import random
-from twisted.internet import defer, reactor
+from twisted.internet import defer, endpoints, protocol, reactor
from twisted.trial import unittest
-from p2pool import data, networks, p2p
+from p2pool import networks, p2p
+from p2pool.bitcoin import data as bitcoin_data
from p2pool.util import deferral
-class MyNode(p2p.Node):
- def handle_share_hashes(self, hashes, peer):
- peer.send_sharereq(id=random.randrange(2**256), hashes=[hashes[0]], parents=5, stops=[])
- print 'handle_share_hashes', (hashes, peer)
-
- def handle_share_reply(self, id, result, shares, peer):
- print (id, result, shares)
class Test(unittest.TestCase):
@defer.inlineCallbacks
def test_sharereq(self):
- n = MyNode(lambda: None, 29333, networks.nets['bitcoin'], {}, set([('127.0.0.1', 9333)]), 0, 0, 0, 0)
+ class MyNode(p2p.Node):
+ def __init__(self, df):
+ p2p.Node.__init__(self, lambda: None, 29333, networks.nets['bitcoin'], {}, set([('127.0.0.1', 9333)]), 0, 0, 0, 0)
+
+ self.df = df
+
+ def handle_share_hashes(self, hashes, peer):
+ peer.get_shares(
+ hashes=[hashes[0]],
+ parents=5,
+ stops=[],
+ ).chainDeferred(self.df)
+
+ df = defer.Deferred()
+ n = MyNode(df)
n.start()
try:
- yield deferral.sleep(10)
+ yield df
+ finally:
+ yield n.stop()
+
+ @defer.inlineCallbacks
+ def test_tx_limit(self):
+ class MyNode(p2p.Node):
+ def __init__(self, df):
+ p2p.Node.__init__(self, lambda: None, 29333, networks.nets['bitcoin'], {}, set([('127.0.0.1', 9333)]), 0, 0, 0, 0)
+
+ self.df = df
+ self.sent_time = 0
+
+ @defer.inlineCallbacks
+ def got_conn(self, conn):
+ p2p.Node.got_conn(self, conn)
+
+ yield deferral.sleep(.5)
+
+ new_mining_txs = dict(self.mining_txs_var.value)
+ for i in xrange(3):
+ huge_tx = dict(
+ version=0,
+ tx_ins=[],
+ tx_outs=[dict(
+ value=0,
+ script='x'*900000,
+ )],
+ lock_time=i,
+ )
+ new_mining_txs[bitcoin_data.hash256(bitcoin_data.tx_type.pack(huge_tx))] = huge_tx
+ self.mining_txs_var.set(new_mining_txs)
+
+ self.sent_time = reactor.seconds()
+
+ def lost_conn(self, conn, reason):
+ self.df.callback(None)
+ try:
+ p2p.Protocol.max_remembered_txs_size *= 10
+
+ df = defer.Deferred()
+ n = MyNode(df)
+ n.start()
+ yield df
+ if not (n.sent_time <= reactor.seconds() <= n.sent_time + 1):
+ raise ValueError('node did not disconnect within 1 seconds of receiving too much tx data')
+ yield n.stop()
finally:
- n.stop()
+ p2p.Protocol.max_remembered_txs_size //= 10