dash/test/functional/interface_zmq_dash.py

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#!/usr/bin/env python3
# Copyright (c) 2018-2022 The Dash Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
"""Test the dash specific ZMQ notification interfaces."""
import configparser
from enum import Enum
import io
import json
import random
import struct
import time
from test_framework.test_framework import DashTestFramework
Merge #19760: test: Remove confusing mininode terminology d5800da5199527a366024bc80cad7fcca17d5c4a [test] Remove final references to mininode (John Newbery) 5e8df3312e47a73e747ee892face55ed9ababeea test: resort imports (John Newbery) 85165d4332b0f72d30e0c584b476249b542338e6 scripted-diff: Rename mininode to p2p (John Newbery) 9e2897d020b114a10c860f90c5405be029afddba scripted-diff: Rename mininode_lock to p2p_lock (John Newbery) Pull request description: New contributors are often confused by the terminology in the test framework, and what the difference between a _node_ and a _peer_ is. To summarize: - a 'node' is a bitcoind instance. This is the thing whose behavior is being tested. Each bitcoind node is managed by a python `TestNode` object which is used to start/stop the node, manage the node's data directory, read state about the node (eg process status, log file), and interact with the node over different interfaces. - one of the interfaces that we can use to interact with the node is the p2p interface. Each connection to a node using this interface is managed by a python `P2PInterface` or derived object (which is owned by the `TestNode` object). We can open zero, one or many p2p connections to each bitcoind node. The node sees these connections as 'peers'. For historic reasons, the word 'mininode' has been used to refer to those p2p interface objects that we use to connect to the bitcoind node (the code was originally taken from the 'mini-node' branch of https://github.com/jgarzik/pynode/tree/mini-node). However that name has proved to be confusing for new contributors, so rename the remaining references. ACKs for top commit: amitiuttarwar: ACK d5800da519 MarcoFalke: ACK d5800da5199527a366024bc80cad7fcca17d5c4a 🚞 Tree-SHA512: 2c46c2ac3c4278b6e3c647cfd8108428a41e80788fc4f0e386e5b0c47675bc687d94779496c09a3e5ea1319617295be10c422adeeff2d2bd68378e00e0eeb5de
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from test_framework.p2p import P2PInterface
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from test_framework.util import assert_equal, assert_raises_rpc_error
from test_framework.messages import (
CBlock,
CGovernanceObject,
CGovernanceVote,
CInv,
COutPoint,
CRecoveredSig,
CTransaction,
FromHex,
hash256,
msg_clsig,
msg_inv,
msg_isdlock,
msg_tx,
MSG_TX,
MSG_TYPE_MASK,
ser_string,
uint256_from_str,
uint256_to_string
)
class ZMQPublisher(Enum):
hash_chain_lock = "hashchainlock"
hash_tx_lock = "hashtxlock"
hash_governance_vote = "hashgovernancevote"
hash_governance_object = "hashgovernanceobject"
hash_instantsend_doublespend = "hashinstantsenddoublespend"
hash_recovered_sig = "hashrecoveredsig"
raw_chain_lock = "rawchainlock"
raw_chain_lock_sig = "rawchainlocksig"
raw_tx_lock = "rawtxlock"
raw_tx_lock_sig = "rawtxlocksig"
raw_governance_vote = "rawgovernancevote"
raw_governance_object = "rawgovernanceobject"
raw_instantsend_doublespend = "rawinstantsenddoublespend"
raw_recovered_sig = "rawrecoveredsig"
class ZMQSubscriber:
def __init__(self, socket, topic):
self.socket = socket
self.topic = topic
import zmq
self.socket.setsockopt(zmq.SUBSCRIBE, self.topic)
def receive(self, flags=0):
topic, body, seq = self.socket.recv_multipart(flags)
# Topic should match the subscriber topic.
assert_equal(topic, self.topic)
return io.BytesIO(body)
class TestP2PConn(P2PInterface):
def __init__(self):
super().__init__()
self.islocks = {}
self.txes = {}
def send_islock(self, islock):
hash = uint256_from_str(hash256(islock.serialize()))
self.islocks[hash] = islock
inv = msg_inv([CInv(31, hash)])
self.send_message(inv)
def send_tx(self, tx):
hash = uint256_from_str(hash256(tx.serialize()))
self.txes[hash] = tx
inv = msg_inv([CInv(MSG_TX, hash)])
self.send_message(inv)
def on_getdata(self, message):
for inv in message.inv:
if ((inv.type & MSG_TYPE_MASK) == 30 or (inv.type & MSG_TYPE_MASK) == 31) and inv.hash in self.islocks:
self.send_message(self.islocks[inv.hash])
if (inv.type & MSG_TYPE_MASK) == MSG_TX and inv.hash in self.txes:
self.send_message(self.txes[inv.hash])
class DashZMQTest (DashTestFramework):
def set_test_params(self):
# That's where the zmq publisher will listen for subscriber
self.address = "tcp://127.0.0.1:28333"
# node0 creates all available ZMQ publisher
node0_extra_args = ["-zmqpub%s=%s" % (pub.value, self.address) for pub in ZMQPublisher]
node0_extra_args.append("-whitelist=127.0.0.1")
node0_extra_args.append("-watchquorums") # have to watch quorums to receive recsigs and trigger zmq
extra_args = [[]] * 5
extra_args[0] = node0_extra_args
self.set_dash_test_params(5, 4, fast_dip3_enforcement=True, extra_args=extra_args)
self.set_dash_llmq_test_params(4, 4)
def skip_test_if_missing_module(self):
self.skip_if_no_py3_zmq()
self.skip_if_no_bitcoind_zmq()
self.skip_if_no_wallet()
def run_test(self):
self.subscribers = {}
# Check that dashd has been built with ZMQ enabled.
config = configparser.ConfigParser()
config.read_file(open(self.options.configfile))
import zmq
try:
# Setup the ZMQ subscriber context
self.zmq_context = zmq.Context()
# Initialize the network
self.activate_dip8()
self.nodes[0].sporkupdate("SPORK_17_QUORUM_DKG_ENABLED", 0)
self.wait_for_sporks_same()
self.activate_v19(expected_activation_height=900)
self.log.info("Activated v19 at height:" + str(self.nodes[0].getblockcount()))
self.move_to_next_cycle()
self.log.info("Cycle H height:" + str(self.nodes[0].getblockcount()))
self.move_to_next_cycle()
self.log.info("Cycle H+C height:" + str(self.nodes[0].getblockcount()))
self.move_to_next_cycle()
self.log.info("Cycle H+2C height:" + str(self.nodes[0].getblockcount()))
self.mine_cycle_quorum(llmq_type_name='llmq_test_dip0024', llmq_type=103)
self.sync_blocks()
self.wait_for_chainlocked_block_all_nodes(self.nodes[0].getbestblockhash())
# Wait a moment to avoid subscribing to recovered sig in the test before the one from the chainlock
# has been sent which leads to test failure.
time.sleep(1)
# Test all dash related ZMQ publisher
#self.test_recovered_signature_publishers()
self.test_chainlock_publishers()
self.test_governance_publishers()
self.test_getzmqnotifications()
self.test_instantsend_publishers()
self.wait_for_chainlocked_block_all_nodes(self.nodes[0].getbestblockhash())
self.test_instantsend_publishers()
# At this point, we need to move forward 3 cycles (3 x 24 blocks) so the first 3 quarters can be created (without DKG sessions)
self.move_to_next_cycle()
self.test_instantsend_publishers()
self.move_to_next_cycle()
self.test_instantsend_publishers()
self.move_to_next_cycle()
self.test_instantsend_publishers()
self.mine_cycle_quorum()
self.test_instantsend_publishers()
finally:
# Destroy the ZMQ context.
self.log.debug("Destroying ZMQ context")
self.zmq_context.destroy(linger=None)
def generate_blocks(self, num_blocks):
mninfos_online = self.mninfo.copy()
nodes = [self.nodes[0]] + [mn.node for mn in mninfos_online]
self.nodes[0].generate(num_blocks)
self.sync_blocks(nodes)
def subscribe(self, publishers):
import zmq
# Setup the ZMQ subscriber socket
socket = self.zmq_context.socket(zmq.SUB)
socket.set(zmq.RCVTIMEO, 60000)
socket.connect(self.address)
# Subscribe to a list of ZMQPublishers
for pub in publishers:
self.subscribers[pub] = ZMQSubscriber(socket, pub.value.encode())
def unsubscribe(self, publishers):
# Unsubscribe from a list of ZMQPublishers
for pub in publishers:
del self.subscribers[pub]
def test_recovered_signature_publishers(self):
def validate_recovered_sig(request_id, msg_hash):
# Make sure the recovered sig exists by RPC
fix: improved reliability of functional tests that activates dip24 (#5313) ## Issue being fixed or feature implemented Functional tests in CI and locally often fails without a good reason (pretty randomly) ## What was done? It was re-implemented `get_recovered_sig` and updated `create_raw_tx` for better selection/change output. ## How Has This Been Tested? Run functional times with bug amount of parrallel jobs: ``` test/functional/test_runner.py -j 20 feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py feature_llmq_is_cl_conflicts.py ``` Without these changes usually 2-3 instance fails. With these changes all failures happened only for `p2p_addrv2_relay.py` and `mempool_unbroadcast.py`. Beside feature_llmq_is_conflicts.py improved stability of `interface_zmq_dash.py` also. ## Breaking Changes No breaking changes ## Checklist: - [x] I have performed a self-review of my own code - [ ] I have commented my code, particularly in hard-to-understand areas - [ ] I have added or updated relevant unit/integration/functional/e2e tests - [ ] I have made corresponding changes to the documentation - [x] I have assigned this pull request to a milestone --------- Co-authored-by: UdjinM6 <UdjinM6@users.noreply.github.com>
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self.wait_for_recovered_sig(request_id, msg_hash)
rpc_recovered_sig = self.mninfo[0].node.quorum('getrecsig', 103, request_id, msg_hash)
# Validate hashrecoveredsig
zmq_recovered_sig_hash = self.subscribers[ZMQPublisher.hash_recovered_sig].receive().read(32).hex()
assert_equal(zmq_recovered_sig_hash, msg_hash)
# Validate rawrecoveredsig
zmq_recovered_sig_raw = CRecoveredSig()
zmq_recovered_sig_raw.deserialize(self.subscribers[ZMQPublisher.raw_recovered_sig].receive())
assert_equal(zmq_recovered_sig_raw.llmqType, rpc_recovered_sig['llmqType'])
assert_equal(uint256_to_string(zmq_recovered_sig_raw.quorumHash), rpc_recovered_sig['quorumHash'])
assert_equal(uint256_to_string(zmq_recovered_sig_raw.id), rpc_recovered_sig['id'])
assert_equal(uint256_to_string(zmq_recovered_sig_raw.msgHash), rpc_recovered_sig['msgHash'])
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assert_equal(zmq_recovered_sig_raw.sig.hex(), rpc_recovered_sig['sig'])
recovered_sig_publishers = [
ZMQPublisher.hash_recovered_sig,
ZMQPublisher.raw_recovered_sig
]
self.log.info("Testing %d recovered signature publishers" % len(recovered_sig_publishers))
# Subscribe to recovered signature messages
self.subscribe(recovered_sig_publishers)
# Generate a ChainLock and make sure this leads to valid recovered sig ZMQ messages
rpc_last_block_hash = self.nodes[0].generate(1)[0]
self.wait_for_chainlocked_block_all_nodes(rpc_last_block_hash)
height = self.nodes[0].getblockcount()
rpc_request_id = hash256(ser_string(b"clsig") + struct.pack("<I", height))[::-1].hex()
validate_recovered_sig(rpc_request_id, rpc_last_block_hash)
# Sign an arbitrary and make sure this leads to valid recovered sig ZMQ messages
sign_id = uint256_to_string(random.getrandbits(256))
sign_msg_hash = uint256_to_string(random.getrandbits(256))
for mn in self.get_quorum_masternodes(self.quorum_hash):
mn.node.quorum("sign", self.quorum_type, sign_id, sign_msg_hash)
validate_recovered_sig(sign_id, sign_msg_hash)
# Unsubscribe from recovered signature messages
self.unsubscribe(recovered_sig_publishers)
def test_chainlock_publishers(self):
chain_lock_publishers = [
ZMQPublisher.hash_chain_lock,
ZMQPublisher.raw_chain_lock,
ZMQPublisher.raw_chain_lock_sig
]
self.log.info("Testing %d ChainLock publishers" % len(chain_lock_publishers))
# Subscribe to ChainLock messages
self.subscribe(chain_lock_publishers)
# Generate ChainLock
generated_hash = self.nodes[0].generate(1)[0]
self.wait_for_chainlocked_block_all_nodes(generated_hash)
rpc_best_chain_lock = self.nodes[0].getbestchainlock()
rpc_best_chain_lock_hash = rpc_best_chain_lock["blockhash"]
rpc_best_chain_lock_sig = rpc_best_chain_lock["signature"]
assert_equal(generated_hash, rpc_best_chain_lock_hash)
rpc_chain_locked_block = self.nodes[0].getblock(rpc_best_chain_lock_hash)
rpc_chain_lock_height = rpc_chain_locked_block["height"]
rpc_chain_lock_hash = rpc_chain_locked_block["hash"]
assert_equal(generated_hash, rpc_chain_lock_hash)
# Validate hashchainlock
zmq_chain_lock_hash = self.subscribers[ZMQPublisher.hash_chain_lock].receive().read(32).hex()
assert_equal(zmq_chain_lock_hash, rpc_best_chain_lock_hash)
# Validate rawchainlock
zmq_chain_locked_block = CBlock()
zmq_chain_locked_block.deserialize(self.subscribers[ZMQPublisher.raw_chain_lock].receive())
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assert zmq_chain_locked_block.is_valid()
assert_equal(zmq_chain_locked_block.hash, rpc_chain_lock_hash)
# Validate rawchainlocksig
zmq_chain_lock_sig_stream = self.subscribers[ZMQPublisher.raw_chain_lock_sig].receive()
zmq_chain_locked_block = CBlock()
zmq_chain_locked_block.deserialize(zmq_chain_lock_sig_stream)
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assert zmq_chain_locked_block.is_valid()
zmq_chain_lock = msg_clsig()
zmq_chain_lock.deserialize(zmq_chain_lock_sig_stream)
assert_equal(zmq_chain_lock.height, rpc_chain_lock_height)
assert_equal(uint256_to_string(zmq_chain_lock.blockHash), rpc_chain_lock_hash)
assert_equal(zmq_chain_locked_block.hash, rpc_chain_lock_hash)
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assert_equal(zmq_chain_lock.sig.hex(), rpc_best_chain_lock_sig)
# Unsubscribe from ChainLock messages
self.unsubscribe(chain_lock_publishers)
def test_instantsend_publishers(self):
import zmq
instantsend_publishers = [
ZMQPublisher.hash_tx_lock,
ZMQPublisher.raw_tx_lock,
ZMQPublisher.raw_tx_lock_sig,
ZMQPublisher.hash_instantsend_doublespend,
ZMQPublisher.raw_instantsend_doublespend
]
self.log.info("Testing %d InstantSend publishers" % len(instantsend_publishers))
# Subscribe to InstantSend messages
self.subscribe(instantsend_publishers)
# Initialize test node
self.test_node = self.nodes[0].add_p2p_connection(TestP2PConn())
# Make sure all nodes agree
self.wait_for_chainlocked_block_all_nodes(self.nodes[0].getbestblockhash())
# Create two raw TXs, they will conflict with each other
rpc_raw_tx_1 = self.create_raw_tx(self.nodes[0], self.nodes[0], 1, 1, 100)
rpc_raw_tx_2 = self.create_raw_tx(self.nodes[0], self.nodes[0], 1, 1, 100)
# Send the first transaction and wait for the InstantLock
rpc_raw_tx_1_hash = self.nodes[0].sendrawtransaction(rpc_raw_tx_1['hex'])
self.wait_for_instantlock(rpc_raw_tx_1_hash, self.nodes[0])
# Validate hashtxlock
zmq_tx_lock_hash = self.subscribers[ZMQPublisher.hash_tx_lock].receive().read(32).hex()
assert_equal(zmq_tx_lock_hash, rpc_raw_tx_1['txid'])
# Validate rawtxlock
zmq_tx_lock_raw = CTransaction()
zmq_tx_lock_raw.deserialize(self.subscribers[ZMQPublisher.raw_tx_lock].receive())
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assert zmq_tx_lock_raw.is_valid()
assert_equal(zmq_tx_lock_raw.hash, rpc_raw_tx_1['txid'])
# Validate rawtxlocksig
zmq_tx_lock_sig_stream = self.subscribers[ZMQPublisher.raw_tx_lock_sig].receive()
zmq_tx_lock_tx = CTransaction()
zmq_tx_lock_tx.deserialize(zmq_tx_lock_sig_stream)
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assert zmq_tx_lock_tx.is_valid()
assert_equal(zmq_tx_lock_tx.hash, rpc_raw_tx_1['txid'])
zmq_tx_lock = msg_isdlock()
zmq_tx_lock.deserialize(zmq_tx_lock_sig_stream)
assert_equal(uint256_to_string(zmq_tx_lock.txid), rpc_raw_tx_1['txid'])
# Try to send the second transaction. This must throw an RPC error because it conflicts with rpc_raw_tx_1
# which already got the InstantSend lock.
assert_raises_rpc_error(-26, "tx-txlock-conflict", self.nodes[0].sendrawtransaction, rpc_raw_tx_2['hex'])
# Validate hashinstantsenddoublespend
zmq_double_spend_hash2 = self.subscribers[ZMQPublisher.hash_instantsend_doublespend].receive().read(32).hex()
zmq_double_spend_hash1 = self.subscribers[ZMQPublisher.hash_instantsend_doublespend].receive().read(32).hex()
assert_equal(zmq_double_spend_hash2, rpc_raw_tx_2['txid'])
assert_equal(zmq_double_spend_hash1, rpc_raw_tx_1['txid'])
# Validate rawinstantsenddoublespend
zmq_double_spend_tx_2 = CTransaction()
zmq_double_spend_tx_2.deserialize(self.subscribers[ZMQPublisher.raw_instantsend_doublespend].receive())
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assert zmq_double_spend_tx_2.is_valid()
assert_equal(zmq_double_spend_tx_2.hash, rpc_raw_tx_2['txid'])
zmq_double_spend_tx_1 = CTransaction()
zmq_double_spend_tx_1.deserialize(self.subscribers[ZMQPublisher.raw_instantsend_doublespend].receive())
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assert zmq_double_spend_tx_1.is_valid()
assert_equal(zmq_double_spend_tx_1.hash, rpc_raw_tx_1['txid'])
# No islock notifications when tx is not received yet
self.nodes[0].generate(1)
rpc_raw_tx_3 = self.create_raw_tx(self.nodes[0], self.nodes[0], 1, 1, 100)
isdlock = self.create_isdlock(rpc_raw_tx_3['hex'])
self.test_node.send_islock(isdlock)
# Validate NO hashtxlock
time.sleep(1)
try:
self.subscribers[ZMQPublisher.hash_tx_lock].receive(zmq.NOBLOCK)
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assert False
except zmq.ZMQError:
# this is expected
pass
# Now send the tx itself
self.test_node.send_tx(FromHex(msg_tx(), rpc_raw_tx_3['hex']))
self.wait_for_instantlock(rpc_raw_tx_3['txid'], self.nodes[0])
# Validate hashtxlock
zmq_tx_lock_hash = self.subscribers[ZMQPublisher.hash_tx_lock].receive().read(32).hex()
assert_equal(zmq_tx_lock_hash, rpc_raw_tx_3['txid'])
# Drop test node connection
self.nodes[0].disconnect_p2ps()
# Unsubscribe from InstantSend messages
self.unsubscribe(instantsend_publishers)
def test_governance_publishers(self):
governance_publishers = [
ZMQPublisher.hash_governance_object,
ZMQPublisher.raw_governance_object,
ZMQPublisher.hash_governance_vote,
ZMQPublisher.raw_governance_vote
]
self.log.info("Testing %d governance publishers" % len(governance_publishers))
# Subscribe to governance messages
self.subscribe(governance_publishers)
# Create a proposal and submit it to the network
proposal_rev = 1
proposal_time = int(time.time())
proposal_data = {
"type": 1, # GOVERNANCE_OBJECT_PROPOSAL
"name": "Test",
"start_epoch": proposal_time,
"end_epoch": proposal_time + 60,
"payment_amount": 5,
"payment_address": self.nodes[0].getnewaddress(),
"url": "https://dash.org"
}
proposal_hex = ''.join(format(x, '02x') for x in json.dumps(proposal_data).encode())
collateral = self.nodes[0].gobject("prepare", "0", proposal_rev, proposal_time, proposal_hex)
self.wait_for_instantlock(collateral, self.nodes[0])
self.nodes[0].generate(6)
self.sync_blocks()
rpc_proposal_hash = self.nodes[0].gobject("submit", "0", proposal_rev, proposal_time, proposal_hex, collateral)
# Validate hashgovernanceobject
zmq_governance_object_hash = self.subscribers[ZMQPublisher.hash_governance_object].receive().read(32).hex()
assert_equal(zmq_governance_object_hash, rpc_proposal_hash)
# Validate rawgovernanceobject
zmq_governance_object_raw = CGovernanceObject()
zmq_governance_object_raw.deserialize(self.subscribers[ZMQPublisher.raw_governance_object].receive())
assert_equal(zmq_governance_object_raw.nHashParent, 0)
assert_equal(zmq_governance_object_raw.nRevision, proposal_rev)
assert_equal(zmq_governance_object_raw.nTime, proposal_time)
assert_equal(json.loads(zmq_governance_object_raw.vchData.decode()), proposal_data)
assert_equal(zmq_governance_object_raw.nObjectType, proposal_data["type"])
assert_equal(zmq_governance_object_raw.masternodeOutpoint.hash, COutPoint().hash)
assert_equal(zmq_governance_object_raw.masternodeOutpoint.n, COutPoint().n)
# Vote for the proposal and validate the governance vote message
map_vote_outcomes = {
0: "none",
1: "yes",
2: "no",
3: "abstain"
}
map_vote_signals = {
0: "none",
1: "funding",
2: "valid",
3: "delete",
4: "endorsed"
}
self.nodes[0].gobject("vote-many", rpc_proposal_hash, map_vote_signals[1], map_vote_outcomes[1])
rpc_proposal_votes = self.nodes[0].gobject('getcurrentvotes', rpc_proposal_hash)
# Validate hashgovernancevote
zmq_governance_vote_hash = self.subscribers[ZMQPublisher.hash_governance_vote].receive().read(32).hex()
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assert zmq_governance_vote_hash in rpc_proposal_votes
# Validate rawgovernancevote
zmq_governance_vote_raw = CGovernanceVote()
zmq_governance_vote_raw.deserialize(self.subscribers[ZMQPublisher.raw_governance_vote].receive())
assert_equal(uint256_to_string(zmq_governance_vote_raw.nParentHash), rpc_proposal_hash)
rpc_vote_parts = rpc_proposal_votes[zmq_governance_vote_hash].split(':')
rpc_outpoint_parts = rpc_vote_parts[0].split('-')
assert_equal(uint256_to_string(zmq_governance_vote_raw.masternodeOutpoint.hash), rpc_outpoint_parts[0])
assert_equal(zmq_governance_vote_raw.masternodeOutpoint.n, int(rpc_outpoint_parts[1]))
assert_equal(zmq_governance_vote_raw.nTime, int(rpc_vote_parts[1]))
assert_equal(map_vote_outcomes[zmq_governance_vote_raw.nVoteOutcome], rpc_vote_parts[2])
assert_equal(map_vote_signals[zmq_governance_vote_raw.nVoteSignal], rpc_vote_parts[3])
# Unsubscribe from governance messages
self.unsubscribe(governance_publishers)
def test_getzmqnotifications(self):
# Test getzmqnotifications RPC
assert_equal(self.nodes[0].getzmqnotifications(), [
{"type": "pubhashchainlock", "address": self.address, "hwm": 1000},
{"type": "pubhashgovernanceobject", "address": self.address, "hwm": 1000},
{"type": "pubhashgovernancevote", "address": self.address, "hwm": 1000},
{"type": "pubhashinstantsenddoublespend", "address": self.address, "hwm": 1000},
{"type": "pubhashrecoveredsig", "address": self.address, "hwm": 1000},
{"type": "pubhashtxlock", "address": self.address, "hwm": 1000},
{"type": "pubrawchainlock", "address": self.address, "hwm": 1000},
{"type": "pubrawchainlocksig", "address": self.address, "hwm": 1000},
{"type": "pubrawgovernanceobject", "address": self.address, "hwm": 1000},
{"type": "pubrawgovernancevote", "address": self.address, "hwm": 1000},
{"type": "pubrawinstantsenddoublespend", "address": self.address, "hwm": 1000},
{"type": "pubrawrecoveredsig", "address": self.address, "hwm": 1000},
{"type": "pubrawtxlock", "address": self.address, "hwm": 1000},
{"type": "pubrawtxlocksig", "address": self.address, "hwm": 1000},
])
if __name__ == '__main__':
DashZMQTest().main()