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085120d9f9
de85af5cce727981383ac0fe81f635451b331f23 test: store subversion (user agent) as string in msg_version (Sebastian Falbesoner) Pull request description: It seems more natural to treat the "subversion" field (=user agent string, see [BIP 14](https://github.com/bitcoin/bips/blob/master/bip-0014.mediawiki#Proposal)) of a node as pure string rather than a bytestring within the test framework. This is also suggested with the naming prefix in `msg_version.strSubVer`: one probably wouldn't expect a field starting with "str" to be a bytestring that needs further decoding to be useful. This PR moves the encoding/decoding parts to the serialization/deserialization routines so that the user doesn't have to bother with that anymore. Note that currently, in the master branch the `msg_version.strSubVer` is never read (only in `msg_version.__repr__`); However, one issue that is solved by this PR came up while testing #19509 (not merged yet): A decoding script for binary message capture files takes use of the functional test framework convert it into JSON format. Bytestrings will be convered to hexstrings, while pure strings will (surprise surprise) end up without modification in the file. So without this patch, we get: ``` $ jq . out.json | grep -m5 strSubVer "strSubVer": "2f5361746f7368693a32312e39392e302f" "strSubVer": "2f5361746f7368693a302e32302e312f" "strSubVer": "2f5361746f7368693a32312e39392e302f" "strSubVer": "2f5361746f7368693a302e32302e312f" "strSubVer": "2f5361746f7368693a32312e39392e302f" ``` After this patch: ``` $ jq . out2.json | grep -m5 strSubVer "strSubVer": "/Satoshi:21.99.0/" "strSubVer": "/Satoshi:0.20.1/" "strSubVer": "/Satoshi:21.99.0/" "strSubVer": "/Satoshi:0.20.1/" "strSubVer": "/Satoshi:21.99.0/" ``` ACKs for top commit: jnewbery: utACK de85af5cce727981383ac0fe81f635451b331f23 Tree-SHA512: ff23642705c858e8387a625537dfec82e6b8a15da6d99b8d12152560e52d243ba17431b602b26f60996d897e00e3f37dcf8dc8a303ffb1d544df29a5937080f9
436 lines
21 KiB
Python
Executable File
436 lines
21 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2021-2024 The Dash Core developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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import time
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from test_framework.messages import msg_qgetdata, msg_qwatch
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from test_framework.p2p import (
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p2p_lock,
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P2PInterface,
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)
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from test_framework.test_framework import DashTestFramework
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from test_framework.util import (
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assert_equal,
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assert_raises_rpc_error,
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force_finish_mnsync,
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wait_until_helper,
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)
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'''
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p2p_quorum_data.py
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Tests QGETDATA/QDATA functionality
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'''
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# Possible error values of QDATA
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QUORUM_TYPE_INVALID = 1
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QUORUM_BLOCK_NOT_FOUND = 2
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QUORUM_NOT_FOUND = 3
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MASTERNODE_IS_NO_MEMBER = 4
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QUORUM_VERIFICATION_VECTOR_MISSING = 5
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ENCRYPTED_CONTRIBUTIONS_MISSING = 6
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# Used to overwrite MNAUTH for mininode connections
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fake_mnauth_1 = ["cecf37bf0ec05d2d22cb8227f88074bb882b94cd2081ba318a5a444b1b15b9fd",
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"087ba00bf61135f3860c4944a0debabe186ef82628fbe4ceaed1ad51d672c58dde14ea4b321efe0b89257a40322bc972"]
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fake_mnauth_2 = ["6ad7ed7a2d6c2c1db30fc364114602b36b2730a9aa96d8f11f1871a9cee37378",
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"122463411a86362966a5161805f24cf6a0eef08a586b8e00c4f0ad0b084c5bb3f5c9a60ee5ffc78db2313897e3ab2223"]
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# Used to distinguish mininode connections
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uacomment_m3_1 = "MN3_1"
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uacomment_m3_2 = "MN3_2"
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def assert_qdata(qdata, qgetdata, error, len_vvec=0, len_contributions=0):
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assert qdata is not None and qgetdata is not None
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assert_equal(qdata.quorum_type, qgetdata.quorum_type)
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assert_equal(qdata.quorum_hash, qgetdata.quorum_hash)
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assert_equal(qdata.data_mask, qgetdata.data_mask)
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assert_equal(qdata.protx_hash, qgetdata.protx_hash)
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assert_equal(qdata.error, error)
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assert_equal(len(qdata.quorum_vvec), len_vvec)
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assert_equal(len(qdata.enc_contributions), len_contributions)
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def wait_for_banscore(node, peer_id, expected_score):
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def get_score():
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for peer in node.getpeerinfo():
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if peer["id"] == peer_id:
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if (peer["banscore"] == expected_score):
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# The score matches the one we expected.
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# Wait a bit to make sure it won't change
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# to avoid false positives.
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time.sleep(1)
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return peer["banscore"]
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return None
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wait_until_helper(lambda: get_score() == expected_score, timeout=6)
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def p2p_connection(node, uacomment=None):
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return node.add_p2p_connection(QuorumDataInterface(), uacomment=uacomment)
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def get_p2p_id(node, uacomment=None):
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def get_id():
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for p in node.getpeerinfo():
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for p2p in node.p2ps:
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if uacomment is not None and p2p.uacomment != uacomment:
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continue
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if p["subver"] == p2p.strSubVer:
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return p["id"]
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return None
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wait_until_helper(lambda: get_id() is not None, timeout=10)
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return get_id()
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def mnauth(node, node_id, protx_hash, operator_pubkey):
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assert node.mnauth(node_id, protx_hash, operator_pubkey)
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mnauth_peer_id = None
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for peer in node.getpeerinfo():
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if "verified_proregtx_hash" in peer and peer["verified_proregtx_hash"] == protx_hash:
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assert_equal(mnauth_peer_id, None)
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mnauth_peer_id = peer["id"]
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assert_equal(mnauth_peer_id, node_id)
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class QuorumDataInterface(P2PInterface):
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def __init__(self):
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super().__init__()
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def test_qgetdata(self, qgetdata, expected_error=0, len_vvec=0, len_contributions=0, response_expected=True):
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self.send_message(qgetdata)
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self.wait_for_qmessage("qdata", message_expected=response_expected)
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if response_expected:
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assert_qdata(self.get_qdata(), qgetdata, expected_error, len_vvec, len_contributions)
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def wait_for_qmessage(self, message=None, timeout=3, message_expected=True):
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wait_until_helper(lambda: self.message_count[message] > 0, timeout=timeout, lock=p2p_lock, do_assert=message_expected)
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if not message_expected:
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assert self.message_count[message] == 0
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self.message_count[message] = 0
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def get_qdata(self):
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return self.last_message["qdata"]
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class QuorumDataMessagesTest(DashTestFramework):
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def set_test_params(self):
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extra_args = [["-llmq-data-recovery=0", "-deprecatedrpc=banscore"]] * 4
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self.set_dash_test_params(4, 3, fast_dip3_enforcement=True, extra_args=extra_args)
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def restart_mn(self, mn, reindex=False):
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args = self.extra_args[mn.node.index] + ['-masternodeblsprivkey=%s' % mn.keyOperator]
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if reindex:
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args.append('-reindex')
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self.restart_node(mn.node.index, args)
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force_finish_mnsync(mn.node)
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self.connect_nodes(mn.node.index, 0)
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self.sync_blocks()
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def run_test(self):
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def force_request_expire(bump_seconds=self.quorum_data_request_expiration_timeout + 1):
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self.bump_mocktime(bump_seconds)
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# Test with/without expired request cleanup
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if self.cleanup:
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node0.generate(1)
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self.sync_blocks()
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def test_basics():
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self.log.info("Testing basics of QGETDATA/QDATA")
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force_request_expire()
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p2p_node0 = p2p_connection(node0)
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p2p_mn2 = p2p_connection(mn2.node)
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id_p2p_node0 = get_p2p_id(node0)
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id_p2p_mn2 = get_p2p_id(mn2.node)
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# Ensure that both nodes start with zero ban score
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wait_for_banscore(node0, id_p2p_node0, 0)
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wait_for_banscore(mn2.node, id_p2p_mn2, 0)
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self.log.info("Check that normal node doesn't respond to qgetdata "
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"and does bump our score")
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p2p_node0.test_qgetdata(qgetdata_all, response_expected=False)
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wait_for_banscore(node0, id_p2p_node0, 10)
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self.log.info("Check that normal node bumps our score for qwatch")
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p2p_node0.send_message(msg_qwatch())
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wait_for_banscore(node0, id_p2p_node0, 20)
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# The masternode should not respond to qgetdata for non-masternode connections
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self.log.info("Check that masternode doesn't respond to "
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"non-masternode connection and does bump our score")
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p2p_mn2.test_qgetdata(qgetdata_all, response_expected=False)
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wait_for_banscore(mn2.node, id_p2p_mn2, 10)
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# Open a fake MNAUTH authenticated P2P connection to the masternode to allow qgetdata
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node0.disconnect_p2ps()
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mn2.node.disconnect_p2ps()
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p2p_mn2 = p2p_connection(mn2.node)
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id_p2p_mn2 = get_p2p_id(mn2.node)
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mnauth(mn2.node, id_p2p_mn2, fake_mnauth_2[0], fake_mnauth_2[1])
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# The masternode should now respond to qgetdata requests
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self.log.info("Request verification vector")
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p2p_mn2.test_qgetdata(qgetdata_vvec, 0, self.llmq_threshold, 0)
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wait_for_banscore(mn2.node, id_p2p_mn2, 0)
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# Note: our banscore is bumped as we are requesting too rapidly,
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# however the node still returns the data
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self.log.info("Request encrypted contributions")
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p2p_mn2.test_qgetdata(qgetdata_contributions, 0, 0, self.llmq_size)
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wait_for_banscore(mn2.node, id_p2p_mn2, 25)
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# Request both
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# Note: our banscore is bumped as we are requesting too rapidly,
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# however the node still returns the data
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self.log.info("Request both")
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p2p_mn2.test_qgetdata(qgetdata_all, 0, self.llmq_threshold, self.llmq_size)
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wait_for_banscore(mn2.node, id_p2p_mn2, 50)
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mn2.node.disconnect_p2ps()
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self.log.info("Test ban score increase for invalid / unexpected QDATA")
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p2p_mn1 = p2p_connection(mn1.node)
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p2p_mn2 = p2p_connection(mn2.node)
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id_p2p_mn1 = get_p2p_id(mn1.node)
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id_p2p_mn2 = get_p2p_id(mn2.node)
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mnauth(mn1.node, id_p2p_mn1, fake_mnauth_1[0], fake_mnauth_1[1])
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mnauth(mn2.node, id_p2p_mn2, fake_mnauth_2[0], fake_mnauth_2[1])
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wait_for_banscore(mn1.node, id_p2p_mn1, 0)
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p2p_mn2.test_qgetdata(qgetdata_all, 0, self.llmq_threshold, self.llmq_size)
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qdata_valid = p2p_mn2.get_qdata()
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# - Not requested
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p2p_mn1.send_message(qdata_valid)
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time.sleep(1)
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wait_for_banscore(mn1.node, id_p2p_mn1, 10)
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# - Already received
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force_request_expire()
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assert mn1.node.quorum("getdata", id_p2p_mn1, 100, quorum_hash, 0x03, mn1.proTxHash)
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p2p_mn1.wait_for_qmessage("qgetdata")
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p2p_mn1.send_message(qdata_valid)
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time.sleep(1)
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p2p_mn1.send_message(qdata_valid)
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wait_for_banscore(mn1.node, id_p2p_mn1, 20)
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# - Not like requested
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force_request_expire()
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assert mn1.node.quorum("getdata", id_p2p_mn1, 100, quorum_hash, 0x03, mn1.proTxHash)
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p2p_mn1.wait_for_qmessage("qgetdata")
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qdata_invalid_request = qdata_valid
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qdata_invalid_request.data_mask = 2
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p2p_mn1.send_message(qdata_invalid_request)
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wait_for_banscore(mn1.node, id_p2p_mn1, 30)
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# - Invalid verification vector
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force_request_expire()
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assert mn1.node.quorum("getdata", id_p2p_mn1, 100, quorum_hash, 0x03, mn1.proTxHash)
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p2p_mn1.wait_for_qmessage("qgetdata")
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qdata_invalid_vvec = qdata_valid
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qdata_invalid_vvec.quorum_vvec.pop()
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p2p_mn1.send_message(qdata_invalid_vvec)
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wait_for_banscore(mn1.node, id_p2p_mn1, 40)
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# - Invalid contributions
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force_request_expire()
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assert mn1.node.quorum("getdata", id_p2p_mn1, 100, quorum_hash, 0x03, mn1.proTxHash)
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p2p_mn1.wait_for_qmessage("qgetdata")
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qdata_invalid_contribution = qdata_valid
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qdata_invalid_contribution.enc_contributions.pop()
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p2p_mn1.send_message(qdata_invalid_contribution)
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wait_for_banscore(mn1.node, id_p2p_mn1, 50)
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mn1.node.disconnect_p2ps()
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mn2.node.disconnect_p2ps()
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self.log.info("Test all available error codes")
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p2p_mn2 = p2p_connection(mn2.node)
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id_p2p_mn2 = get_p2p_id(mn2.node)
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mnauth(mn2.node, id_p2p_mn2, fake_mnauth_2[0], fake_mnauth_2[1])
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qgetdata_invalid_type = msg_qgetdata(quorum_hash_int, 105, 0x01, protx_hash_int)
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qgetdata_invalid_block = msg_qgetdata(protx_hash_int, 100, 0x01, protx_hash_int)
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qgetdata_invalid_quorum = msg_qgetdata(int(mn2.node.getblockhash(0), 16), 100, 0x01, protx_hash_int)
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qgetdata_invalid_no_member = msg_qgetdata(quorum_hash_int, 100, 0x02, quorum_hash_int)
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p2p_mn2.test_qgetdata(qgetdata_invalid_type, QUORUM_TYPE_INVALID)
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p2p_mn2.test_qgetdata(qgetdata_invalid_block, QUORUM_BLOCK_NOT_FOUND)
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p2p_mn2.test_qgetdata(qgetdata_invalid_quorum, QUORUM_NOT_FOUND)
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p2p_mn2.test_qgetdata(qgetdata_invalid_no_member, MASTERNODE_IS_NO_MEMBER)
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# The last two error case require the node to miss its DKG data so we just reindex the node.
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mn2.node.disconnect_p2ps()
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self.restart_mn(mn1, reindex=True)
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# Re-connect to the masternode
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p2p_mn1 = p2p_connection(mn1.node)
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p2p_mn2 = p2p_connection(mn2.node)
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id_p2p_mn1 = get_p2p_id(mn1.node)
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id_p2p_mn2 = get_p2p_id(mn2.node)
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assert id_p2p_mn1 is not None
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assert id_p2p_mn2 is not None
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mnauth(mn1.node, id_p2p_mn1, fake_mnauth_1[0], fake_mnauth_1[1])
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mnauth(mn2.node, id_p2p_mn2, fake_mnauth_2[0], fake_mnauth_2[1])
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# Validate the DKG data is missing
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p2p_mn1.test_qgetdata(qgetdata_vvec, QUORUM_VERIFICATION_VECTOR_MISSING)
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p2p_mn1.test_qgetdata(qgetdata_contributions, ENCRYPTED_CONTRIBUTIONS_MISSING)
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self.test_mn_quorum_data(mn1, 100, quorum_hash, expect_secret=False)
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self.log.info("Test DKG data recovery with QDATA")
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# Now that mn1 is missing its DKG data try to recover it by querying the data from mn2 and then sending it
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# to mn1 with a direct QDATA message.
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#
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# mininode - QGETDATA -> mn2 - QDATA -> mininode - QDATA -> mn1
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#
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# However, mn1 only accepts self requested QDATA messages, that's why we trigger mn1 - QGETDATA -> mininode
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# via the RPC command "quorum getdata".
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#
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# Get the required DKG data for mn1
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p2p_mn2.test_qgetdata(qgetdata_all, 0, self.llmq_threshold, self.llmq_size)
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# Trigger mn1 - QGETDATA -> p2p_mn1
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assert mn1.node.quorum("getdata", id_p2p_mn1, 100, quorum_hash, 0x03, mn1.proTxHash)
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# Wait until mn1 sent the QGETDATA to p2p_mn1
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p2p_mn1.wait_for_qmessage("qgetdata")
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# Send the QDATA received from mn2 to mn1
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p2p_mn1.send_message(p2p_mn2.get_qdata())
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# Now mn1 should have its data back!
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self.wait_for_quorum_data([mn1], 100, quorum_hash, recover=False)
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# Restart one more time and make sure data gets saved to db
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mn1.node.disconnect_p2ps()
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mn2.node.disconnect_p2ps()
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self.restart_mn(mn1)
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self.wait_for_quorum_data([mn1], 100, quorum_hash, recover=False)
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# Test request limiting / banscore increase
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def test_request_limit():
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def test_send_from_two_to_one(send_1, expected_score_1, send_2, expected_score_2, clear_requests=False):
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if clear_requests:
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force_request_expire()
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if send_1:
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p2p_mn3_1.test_qgetdata(qgetdata_vvec, 0, self.llmq_threshold, 0)
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if send_2:
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p2p_mn3_2.test_qgetdata(qgetdata_vvec, 0, self.llmq_threshold, 0)
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wait_for_banscore(mn3.node, id_p2p_mn3_1, expected_score_1)
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wait_for_banscore(mn3.node, id_p2p_mn3_2, expected_score_2)
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self.log.info("Test request limiting / banscore increases")
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p2p_mn1 = p2p_connection(mn1.node)
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id_p2p_mn1 = get_p2p_id(mn1.node)
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mnauth(mn1.node, id_p2p_mn1, fake_mnauth_1[0], fake_mnauth_1[1])
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p2p_mn1.test_qgetdata(qgetdata_vvec, 0, self.llmq_threshold, 0)
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wait_for_banscore(mn1.node, id_p2p_mn1, 0)
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force_request_expire(299) # This shouldn't clear requests, next request should bump score
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p2p_mn1.test_qgetdata(qgetdata_vvec, 0, self.llmq_threshold, 0)
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wait_for_banscore(mn1.node, id_p2p_mn1, 25)
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force_request_expire(1) # This should clear the requests now, next request should not bump score
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p2p_mn1.test_qgetdata(qgetdata_vvec, 0, self.llmq_threshold, 0)
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wait_for_banscore(mn1.node, id_p2p_mn1, 25)
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mn1.node.disconnect_p2ps()
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# Requesting one QDATA with mn1 and mn2 from mn3 should not result
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# in banscore increase for either of both.
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p2p_mn3_1 = p2p_connection(mn3.node, uacomment_m3_1)
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p2p_mn3_2 = p2p_connection(mn3.node, uacomment_m3_2)
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id_p2p_mn3_1 = get_p2p_id(mn3.node, uacomment_m3_1)
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id_p2p_mn3_2 = get_p2p_id(mn3.node, uacomment_m3_2)
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assert id_p2p_mn3_1 != id_p2p_mn3_2
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mnauth(mn3.node, id_p2p_mn3_1, fake_mnauth_1[0], fake_mnauth_1[1])
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mnauth(mn3.node, id_p2p_mn3_2, fake_mnauth_2[0], fake_mnauth_2[1])
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# Now try some {mn1, mn2} - QGETDATA -> mn3 combinations to make
|
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# sure request limit works connection based
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test_send_from_two_to_one(False, 0, True, 0, True)
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test_send_from_two_to_one(True, 0, True, 25)
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test_send_from_two_to_one(True, 25, False, 25)
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test_send_from_two_to_one(False, 25, True, 25, True)
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test_send_from_two_to_one(True, 25, True, 50)
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test_send_from_two_to_one(True, 50, True, 75)
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test_send_from_two_to_one(True, 50, True, 75, True)
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test_send_from_two_to_one(True, 75, False, 75)
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test_send_from_two_to_one(False, 75, True, None)
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# mn1 should still have a score of 75
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wait_for_banscore(mn3.node, id_p2p_mn3_1, 75)
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|
# mn2 should be "banned" now
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|
self.wait_until(lambda: not p2p_mn3_2.is_connected, timeout=10)
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|
mn3.node.disconnect_p2ps()
|
|
|
|
# Test that QWATCH connections are also allowed to query data but all
|
|
# QWATCH connections share one request limit slot
|
|
def test_qwatch_connections():
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|
self.log.info("Test QWATCH connections")
|
|
force_request_expire()
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p2p_mn3_1 = p2p_connection(mn3.node, uacomment_m3_1)
|
|
p2p_mn3_2 = p2p_connection(mn3.node, uacomment_m3_2)
|
|
id_p2p_mn3_1 = get_p2p_id(mn3.node, uacomment_m3_1)
|
|
id_p2p_mn3_2 = get_p2p_id(mn3.node, uacomment_m3_2)
|
|
assert id_p2p_mn3_1 != id_p2p_mn3_2
|
|
|
|
wait_for_banscore(mn3.node, id_p2p_mn3_1, 0)
|
|
wait_for_banscore(mn3.node, id_p2p_mn3_2, 0)
|
|
|
|
# Send QWATCH for both connections
|
|
p2p_mn3_1.send_message(msg_qwatch())
|
|
p2p_mn3_2.send_message(msg_qwatch())
|
|
|
|
# Now send alternating and make sure they share the same request limit
|
|
p2p_mn3_1.test_qgetdata(qgetdata_all, 0, self.llmq_threshold, self.llmq_size)
|
|
wait_for_banscore(mn3.node, id_p2p_mn3_1, 0)
|
|
p2p_mn3_2.test_qgetdata(qgetdata_all, 0, self.llmq_threshold, self.llmq_size)
|
|
wait_for_banscore(mn3.node, id_p2p_mn3_2, 25)
|
|
p2p_mn3_1.test_qgetdata(qgetdata_all, 0, self.llmq_threshold, self.llmq_size)
|
|
wait_for_banscore(mn3.node, id_p2p_mn3_1, 25)
|
|
mn3.node.disconnect_p2ps()
|
|
|
|
def test_watchquorums():
|
|
self.log.info("Test -watchquorums support")
|
|
for extra_args in [[], ["-watchquorums"]]:
|
|
force_request_expire()
|
|
self.restart_node(0, self.extra_args[0] + extra_args)
|
|
for i in range(self.num_nodes - 1):
|
|
self.connect_nodes(0, i + 1)
|
|
p2p_node0 = p2p_connection(node0)
|
|
p2p_mn2 = p2p_connection(mn2.node)
|
|
id_p2p_node0 = get_p2p_id(node0)
|
|
id_p2p_mn2 = get_p2p_id(mn2.node)
|
|
mnauth(node0, id_p2p_node0, fake_mnauth_1[0], fake_mnauth_1[1])
|
|
mnauth(mn2.node, id_p2p_mn2, fake_mnauth_2[0], fake_mnauth_2[1])
|
|
p2p_mn2.test_qgetdata(qgetdata_vvec, 0, self.llmq_threshold)
|
|
assert node0.quorum("getdata", id_p2p_node0, 100, quorum_hash, 0x01)
|
|
p2p_node0.wait_for_qmessage("qgetdata")
|
|
p2p_node0.send_message(p2p_mn2.get_qdata())
|
|
wait_for_banscore(node0, id_p2p_node0, (1 - len(extra_args)) * 10)
|
|
# Non-masternodes should bump peer's score for qwatch no matter
|
|
# whether they (non-masternodes) are watching or not.
|
|
p2p_node0.send_message(msg_qwatch())
|
|
wait_for_banscore(node0, id_p2p_node0, (1 - len(extra_args)) * 10 + 10)
|
|
node0.disconnect_p2ps()
|
|
mn2.node.disconnect_p2ps()
|
|
|
|
def test_rpc_quorum_getdata_protx_hash():
|
|
self.log.info("Test optional proTxHash of `quorum getdata`")
|
|
assert_raises_rpc_error(-8, "proTxHash missing",
|
|
mn1.node.quorum, "getdata", 0, 100, quorum_hash, 0x02)
|
|
assert_raises_rpc_error(-8, "proTxHash invalid",
|
|
mn1.node.quorum, "getdata", 0, 100, quorum_hash, 0x03,
|
|
"0000000000000000000000000000000000000000000000000000000000000000")
|
|
|
|
# Enable DKG and disable ChainLocks
|
|
self.nodes[0].sporkupdate("SPORK_17_QUORUM_DKG_ENABLED", 0)
|
|
self.nodes[0].sporkupdate("SPORK_19_CHAINLOCKS_ENABLED", 4070908800)
|
|
|
|
self.wait_for_sporks_same()
|
|
quorum_hash = self.mine_quorum()
|
|
|
|
node0 = self.nodes[0]
|
|
mn1 = self.mninfo[0]
|
|
mn2 = self.mninfo[1]
|
|
mn3 = self.mninfo[2]
|
|
|
|
# Convert the hex values into integer values
|
|
quorum_hash_int = int(quorum_hash, 16)
|
|
protx_hash_int = int(mn1.proTxHash, 16)
|
|
|
|
# Valid requests
|
|
qgetdata_vvec = msg_qgetdata(quorum_hash_int, 100, 0x01)
|
|
qgetdata_contributions = msg_qgetdata(quorum_hash_int, 100, 0x02, protx_hash_int)
|
|
qgetdata_all = msg_qgetdata(quorum_hash_int, 100, 0x03, protx_hash_int)
|
|
|
|
# Test with/without expired request cleanup
|
|
for self.cleanup in [True, False]:
|
|
test_basics()
|
|
test_request_limit()
|
|
test_qwatch_connections()
|
|
test_watchquorums()
|
|
test_rpc_quorum_getdata_protx_hash()
|
|
|
|
|
|
if __name__ == '__main__':
|
|
QuorumDataMessagesTest().main()
|