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interface_zmq.py
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interface_zmq.py
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#!/usr/bin/env python3
# Copyright (c) 2015-2022 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 the ZMQ notification interface."""
import os
import struct
import tempfile
from io import BytesIO
from test_framework.address import (
ADDRESS_BCRT1_P2WSH_OP_TRUE,
ADDRESS_BCRT1_UNSPENDABLE,
)
from test_framework.blocktools import (
add_witness_commitment,
create_block,
create_coinbase,
)
from test_framework.test_framework import BitcoinTestFramework
from test_framework.messages import (
CBlock,
hash256,
tx_from_hex,
)
from test_framework.util import (
assert_equal,
assert_raises_rpc_error,
ensure_for,
p2p_port,
)
from test_framework.wallet import (
MiniWallet,
)
from test_framework.netutil import test_ipv6_local, test_unix_socket
# Test may be skipped and not have zmq installed
try:
import zmq
except ImportError:
pass
def hash256_reversed(byte_str):
return hash256(byte_str)[::-1]
class ZMQSubscriber:
def __init__(self, socket, topic):
self.sequence = None # no sequence number received yet
self.socket = socket
self.topic = topic
self.socket.setsockopt(zmq.SUBSCRIBE, self.topic)
# Receive message from publisher and verify that topic and sequence match
def _receive_from_publisher_and_check(self):
topic, body, seq = self.socket.recv_multipart()
# Topic should match the subscriber topic.
assert_equal(topic, self.topic)
# Sequence should be incremental.
received_seq = struct.unpack('<I', seq)[-1]
if self.sequence is None:
self.sequence = received_seq
else:
assert_equal(received_seq, self.sequence)
self.sequence += 1
return body
def receive(self):
return self._receive_from_publisher_and_check()
def receive_sequence(self):
body = self._receive_from_publisher_and_check()
hash = body[:32].hex()
label = chr(body[32])
mempool_sequence = None if len(body) != 32+1+8 else struct.unpack("<Q", body[32+1:])[0]
if mempool_sequence is not None:
assert label == "A" or label == "R"
else:
assert label == "D" or label == "C"
return (hash, label, mempool_sequence)
class ZMQTestSetupBlock:
"""Helper class for setting up a ZMQ test via the "sync up" procedure.
Generates a block on the specified node on instantiation and provides a
method to check whether a ZMQ notification matches, i.e. the event was
caused by this generated block. Assumes that a notification either contains
the generated block's hash, it's (coinbase) transaction id, the raw block or
raw transaction data.
"""
def __init__(self, test_framework, node):
self.block_hash = test_framework.generate(node, 1, sync_fun=test_framework.no_op)[0]
coinbase = node.getblock(self.block_hash, 2)['tx'][0]
self.tx_hash = coinbase['txid']
self.raw_tx = coinbase['hex']
self.raw_block = node.getblock(self.block_hash, 0)
def caused_notification(self, notification):
return (
self.block_hash in notification
or self.tx_hash in notification
or self.raw_block in notification
or self.raw_tx in notification
)
class ZMQTest (BitcoinTestFramework):
def set_test_params(self):
self.num_nodes = 2
# whitelist peers to speed up tx relay / mempool sync
self.noban_tx_relay = True
self.zmq_port_base = p2p_port(self.num_nodes + 1)
def skip_test_if_missing_module(self):
self.skip_if_no_py3_zmq()
self.skip_if_no_bitcoind_zmq()
def run_test(self):
self.wallet = MiniWallet(self.nodes[0])
self.ctx = zmq.Context()
try:
self.test_basic()
if test_unix_socket():
self.test_basic(unix=True)
else:
self.log.info("Skipping ipc test, because UNIX sockets are not supported.")
self.test_sequence()
self.test_mempool_sync()
self.test_reorg()
self.test_multiple_interfaces()
self.test_ipv6()
finally:
# Destroy the ZMQ context.
self.log.debug("Destroying ZMQ context")
self.ctx.destroy(linger=None)
# Restart node with the specified zmq notifications enabled, subscribe to
# all of them and return the corresponding ZMQSubscriber objects.
def setup_zmq_test(self, services, *, recv_timeout=60, sync_blocks=True, ipv6=False):
subscribers = []
for topic, address in services:
socket = self.ctx.socket(zmq.SUB)
if ipv6:
socket.setsockopt(zmq.IPV6, 1)
subscribers.append(ZMQSubscriber(socket, topic.encode()))
self.restart_node(0, [f"-zmqpub{topic}={address.replace('ipc://', 'unix:')}" for topic, address in services])
for i, sub in enumerate(subscribers):
sub.socket.connect(services[i][1])
# Ensure that all zmq publisher notification interfaces are ready by
# running the following "sync up" procedure:
# 1. Generate a block on the node
# 2. Try to receive the corresponding notification on all subscribers
# 3. If all subscribers get the message within the timeout (1 second),
# we are done, otherwise repeat starting from step 1
for sub in subscribers:
sub.socket.set(zmq.RCVTIMEO, 1000)
while True:
test_block = ZMQTestSetupBlock(self, self.nodes[0])
recv_failed = False
for sub in subscribers:
try:
while not test_block.caused_notification(sub.receive().hex()):
self.log.debug("Ignoring sync-up notification for previously generated block.")
except zmq.error.Again:
self.log.debug("Didn't receive sync-up notification, trying again.")
recv_failed = True
if not recv_failed:
self.log.debug("ZMQ sync-up completed, all subscribers are ready.")
break
# set subscriber's desired timeout for the test
for sub in subscribers:
sub.socket.set(zmq.RCVTIMEO, recv_timeout*1000)
self.connect_nodes(0, 1)
if sync_blocks:
self.sync_blocks()
return subscribers
def test_basic(self, unix = False):
self.log.info(f"Running basic test with {'ipc' if unix else 'tcp'} protocol")
# Invalid zmq arguments don't take down the node, see #17185.
self.restart_node(0, ["-zmqpubrawtx=foo", "-zmqpubhashtx=bar"])
address = f"tcp://127.0.0.1:{self.zmq_port_base}"
if unix:
# Use the shortest temp path possible since paths may have as little as 92-char limit
socket_path = tempfile.NamedTemporaryFile().name
address = f"ipc://{socket_path}"
subs = self.setup_zmq_test([(topic, address) for topic in ["hashblock", "hashtx", "rawblock", "rawtx"]])
hashblock = subs[0]
hashtx = subs[1]
rawblock = subs[2]
rawtx = subs[3]
num_blocks = 5
self.log.info(f"Generate {num_blocks} blocks (and {num_blocks} coinbase txes)")
genhashes = self.generatetoaddress(self.nodes[0], num_blocks, ADDRESS_BCRT1_UNSPENDABLE)
for x in range(num_blocks):
# Should receive the coinbase txid.
txid = hashtx.receive()
# Should receive the coinbase raw transaction.
tx = tx_from_hex(rawtx.receive().hex())
tx.calc_sha256()
assert_equal(tx.hash, txid.hex())
# Should receive the generated raw block.
hex = rawblock.receive()
block = CBlock()
block.deserialize(BytesIO(hex))
assert block.is_valid()
assert_equal(block.vtx[0].hash, tx.hash)
assert_equal(len(block.vtx), 1)
assert_equal(genhashes[x], hash256_reversed(hex[:80]).hex())
# Should receive the generated block hash.
hash = hashblock.receive().hex()
assert_equal(genhashes[x], hash)
# The block should only have the coinbase txid.
assert_equal([txid.hex()], self.nodes[1].getblock(hash)["tx"])
self.log.info("Wait for tx from second node")
payment_tx = self.wallet.send_self_transfer(from_node=self.nodes[1])
payment_txid = payment_tx['txid']
self.sync_all()
# Should receive the broadcasted txid.
txid = hashtx.receive()
assert_equal(payment_txid, txid.hex())
# Should receive the broadcasted raw transaction.
hex = rawtx.receive()
assert_equal(payment_tx['wtxid'], hash256_reversed(hex).hex())
# Mining the block with this tx should result in second notification
# after coinbase tx notification
self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE)
hashtx.receive()
txid = hashtx.receive()
assert_equal(payment_txid, txid.hex())
self.log.info("Test the getzmqnotifications RPC")
assert_equal(self.nodes[0].getzmqnotifications(), [
{"type": "pubhashblock", "address": address, "hwm": 1000},
{"type": "pubhashtx", "address": address, "hwm": 1000},
{"type": "pubrawblock", "address": address, "hwm": 1000},
{"type": "pubrawtx", "address": address, "hwm": 1000},
])
assert_equal(self.nodes[1].getzmqnotifications(), [])
if unix:
os.unlink(socket_path)
def test_reorg(self):
address = f"tcp://127.0.0.1:{self.zmq_port_base}"
# Should only notify the tip if a reorg occurs
hashblock, hashtx = self.setup_zmq_test(
[(topic, address) for topic in ["hashblock", "hashtx"]],
recv_timeout=2) # 2 second timeout to check end of notifications
self.disconnect_nodes(0, 1)
# Generate 1 block in nodes[0] with 1 mempool tx and receive all notifications
payment_txid = self.wallet.send_self_transfer(from_node=self.nodes[0])['txid']
disconnect_block = self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE, sync_fun=self.no_op)[0]
disconnect_cb = self.nodes[0].getblock(disconnect_block)["tx"][0]
assert_equal(self.nodes[0].getbestblockhash(), hashblock.receive().hex())
assert_equal(hashtx.receive().hex(), payment_txid)
assert_equal(hashtx.receive().hex(), disconnect_cb)
# Generate 2 blocks in nodes[1] to a different address to ensure split
connect_blocks = self.generatetoaddress(self.nodes[1], 2, ADDRESS_BCRT1_P2WSH_OP_TRUE, sync_fun=self.no_op)
# nodes[0] will reorg chain after connecting back nodes[1]
self.connect_nodes(0, 1)
self.sync_blocks() # tx in mempool valid but not advertised
# Should receive nodes[1] tip
assert_equal(self.nodes[1].getbestblockhash(), hashblock.receive().hex())
# During reorg:
# Get old payment transaction notification from disconnect and disconnected cb
assert_equal(hashtx.receive().hex(), payment_txid)
assert_equal(hashtx.receive().hex(), disconnect_cb)
# And the payment transaction again due to mempool entry
assert_equal(hashtx.receive().hex(), payment_txid)
assert_equal(hashtx.receive().hex(), payment_txid)
# And the new connected coinbases
for i in [0, 1]:
assert_equal(hashtx.receive().hex(), self.nodes[1].getblock(connect_blocks[i])["tx"][0])
# If we do a simple invalidate we announce the disconnected coinbase
self.nodes[0].invalidateblock(connect_blocks[1])
assert_equal(hashtx.receive().hex(), self.nodes[1].getblock(connect_blocks[1])["tx"][0])
# And the current tip
assert_equal(hashtx.receive().hex(), self.nodes[1].getblock(connect_blocks[0])["tx"][0])
def test_sequence(self):
"""
Sequence zmq notifications give every blockhash and txhash in order
of processing, regardless of IBD, re-orgs, etc.
Format of messages:
<32-byte hash>C : Blockhash connected
<32-byte hash>D : Blockhash disconnected
<32-byte hash>R<8-byte LE uint> : Transactionhash removed from mempool for non-block inclusion reason
<32-byte hash>A<8-byte LE uint> : Transactionhash added mempool
"""
self.log.info("Testing 'sequence' publisher")
[seq] = self.setup_zmq_test([("sequence", f"tcp://127.0.0.1:{self.zmq_port_base}")])
self.disconnect_nodes(0, 1)
# Mempool sequence number starts at 1
seq_num = 1
# Generate 1 block in nodes[0] and receive all notifications
dc_block = self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE, sync_fun=self.no_op)[0]
# Note: We are not notified of any block transactions, coinbase or mined
assert_equal((self.nodes[0].getbestblockhash(), "C", None), seq.receive_sequence())
# Generate 2 blocks in nodes[1] to a different address to ensure a chain split
self.generatetoaddress(self.nodes[1], 2, ADDRESS_BCRT1_P2WSH_OP_TRUE, sync_fun=self.no_op)
# nodes[0] will reorg chain after connecting back nodes[1]
self.connect_nodes(0, 1)
# Then we receive all block (dis)connect notifications for the 2 block reorg
assert_equal((dc_block, "D", None), seq.receive_sequence())
block_count = self.nodes[1].getblockcount()
assert_equal((self.nodes[1].getblockhash(block_count-1), "C", None), seq.receive_sequence())
assert_equal((self.nodes[1].getblockhash(block_count), "C", None), seq.receive_sequence())
self.log.info("Wait for tx from second node")
payment_tx = self.wallet.send_self_transfer(from_node=self.nodes[1])
payment_txid = payment_tx['txid']
self.sync_all()
self.log.info("Testing sequence notifications with mempool sequence values")
# Should receive the broadcasted txid.
assert_equal((payment_txid, "A", seq_num), seq.receive_sequence())
seq_num += 1
self.log.info("Testing RBF notification")
# Replace it to test eviction/addition notification
payment_tx['tx'].vout[0].nValue -= 1000
rbf_txid = self.nodes[1].sendrawtransaction(payment_tx['tx'].serialize().hex())
self.sync_all()
assert_equal((payment_txid, "R", seq_num), seq.receive_sequence())
seq_num += 1
assert_equal((rbf_txid, "A", seq_num), seq.receive_sequence())
seq_num += 1
# Doesn't get published when mined, make a block and tx to "flush" the possibility
# though the mempool sequence number does go up by the number of transactions
# removed from the mempool by the block mining it.
mempool_size = len(self.nodes[0].getrawmempool())
c_block = self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE)[0]
# Make sure the number of mined transactions matches the number of txs out of mempool
mempool_size_delta = mempool_size - len(self.nodes[0].getrawmempool())
assert_equal(len(self.nodes[0].getblock(c_block)["tx"])-1, mempool_size_delta)
seq_num += mempool_size_delta
payment_txid_2 = self.wallet.send_self_transfer(from_node=self.nodes[1])['txid']
self.sync_all()
assert_equal((c_block, "C", None), seq.receive_sequence())
assert_equal((payment_txid_2, "A", seq_num), seq.receive_sequence())
seq_num += 1
# Spot check getrawmempool results that they only show up when asked for
assert type(self.nodes[0].getrawmempool()) is list
assert type(self.nodes[0].getrawmempool(mempool_sequence=False)) is list
assert "mempool_sequence" not in self.nodes[0].getrawmempool(verbose=True)
assert_raises_rpc_error(-8, "Verbose results cannot contain mempool sequence values.", self.nodes[0].getrawmempool, True, True)
assert_equal(self.nodes[0].getrawmempool(mempool_sequence=True)["mempool_sequence"], seq_num)
self.log.info("Testing reorg notifications")
# Manually invalidate the last block to test mempool re-entry
# N.B. This part could be made more lenient in exact ordering
# since it greatly depends on inner-workings of blocks/mempool
# during "deep" re-orgs. Probably should "re-construct"
# blockchain/mempool state from notifications instead.
block_count = self.nodes[0].getblockcount()
best_hash = self.nodes[0].getbestblockhash()
self.nodes[0].invalidateblock(best_hash)
# Make sure getrawmempool mempool_sequence results aren't "queued" but immediately reflective
# of the time they were gathered.
ensure_for(duration=2, f=lambda: self.nodes[0].getrawmempool(mempool_sequence=True)["mempool_sequence"] > seq_num)
assert_equal((best_hash, "D", None), seq.receive_sequence())
assert_equal((rbf_txid, "A", seq_num), seq.receive_sequence())
seq_num += 1
# Other things may happen but aren't wallet-deterministic so we don't test for them currently
self.nodes[0].reconsiderblock(best_hash)
self.generatetoaddress(self.nodes[1], 1, ADDRESS_BCRT1_UNSPENDABLE)
self.log.info("Evict mempool transaction by block conflict")
orig_tx = self.wallet.send_self_transfer(from_node=self.nodes[0])
orig_txid = orig_tx['txid']
# More to be simply mined
more_tx = []
for _ in range(5):
more_tx.append(self.wallet.send_self_transfer(from_node=self.nodes[0]))
orig_tx['tx'].vout[0].nValue -= 1000
bump_txid = self.nodes[0].sendrawtransaction(orig_tx['tx'].serialize().hex())
# Mine the pre-bump tx
txs_to_add = [orig_tx['hex']] + [tx['hex'] for tx in more_tx]
block = create_block(int(self.nodes[0].getbestblockhash(), 16), create_coinbase(self.nodes[0].getblockcount()+1), txlist=txs_to_add)
add_witness_commitment(block)
block.solve()
assert_equal(self.nodes[0].submitblock(block.serialize().hex()), None)
tip = self.nodes[0].getbestblockhash()
assert_equal(int(tip, 16), block.sha256)
orig_txid_2 = self.wallet.send_self_transfer(from_node=self.nodes[0])['txid']
# Flush old notifications until evicted tx original entry
(hash_str, label, mempool_seq) = seq.receive_sequence()
while hash_str != orig_txid:
(hash_str, label, mempool_seq) = seq.receive_sequence()
mempool_seq += 1
# Added original tx
assert_equal(label, "A")
# More transactions to be simply mined
for i in range(len(more_tx)):
assert_equal((more_tx[i]['txid'], "A", mempool_seq), seq.receive_sequence())
mempool_seq += 1
# Bumped by rbf
assert_equal((orig_txid, "R", mempool_seq), seq.receive_sequence())
mempool_seq += 1
assert_equal((bump_txid, "A", mempool_seq), seq.receive_sequence())
mempool_seq += 1
# Conflict announced first, then block
assert_equal((bump_txid, "R", mempool_seq), seq.receive_sequence())
mempool_seq += 1
assert_equal((tip, "C", None), seq.receive_sequence())
mempool_seq += len(more_tx)
# Last tx
assert_equal((orig_txid_2, "A", mempool_seq), seq.receive_sequence())
mempool_seq += 1
self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE)
self.sync_all() # want to make sure we didn't break "consensus" for other tests
def test_mempool_sync(self):
"""
Use sequence notification plus getrawmempool sequence results to "sync mempool"
"""
self.log.info("Testing 'mempool sync' usage of sequence notifier")
[seq] = self.setup_zmq_test([("sequence", f"tcp://127.0.0.1:{self.zmq_port_base}")])
# In-memory counter, should always start at 1
next_mempool_seq = self.nodes[0].getrawmempool(mempool_sequence=True)["mempool_sequence"]
assert_equal(next_mempool_seq, 1)
# Some transactions have been happening but we aren't consuming zmq notifications yet
# or we lost a ZMQ message somehow and want to start over
txs = []
num_txs = 5
for _ in range(num_txs):
txs.append(self.wallet.send_self_transfer(from_node=self.nodes[1]))
self.sync_all()
# 1) Consume backlog until we get a mempool sequence number
(hash_str, label, zmq_mem_seq) = seq.receive_sequence()
while zmq_mem_seq is None:
(hash_str, label, zmq_mem_seq) = seq.receive_sequence()
assert label == "A" or label == "R"
assert hash_str is not None
# 2) We need to "seed" our view of the mempool
mempool_snapshot = self.nodes[0].getrawmempool(mempool_sequence=True)
mempool_view = set(mempool_snapshot["txids"])
get_raw_seq = mempool_snapshot["mempool_sequence"]
assert_equal(get_raw_seq, num_txs + 1)
assert zmq_mem_seq < get_raw_seq
# Things continue to happen in the "interim" while waiting for snapshot results
# We have node 0 do all these to avoid p2p races with RBF announcements
for _ in range(num_txs):
txs.append(self.wallet.send_self_transfer(from_node=self.nodes[0]))
txs[-1]['tx'].vout[0].nValue -= 1000
self.nodes[0].sendrawtransaction(txs[-1]['tx'].serialize().hex())
self.sync_all()
self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE)
final_txid = self.wallet.send_self_transfer(from_node=self.nodes[0])['txid']
# 3) Consume ZMQ backlog until we get to "now" for the mempool snapshot
while True:
if zmq_mem_seq == get_raw_seq - 1:
break
(hash_str, label, mempool_sequence) = seq.receive_sequence()
if mempool_sequence is not None:
zmq_mem_seq = mempool_sequence
if zmq_mem_seq > get_raw_seq:
raise Exception(f"We somehow jumped mempool sequence numbers! zmq_mem_seq: {zmq_mem_seq} > get_raw_seq: {get_raw_seq}")
# 4) Moving forward, we apply the delta to our local view
# remaining txs(5) + 1 rbf(A+R) + 1 block connect + 1 final tx
expected_sequence = get_raw_seq
r_gap = 0
for _ in range(num_txs + 2 + 1 + 1):
(hash_str, label, mempool_sequence) = seq.receive_sequence()
if mempool_sequence is not None:
if mempool_sequence != expected_sequence:
# Detected "R" gap, means this a conflict eviction, and mempool tx are being evicted before its
# position in the incoming block message "C"
if label == "R":
assert mempool_sequence > expected_sequence
r_gap += mempool_sequence - expected_sequence
else:
raise Exception(f"WARNING: txhash has unexpected mempool sequence value: {mempool_sequence} vs expected {expected_sequence}")
if label == "A":
assert hash_str not in mempool_view
mempool_view.add(hash_str)
expected_sequence = mempool_sequence + 1
elif label == "R":
assert hash_str in mempool_view
mempool_view.remove(hash_str)
expected_sequence = mempool_sequence + 1
elif label == "C":
# (Attempt to) remove all txids from known block connects
block_txids = self.nodes[0].getblock(hash_str)["tx"][1:]
for txid in block_txids:
if txid in mempool_view:
expected_sequence += 1
mempool_view.remove(txid)
expected_sequence -= r_gap
r_gap = 0
elif label == "D":
# Not useful for mempool tracking per se
continue
else:
raise Exception("Unexpected ZMQ sequence label!")
assert_equal(self.nodes[0].getrawmempool(), [final_txid])
assert_equal(self.nodes[0].getrawmempool(mempool_sequence=True)["mempool_sequence"], expected_sequence)
# 5) If you miss a zmq/mempool sequence number, go back to step (2)
self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE)
def test_multiple_interfaces(self):
# Set up two subscribers with different addresses
# (note that after the reorg test, syncing would fail due to different
# chain lengths on node0 and node1; for this test we only need node0, so
# we can disable syncing blocks on the setup)
subscribers = self.setup_zmq_test([
("hashblock", f"tcp://127.0.0.1:{self.zmq_port_base + 1}"),
("hashblock", f"tcp://127.0.0.1:{self.zmq_port_base + 2}"),
], sync_blocks=False)
# Generate 1 block in nodes[0] and receive all notifications
self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE, sync_fun=self.no_op)
# Should receive the same block hash on both subscribers
assert_equal(self.nodes[0].getbestblockhash(), subscribers[0].receive().hex())
assert_equal(self.nodes[0].getbestblockhash(), subscribers[1].receive().hex())
def test_ipv6(self):
if not test_ipv6_local():
self.log.info("Skipping IPv6 test, because IPv6 is not supported.")
return
self.log.info("Testing IPv6")
# Set up subscriber using IPv6 loopback address
subscribers = self.setup_zmq_test([
("hashblock", f"tcp://[::1]:{self.zmq_port_base}")
], ipv6=True)
# Generate 1 block in nodes[0]
self.generatetoaddress(self.nodes[0], 1, ADDRESS_BCRT1_UNSPENDABLE)
# Should receive the same block hash
assert_equal(self.nodes[0].getbestblockhash(), subscribers[0].receive().hex())
if __name__ == '__main__':
ZMQTest(__file__).main()