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PyBitmessage-2024-11-30/src/bmproto.py

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import hashlib
import time
import socket
from network.advanceddispatcher import AdvancedDispatcher
import network.asyncore_pollchoose as asyncore
from network.proxy import Proxy, ProxyError, GeneralProxyError
from network.socks5 import Socks5Connection, Socks5Resolver, Socks5AuthError, Socks5Error
from network.socks4a import Socks4aConnection, Socks4aResolver, Socks4aError
import addresses
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from bmconfigparser import BMConfigParser
import protocol
class BMProtoError(ProxyError): pass
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class BMConnection(TLSDispatcher):
# ~1.6 MB which is the maximum possible size of an inv message.
maxMessageSize = 1600100
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# protocol specification says max 1000 addresses in one addr command
maxAddrCount = 1000
# protocol specification says max 50000 objects in one inv command
maxObjectCount = 50000
def __init__(self, address=None, sock=None):
AdvancedDispatcher.__init__(self, sock)
self.verackReceived = False
self.verackSent = False
if address is None and sock is not None:
self.destination = self.addr()
self.isOutbound = False
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TLSHandshake.__init__(self, sock, server_side=True)
print "received connection in background from %s:%i" % (self.destination[0], self.destination[1])
else:
self.destination = address
self.isOutbound = True
self.create_socket(socket.AF_INET, socket.SOCK_STREAM)
self.connect(self.destination)
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TLSHandshake.__init__(self, sock, server_side=False)
print "connecting in background to %s:%i" % (self.destination[0], self.destination[1])
def bm_proto_reset(self):
self.magic = None
self.command = None
self.payloadLength = None
self.checksum = None
self.payload = None
self.invalid = False
def state_init(self):
self.bm_proto_reset()
self.write_buf += protocol.assembleVersionMessage(self.destination[0], self.destination[1], (1,), False)
if True:
print "Sending version (%ib)" % len(self.write_buf)
self.set_state("bm_header", 0)
return False
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def state_bm_ready(self):
self.sendAddr()
self.sendBigInv()
return True
def state_bm_header(self):
if len(self.read_buf) < protocol.Header.size:
print "Length below header size"
return False
self.magic, self.command, self.payloadLength, self.checksum = protocol.Header.unpack(self.read_buf[:protocol.Header.size])
self.command = self.command.rstrip('\x00')
if self.magic != 0xE9BEB4D9:
# skip 1 byte in order to sync
self.bm_proto_reset()
self.set_state("bm_header", 1)
print "Bad magic"
if self.payloadLength > BMConnection.maxMessageSize:
self.invalid = True
self.set_state("bm_command", protocol.Header.size)
return True
def state_bm_command(self):
if len(self.read_buf) < self.payloadLength:
print "Length below announced object length"
return False
print "received %s (%ib)" % (self.command, self.payloadLength)
self.payload = self.read_buf[:self.payloadLength]
if self.checksum != hashlib.sha512(self.payload).digest()[0:4]:
print "Bad checksum, ignoring"
self.invalid = True
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retval = True
if not self.invalid:
try:
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retval = getattr(self, "bm_command_" + str(self.command).lower())()
except AttributeError:
# unimplemented command
print "unimplemented command %s" % (self.command)
else:
print "Skipping command %s due to invalid data" % (self.command)
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if retval:
self.set_state("bm_header", self.payloadLength)
self.bm_proto_reset()
# else assume the command requires a different state to follow
return True
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def bm_command_error(self):
def bm_command_getdata(self):
def bm_command_object(self):
def bm_command_ping(self):
def bm_command_pong(self):
def bm_command_verack(self):
self.verackReceived = True
return True
def bm_command_version(self):
self.remoteProtocolVersion, self.services, self.timestamp, padding1, self.myExternalIP, padding2, self.remoteNodeIncomingPort = protocol.VersionPacket.unpack(self.payload[:protocol.VersionPacket.size])
print "remoteProtocolVersion: %i" % (self.remoteProtocolVersion)
print "services: %08X" % (self.services)
print "time offset: %i" % (self.timestamp - int(time.time()))
print "my external IP: %s" % (socket.inet_ntoa(self.myExternalIP))
print "remote node incoming port: %i" % (self.remoteNodeIncomingPort)
useragentLength, lengthOfUseragentVarint = addresses.decodeVarint(self.payload[80:84])
readPosition = 80 + lengthOfUseragentVarint
self.userAgent = self.payload[readPosition:readPosition + useragentLength]
readPosition += useragentLength
print "user agent: %s" % (self.userAgent)
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if not self.peerValidityChecks():
# TODO ABORT
return True
self.write_buf += protocol.CreatePacket('verack')
self.verackSent = True
if ((self.services & protocol.NODE_SSL == protocol.NODE_SSL) and
protocol.haveSSL(not self.isOutbound)):
self.isSSL = True
if self.verackReceived:
if self.isSSL:
self.set_state("tls_init", self.payloadLength)
else:
self.set_state("bm_ready", self.payloadLength)
self.bm_proto_reset()
return False
def peerValidityChecks(self):
if self.remoteProtocolVersion < 3:
self.write_buf += protocol.assembleErrorMessage(fatal=2,
errorText="Your is using an old protocol. Closing connection.")
logger.debug ('Closing connection to old protocol version %s, node: %s',
str(self.remoteProtocolVersion), str(self.peer))
return False
if self.timeOffset > 3600:
self.write_buf += protocol.assembleErrorMessage(fatal=2,
errorText="Your time is too far in the future compared to mine. Closing connection.")
logger.info("%s's time is too far in the future (%s seconds). Closing connection to it.",
self.peer, self.timeOffset)
shared.timeOffsetWrongCount += 1
return False
elif self.timeOffset < -3600:
self.write_buf += protocol.assembleErrorMessage(fatal=2,
errorText="Your time is too far in the past compared to mine. Closing connection.")
logger.info("%s's time is too far in the past (timeOffset %s seconds). Closing connection to it.",
self.peer, self.timeOffset)
shared.timeOffsetWrongCount += 1
return False
else:
shared.timeOffsetWrongCount = 0
if len(self.streams) == 0:
self.write_buf += protocol.assembleErrorMessage(fatal=2,
errorText="We don't have shared stream interests. Closing connection.")))
logger.debug ('Closed connection to %s because there is no overlapping interest in streams.',
str(self.peer))
return False
return True
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def sendAddr(self):
def sendChunk():
if numberOfAddressesInAddrMessage == 0:
return
self.write_buf += protocol.CreatePacket('addr', \
addresses.encodeVarint(numberOfAddressesInAddrMessage) + payload)))
# We are going to share a maximum number of 1000 addrs (per overlapping
# stream) with our peer. 500 from overlapping streams, 250 from the
# left child stream, and 250 from the right child stream.
maxAddrCount = BMConfigParser().safeGetInt("bitmessagesettings", "maxaddrperstreamsend", 500)
# init
addressCount = 0
payload = ''
for stream in self.streams:
addrsInMyStream = {}
addrsInChildStreamLeft = {}
addrsInChildStreamRight = {}
with knownnodes.knownNodesLock:
if len(knownnodes.knownNodes[stream]) > 0:
filtered = {k: v for k, v in knownnodes.knownNodes[stream].items()
if v > (int(time.time()) - shared.maximumAgeOfNodesThatIAdvertiseToOthers)}
elemCount = len(filtered)
if elemCount > maxAddrCount:
elemCount = maxAddrCount
# only if more recent than 3 hours
addrsInMyStream = random.sample(filtered.items(), elemCount)
# sent 250 only if the remote isn't interested in it
if len(knownnodes.knownNodes[stream * 2]) > 0 and stream not in self.streams:
filtered = {k: v for k, v in knownnodes.knownNodes[stream*2].items()
if v > (int(time.time()) - shared.maximumAgeOfNodesThatIAdvertiseToOthers)}
elemCount = len(filtered)
if elemCount > maxAddrCount / 2:
elemCount = int(maxAddrCount / 2)
addrsInChildStreamLeft = random.sample(filtered.items(), elemCount)
if len(knownnodes.knownNodes[(stream * 2) + 1]) > 0 and stream not in self.streams:
filtered = {k: v for k, v in knownnodes.knownNodes[stream*2+1].items()
if v > (int(time.time()) - shared.maximumAgeOfNodesThatIAdvertiseToOthers)}
elemCount = len(filtered)
if elemCount > maxAddrCount / 2:
elemCount = int(maxAddrCount / 2)
addrsInChildStreamRight = random.sample(filtered.items(), elemCount)
for (HOST, PORT), timeLastReceivedMessageFromThisNode in addrsInMyStream:
addressCount += 1
payload += pack(
'>Q', timeLastReceivedMessageFromThisNode) # 64-bit time
payload += pack('>I', stream)
payload += pack(
'>q', 1) # service bit flags offered by this node
payload += protocol.encodeHost(HOST)
payload += pack('>H', PORT) # remote port
if addressCount >= BMConnection.maxAddrCount:
sendChunk()
payload = ''
addressCount = 0
for (HOST, PORT), timeLastReceivedMessageFromThisNode in addrsInChildStreamLeft:
addressCount += 1
payload += pack(
'>Q', timeLastReceivedMessageFromThisNode) # 64-bit time
payload += pack('>I', stream * 2)
payload += pack(
'>q', 1) # service bit flags offered by this node
payload += protocol.encodeHost(HOST)
payload += pack('>H', PORT) # remote port
if addressCount >= BMConnection.maxAddrCount:
sendChunk()
payload = ''
addressCount = 0
for (HOST, PORT), timeLastReceivedMessageFromThisNode in addrsInChildStreamRight:
addressCount += 1
payload += pack(
'>Q', timeLastReceivedMessageFromThisNode) # 64-bit time
payload += pack('>I', (stream * 2) + 1)
payload += pack(
'>q', 1) # service bit flags offered by this node
payload += protocol.encodeHost(HOST)
payload += pack('>H', PORT) # remote port
if addressCount >= BMConnection.maxAddrCount:
sendChunk()
payload = ''
addressCount = 0
# flush
sendChunk()
def sendBigInv(self):
def sendChunk():
if objectCount == 0:
return
payload = encodeVarint(objectCount) + payload
logger.debug('Sending huge inv message with %i objects to just this one peer',
str(numberOfObjects))
self.write_buf += protocol.CreatePacket('inv', payload)
# Select all hashes for objects in this stream.
bigInvList = {}
for stream in self.streams:
for hash in Inventory().unexpired_hashes_by_stream(stream):
if not self.objectHashHolderInstance.hasHash(hash):
bigInvList[hash] = 0
objectCount = 0
payload = ''
# Now let us start appending all of these hashes together. They will be
# sent out in a big inv message to our new peer.
for hash, storedValue in bigInvList.items():
payload += hash
objectCount += 1
if objectCount >= BMConnection.maxObjectCount:
self.sendChunk()
payload = ''
objectCount = 0
# flush
sendChunk()
class Socks5BMConnection(Socks5Connection, BMConnection):
def __init__(self, address):
Socks5Connection.__init__(self, address=address)
def state_socks_handshake_done(self):
BMConnection.state_init(self)
return False
class Socks4aBMConnection(Socks4aConnection, BMConnection):
def __init__(self, address):
Socks4aConnection.__init__(self, address=address)
def state_socks_handshake_done(self):
BMConnection.state_init(self)
return False
class BMServer(AdvancedDispatcher):
port = 8444
def __init__(self, port=None):
if not hasattr(self, '_map'):
AdvancedDispatcher.__init__(self)
self.create_socket(socket.AF_INET, socket.SOCK_STREAM)
self.set_reuse_addr()
if port is None:
port = BMServer.port
self.bind(('127.0.0.1', port))
self.connections = 0
self.listen(5)
def handle_accept(self):
pair = self.accept()
if pair is not None:
sock, addr = pair
BMConnection(sock=sock)
if __name__ == "__main__":
# initial fill
for host in (("127.0.0.1", 8448),):
direct = BMConnection(host)
while len(asyncore.socket_map) > 0:
print "loop, state = %s" % (direct.state)
asyncore.loop(timeout=1, count=1)
continue
proxy = Socks5BMConnection(host)
while len(asyncore.socket_map) > 0:
# print "loop, state = %s" % (proxy.state)
asyncore.loop(timeout=1, count=1)
proxy = Socks4aBMConnection(host)
while len(asyncore.socket_map) > 0:
# print "loop, state = %s" % (proxy.state)
asyncore.loop(timeout=1, count=1)