#!/usr/bin/env python3 # Copyright (c) 2020-2021 The Bitcoin Core developers # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. """Test block-relay-only anchors functionality""" import os from test_framework.p2p import P2PInterface, P2P_SERVICES from test_framework.socks5 import Socks5Configuration, Socks5Server from test_framework.messages import CAddress, hash256 from test_framework.test_framework import BitcoinTestFramework from test_framework.util import check_node_connections, assert_equal, p2p_port INBOUND_CONNECTIONS = 5 BLOCK_RELAY_CONNECTIONS = 2 ONION_ADDR = "pg6mmjiyjmcrsslvykfwnntlaru7p5svn6y2ymmju6nubxndf4pscryd.onion:8333" class AnchorsTest(BitcoinTestFramework): def set_test_params(self): self.num_nodes = 1 self.disable_autoconnect = False def run_test(self): node_anchors_path = self.nodes[0].chain_path / "anchors.dat" self.log.info("When node starts, check if anchors.dat doesn't exist") assert not os.path.exists(node_anchors_path) self.log.info(f"Add {BLOCK_RELAY_CONNECTIONS} block-relay-only connections to node") for i in range(BLOCK_RELAY_CONNECTIONS): self.log.debug(f"block-relay-only: {i}") self.nodes[0].add_outbound_p2p_connection( P2PInterface(), p2p_idx=i, connection_type="block-relay-only" ) self.log.info(f"Add {INBOUND_CONNECTIONS} inbound connections to node") for i in range(INBOUND_CONNECTIONS): self.log.debug(f"inbound: {i}") self.nodes[0].add_p2p_connection(P2PInterface()) self.log.info("Check node connections") check_node_connections(node=self.nodes[0], num_in=5, num_out=2) # 127.0.0.1 ip = "7f000001" # Since the ip is always 127.0.0.1 for this case, # we store only the port to identify the peers block_relay_nodes_port = [] inbound_nodes_port = [] for p in self.nodes[0].getpeerinfo(): addr_split = p["addr"].split(":") if p["connection_type"] == "block-relay-only": block_relay_nodes_port.append(hex(int(addr_split[1]))[2:]) else: inbound_nodes_port.append(hex(int(addr_split[1]))[2:]) self.log.debug("Stop node") self.stop_node(0) # It should contain only the block-relay-only addresses self.log.info("Check the addresses in anchors.dat") with open(node_anchors_path, "rb") as file_handler: anchors = file_handler.read() anchors_hex = anchors.hex() for port in block_relay_nodes_port: ip_port = ip + port assert ip_port in anchors_hex for port in inbound_nodes_port: ip_port = ip + port assert ip_port not in anchors_hex self.log.info("Perturb anchors.dat to test it doesn't throw an error during initialization") with self.nodes[0].assert_debug_log(["0 block-relay-only anchors will be tried for connections."]): with open(node_anchors_path, "wb") as out_file_handler: tweaked_contents = bytearray(anchors) tweaked_contents[20:20] = b'1' out_file_handler.write(bytes(tweaked_contents)) self.log.debug("Start node") self.start_node(0) self.log.info("When node starts, check if anchors.dat doesn't exist anymore") assert not os.path.exists(node_anchors_path) self.log.info("Ensure addrv2 support") # Use proxies to catch outbound connections to networks with 256-bit addresses onion_conf = Socks5Configuration() onion_conf.auth = True onion_conf.unauth = True onion_conf.addr = ('127.0.0.1', p2p_port(self.num_nodes)) onion_conf.keep_alive = True onion_proxy = Socks5Server(onion_conf) onion_proxy.start() self.restart_node(0, extra_args=[f"-onion={onion_conf.addr[0]}:{onion_conf.addr[1]}"]) self.log.info("Add 256-bit-address block-relay-only connections to node") self.nodes[0].addconnection(ONION_ADDR, 'block-relay-only', v2transport=False) self.log.debug("Stop node") with self.nodes[0].assert_debug_log([f"DumpAnchors: Flush 1 outbound block-relay-only peer addresses to anchors.dat"]): self.stop_node(0) # Manually close keep_alive proxy connection onion_proxy.stop() self.log.info("Check for addrv2 addresses in anchors.dat") caddr = CAddress() caddr.net = CAddress.NET_TORV3 caddr.ip, port_str = ONION_ADDR.split(":") caddr.port = int(port_str) # TorV3 addrv2 serialization: # time(4) | services(1) | networkID(1) | address length(1) | address(32) expected_pubkey = caddr.serialize_v2()[7:39].hex() # position of services byte of first addr in anchors.dat # network magic, vector length, version, nTime services_index = 4 + 1 + 4 + 4 data = bytes() with open(node_anchors_path, "rb") as file_handler: data = file_handler.read() assert_equal(data[services_index], 0x00) # services == NONE anchors2 = data.hex() assert expected_pubkey in anchors2 with open(node_anchors_path, "wb") as file_handler: # Modify service flags for this address even though we never connected to it. # This is necessary because on restart we will not attempt an anchor connection # to a host without our required services, even if its address is in the anchors.dat file new_data = bytearray(data)[:-32] new_data[services_index] = P2P_SERVICES new_data_hash = hash256(new_data) file_handler.write(new_data + new_data_hash) self.log.info("Restarting node attempts to reconnect to anchors") with self.nodes[0].assert_debug_log([f"Trying to make an anchor connection to {ONION_ADDR}"]): self.start_node(0, extra_args=[f"-onion={onion_conf.addr[0]}:{onion_conf.addr[1]}"]) if __name__ == "__main__": AnchorsTest().main()