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157254a4bf
Python lambda use was incorrect. sendcmpct messages need to be synchronized with RPC calls to generate(). Headers need to be synced (eg with getheaders) for cmpctblock announcements to start. Last test omitted sending a sendcmpct message.
625 lines
27 KiB
Python
Executable File
625 lines
27 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2016 The Bitcoin 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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from test_framework.mininode import *
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from test_framework.test_framework import BitcoinTestFramework
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from test_framework.util import *
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from test_framework.blocktools import create_block, create_coinbase
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from test_framework.siphash import siphash256
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from test_framework.script import CScript, OP_TRUE
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'''
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CompactBlocksTest -- test compact blocks (BIP 152)
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'''
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# TestNode: A peer we use to send messages to bitcoind, and store responses.
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class TestNode(SingleNodeConnCB):
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def __init__(self):
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SingleNodeConnCB.__init__(self)
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self.last_sendcmpct = None
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self.last_headers = None
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self.last_inv = None
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self.last_cmpctblock = None
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self.block_announced = False
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self.last_getdata = None
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self.last_getblocktxn = None
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self.last_block = None
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self.last_blocktxn = None
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def on_sendcmpct(self, conn, message):
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self.last_sendcmpct = message
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def on_block(self, conn, message):
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self.last_block = message
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def on_cmpctblock(self, conn, message):
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self.last_cmpctblock = message
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self.block_announced = True
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def on_headers(self, conn, message):
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self.last_headers = message
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self.block_announced = True
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def on_inv(self, conn, message):
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self.last_inv = message
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self.block_announced = True
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def on_getdata(self, conn, message):
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self.last_getdata = message
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def on_getblocktxn(self, conn, message):
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self.last_getblocktxn = message
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def on_blocktxn(self, conn, message):
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self.last_blocktxn = message
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# Requires caller to hold mininode_lock
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def received_block_announcement(self):
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return self.block_announced
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def clear_block_announcement(self):
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with mininode_lock:
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self.block_announced = False
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self.last_inv = None
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self.last_headers = None
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self.last_cmpctblock = None
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def get_headers(self, locator, hashstop):
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msg = msg_getheaders()
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msg.locator.vHave = locator
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msg.hashstop = hashstop
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self.connection.send_message(msg)
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def send_header_for_blocks(self, new_blocks):
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headers_message = msg_headers()
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headers_message.headers = [CBlockHeader(b) for b in new_blocks]
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self.send_message(headers_message)
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def request_headers_and_sync(self, locator, hashstop=0):
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self.clear_block_announcement()
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self.get_headers(locator, hashstop)
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assert(wait_until(self.received_block_announcement, timeout=30))
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assert(self.received_block_announcement())
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self.clear_block_announcement()
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class CompactBlocksTest(BitcoinTestFramework):
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def __init__(self):
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super().__init__()
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self.setup_clean_chain = True
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self.num_nodes = 1
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self.utxos = []
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def setup_network(self):
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self.nodes = []
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# Turn off segwit in this test, as compact blocks don't currently work
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# with segwit. (After BIP 152 is updated to support segwit, we can
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# test behavior with and without segwit enabled by adding a second node
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# to the test.)
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self.nodes = start_nodes(self.num_nodes, self.options.tmpdir, [["-debug", "-logtimemicros=1", "-bip9params=segwit:0:0"]])
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def build_block_on_tip(self):
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height = self.nodes[0].getblockcount()
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tip = self.nodes[0].getbestblockhash()
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mtp = self.nodes[0].getblockheader(tip)['mediantime']
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block = create_block(int(tip, 16), create_coinbase(height + 1), mtp + 1)
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block.solve()
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return block
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# Create 10 more anyone-can-spend utxo's for testing.
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def make_utxos(self):
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block = self.build_block_on_tip()
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self.test_node.send_and_ping(msg_block(block))
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assert(int(self.nodes[0].getbestblockhash(), 16) == block.sha256)
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self.nodes[0].generate(100)
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total_value = block.vtx[0].vout[0].nValue
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out_value = total_value // 10
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tx = CTransaction()
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tx.vin.append(CTxIn(COutPoint(block.vtx[0].sha256, 0), b''))
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for i in range(10):
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tx.vout.append(CTxOut(out_value, CScript([OP_TRUE])))
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tx.rehash()
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block2 = self.build_block_on_tip()
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block2.vtx.append(tx)
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block2.hashMerkleRoot = block2.calc_merkle_root()
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block2.solve()
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self.test_node.send_and_ping(msg_block(block2))
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assert_equal(int(self.nodes[0].getbestblockhash(), 16), block2.sha256)
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self.utxos.extend([[tx.sha256, i, out_value] for i in range(10)])
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return
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# Test "sendcmpct":
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# - No compact block announcements or getdata(MSG_CMPCT_BLOCK) unless
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# sendcmpct is sent.
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# - If sendcmpct is sent with version > 1, the message is ignored.
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# - If sendcmpct is sent with boolean 0, then block announcements are not
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# made with compact blocks.
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# - If sendcmpct is then sent with boolean 1, then new block announcements
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# are made with compact blocks.
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def test_sendcmpct(self):
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print("Testing SENDCMPCT p2p message... ")
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# Make sure we get a version 0 SENDCMPCT message from our peer
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def received_sendcmpct():
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return (self.test_node.last_sendcmpct is not None)
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got_message = wait_until(received_sendcmpct, timeout=30)
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assert(received_sendcmpct())
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assert(got_message)
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assert_equal(self.test_node.last_sendcmpct.version, 1)
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tip = int(self.nodes[0].getbestblockhash(), 16)
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def check_announcement_of_new_block(node, peer, predicate):
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peer.clear_block_announcement()
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node.generate(1)
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got_message = wait_until(lambda: peer.block_announced, timeout=30)
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assert(peer.block_announced)
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assert(got_message)
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with mininode_lock:
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assert(predicate(peer))
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# We shouldn't get any block announcements via cmpctblock yet.
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check_announcement_of_new_block(self.nodes[0], self.test_node, lambda p: p.last_cmpctblock is None)
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# Try one more time, this time after requesting headers.
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self.test_node.request_headers_and_sync(locator=[tip])
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check_announcement_of_new_block(self.nodes[0], self.test_node, lambda p: p.last_cmpctblock is None and p.last_inv is not None)
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# Test a few ways of using sendcmpct that should NOT
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# result in compact block announcements.
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# Before each test, sync the headers chain.
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self.test_node.request_headers_and_sync(locator=[tip])
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# Now try a SENDCMPCT message with too-high version
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sendcmpct = msg_sendcmpct()
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sendcmpct.version = 2
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self.test_node.send_and_ping(sendcmpct)
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check_announcement_of_new_block(self.nodes[0], self.test_node, lambda p: p.last_cmpctblock is None)
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# Headers sync before next test.
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self.test_node.request_headers_and_sync(locator=[tip])
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# Now try a SENDCMPCT message with valid version, but announce=False
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self.test_node.send_and_ping(msg_sendcmpct())
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check_announcement_of_new_block(self.nodes[0], self.test_node, lambda p: p.last_cmpctblock is None)
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# Headers sync before next test.
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self.test_node.request_headers_and_sync(locator=[tip])
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# Finally, try a SENDCMPCT message with announce=True
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sendcmpct.version = 1
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sendcmpct.announce = True
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self.test_node.send_and_ping(sendcmpct)
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check_announcement_of_new_block(self.nodes[0], self.test_node, lambda p: p.last_cmpctblock is not None)
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# Try one more time (no headers sync should be needed!)
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check_announcement_of_new_block(self.nodes[0], self.test_node, lambda p: p.last_cmpctblock is not None)
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# Try one more time, after turning on sendheaders
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self.test_node.send_and_ping(msg_sendheaders())
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check_announcement_of_new_block(self.nodes[0], self.test_node, lambda p: p.last_cmpctblock is not None)
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# Now turn off announcements
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sendcmpct.announce = False
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self.test_node.send_and_ping(sendcmpct)
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check_announcement_of_new_block(self.nodes[0], self.test_node, lambda p: p.last_cmpctblock is None and p.last_headers is not None)
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# This test actually causes bitcoind to (reasonably!) disconnect us, so do this last.
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def test_invalid_cmpctblock_message(self):
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print("Testing invalid index in cmpctblock message...")
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self.nodes[0].generate(101)
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block = self.build_block_on_tip()
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cmpct_block = P2PHeaderAndShortIDs()
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cmpct_block.header = CBlockHeader(block)
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cmpct_block.prefilled_txn_length = 1
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# This index will be too high
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prefilled_txn = PrefilledTransaction(1, block.vtx[0])
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cmpct_block.prefilled_txn = [prefilled_txn]
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self.test_node.send_and_ping(msg_cmpctblock(cmpct_block))
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assert(int(self.nodes[0].getbestblockhash(), 16) == block.hashPrevBlock)
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# Compare the generated shortids to what we expect based on BIP 152, given
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# bitcoind's choice of nonce.
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def test_compactblock_construction(self):
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print("Testing compactblock headers and shortIDs are correct...")
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# Generate a bunch of transactions.
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self.nodes[0].generate(101)
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num_transactions = 25
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address = self.nodes[0].getnewaddress()
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for i in range(num_transactions):
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self.nodes[0].sendtoaddress(address, 0.1)
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# Now mine a block, and look at the resulting compact block.
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self.test_node.clear_block_announcement()
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block_hash = int(self.nodes[0].generate(1)[0], 16)
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# Store the raw block in our internal format.
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block = FromHex(CBlock(), self.nodes[0].getblock("%02x" % block_hash, False))
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[tx.calc_sha256() for tx in block.vtx]
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block.rehash()
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# Don't care which type of announcement came back for this test; just
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# request the compact block if we didn't get one yet.
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wait_until(self.test_node.received_block_announcement, timeout=30)
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with mininode_lock:
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if self.test_node.last_cmpctblock is None:
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self.test_node.clear_block_announcement()
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inv = CInv(4, block_hash) # 4 == "CompactBlock"
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self.test_node.send_message(msg_getdata([inv]))
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wait_until(self.test_node.received_block_announcement, timeout=30)
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# Now we should have the compactblock
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header_and_shortids = None
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with mininode_lock:
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assert(self.test_node.last_cmpctblock is not None)
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# Convert the on-the-wire representation to absolute indexes
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header_and_shortids = HeaderAndShortIDs(self.test_node.last_cmpctblock.header_and_shortids)
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# Check that we got the right block!
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header_and_shortids.header.calc_sha256()
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assert_equal(header_and_shortids.header.sha256, block_hash)
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# Make sure the prefilled_txn appears to have included the coinbase
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assert(len(header_and_shortids.prefilled_txn) >= 1)
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assert_equal(header_and_shortids.prefilled_txn[0].index, 0)
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# Check that all prefilled_txn entries match what's in the block.
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for entry in header_and_shortids.prefilled_txn:
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entry.tx.calc_sha256()
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assert_equal(entry.tx.sha256, block.vtx[entry.index].sha256)
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# Check that the cmpctblock message announced all the transactions.
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assert_equal(len(header_and_shortids.prefilled_txn) + len(header_and_shortids.shortids), len(block.vtx))
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# And now check that all the shortids are as expected as well.
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# Determine the siphash keys to use.
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[k0, k1] = header_and_shortids.get_siphash_keys()
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index = 0
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while index < len(block.vtx):
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if (len(header_and_shortids.prefilled_txn) > 0 and
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header_and_shortids.prefilled_txn[0].index == index):
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# Already checked prefilled transactions above
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header_and_shortids.prefilled_txn.pop(0)
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else:
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shortid = calculate_shortid(k0, k1, block.vtx[index].sha256)
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assert_equal(shortid, header_and_shortids.shortids[0])
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header_and_shortids.shortids.pop(0)
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index += 1
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# Test that bitcoind requests compact blocks when we announce new blocks
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# via header or inv, and that responding to getblocktxn causes the block
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# to be successfully reconstructed.
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def test_compactblock_requests(self):
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print("Testing compactblock requests... ")
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# Try announcing a block with an inv or header, expect a compactblock
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# request
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for announce in ["inv", "header"]:
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block = self.build_block_on_tip()
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with mininode_lock:
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self.test_node.last_getdata = None
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if announce == "inv":
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self.test_node.send_message(msg_inv([CInv(2, block.sha256)]))
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else:
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self.test_node.send_header_for_blocks([block])
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success = wait_until(lambda: self.test_node.last_getdata is not None, timeout=30)
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assert(success)
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assert_equal(len(self.test_node.last_getdata.inv), 1)
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assert_equal(self.test_node.last_getdata.inv[0].type, 4)
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assert_equal(self.test_node.last_getdata.inv[0].hash, block.sha256)
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# Send back a compactblock message that omits the coinbase
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comp_block = HeaderAndShortIDs()
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comp_block.header = CBlockHeader(block)
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comp_block.nonce = 0
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comp_block.shortids = [1] # this is useless, and wrong
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self.test_node.send_and_ping(msg_cmpctblock(comp_block.to_p2p()))
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assert_equal(int(self.nodes[0].getbestblockhash(), 16), block.hashPrevBlock)
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# Expect a getblocktxn message.
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with mininode_lock:
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assert(self.test_node.last_getblocktxn is not None)
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absolute_indexes = self.test_node.last_getblocktxn.block_txn_request.to_absolute()
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assert_equal(absolute_indexes, [0]) # should be a coinbase request
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# Send the coinbase, and verify that the tip advances.
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msg = msg_blocktxn()
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msg.block_transactions.blockhash = block.sha256
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msg.block_transactions.transactions = [block.vtx[0]]
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self.test_node.send_and_ping(msg)
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assert_equal(int(self.nodes[0].getbestblockhash(), 16), block.sha256)
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# Create a chain of transactions from given utxo, and add to a new block.
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def build_block_with_transactions(self, utxo, num_transactions):
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block = self.build_block_on_tip()
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for i in range(num_transactions):
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tx = CTransaction()
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tx.vin.append(CTxIn(COutPoint(utxo[0], utxo[1]), b''))
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tx.vout.append(CTxOut(utxo[2] - 1000, CScript([OP_TRUE])))
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tx.rehash()
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utxo = [tx.sha256, 0, tx.vout[0].nValue]
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block.vtx.append(tx)
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block.hashMerkleRoot = block.calc_merkle_root()
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block.solve()
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return block
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# Test that we only receive getblocktxn requests for transactions that the
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# node needs, and that responding to them causes the block to be
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# reconstructed.
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def test_getblocktxn_requests(self):
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print("Testing getblocktxn requests...")
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# First try announcing compactblocks that won't reconstruct, and verify
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# that we receive getblocktxn messages back.
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utxo = self.utxos.pop(0)
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block = self.build_block_with_transactions(utxo, 5)
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self.utxos.append([block.vtx[-1].sha256, 0, block.vtx[-1].vout[0].nValue])
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comp_block = HeaderAndShortIDs()
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comp_block.initialize_from_block(block)
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self.test_node.send_and_ping(msg_cmpctblock(comp_block.to_p2p()))
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with mininode_lock:
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assert(self.test_node.last_getblocktxn is not None)
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absolute_indexes = self.test_node.last_getblocktxn.block_txn_request.to_absolute()
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assert_equal(absolute_indexes, [1, 2, 3, 4, 5])
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msg = msg_blocktxn()
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msg.block_transactions = BlockTransactions(block.sha256, block.vtx[1:])
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self.test_node.send_and_ping(msg)
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assert_equal(int(self.nodes[0].getbestblockhash(), 16), block.sha256)
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utxo = self.utxos.pop(0)
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block = self.build_block_with_transactions(utxo, 5)
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self.utxos.append([block.vtx[-1].sha256, 0, block.vtx[-1].vout[0].nValue])
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# Now try interspersing the prefilled transactions
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comp_block.initialize_from_block(block, prefill_list=[0, 1, 5])
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self.test_node.send_and_ping(msg_cmpctblock(comp_block.to_p2p()))
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with mininode_lock:
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assert(self.test_node.last_getblocktxn is not None)
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absolute_indexes = self.test_node.last_getblocktxn.block_txn_request.to_absolute()
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assert_equal(absolute_indexes, [2, 3, 4])
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msg.block_transactions = BlockTransactions(block.sha256, block.vtx[2:5])
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self.test_node.send_and_ping(msg)
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assert_equal(int(self.nodes[0].getbestblockhash(), 16), block.sha256)
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# Now try giving one transaction ahead of time.
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utxo = self.utxos.pop(0)
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block = self.build_block_with_transactions(utxo, 5)
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self.utxos.append([block.vtx[-1].sha256, 0, block.vtx[-1].vout[0].nValue])
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self.test_node.send_and_ping(msg_tx(block.vtx[1]))
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assert(block.vtx[1].hash in self.nodes[0].getrawmempool())
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# Prefill 4 out of the 6 transactions, and verify that only the one
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# that was not in the mempool is requested.
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comp_block.initialize_from_block(block, prefill_list=[0, 2, 3, 4])
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self.test_node.send_and_ping(msg_cmpctblock(comp_block.to_p2p()))
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with mininode_lock:
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assert(self.test_node.last_getblocktxn is not None)
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absolute_indexes = self.test_node.last_getblocktxn.block_txn_request.to_absolute()
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assert_equal(absolute_indexes, [5])
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|
|
msg.block_transactions = BlockTransactions(block.sha256, [block.vtx[5]])
|
|
self.test_node.send_and_ping(msg)
|
|
assert_equal(int(self.nodes[0].getbestblockhash(), 16), block.sha256)
|
|
|
|
# Now provide all transactions to the node before the block is
|
|
# announced and verify reconstruction happens immediately.
|
|
utxo = self.utxos.pop(0)
|
|
block = self.build_block_with_transactions(utxo, 10)
|
|
self.utxos.append([block.vtx[-1].sha256, 0, block.vtx[-1].vout[0].nValue])
|
|
for tx in block.vtx[1:]:
|
|
self.test_node.send_message(msg_tx(tx))
|
|
self.test_node.sync_with_ping()
|
|
# Make sure all transactions were accepted.
|
|
mempool = self.nodes[0].getrawmempool()
|
|
for tx in block.vtx[1:]:
|
|
assert(tx.hash in mempool)
|
|
|
|
# Clear out last request.
|
|
with mininode_lock:
|
|
self.test_node.last_getblocktxn = None
|
|
|
|
# Send compact block
|
|
comp_block.initialize_from_block(block, prefill_list=[0])
|
|
self.test_node.send_and_ping(msg_cmpctblock(comp_block.to_p2p()))
|
|
with mininode_lock:
|
|
# Shouldn't have gotten a request for any transaction
|
|
assert(self.test_node.last_getblocktxn is None)
|
|
# Tip should have updated
|
|
assert_equal(int(self.nodes[0].getbestblockhash(), 16), block.sha256)
|
|
|
|
# Incorrectly responding to a getblocktxn shouldn't cause the block to be
|
|
# permanently failed.
|
|
def test_incorrect_blocktxn_response(self):
|
|
print("Testing handling of incorrect blocktxn responses...")
|
|
|
|
if (len(self.utxos) == 0):
|
|
self.make_utxos()
|
|
utxo = self.utxos.pop(0)
|
|
|
|
block = self.build_block_with_transactions(utxo, 10)
|
|
self.utxos.append([block.vtx[-1].sha256, 0, block.vtx[-1].vout[0].nValue])
|
|
# Relay the first 5 transactions from the block in advance
|
|
for tx in block.vtx[1:6]:
|
|
self.test_node.send_message(msg_tx(tx))
|
|
self.test_node.sync_with_ping()
|
|
# Make sure all transactions were accepted.
|
|
mempool = self.nodes[0].getrawmempool()
|
|
for tx in block.vtx[1:6]:
|
|
assert(tx.hash in mempool)
|
|
|
|
# Send compact block
|
|
comp_block = HeaderAndShortIDs()
|
|
comp_block.initialize_from_block(block, prefill_list=[0])
|
|
self.test_node.send_and_ping(msg_cmpctblock(comp_block.to_p2p()))
|
|
absolute_indexes = []
|
|
with mininode_lock:
|
|
assert(self.test_node.last_getblocktxn is not None)
|
|
absolute_indexes = self.test_node.last_getblocktxn.block_txn_request.to_absolute()
|
|
assert_equal(absolute_indexes, [6, 7, 8, 9, 10])
|
|
|
|
# Now give an incorrect response.
|
|
# Note that it's possible for bitcoind to be smart enough to know we're
|
|
# lying, since it could check to see if the shortid matches what we're
|
|
# sending, and eg disconnect us for misbehavior. If that behavior
|
|
# change were made, we could just modify this test by having a
|
|
# different peer provide the block further down, so that we're still
|
|
# verifying that the block isn't marked bad permanently. This is good
|
|
# enough for now.
|
|
msg = msg_blocktxn()
|
|
msg.block_transactions = BlockTransactions(block.sha256, [block.vtx[5]] + block.vtx[7:])
|
|
self.test_node.send_and_ping(msg)
|
|
|
|
# Tip should not have updated
|
|
assert_equal(int(self.nodes[0].getbestblockhash(), 16), block.hashPrevBlock)
|
|
|
|
# We should receive a getdata request
|
|
success = wait_until(lambda: self.test_node.last_getdata is not None, timeout=10)
|
|
assert(success)
|
|
assert_equal(len(self.test_node.last_getdata.inv), 1)
|
|
assert_equal(self.test_node.last_getdata.inv[0].type, 2)
|
|
assert_equal(self.test_node.last_getdata.inv[0].hash, block.sha256)
|
|
|
|
# Deliver the block
|
|
self.test_node.send_and_ping(msg_block(block))
|
|
assert_equal(int(self.nodes[0].getbestblockhash(), 16), block.sha256)
|
|
|
|
def test_getblocktxn_handler(self):
|
|
print("Testing getblocktxn handler...")
|
|
|
|
# bitcoind won't respond for blocks whose height is more than 15 blocks
|
|
# deep.
|
|
MAX_GETBLOCKTXN_DEPTH = 15
|
|
chain_height = self.nodes[0].getblockcount()
|
|
current_height = chain_height
|
|
while (current_height >= chain_height - MAX_GETBLOCKTXN_DEPTH):
|
|
block_hash = self.nodes[0].getblockhash(current_height)
|
|
block = FromHex(CBlock(), self.nodes[0].getblock(block_hash, False))
|
|
|
|
msg = msg_getblocktxn()
|
|
msg.block_txn_request = BlockTransactionsRequest(int(block_hash, 16), [])
|
|
num_to_request = random.randint(1, len(block.vtx))
|
|
msg.block_txn_request.from_absolute(sorted(random.sample(range(len(block.vtx)), num_to_request)))
|
|
self.test_node.send_message(msg)
|
|
success = wait_until(lambda: self.test_node.last_blocktxn is not None, timeout=10)
|
|
assert(success)
|
|
|
|
[tx.calc_sha256() for tx in block.vtx]
|
|
with mininode_lock:
|
|
assert_equal(self.test_node.last_blocktxn.block_transactions.blockhash, int(block_hash, 16))
|
|
all_indices = msg.block_txn_request.to_absolute()
|
|
for index in all_indices:
|
|
tx = self.test_node.last_blocktxn.block_transactions.transactions.pop(0)
|
|
tx.calc_sha256()
|
|
assert_equal(tx.sha256, block.vtx[index].sha256)
|
|
self.test_node.last_blocktxn = None
|
|
current_height -= 1
|
|
|
|
# Next request should be ignored, as we're past the allowed depth.
|
|
block_hash = self.nodes[0].getblockhash(current_height)
|
|
msg.block_txn_request = BlockTransactionsRequest(int(block_hash, 16), [0])
|
|
self.test_node.send_and_ping(msg)
|
|
with mininode_lock:
|
|
assert_equal(self.test_node.last_blocktxn, None)
|
|
|
|
def test_compactblocks_not_at_tip(self):
|
|
print("Testing compactblock requests/announcements not at chain tip...")
|
|
|
|
# Test that requesting old compactblocks doesn't work.
|
|
MAX_CMPCTBLOCK_DEPTH = 11
|
|
new_blocks = []
|
|
for i in range(MAX_CMPCTBLOCK_DEPTH):
|
|
self.test_node.clear_block_announcement()
|
|
new_blocks.append(self.nodes[0].generate(1)[0])
|
|
wait_until(self.test_node.received_block_announcement, timeout=30)
|
|
|
|
self.test_node.clear_block_announcement()
|
|
self.test_node.send_message(msg_getdata([CInv(4, int(new_blocks[0], 16))]))
|
|
success = wait_until(lambda: self.test_node.last_cmpctblock is not None, timeout=30)
|
|
assert(success)
|
|
|
|
self.test_node.clear_block_announcement()
|
|
self.nodes[0].generate(1)
|
|
wait_until(self.test_node.received_block_announcement, timeout=30)
|
|
self.test_node.clear_block_announcement()
|
|
self.test_node.send_message(msg_getdata([CInv(4, int(new_blocks[0], 16))]))
|
|
success = wait_until(lambda: self.test_node.last_block is not None, timeout=30)
|
|
assert(success)
|
|
with mininode_lock:
|
|
self.test_node.last_block.block.calc_sha256()
|
|
assert_equal(self.test_node.last_block.block.sha256, int(new_blocks[0], 16))
|
|
|
|
# Generate an old compactblock, and verify that it's not accepted.
|
|
cur_height = self.nodes[0].getblockcount()
|
|
hashPrevBlock = int(self.nodes[0].getblockhash(cur_height-5), 16)
|
|
block = self.build_block_on_tip()
|
|
block.hashPrevBlock = hashPrevBlock
|
|
block.solve()
|
|
|
|
comp_block = HeaderAndShortIDs()
|
|
comp_block.initialize_from_block(block)
|
|
self.test_node.send_and_ping(msg_cmpctblock(comp_block.to_p2p()))
|
|
|
|
tips = self.nodes[0].getchaintips()
|
|
found = False
|
|
for x in tips:
|
|
if x["hash"] == block.hash:
|
|
assert_equal(x["status"], "headers-only")
|
|
found = True
|
|
break
|
|
assert(found)
|
|
|
|
# Requesting this block via getblocktxn should silently fail
|
|
# (to avoid fingerprinting attacks).
|
|
msg = msg_getblocktxn()
|
|
msg.block_txn_request = BlockTransactionsRequest(block.sha256, [0])
|
|
with mininode_lock:
|
|
self.test_node.last_blocktxn = None
|
|
self.test_node.send_and_ping(msg)
|
|
with mininode_lock:
|
|
assert(self.test_node.last_blocktxn is None)
|
|
|
|
def run_test(self):
|
|
# Setup the p2p connections and start up the network thread.
|
|
self.test_node = TestNode()
|
|
|
|
connections = []
|
|
connections.append(NodeConn('127.0.0.1', p2p_port(0), self.nodes[0], self.test_node))
|
|
self.test_node.add_connection(connections[0])
|
|
|
|
NetworkThread().start() # Start up network handling in another thread
|
|
|
|
# Test logic begins here
|
|
self.test_node.wait_for_verack()
|
|
|
|
# We will need UTXOs to construct transactions in later tests.
|
|
self.make_utxos()
|
|
|
|
self.test_sendcmpct()
|
|
self.test_compactblock_construction()
|
|
self.test_compactblock_requests()
|
|
self.test_getblocktxn_requests()
|
|
self.test_getblocktxn_handler()
|
|
self.test_compactblocks_not_at_tip()
|
|
self.test_incorrect_blocktxn_response()
|
|
self.test_invalid_cmpctblock_message()
|
|
|
|
|
|
if __name__ == '__main__':
|
|
CompactBlocksTest().main()
|