def test_hashlink2(self):
for i in xrange(100):
d = random_bytes(random.randrange(2048))
d2 = random_bytes(random.randrange(2048))
x = data.prefix_to_hash_link(d)
assert data.check_hash_link(x,
d2) == futurocoin_data.hash256(d + d2)
def handle_shares(self, shares, peer):
if len(shares) > 5:
print 'Processing %i shares from %s...' % (
len(shares), '%s:%i' % peer.addr if peer is not None else None)
new_count = 0
all_new_txs = {}
for share, new_txs in shares:
if new_txs is not None:
all_new_txs.update((futurocoin_data.hash256(
futurocoin_data.tx_type.pack(new_tx)), new_tx)
for new_tx in new_txs)
if share.hash in self.node.tracker.items:
#print 'Got duplicate share, ignoring. Hash: %s' % (p2pool_data.format_hash(share.hash),)
continue
new_count += 1
#print 'Received share %s from %r' % (p2pool_data.format_hash(share.hash), share.peer_addr)
self.node.tracker.add(share)
self.node.known_txs_var.add(all_new_txs)
if new_count:
self.node.set_best_share()
if len(shares) > 5:
print '... done processing %i shares. New: %i Have: %i/~%i' % (
len(shares), new_count, len(
self.node.tracker.items), 2 * self.node.net.CHAIN_LENGTH)
def submit_block_p2p(block, factory, net):
if factory.conn.value is None:
print >> sys.stderr, 'No futurocoind connection when block submittal attempted! %s%064x' % (
net.PARENT.BLOCK_EXPLORER_URL_PREFIX,
futurocoin_data.hash256(
futurocoin_data.block_header_type.pack(block['header'])))
raise deferral.RetrySilentlyException()
factory.conn.value.send_block(block=block)
def test_header_hash(self):
assert data.hash256(data.block_header_type.pack(dict(
version=1,
previous_block=0x000000000000038a2a86b72387f93c51298298a732079b3b686df3603d2f6282,
merkle_root=0x37a43a3b812e4eb665975f46393b4360008824aab180f27d642de8c28073bc44,
timestamp=1323752685,
bits=data.FloatingInteger(437159528),
nonce=3658685446,
))) == 0x000000000000003aaaf7638f9f9c0d0c60e8b0eb817dcdb55fd2b1964efc5175
def _getwork(self, request, data, long_poll):
request.setHeader('X-Long-Polling', '/long-polling')
request.setHeader('X-Roll-NTime', 'expire=100')
request.setHeader('X-Is-P2Pool', 'true')
if request.getHeader('Host') is not None:
request.setHeader('X-Stratum', 'stratum+tcp://' + request.getHeader('Host'))
if data is not None:
header = getwork.decode_data(data)
if header['merkle_root'] not in self.merkle_root_to_handler:
print >>sys.stderr, '''Couldn't link returned work's merkle root with its handler. This should only happen if this process was recently restarted!'''
defer.returnValue(False)
defer.returnValue(self.merkle_root_to_handler[header['merkle_root']](header, request.getUser() if request.getUser() is not None else '', '\0'*self.worker_bridge.COINBASE_NONCE_LENGTH))
if p2pool.DEBUG:
id = random.randrange(1000, 10000)
print 'POLL %i START is_long_poll=%r user_agent=%r user=%r' % (id, long_poll, request.getHeader('User-Agent'), request.getUser())
if long_poll:
request_id = request.getClientIP(), request.getHeader('Authorization')
if self.worker_views.get(request_id, self.worker_bridge.new_work_event.times) != self.worker_bridge.new_work_event.times:
if p2pool.DEBUG:
print 'POLL %i PUSH' % (id,)
else:
if p2pool.DEBUG:
print 'POLL %i WAITING' % (id,)
yield self.worker_bridge.new_work_event.get_deferred()
self.worker_views[request_id] = self.worker_bridge.new_work_event.times
x, handler = self.worker_bridge.get_work(*self.worker_bridge.preprocess_request(request.getUser() if request.getUser() is not None else ''))
res = getwork.BlockAttempt(
version=x['version'],
previous_block=x['previous_block'],
merkle_root=dash_data.check_merkle_link(dash_data.hash256(x['coinb1'] + '\0'*self.worker_bridge.COINBASE_NONCE_LENGTH + x['coinb2']), x['merkle_link']),
timestamp=x['timestamp'],
bits=x['bits'],
share_target=x['share_target'],
)
assert res.merkle_root not in self.merkle_root_to_handler
self.merkle_root_to_handler[res.merkle_root] = handler
if p2pool.DEBUG:
print 'POLL %i END identifier=%i' % (id, self.worker_bridge.new_work_event.times)
extra_params = {}
if request.getHeader('User-Agent') == 'Jephis PIC Miner':
# ASICMINER BE Blades apparently have a buffer overflow bug and
# can't handle much extra in the getwork response
extra_params = {}
else:
extra_params = dict(identifier=str(self.worker_bridge.new_work_event.times), submitold=True)
defer.returnValue(res.getwork(**extra_params))
def test_tx_hash(self):
assert data.hash256(data.tx_type.pack(dict(
version=1,
tx_ins=[dict(
previous_output=None,
sequence=None,
script='70736a0468860e1a0452389500522cfabe6d6d2b2f33cf8f6291b184f1b291d24d82229463fcec239afea0ee34b4bfc622f62401000000000000004d696e656420627920425443204775696c6420ac1eeeed88'.decode('hex'),
)],
tx_outs=[dict(
value=5003880250,
script=data.pubkey_hash_to_script2(pack.IntType(160).unpack('ca975b00a8c203b8692f5a18d92dc5c2d2ebc57b'.decode('hex'))),
)],
lock_time=0,
))) == 0xb53802b2333e828d6532059f46ecf6b313a42d79f97925e457fbbfda45367e5c
def test_get_block(self):
factory = p2p.ClientFactory(networks.nets['futurocoin'])
c = reactor.connectTCP('127.0.0.1', 9999, factory)
try:
h = 0x00000000000132b9afeca5e9a2fdf4477338df6dcff1342300240bc70397c4bb
block = yield deferral.retry()(
defer.inlineCallbacks(lambda: defer.returnValue(
(yield (yield factory.getProtocol()).get_block(h)))))()
assert data.merkle_hash(
map(data.hash256,
map(data.tx_type.pack,
block['txs']))) == block['header']['merkle_root']
assert data.hash256(data.block_header_type.pack(
block['header'])) == h
finally:
factory.stopTrying()
c.disconnect()
def handle_remember_tx(self, tx_hashes, txs):
for tx_hash in tx_hashes:
if tx_hash in self.remembered_txs:
print >> sys.stderr, 'Peer referenced transaction twice, disconnecting'
self.disconnect()
return
if tx_hash in self.node.known_txs_var.value:
tx = self.node.known_txs_var.value[tx_hash]
else:
for cache in self.known_txs_cache.itervalues():
if tx_hash in cache:
tx = cache[tx_hash]
print 'Transaction %064x rescued from peer latency cache!' % (
tx_hash, )
break
else:
print >> sys.stderr, 'Peer referenced unknown transaction %064x, disconnecting' % (
tx_hash, )
self.disconnect()
return
self.remembered_txs[tx_hash] = tx
self.remembered_txs_size += 100 + futurocoin_data.tx_type.packed_size(
tx)
added_known_txs = {}
warned = False
for tx in txs:
tx_hash = futurocoin_data.hash256(futurocoin_data.tx_type.pack(tx))
if tx_hash in self.remembered_txs:
print >> sys.stderr, 'Peer referenced transaction twice, disconnecting'
self.disconnect()
return
if tx_hash in self.node.known_txs_var.value and not warned:
print 'Peer sent entire transaction %064x that was already received' % (
tx_hash, )
warned = True
self.remembered_txs[tx_hash] = tx
self.remembered_txs_size += 100 + futurocoin_data.tx_type.packed_size(
tx)
added_known_txs[tx_hash] = tx
self.node.known_txs_var.add(added_known_txs)
if self.remembered_txs_size >= self.max_remembered_txs_size:
raise PeerMisbehavingError('too much transaction data stored')
def rpc_submit(self, worker_name, job_id, extranonce2, ntime, nonce):
if job_id not in self.handler_map:
print >> sys.stderr, '''Couldn't link returned work's job id with its handler. This should only happen if this process was recently restarted!'''
return False
x, got_response = self.handler_map[job_id]
coinb_nonce = extranonce2.decode('hex')
assert len(coinb_nonce) == self.wb.COINBASE_NONCE_LENGTH
new_packed_gentx = x['coinb1'] + coinb_nonce + x['coinb2']
header = dict(
version=x['version'],
previous_block=x['previous_block'],
merkle_root=dash_data.check_merkle_link(
dash_data.hash256(new_packed_gentx), x['merkle_link']),
timestamp=pack.IntType(32).unpack(
getwork._swap4(ntime.decode('hex'))),
bits=x['bits'],
nonce=pack.IntType(32).unpack(getwork._swap4(nonce.decode('hex'))),
)
return got_response(header, worker_name, coinb_nonce)
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[futurocoin_data.hash256(
futurocoin_data.tx_type.pack(huge_tx))] = huge_tx
self.mining_txs_var.set(new_mining_txs)
self.sent_time = reactor.seconds()
def _(tx):
self.known_txs_var.add({
futurocoin_data.hash256(futurocoin_data.tx_type.pack(tx)):
tx,
})
def from_header(cls, header):
return cls(dash_data.hash256(dash_data.block_header_type.pack(header)), header['previous_block'])