requesting too many filter headers results in disconnection.
msg_getcfheaders(
filter_type=FILTER_TYPE_BASIC,
start_height=0,
stop_hash=int(tip_hash, 16),
),
# Requesting unknown filter type results in disconnection.
msg_getcfcheckpt(
filter_type=255,
stop_hash=int(main_block_hash, 16),
),
# Requesting unknown hash results in disconnection.
msg_getcfcheckpt(
filter_type=FILTER_TYPE_BASIC,
stop_hash=123456789,
),
]
for request in requests:
peer_0 = self.nodes[0].add_p2p_connection(P2PInterface())
peer_0.send_message(request)
peer_0.wait_for_disconnect()
def compute_last_header(prev_header, hashes):
"""Compute the last filter header from a starting header and a sequence of filter hashes."""
header = ser_uint256(prev_header)
for filter_hash in hashes:
header = hash256(ser_uint256(filter_hash) + header)
return uint256_from_str(header)
if __name__ == '__main__':
CompactFiltersTest().main()