2015-09-18 21:59:55 +02:00
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#!/usr/bin/env python2
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#
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# Distributed under the MIT/X11 software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#
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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.comptool import wait_until
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import time
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'''
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Test behavior of -maxuploadtarget.
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* Verify that getdata requests for old blocks (>1week) are dropped
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if uploadtarget has been reached.
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* Verify that getdata requests for recent blocks are respecteved even
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if uploadtarget has been reached.
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* Verify that the upload counters are reset after 24 hours.
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'''
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# TestNode: bare-bones "peer". Used mostly as a conduit for a test to sending
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# p2p messages to a node, generating the messages in the main testing logic.
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class TestNode(NodeConnCB):
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def __init__(self):
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NodeConnCB.__init__(self)
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self.connection = None
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self.ping_counter = 1
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self.last_pong = msg_pong()
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self.block_receive_map = {}
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def add_connection(self, conn):
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self.connection = conn
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self.peer_disconnected = False
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def on_inv(self, conn, message):
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pass
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# Track the last getdata message we receive (used in the test)
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def on_getdata(self, conn, message):
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self.last_getdata = message
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def on_block(self, conn, message):
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message.block.calc_sha256()
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try:
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self.block_receive_map[message.block.sha256] += 1
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except KeyError as e:
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self.block_receive_map[message.block.sha256] = 1
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# Spin until verack message is received from the node.
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# We use this to signal that our test can begin. This
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# is called from the testing thread, so it needs to acquire
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# the global lock.
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def wait_for_verack(self):
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def veracked():
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return self.verack_received
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return wait_until(veracked, timeout=10)
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def wait_for_disconnect(self):
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def disconnected():
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return self.peer_disconnected
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return wait_until(disconnected, timeout=10)
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# Wrapper for the NodeConn's send_message function
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def send_message(self, message):
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self.connection.send_message(message)
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def on_pong(self, conn, message):
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self.last_pong = message
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def on_close(self, conn):
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self.peer_disconnected = True
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# Sync up with the node after delivery of a block
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def sync_with_ping(self, timeout=30):
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def received_pong():
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return (self.last_pong.nonce == self.ping_counter)
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self.connection.send_message(msg_ping(nonce=self.ping_counter))
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success = wait_until(received_pong, timeout)
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self.ping_counter += 1
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return success
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class MaxUploadTest(BitcoinTestFramework):
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def __init__(self):
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self.utxo = []
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# Some pre-processing to create a bunch of OP_RETURN txouts to insert into transactions we create
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# So we have big transactions and full blocks to fill up our block files
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# create one script_pubkey
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script_pubkey = "6a4d0200" #OP_RETURN OP_PUSH2 512 bytes
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for i in xrange (512):
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script_pubkey = script_pubkey + "01"
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# concatenate 128 txouts of above script_pubkey which we'll insert before the txout for change
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self.txouts = "81"
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for k in xrange(128):
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# add txout value
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self.txouts = self.txouts + "0000000000000000"
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# add length of script_pubkey
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self.txouts = self.txouts + "fd0402"
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# add script_pubkey
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self.txouts = self.txouts + script_pubkey
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def add_options(self, parser):
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parser.add_option("--testbinary", dest="testbinary",
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default=os.getenv("BITCOIND", "bitcoind"),
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help="bitcoind binary to test")
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def setup_chain(self):
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initialize_chain_clean(self.options.tmpdir, 2)
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def setup_network(self):
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# Start a node with maxuploadtarget of 200 MB (/24h)
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self.nodes = []
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self.nodes.append(start_node(0, self.options.tmpdir, ["-debug", "-maxuploadtarget=200", "-blockmaxsize=999000"]))
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def mine_full_block(self, node, address):
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# Want to create a full block
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# We'll generate a 66k transaction below, and 14 of them is close to the 1MB block limit
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for j in xrange(14):
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if len(self.utxo) < 14:
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self.utxo = node.listunspent()
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inputs=[]
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outputs = {}
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t = self.utxo.pop()
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inputs.append({ "txid" : t["txid"], "vout" : t["vout"]})
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remchange = t["amount"] - Decimal("0.001000")
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outputs[address]=remchange
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# Create a basic transaction that will send change back to ourself after account for a fee
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# And then insert the 128 generated transaction outs in the middle rawtx[92] is where the #
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# of txouts is stored and is the only thing we overwrite from the original transaction
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rawtx = node.createrawtransaction(inputs, outputs)
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newtx = rawtx[0:92]
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newtx = newtx + self.txouts
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newtx = newtx + rawtx[94:]
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# Appears to be ever so slightly faster to sign with SIGHASH_NONE
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signresult = node.signrawtransaction(newtx,None,None,"NONE")
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txid = node.sendrawtransaction(signresult["hex"], True)
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# Mine a full sized block which will be these transactions we just created
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node.generate(1)
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def run_test(self):
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# Before we connect anything, we first set the time on the node
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# to be in the past, otherwise things break because the CNode
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# time counters can't be reset backward after initialization
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old_time = int(time.time() - 2*60*60*24*7)
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self.nodes[0].setmocktime(old_time)
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# Generate some old blocks
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self.nodes[0].generate(130)
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# test_nodes[0] will only request old blocks
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# test_nodes[1] will only request new blocks
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# test_nodes[2] will test resetting the counters
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test_nodes = []
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connections = []
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for i in xrange(3):
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test_nodes.append(TestNode())
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connections.append(NodeConn('127.0.0.1', p2p_port(0), self.nodes[0], test_nodes[i]))
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test_nodes[i].add_connection(connections[i])
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NetworkThread().start() # Start up network handling in another thread
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[x.wait_for_verack() for x in test_nodes]
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# Test logic begins here
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# Now mine a big block
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self.mine_full_block(self.nodes[0], self.nodes[0].getnewaddress())
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# Store the hash; we'll request this later
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big_old_block = self.nodes[0].getbestblockhash()
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old_block_size = self.nodes[0].getblock(big_old_block, True)['size']
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big_old_block = int(big_old_block, 16)
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# Advance to two days ago
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self.nodes[0].setmocktime(int(time.time()) - 2*60*60*24)
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# Mine one more block, so that the prior block looks old
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self.mine_full_block(self.nodes[0], self.nodes[0].getnewaddress())
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# We'll be requesting this new block too
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big_new_block = self.nodes[0].getbestblockhash()
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new_block_size = self.nodes[0].getblock(big_new_block)['size']
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big_new_block = int(big_new_block, 16)
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# test_nodes[0] will test what happens if we just keep requesting the
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# the same big old block too many times (expect: disconnect)
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getdata_request = msg_getdata()
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getdata_request.inv.append(CInv(2, big_old_block))
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max_bytes_per_day = 200*1024*1024
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2015-11-06 00:05:06 +01:00
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daily_buffer = 144 * 1000000
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max_bytes_available = max_bytes_per_day - daily_buffer
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2015-09-18 21:59:55 +02:00
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success_count = max_bytes_available / old_block_size
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2015-11-11 10:10:48 +01:00
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2015-09-18 21:59:55 +02:00
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# 144MB will be reserved for relaying new blocks, so expect this to
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# succeed for ~70 tries.
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for i in xrange(success_count):
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test_nodes[0].send_message(getdata_request)
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test_nodes[0].sync_with_ping()
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assert_equal(test_nodes[0].block_receive_map[big_old_block], i+1)
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assert_equal(len(self.nodes[0].getpeerinfo()), 3)
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# At most a couple more tries should succeed (depending on how long
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# the test has been running so far).
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for i in xrange(3):
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test_nodes[0].send_message(getdata_request)
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test_nodes[0].wait_for_disconnect()
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assert_equal(len(self.nodes[0].getpeerinfo()), 2)
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print "Peer 0 disconnected after downloading old block too many times"
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# Requesting the current block on test_nodes[1] should succeed indefinitely,
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# even when over the max upload target.
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# We'll try 200 times
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getdata_request.inv = [CInv(2, big_new_block)]
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for i in xrange(200):
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test_nodes[1].send_message(getdata_request)
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test_nodes[1].sync_with_ping()
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assert_equal(test_nodes[1].block_receive_map[big_new_block], i+1)
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print "Peer 1 able to repeatedly download new block"
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# But if test_nodes[1] tries for an old block, it gets disconnected too.
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getdata_request.inv = [CInv(2, big_old_block)]
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test_nodes[1].send_message(getdata_request)
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test_nodes[1].wait_for_disconnect()
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assert_equal(len(self.nodes[0].getpeerinfo()), 1)
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2015-11-11 10:10:48 +01:00
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2015-09-18 21:59:55 +02:00
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print "Peer 1 disconnected after trying to download old block"
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print "Advancing system time on node to clear counters..."
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# If we advance the time by 24 hours, then the counters should reset,
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# and test_nodes[2] should be able to retrieve the old block.
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self.nodes[0].setmocktime(int(time.time()))
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test_nodes[2].sync_with_ping()
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test_nodes[2].send_message(getdata_request)
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test_nodes[2].sync_with_ping()
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assert_equal(test_nodes[2].block_receive_map[big_old_block], 1)
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print "Peer 2 able to download old block"
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[c.disconnect_node() for c in connections]
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2015-11-11 10:10:48 +01:00
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#stop and start node 0 with 1MB maxuploadtarget, whitelist 127.0.0.1
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print "Restarting nodes with -whitelist=127.0.0.1"
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stop_node(self.nodes[0], 0)
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self.nodes[0] = start_node(0, self.options.tmpdir, ["-debug", "-whitelist=127.0.0.1", "-maxuploadtarget=1", "-blockmaxsize=999000"])
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#recreate/reconnect 3 test nodes
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test_nodes = []
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connections = []
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for i in xrange(3):
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test_nodes.append(TestNode())
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connections.append(NodeConn('127.0.0.1', p2p_port(0), self.nodes[0], test_nodes[i]))
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test_nodes[i].add_connection(connections[i])
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NetworkThread().start() # Start up network handling in another thread
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[x.wait_for_verack() for x in test_nodes]
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#retrieve 20 blocks which should be enough to break the 1MB limit
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getdata_request.inv = [CInv(2, big_new_block)]
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for i in xrange(20):
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test_nodes[1].send_message(getdata_request)
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test_nodes[1].sync_with_ping()
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assert_equal(test_nodes[1].block_receive_map[big_new_block], i+1)
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getdata_request.inv = [CInv(2, big_old_block)]
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test_nodes[1].send_message(getdata_request)
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test_nodes[1].wait_for_disconnect()
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assert_equal(len(self.nodes[0].getpeerinfo()), 3) #node is still connected because of the whitelist
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print "Peer 1 still connected after trying to download old block (whitelisted)"
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[c.disconnect_node() for c in connections]
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2015-09-18 21:59:55 +02:00
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if __name__ == '__main__':
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MaxUploadTest().main()
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