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* Trivial Dashification * Tweak getnetworkinfo and dumpwallet help text We don't have RBF and Segwit * CopyrightHolders should also check for missing "Dash Core" copyright
271 lines
13 KiB
Python
Executable File
271 lines
13 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2017 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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"""Test recovery from a crash during chainstate writing."""
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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.script import *
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from test_framework.mininode import *
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import random
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try:
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import http.client as httplib
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except ImportError:
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import httplib
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import errno
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'''
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Test structure:
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- 4 nodes
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* node0, node1, and node2 will have different dbcrash ratios, and different
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dbcache sizes
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* node3 will be a regular node, with no crashing.
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* The nodes will not connect to each other.
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- use default test framework starting chain. initialize starting_tip_height to
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tip height.
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- Main loop:
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* generate lots of transactions on node3, enough to fill up a block.
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* uniformly randomly pick a tip height from starting_tip_height to
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tip_height; with probability 1/(height_difference+4), invalidate this block.
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* mine enough blocks to overtake tip_height at start of loop.
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* for each node in [node0,node1,node2]:
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- for each mined block:
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* submit block to node
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* if node crashed on/after submitting:
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- restart until recovery succeeds
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- check that utxo matches node3 using gettxoutsetinfo
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'''
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class ChainstateWriteCrashTest(BitcoinTestFramework):
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def set_test_params(self):
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self.num_nodes = 4
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self.setup_clean_chain = False
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# Set -maxmempool=0 to turn off mempool memory sharing with dbcache
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# Set -rpcservertimeout=900 to reduce socket disconnects in this
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# long-running test
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self.base_args = ["-limitdescendantsize=0", "-maxmempool=0", "-rpcservertimeout=900"]
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# Set different crash ratios and cache sizes. Note that not all of
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# -dbcache goes to pcoinsTip.
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self.node0_args = ["-dbcrashratio=8", "-dbcache=4", "-dbbatchsize=200000"] + self.base_args
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self.node1_args = ["-dbcrashratio=16", "-dbcache=8", "-dbbatchsize=200000"] + self.base_args
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self.node2_args = ["-dbcrashratio=24", "-dbcache=16", "-dbbatchsize=200000"] + self.base_args
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# Node3 is a normal node with default args, except will mine full blocks
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self.node3_args = ["-blockmaxweight=4000000"]
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self.extra_args = [self.node0_args, self.node1_args, self.node2_args, self.node3_args]
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# We'll track some test coverage statistics
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self.restart_counts = [0, 0, 0] # Track the restarts for nodes 0-2
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self.crashed_on_restart = 0 # Track count of crashes during recovery
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def setup_network(self):
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# Need a bit of extra time for the nodes to start up for this test
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self.add_nodes(self.num_nodes, extra_args=self.extra_args, timewait=90)
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self.start_nodes()
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# Leave them unconnected, we'll use submitblock directly in this test
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# Starts up a given node id, waits for the tip to reach the given block
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# hash, and calculates the utxo hash. Exceptions on startup should
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# indicate node crash (due to -dbcrashratio), in which case we try again.
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# Give up after 60 seconds.
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# Returns the utxo hash of the given node.
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def restart_node(self, node_index, expected_tip):
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time_start = time.time()
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while time.time() - time_start < 120:
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try:
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# Any of these RPC calls could throw due to node crash
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self.start_node(node_index)
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self.nodes[node_index].waitforblock(expected_tip)
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utxo_hash = self.nodes[node_index].gettxoutsetinfo()['hash_serialized_2']
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return utxo_hash
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except:
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# An exception here should mean the node is about to crash.
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# If dashd exits, then try again. wait_for_node_exit()
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# should raise an exception if dashd doesn't exit.
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self.wait_for_node_exit(node_index, timeout=10)
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self.crashed_on_restart += 1
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time.sleep(1)
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# If we got here, dashd isn't coming back up on restart. Could be a
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# bug in dashd, or we've gotten unlucky with our dbcrash ratio --
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# perhaps we generated a test case that blew up our cache?
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# TODO: If this happens a lot, we should try to restart without -dbcrashratio
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# and make sure that recovery happens.
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raise AssertionError("Unable to successfully restart node %d in allotted time", node_index)
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# Try submitting a block to the given node.
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# Catch any exceptions that indicate the node has crashed.
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# Returns true if the block was submitted successfully; false otherwise.
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def submit_block_catch_error(self, node_index, block):
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try:
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self.nodes[node_index].submitblock(block)
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return True
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except (httplib.CannotSendRequest, httplib.RemoteDisconnected) as e:
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self.log.debug("node %d submitblock raised exception: %s", node_index, e)
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return False
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except OSError as e:
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self.log.debug("node %d submitblock raised OSError exception: errno=%s", node_index, e.errno)
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if e.errno in [errno.EPIPE, errno.ECONNREFUSED, errno.ECONNRESET]:
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# The node has likely crashed
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return False
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else:
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# Unexpected exception, raise
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raise
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# Use submitblock to sync node3's chain with the other nodes
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# If submitblock fails, restart the node and get the new utxo hash.
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def sync_node3blocks(self, block_hashes):
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# If any nodes crash while updating, we'll compare utxo hashes to
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# ensure recovery was successful.
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node3_utxo_hash = self.nodes[3].gettxoutsetinfo()['hash_serialized_2']
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# Retrieve all the blocks from node3
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blocks = []
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for block_hash in block_hashes:
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blocks.append([block_hash, self.nodes[3].getblock(block_hash, 0)])
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# Deliver each block to each other node
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for i in range(3):
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nodei_utxo_hash = None
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self.log.debug("Syncing blocks to node %d", i)
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for (block_hash, block) in blocks:
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# Get the block from node3, and submit to node_i
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self.log.debug("submitting block %s", block_hash)
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if not self.submit_block_catch_error(i, block):
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# TODO: more carefully check that the crash is due to -dbcrashratio
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# (change the exit code perhaps, and check that here?)
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self.wait_for_node_exit(i, timeout=30)
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self.log.debug("Restarting node %d after block hash %s", i, block_hash)
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nodei_utxo_hash = self.restart_node(i, block_hash)
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assert nodei_utxo_hash is not None
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self.restart_counts[i] += 1
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else:
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# Clear it out after successful submitblock calls -- the cached
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# utxo hash will no longer be correct
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nodei_utxo_hash = None
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# Check that the utxo hash matches node3's utxo set
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# NOTE: we only check the utxo set if we had to restart the node
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# after the last block submitted:
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# - checking the utxo hash causes a cache flush, which we don't
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# want to do every time; so
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# - we only update the utxo cache after a node restart, since flushing
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# the cache is a no-op at that point
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if nodei_utxo_hash is not None:
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self.log.debug("Checking txoutsetinfo matches for node %d", i)
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assert_equal(nodei_utxo_hash, node3_utxo_hash)
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# Verify that the utxo hash of each node matches node3.
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# Restart any nodes that crash while querying.
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def verify_utxo_hash(self):
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node3_utxo_hash = self.nodes[3].gettxoutsetinfo()['hash_serialized_2']
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self.log.info("Verifying utxo hash matches for all nodes")
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for i in range(3):
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try:
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nodei_utxo_hash = self.nodes[i].gettxoutsetinfo()['hash_serialized_2']
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except OSError:
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# probably a crash on db flushing
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nodei_utxo_hash = self.restart_node(i, self.nodes[3].getbestblockhash())
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assert_equal(nodei_utxo_hash, node3_utxo_hash)
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def generate_small_transactions(self, node, count, utxo_list):
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FEE = 1000 # TODO: replace this with node relay fee based calculation
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num_transactions = 0
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random.shuffle(utxo_list)
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while len(utxo_list) >= 2 and num_transactions < count:
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tx = CTransaction()
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input_amount = 0
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for i in range(2):
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utxo = utxo_list.pop()
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tx.vin.append(CTxIn(COutPoint(int(utxo['txid'], 16), utxo['vout'])))
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input_amount += int(utxo['amount']*COIN)
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output_amount = (input_amount - FEE)//3
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if output_amount <= 0:
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# Sanity check -- if we chose inputs that are too small, skip
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continue
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for i in range(3):
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tx.vout.append(CTxOut(output_amount, hex_str_to_bytes(utxo['scriptPubKey'])))
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# Sign and send the transaction to get into the mempool
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tx_signed_hex = node.signrawtransaction(ToHex(tx))['hex']
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node.sendrawtransaction(tx_signed_hex)
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num_transactions += 1
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def run_test(self):
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# Start by creating a lot of utxos on node3
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initial_height = self.nodes[3].getblockcount()
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utxo_list = create_confirmed_utxos(self.nodes[3].getnetworkinfo()['relayfee'], self.nodes[3], 5000)
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self.log.info("Prepped %d utxo entries", len(utxo_list))
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# Sync these blocks with the other nodes
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block_hashes_to_sync = []
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for height in range(initial_height+1, self.nodes[3].getblockcount()+1):
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block_hashes_to_sync.append(self.nodes[3].getblockhash(height))
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self.log.debug("Syncing %d blocks with other nodes", len(block_hashes_to_sync))
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# Syncing the blocks could cause nodes to crash, so the test begins here.
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self.sync_node3blocks(block_hashes_to_sync)
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starting_tip_height = self.nodes[3].getblockcount()
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# Main test loop:
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# each time through the loop, generate a bunch of transactions,
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# and then either mine a single new block on the tip, or some-sized reorg.
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for i in range(40):
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self.log.info("Iteration %d, generating 2500 transactions %s", i, self.restart_counts)
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# Generate a bunch of small-ish transactions
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self.generate_small_transactions(self.nodes[3], 2500, utxo_list)
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# Pick a random block between current tip, and starting tip
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current_height = self.nodes[3].getblockcount()
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# TODO: re-enable this when ReplayBlocks is fixed to support evodb and additional indexes
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# random_height = random.randint(starting_tip_height, current_height)
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# self.log.debug("At height %d, considering height %d", current_height, random_height)
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# if random_height > starting_tip_height:
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# # Randomly reorg from this point with some probability (1/4 for
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# # tip, 1/5 for tip-1, ...)
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# if random.random() < 1.0/(current_height + 4 - random_height):
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# self.log.debug("Invalidating block at height %d", random_height)
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# self.nodes[3].invalidateblock(self.nodes[3].getblockhash(random_height))
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# Now generate new blocks until we pass the old tip height
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self.log.debug("Mining longer tip")
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block_hashes = self.nodes[3].generate(current_height+1-self.nodes[3].getblockcount())
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self.log.debug("Syncing %d new blocks...", len(block_hashes))
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self.sync_node3blocks(block_hashes)
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utxo_list = self.nodes[3].listunspent()
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self.log.debug("Node3 utxo count: %d", len(utxo_list))
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# Check that the utxo hashes agree with node3
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# Useful side effect: each utxo cache gets flushed here, so that we
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# won't get crashes on shutdown at the end of the test.
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self.verify_utxo_hash()
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# Check the test coverage
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self.log.info("Restarted nodes: %s; crashes on restart: %d", self.restart_counts, self.crashed_on_restart)
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# If no nodes were restarted, we didn't test anything.
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assert self.restart_counts != [0, 0, 0]
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# Make sure we tested the case of crash-during-recovery.
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assert self.crashed_on_restart > 0
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# Warn if any of the nodes escaped restart.
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for i in range(3):
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if self.restart_counts[i] == 0:
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self.log.warn("Node %d never crashed during utxo flush!", i)
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if __name__ == "__main__":
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ChainstateWriteCrashTest().main()
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