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mininode.py
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#!/usr/bin/env python3
# Copyright (c) 2010 ArtForz -- public domain half-a-node
# Copyright (c) 2012 Jeff Garzik
# Copyright (c) 2010-2018 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Bitcoin P2P network half-a-node.
This python code was modified from ArtForz' public domain half-a-node, as
found in the mini-node branch of http://github.com/jgarzik/pynode.
P2PConnection: A low-level connection object to a node's P2P interface
P2PInterface: A high-level interface object for communicating to a node over P2P
P2PDataStore: A p2p interface class that keeps a store of transactions and blocks
and can respond correctly to getdata and getheaders messages"""
import asyncio
from collections import defaultdict
from io import BytesIO
import logging
import struct
import sys
import threading
from test_framework.messages import CBlockHeader, MIN_VERSION_SUPPORTED, msg_addr, msg_block, MSG_BLOCK, msg_blocktxn, msg_cmpctblock, msg_feefilter, msg_getaddr, msg_getblocks, msg_getblocktxn, msg_getdata, msg_getheaders, msg_headers, msg_inv, msg_mempool, msg_ping, msg_pong, msg_reject, msg_sendcmpct, msg_sendheaders, msg_tx, MSG_TX, MSG_TYPE_MASK, msg_verack, msg_version, NODE_NETWORK, NODE_WITNESS, sha256
from test_framework.util import wait_until
logger = logging.getLogger("TestFramework.mininode")
MESSAGEMAP = {
b"addr": msg_addr,
b"block": msg_block,
b"blocktxn": msg_blocktxn,
b"cmpctblock": msg_cmpctblock,
b"feefilter": msg_feefilter,
b"getaddr": msg_getaddr,
b"getblocks": msg_getblocks,
b"getblocktxn": msg_getblocktxn,
b"getdata": msg_getdata,
b"getheaders": msg_getheaders,
b"headers": msg_headers,
b"inv": msg_inv,
b"mempool": msg_mempool,
b"ping": msg_ping,
b"pong": msg_pong,
b"reject": msg_reject,
b"sendcmpct": msg_sendcmpct,
b"sendheaders": msg_sendheaders,
b"tx": msg_tx,
b"verack": msg_verack,
b"version": msg_version,
}
MAGIC_BYTES = {
"mainnet": b"\xf9\xbe\xb4\xd9", # mainnet
"testnet3": b"\x0b\x11\x09\x07", # testnet3
"regtest": b"\xfa\xbf\xb5\xda", # regtest
}
class P2PConnection(asyncio.Protocol):
"""A low-level connection object to a node's P2P interface.
This class is responsible for:
- opening and closing the TCP connection to the node
- reading bytes from and writing bytes to the socket
- deserializing and serializing the P2P message header
- logging messages as they are sent and received
This class contains no logic for handing the P2P message payloads. It must be
sub-classed and the on_message() callback overridden."""
def __init__(self):
# The underlying transport of the connection.
# Should only call methods on this from the NetworkThread, c.f. call_soon_threadsafe
self._transport = None
@property
def is_connected(self):
return self._transport is not None
def peer_connect(self, dstaddr, dstport, net="regtest"):
assert not self.is_connected
self.dstaddr = dstaddr
self.dstport = dstport
# The initial message to send after the connection was made:
self.on_connection_send_msg = None
self.recvbuf = b""
self.network = net
logger.debug('Connecting to Bitcoin Node: %s:%d' % (self.dstaddr, self.dstport))
loop = NetworkThread.network_event_loop
conn_gen_unsafe = loop.create_connection(lambda: self, host=self.dstaddr, port=self.dstport)
conn_gen = lambda: loop.call_soon_threadsafe(loop.create_task, conn_gen_unsafe)
return conn_gen
def peer_disconnect(self):
# Connection could have already been closed by other end.
NetworkThread.network_event_loop.call_soon_threadsafe(lambda: self._transport and self._transport.abort())
# Connection and disconnection methods
def connection_made(self, transport):
"""asyncio callback when a connection is opened."""
assert not self._transport
logger.debug("Connected & Listening: %s:%d" % (self.dstaddr, self.dstport))
self._transport = transport
if self.on_connection_send_msg:
self.send_message(self.on_connection_send_msg)
self.on_connection_send_msg = None # Never used again
self.on_open()
def connection_lost(self, exc):
"""asyncio callback when a connection is closed."""
if exc:
logger.warning("Connection lost to {}:{} due to {}".format(self.dstaddr, self.dstport, exc))
else:
logger.debug("Closed connection to: %s:%d" % (self.dstaddr, self.dstport))
self._transport = None
self.recvbuf = b""
self.on_close()
# Socket read methods
def data_received(self, t):
"""asyncio callback when data is read from the socket."""
if len(t) > 0:
self.recvbuf += t
self._on_data()
def _on_data(self):
"""Try to read P2P messages from the recv buffer.
This method reads data from the buffer in a loop. It deserializes,
parses and verifies the P2P header, then passes the P2P payload to
the on_message callback for processing."""
try:
while True:
if len(self.recvbuf) < 4:
return
if self.recvbuf[:4] != MAGIC_BYTES[self.network]:
raise ValueError("got garbage %s" % repr(self.recvbuf))
if len(self.recvbuf) < 4 + 12 + 4 + 4:
return
command = self.recvbuf[4:4+12].split(b"\x00", 1)[0]
msglen = struct.unpack("<i", self.recvbuf[4+12:4+12+4])[0]
checksum = self.recvbuf[4+12+4:4+12+4+4]
if len(self.recvbuf) < 4 + 12 + 4 + 4 + msglen:
return
msg = self.recvbuf[4+12+4+4:4+12+4+4+msglen]
th = sha256(msg)
h = sha256(th)
if checksum != h[:4]:
raise ValueError("got bad checksum " + repr(self.recvbuf))
self.recvbuf = self.recvbuf[4+12+4+4+msglen:]
if command not in MESSAGEMAP:
raise ValueError("Received unknown command from %s:%d: '%s' %s" % (self.dstaddr, self.dstport, command, repr(msg)))
f = BytesIO(msg)
t = MESSAGEMAP[command]()
t.deserialize(f)
self._log_message("receive", t)
self.on_message(t)
except Exception as e:
logger.exception('Error reading message:', repr(e))
raise
def on_message(self, message):
"""Callback for processing a P2P payload. Must be overridden by derived class."""
raise NotImplementedError
# Socket write methods
def send_message(self, message):
"""Send a P2P message over the socket.
This method takes a P2P payload, builds the P2P header and adds
the message to the send buffer to be sent over the socket."""
if not self.is_connected:
raise IOError('Not connected')
self._log_message("send", message)
tmsg = self._build_message(message)
def maybe_write():
if not self._transport:
return
# Python <3.4.4 does not have is_closing, so we have to check for
# its existence explicitly as long as Bitcoin Core supports all
# Python 3.4 versions.
if hasattr(self._transport, 'is_closing') and self._transport.is_closing():
return
self._transport.write(tmsg)
NetworkThread.network_event_loop.call_soon_threadsafe(maybe_write)
# Class utility methods
def _build_message(self, message):
"""Build a serialized P2P message"""
command = message.command
data = message.serialize()
tmsg = MAGIC_BYTES[self.network]
tmsg += command
tmsg += b"\x00" * (12 - len(command))
tmsg += struct.pack("<I", len(data))
th = sha256(data)
h = sha256(th)
tmsg += h[:4]
tmsg += data
return tmsg
def _log_message(self, direction, msg):
"""Logs a message being sent or received over the connection."""
if direction == "send":
log_message = "Send message to "
elif direction == "receive":
log_message = "Received message from "
log_message += "%s:%d: %s" % (self.dstaddr, self.dstport, repr(msg)[:500])
if len(log_message) > 500:
log_message += "... (msg truncated)"
logger.debug(log_message)
class P2PInterface(P2PConnection):
"""A high-level P2P interface class for communicating with a Bitcoin node.
This class provides high-level callbacks for processing P2P message
payloads, as well as convenience methods for interacting with the
node over P2P.
Individual testcases should subclass this and override the on_* methods
if they want to alter message handling behaviour."""
def __init__(self):
super().__init__()
# Track number of messages of each type received and the most recent
# message of each type
self.message_count = defaultdict(int)
self.last_message = {}
# A count of the number of ping messages we've sent to the node
self.ping_counter = 1
# The network services received from the peer
self.nServices = 0
def peer_connect(self, *args, services=NODE_NETWORK|NODE_WITNESS, send_version=True, **kwargs):
create_conn = super().peer_connect(*args, **kwargs)
if send_version:
# Send a version msg
vt = msg_version()
vt.nServices = services
vt.addrTo.ip = self.dstaddr
vt.addrTo.port = self.dstport
vt.addrFrom.ip = "0.0.0.0"
vt.addrFrom.port = 0
self.on_connection_send_msg = vt # Will be sent soon after connection_made
return create_conn
# Message receiving methods
def on_message(self, message):
"""Receive message and dispatch message to appropriate callback.
We keep a count of how many of each message type has been received
and the most recent message of each type."""
with mininode_lock:
try:
command = message.command.decode('ascii')
self.message_count[command] += 1
self.last_message[command] = message
getattr(self, 'on_' + command)(message)
except:
print("ERROR delivering %s (%s)" % (repr(message), sys.exc_info()[0]))
raise
# Callback methods. Can be overridden by subclasses in individual test
# cases to provide custom message handling behaviour.
def on_open(self):
pass
def on_close(self):
pass
def on_addr(self, message): pass
def on_block(self, message): pass
def on_blocktxn(self, message): pass
def on_cmpctblock(self, message): pass
def on_feefilter(self, message): pass
def on_getaddr(self, message): pass
def on_getblocks(self, message): pass
def on_getblocktxn(self, message): pass
def on_getdata(self, message): pass
def on_getheaders(self, message): pass
def on_headers(self, message): pass
def on_mempool(self, message): pass
def on_pong(self, message): pass
def on_reject(self, message): pass
def on_sendcmpct(self, message): pass
def on_sendheaders(self, message): pass
def on_tx(self, message): pass
def on_inv(self, message):
want = msg_getdata()
for i in message.inv:
if i.type != 0:
want.inv.append(i)
if len(want.inv):
self.send_message(want)
def on_ping(self, message):
self.send_message(msg_pong(message.nonce))
def on_verack(self, message):
self.verack_received = True
def on_version(self, message):
assert message.nVersion >= MIN_VERSION_SUPPORTED, "Version {} received. Test framework only supports versions greater than {}".format(message.nVersion, MIN_VERSION_SUPPORTED)
self.send_message(msg_verack())
self.nServices = message.nServices
# Connection helper methods
def wait_for_disconnect(self, timeout=60):
test_function = lambda: not self.is_connected
wait_until(test_function, timeout=timeout, lock=mininode_lock)
# Message receiving helper methods
def wait_for_block(self, blockhash, timeout=60):
test_function = lambda: self.last_message.get("block") and self.last_message["block"].block.rehash() == blockhash
wait_until(test_function, timeout=timeout, lock=mininode_lock)
def wait_for_header(self, blockhash, timeout=60):
def test_function():
last_headers = self.last_message.get('headers')
if not last_headers:
return False
return last_headers.headers[0].rehash() == blockhash
wait_until(test_function, timeout=timeout, lock=mininode_lock)
def wait_for_getdata(self, timeout=60):
"""Waits for a getdata message.
Receiving any getdata message will satisfy the predicate. the last_message["getdata"]
value must be explicitly cleared before calling this method, or this will return
immediately with success. TODO: change this method to take a hash value and only
return true if the correct block/tx has been requested."""
test_function = lambda: self.last_message.get("getdata")
wait_until(test_function, timeout=timeout, lock=mininode_lock)
def wait_for_getheaders(self, timeout=60):
"""Waits for a getheaders message.
Receiving any getheaders message will satisfy the predicate. the last_message["getheaders"]
value must be explicitly cleared before calling this method, or this will return
immediately with success. TODO: change this method to take a hash value and only
return true if the correct block header has been requested."""
test_function = lambda: self.last_message.get("getheaders")
wait_until(test_function, timeout=timeout, lock=mininode_lock)
def wait_for_inv(self, expected_inv, timeout=60):
"""Waits for an INV message and checks that the first inv object in the message was as expected."""
if len(expected_inv) > 1:
raise NotImplementedError("wait_for_inv() will only verify the first inv object")
test_function = lambda: self.last_message.get("inv") and \
self.last_message["inv"].inv[0].type == expected_inv[0].type and \
self.last_message["inv"].inv[0].hash == expected_inv[0].hash
wait_until(test_function, timeout=timeout, lock=mininode_lock)
def wait_for_verack(self, timeout=60):
test_function = lambda: self.message_count["verack"]
wait_until(test_function, timeout=timeout, lock=mininode_lock)
# Message sending helper functions
def send_and_ping(self, message):
self.send_message(message)
self.sync_with_ping()
# Sync up with the node
def sync_with_ping(self, timeout=60):
self.send_message(msg_ping(nonce=self.ping_counter))
test_function = lambda: self.last_message.get("pong") and self.last_message["pong"].nonce == self.ping_counter
wait_until(test_function, timeout=timeout, lock=mininode_lock)
self.ping_counter += 1
# One lock for synchronizing all data access between the network event loop (see
# NetworkThread below) and the thread running the test logic. For simplicity,
# P2PConnection acquires this lock whenever delivering a message to a P2PInterface.
# This lock should be acquired in the thread running the test logic to synchronize
# access to any data shared with the P2PInterface or P2PConnection.
mininode_lock = threading.RLock()
class NetworkThread(threading.Thread):
network_event_loop = None
def __init__(self):
super().__init__(name="NetworkThread")
# There is only one event loop and no more than one thread must be created
assert not self.network_event_loop
NetworkThread.network_event_loop = asyncio.new_event_loop()
def run(self):
"""Start the network thread."""
self.network_event_loop.run_forever()
def close(self, timeout=10):
"""Close the connections and network event loop."""
self.network_event_loop.call_soon_threadsafe(self.network_event_loop.stop)
wait_until(lambda: not self.network_event_loop.is_running(), timeout=timeout)
self.network_event_loop.close()
self.join(timeout)
class P2PDataStore(P2PInterface):
"""A P2P data store class.
Keeps a block and transaction store and responds correctly to getdata and getheaders requests."""
def __init__(self):
super().__init__()
# store of blocks. key is block hash, value is a CBlock object
self.block_store = {}
self.last_block_hash = ''
# store of txs. key is txid, value is a CTransaction object
self.tx_store = {}
self.getdata_requests = []
def on_getdata(self, message):
"""Check for the tx/block in our stores and if found, reply with an inv message."""
for inv in message.inv:
self.getdata_requests.append(inv.hash)
if (inv.type & MSG_TYPE_MASK) == MSG_TX and inv.hash in self.tx_store.keys():
self.send_message(msg_tx(self.tx_store[inv.hash]))
elif (inv.type & MSG_TYPE_MASK) == MSG_BLOCK and inv.hash in self.block_store.keys():
self.send_message(msg_block(self.block_store[inv.hash]))
else:
logger.debug('getdata message type {} received.'.format(hex(inv.type)))
def on_getheaders(self, message):
"""Search back through our block store for the locator, and reply with a headers message if found."""
locator, hash_stop = message.locator, message.hashstop
# Assume that the most recent block added is the tip
if not self.block_store:
return
headers_list = [self.block_store[self.last_block_hash]]
maxheaders = 2000
while headers_list[-1].sha256 not in locator.vHave:
# Walk back through the block store, adding headers to headers_list
# as we go.
prev_block_hash = headers_list[-1].hashPrevBlock
if prev_block_hash in self.block_store:
prev_block_header = CBlockHeader(self.block_store[prev_block_hash])
headers_list.append(prev_block_header)
if prev_block_header.sha256 == hash_stop:
# if this is the hashstop header, stop here
break
else:
logger.debug('block hash {} not found in block store'.format(hex(prev_block_hash)))
break
# Truncate the list if there are too many headers
headers_list = headers_list[:-maxheaders - 1:-1]
response = msg_headers(headers_list)
if response is not None:
self.send_message(response)
def send_blocks_and_test(self, blocks, node, *, success=True, request_block=True, reject_reason=None, expect_disconnect=False, timeout=60):
"""Send blocks to test node and test whether the tip advances.
- add all blocks to our block_store
- send a headers message for the final block
- the on_getheaders handler will ensure that any getheaders are responded to
- if request_block is True: wait for getdata for each of the blocks. The on_getdata handler will
ensure that any getdata messages are responded to
- if success is True: assert that the node's tip advances to the most recent block
- if success is False: assert that the node's tip doesn't advance
- if reject_reason is set: assert that the correct reject message is logged"""
with mininode_lock:
for block in blocks:
self.block_store[block.sha256] = block
self.last_block_hash = block.sha256
reject_reason = [reject_reason] if reject_reason else []
with node.assert_debug_log(expected_msgs=reject_reason):
self.send_message(msg_headers([CBlockHeader(blocks[-1])]))
if request_block:
wait_until(lambda: blocks[-1].sha256 in self.getdata_requests, timeout=timeout, lock=mininode_lock)
if expect_disconnect:
self.wait_for_disconnect()
else:
self.sync_with_ping()
if success:
wait_until(lambda: node.getbestblockhash() == blocks[-1].hash, timeout=timeout)
else:
assert node.getbestblockhash() != blocks[-1].hash
def send_txs_and_test(self, txs, node, *, success=True, expect_disconnect=False, reject_reason=None):
"""Send txs to test node and test whether they're accepted to the mempool.
- add all txs to our tx_store
- send tx messages for all txs
- if success is True/False: assert that the txs are/are not accepted to the mempool
- if expect_disconnect is True: Skip the sync with ping
- if reject_reason is set: assert that the correct reject message is logged."""
with mininode_lock:
for tx in txs:
self.tx_store[tx.sha256] = tx
reject_reason = [reject_reason] if reject_reason else []
with node.assert_debug_log(expected_msgs=reject_reason):
for tx in txs:
self.send_message(msg_tx(tx))
if expect_disconnect:
self.wait_for_disconnect()
else:
self.sync_with_ping()
raw_mempool = node.getrawmempool()
if success:
# Check that all txs are now in the mempool
for tx in txs:
assert tx.hash in raw_mempool, "{} not found in mempool".format(tx.hash)
else:
# Check that none of the txs are now in the mempool
for tx in txs:
assert tx.hash not in raw_mempool, "{} tx found in mempool".format(tx.hash)