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PyBitmessage-2024-12-07/src/bitmessagemain.py

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#!/usr/bin/env python2.7
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# Copyright (c) 2012 Jonathan Warren
# Copyright (c) 2012 The Bitmessage developers
# Distributed under the MIT/X11 software license. See the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
# Right now, PyBitmessage only support connecting to stream 1. It doesn't
# yet contain logic to expand into further streams.
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# The software version variable is now held in shared.py
verbose = 1
maximumAgeOfAnObjectThatIAmWillingToAccept = 216000 # Equals two days and 12 hours.
lengthOfTimeToLeaveObjectsInInventory = 237600 # Equals two days and 18 hours. This should be longer than maximumAgeOfAnObjectThatIAmWillingToAccept so that we don't process messages twice.
lengthOfTimeToHoldOnToAllPubkeys = 2419200 # Equals 4 weeks. You could make this longer if you want but making it shorter would not be advisable because there is a very small possibility that it could keep you from obtaining a needed pubkey for a period of time.
maximumAgeOfObjectsThatIAdvertiseToOthers = 216000 # Equals two days and 12 hours
maximumAgeOfNodesThatIAdvertiseToOthers = 10800 # Equals three hours
storeConfigFilesInSameDirectoryAsProgramByDefault = False # The user may de-select Portable Mode in the settings if they want the config files to stay in the application data folder.
useVeryEasyProofOfWorkForTesting = False # If you set this to True while on the normal network, you won't be able to send or sometimes receive messages.
encryptedBroadcastSwitchoverTime = 1369735200
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import sys
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import ConfigParser
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import Queue
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from addresses import *
import shared
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from defaultKnownNodes import *
import time
import socket
import threading
import hashlib
from struct import *
import pickle
import random
import sqlite3
from time import strftime, localtime, gmtime
import shutil # used for moving the messages.dat file
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import string
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import socks
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import highlevelcrypto
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from pyelliptic.openssl import OpenSSL
import ctypes
from pyelliptic import arithmetic
import signal # Used to capture a Ctrl-C keypress so that Bitmessage can shutdown gracefully.
# The next 3 are used for the API
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from SimpleXMLRPCServer import *
import json
from subprocess import call # used when the API must execute an outside program
import singleton
import proofofwork
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# Classes
from class_singleListener import *
from class_sqlThread import *
from class_singleCleaner import *
from class_addressGenerator import *
# Helper Functions
import helper_startup
import helper_bootstrap
import helper_inbox
import helper_sent
import helper_generic
import helper_bitcoin
# For each stream to which we connect, several outgoingSynSender threads
# will exist and will collectively create 8 connections with peers.
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class outgoingSynSender(threading.Thread):
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def __init__(self):
threading.Thread.__init__(self)
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def setup(self, streamNumber):
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self.streamNumber = streamNumber
def run(self):
time.sleep(1)
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global alreadyAttemptedConnectionsListResetTime
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while True:
while len(selfInitiatedConnections[self.streamNumber]) >= 8: # maximum number of outgoing connections = 8
time.sleep(10)
if shared.shutdown:
break
random.seed()
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shared.knownNodesLock.acquire()
HOST, = random.sample(shared.knownNodes[self.streamNumber], 1)
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shared.knownNodesLock.release()
alreadyAttemptedConnectionsListLock.acquire()
while HOST in alreadyAttemptedConnectionsList or HOST in shared.connectedHostsList:
alreadyAttemptedConnectionsListLock.release()
# print 'choosing new sample'
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random.seed()
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shared.knownNodesLock.acquire()
HOST, = random.sample(shared.knownNodes[self.streamNumber], 1)
shared.knownNodesLock.release()
time.sleep(1)
# Clear out the alreadyAttemptedConnectionsList every half
# hour so that this program will again attempt a connection
# to any nodes, even ones it has already tried.
if (time.time() - alreadyAttemptedConnectionsListResetTime) > 1800:
alreadyAttemptedConnectionsList.clear()
alreadyAttemptedConnectionsListResetTime = int(
time.time())
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alreadyAttemptedConnectionsListLock.acquire()
alreadyAttemptedConnectionsList[HOST] = 0
alreadyAttemptedConnectionsListLock.release()
PORT, timeNodeLastSeen = shared.knownNodes[
self.streamNumber][HOST]
sock = socks.socksocket(socket.AF_INET, socket.SOCK_STREAM)
# This option apparently avoids the TIME_WAIT state so that we
# can rebind faster
sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
sock.settimeout(20)
if shared.config.get('bitmessagesettings', 'socksproxytype') == 'none' and verbose >= 2:
shared.printLock.acquire()
print 'Trying an outgoing connection to', HOST, ':', PORT
shared.printLock.release()
# sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
elif shared.config.get('bitmessagesettings', 'socksproxytype') == 'SOCKS4a':
if verbose >= 2:
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shared.printLock.acquire()
print '(Using SOCKS4a) Trying an outgoing connection to', HOST, ':', PORT
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shared.printLock.release()
proxytype = socks.PROXY_TYPE_SOCKS4
sockshostname = shared.config.get(
'bitmessagesettings', 'sockshostname')
socksport = shared.config.getint(
'bitmessagesettings', 'socksport')
rdns = True # Do domain name lookups through the proxy; though this setting doesn't really matter since we won't be doing any domain name lookups anyway.
if shared.config.getboolean('bitmessagesettings', 'socksauthentication'):
socksusername = shared.config.get(
'bitmessagesettings', 'socksusername')
sockspassword = shared.config.get(
'bitmessagesettings', 'sockspassword')
sock.setproxy(
proxytype, sockshostname, socksport, rdns, socksusername, sockspassword)
else:
sock.setproxy(
proxytype, sockshostname, socksport, rdns)
elif shared.config.get('bitmessagesettings', 'socksproxytype') == 'SOCKS5':
if verbose >= 2:
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shared.printLock.acquire()
print '(Using SOCKS5) Trying an outgoing connection to', HOST, ':', PORT
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shared.printLock.release()
proxytype = socks.PROXY_TYPE_SOCKS5
sockshostname = shared.config.get(
'bitmessagesettings', 'sockshostname')
socksport = shared.config.getint(
'bitmessagesettings', 'socksport')
rdns = True # Do domain name lookups through the proxy; though this setting doesn't really matter since we won't be doing any domain name lookups anyway.
if shared.config.getboolean('bitmessagesettings', 'socksauthentication'):
socksusername = shared.config.get(
'bitmessagesettings', 'socksusername')
sockspassword = shared.config.get(
'bitmessagesettings', 'sockspassword')
sock.setproxy(
proxytype, sockshostname, socksport, rdns, socksusername, sockspassword)
else:
sock.setproxy(
proxytype, sockshostname, socksport, rdns)
try:
sock.connect((HOST, PORT))
rd = receiveDataThread()
rd.daemon = True # close the main program even if there are threads left
objectsOfWhichThisRemoteNodeIsAlreadyAware = {}
rd.setup(sock, HOST, PORT, self.streamNumber,
objectsOfWhichThisRemoteNodeIsAlreadyAware)
rd.start()
shared.printLock.acquire()
print self, 'connected to', HOST, 'during an outgoing attempt.'
shared.printLock.release()
sd = sendDataThread()
sd.setup(sock, HOST, PORT, self.streamNumber,
objectsOfWhichThisRemoteNodeIsAlreadyAware)
sd.start()
sd.sendVersionMessage()
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except socks.GeneralProxyError as err:
if verbose >= 2:
shared.printLock.acquire()
print 'Could NOT connect to', HOST, 'during outgoing attempt.', err
shared.printLock.release()
PORT, timeLastSeen = shared.knownNodes[
self.streamNumber][HOST]
if (int(time.time()) - timeLastSeen) > 172800 and len(shared.knownNodes[self.streamNumber]) > 1000: # for nodes older than 48 hours old if we have more than 1000 hosts in our list, delete from the shared.knownNodes data-structure.
shared.knownNodesLock.acquire()
del shared.knownNodes[self.streamNumber][HOST]
shared.knownNodesLock.release()
shared.printLock.acquire()
print 'deleting ', HOST, 'from shared.knownNodes because it is more than 48 hours old and we could not connect to it.'
shared.printLock.release()
except socks.Socks5AuthError as err:
shared.UISignalQueue.put((
'updateStatusBar', _translate(
"MainWindow", "SOCKS5 Authentication problem: %1").arg(str(err))))
except socks.Socks5Error as err:
pass
print 'SOCKS5 error. (It is possible that the server wants authentication).)', str(err)
except socks.Socks4Error as err:
print 'Socks4Error:', err
except socket.error as err:
if shared.config.get('bitmessagesettings', 'socksproxytype')[0:5] == 'SOCKS':
print 'Bitmessage MIGHT be having trouble connecting to the SOCKS server. ' + str(err)
else:
if verbose >= 1:
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shared.printLock.acquire()
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print 'Could NOT connect to', HOST, 'during outgoing attempt.', err
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shared.printLock.release()
PORT, timeLastSeen = shared.knownNodes[
self.streamNumber][HOST]
if (int(time.time()) - timeLastSeen) > 172800 and len(shared.knownNodes[self.streamNumber]) > 1000: # for nodes older than 48 hours old if we have more than 1000 hosts in our list, delete from the knownNodes data-structure.
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shared.knownNodesLock.acquire()
del shared.knownNodes[self.streamNumber][HOST]
shared.knownNodesLock.release()
shared.printLock.acquire()
print 'deleting ', HOST, 'from knownNodes because it is more than 48 hours old and we could not connect to it.'
shared.printLock.release()
except Exception as err:
sys.stderr.write(
'An exception has occurred in the outgoingSynSender thread that was not caught by other exception types: %s\n' % err)
time.sleep(0.1)
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# This thread is created either by the synSenderThread(for outgoing
# connections) or the singleListenerThread(for incoming connectiosn).
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class receiveDataThread(threading.Thread):
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def __init__(self):
threading.Thread.__init__(self)
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self.data = ''
self.verackSent = False
self.verackReceived = False
def setup(
self,
sock,
HOST,
port,
streamNumber,
objectsOfWhichThisRemoteNodeIsAlreadyAware):
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self.sock = sock
self.HOST = HOST
self.PORT = port
self.streamNumber = streamNumber
self.payloadLength = 0 # This is the protocol payload length thus it doesn't include the 24 byte message header
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self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave = {}
shared.connectedHostsList[
self.HOST] = 0 # The very fact that this receiveData thread exists shows that we are connected to the remote host. Let's add it to this list so that an outgoingSynSender thread doesn't try to connect to it.
self.connectionIsOrWasFullyEstablished = False # set to true after the remote node and I accept each other's version messages. This is needed to allow the user interface to accurately reflect the current number of connections.
if self.streamNumber == -1: # This was an incoming connection. Send out a version message if we accept the other node's version message.
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self.initiatedConnection = False
else:
self.initiatedConnection = True
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selfInitiatedConnections[streamNumber][self] = 0
self.ackDataThatWeHaveYetToSend = [
] # When we receive a message bound for us, we store the acknowledgement that we need to send (the ackdata) here until we are done processing all other data received from this peer.
self.objectsOfWhichThisRemoteNodeIsAlreadyAware = objectsOfWhichThisRemoteNodeIsAlreadyAware
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def run(self):
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shared.printLock.acquire()
print 'ID of the receiveDataThread is', str(id(self)) + '. The size of the shared.connectedHostsList is now', len(shared.connectedHostsList)
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shared.printLock.release()
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while True:
try:
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self.data += self.sock.recv(4096)
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except socket.timeout:
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shared.printLock.acquire()
print 'Timeout occurred waiting for data from', self.HOST + '. Closing receiveData thread. (ID:', str(id(self)) + ')'
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shared.printLock.release()
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break
except Exception as err:
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shared.printLock.acquire()
print 'sock.recv error. Closing receiveData thread (HOST:', self.HOST, 'ID:', str(id(self)) + ').', err
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shared.printLock.release()
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break
# print 'Received', repr(self.data)
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if self.data == "":
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shared.printLock.acquire()
print 'Connection to', self.HOST, 'closed. Closing receiveData thread. (ID:', str(id(self)) + ')'
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shared.printLock.release()
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break
else:
self.processData()
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try:
del selfInitiatedConnections[self.streamNumber][self]
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shared.printLock.acquire()
print 'removed self (a receiveDataThread) from selfInitiatedConnections'
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shared.printLock.release()
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except:
pass
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shared.broadcastToSendDataQueues((0, 'shutdown', self.HOST))
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try:
del shared.connectedHostsList[self.HOST]
except Exception as err:
shared.printLock.acquire()
print 'Could not delete', self.HOST, 'from shared.connectedHostsList.', err
shared.printLock.release()
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try:
del numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer[
self.HOST]
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except:
pass
shared.UISignalQueue.put(('updateNetworkStatusTab', 'no data'))
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shared.printLock.acquire()
print 'The size of the connectedHostsList is now:', len(shared.connectedHostsList)
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shared.printLock.release()
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def processData(self):
global verbose
# if verbose >= 3:
# shared.printLock.acquire()
# print 'self.data is currently ', repr(self.data)
# shared.printLock.release()
if len(self.data) < 20: # if so little of the data has arrived that we can't even unpack the payload length
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return
if self.data[0:4] != '\xe9\xbe\xb4\xd9':
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if verbose >= 1:
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shared.printLock.acquire()
print 'The magic bytes were not correct. First 40 bytes of data: ' + repr(self.data[0:40])
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shared.printLock.release()
self.data = ""
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return
self.payloadLength, = unpack('>L', self.data[16:20])
if len(self.data) < self.payloadLength + 24: # check if the whole message has arrived yet.
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return
if self.data[20:24] != hashlib.sha512(self.data[24:self.payloadLength + 24]).digest()[0:4]: # test the checksum in the message. If it is correct...
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print 'Checksum incorrect. Clearing this message.'
self.data = self.data[self.payloadLength + 24:]
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self.processData()
return
# The time we've last seen this node is obviously right now since we
# just received valid data from it. So update the knownNodes list so
# that other peers can be made aware of its existance.
if self.initiatedConnection and self.connectionIsOrWasFullyEstablished: # The remote port is only something we should share with others if it is the remote node's incoming port (rather than some random operating-system-assigned outgoing port).
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shared.knownNodesLock.acquire()
shared.knownNodes[self.streamNumber][
self.HOST] = (self.PORT, int(time.time()))
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shared.knownNodesLock.release()
if self.payloadLength <= 180000000: # If the size of the message is greater than 180MB, ignore it. (I get memory errors when processing messages much larger than this though it is concievable that this value will have to be lowered if some systems are less tolarant of large messages.)
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remoteCommand = self.data[4:16]
shared.printLock.acquire()
print 'remoteCommand', repr(remoteCommand.replace('\x00', '')), ' from', self.HOST
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shared.printLock.release()
if remoteCommand == 'version\x00\x00\x00\x00\x00':
self.recversion(self.data[24:self.payloadLength + 24])
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elif remoteCommand == 'verack\x00\x00\x00\x00\x00\x00':
self.recverack()
elif remoteCommand == 'addr\x00\x00\x00\x00\x00\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
self.recaddr(self.data[24:self.payloadLength + 24])
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elif remoteCommand == 'getpubkey\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
self.recgetpubkey(self.data[24:self.payloadLength + 24])
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elif remoteCommand == 'pubkey\x00\x00\x00\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
self.recpubkey(self.data[24:self.payloadLength + 24])
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elif remoteCommand == 'inv\x00\x00\x00\x00\x00\x00\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
self.recinv(self.data[24:self.payloadLength + 24])
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elif remoteCommand == 'getdata\x00\x00\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
self.recgetdata(self.data[24:self.payloadLength + 24])
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elif remoteCommand == 'msg\x00\x00\x00\x00\x00\x00\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
self.recmsg(self.data[24:self.payloadLength + 24])
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elif remoteCommand == 'broadcast\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
self.recbroadcast(self.data[24:self.payloadLength + 24])
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elif remoteCommand == 'ping\x00\x00\x00\x00\x00\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
self.sendpong()
elif remoteCommand == 'pong\x00\x00\x00\x00\x00\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
pass
elif remoteCommand == 'alert\x00\x00\x00\x00\x00\x00\x00' and self.connectionIsOrWasFullyEstablished:
pass
self.data = self.data[
self.payloadLength + 24:] # take this message out and then process the next message
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if self.data == '':
while len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave) > 0:
random.seed()
objectHash, = random.sample(
self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave, 1)
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if objectHash in shared.inventory:
shared.printLock.acquire()
print 'Inventory (in memory) already has object listed in inv message.'
shared.printLock.release()
del self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave[
objectHash]
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elif isInSqlInventory(objectHash):
if verbose >= 3:
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shared.printLock.acquire()
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print 'Inventory (SQL on disk) already has object listed in inv message.'
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shared.printLock.release()
del self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave[
objectHash]
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else:
self.sendgetdata(objectHash)
del self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave[
objectHash] # It is possible that the remote node doesn't respond with the object. In that case, we'll very likely get it from someone else anyway.
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if len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave) == 0:
shared.printLock.acquire()
print '(concerning', self.HOST + ')', 'number of objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave is now', len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave)
shared.printLock.release()
try:
del numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer[
self.HOST] # this data structure is maintained so that we can keep track of how many total objects, across all connections, are currently outstanding. If it goes too high it can indicate that we are under attack by multiple nodes working together.
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except:
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pass
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break
if len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave) == 0:
shared.printLock.acquire()
print '(concerning', self.HOST + ')', 'number of objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave is now', len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave)
shared.printLock.release()
try:
del numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer[
self.HOST] # this data structure is maintained so that we can keep track of how many total objects, across all connections, are currently outstanding. If it goes too high it can indicate that we are under attack by multiple nodes working together.
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except:
pass
if len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave) > 0:
shared.printLock.acquire()
print '(concerning', self.HOST + ')', 'number of objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave is now', len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave)
shared.printLock.release()
numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer[self.HOST] = len(
self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave) # this data structure is maintained so that we can keep track of how many total objects, across all connections, are currently outstanding. If it goes too high it can indicate that we are under attack by multiple nodes working together.
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if len(self.ackDataThatWeHaveYetToSend) > 0:
self.data = self.ackDataThatWeHaveYetToSend.pop()
self.processData()
def isProofOfWorkSufficient(
self,
data,
nonceTrialsPerByte=0,
payloadLengthExtraBytes=0):
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if nonceTrialsPerByte < shared.networkDefaultProofOfWorkNonceTrialsPerByte:
nonceTrialsPerByte = shared.networkDefaultProofOfWorkNonceTrialsPerByte
if payloadLengthExtraBytes < shared.networkDefaultPayloadLengthExtraBytes:
payloadLengthExtraBytes = shared.networkDefaultPayloadLengthExtraBytes
POW, = unpack('>Q', hashlib.sha512(hashlib.sha512(data[
:8] + hashlib.sha512(data[8:]).digest()).digest()).digest()[0:8])
# print 'POW:', POW
return POW <= 2 ** 64 / ((len(data) + payloadLengthExtraBytes) * (nonceTrialsPerByte))
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def sendpong(self):
print 'Sending pong'
try:
self.sock.sendall(
'\xE9\xBE\xB4\xD9\x70\x6F\x6E\x67\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xcf\x83\xe1\x35')
except Exception as err:
# if not 'Bad file descriptor' in err:
shared.printLock.acquire()
sys.stderr.write('sock.sendall error: %s\n' % err)
shared.printLock.release()
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def recverack(self):
print 'verack received'
self.verackReceived = True
if self.verackSent:
# We have thus both sent and received a verack.
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self.connectionFullyEstablished()
def connectionFullyEstablished(self):
self.connectionIsOrWasFullyEstablished = True
if not self.initiatedConnection:
shared.UISignalQueue.put(('setStatusIcon', 'green'))
self.sock.settimeout(
600) # We'll send out a pong every 5 minutes to make sure the connection stays alive if there has been no other traffic to send lately.
shared.UISignalQueue.put(('updateNetworkStatusTab', 'no data'))
remoteNodeIncomingPort, remoteNodeSeenTime = shared.knownNodes[
self.streamNumber][self.HOST]
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shared.printLock.acquire()
print 'Connection fully established with', self.HOST, remoteNodeIncomingPort
print 'The size of the connectedHostsList is now', len(shared.connectedHostsList)
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print 'The length of sendDataQueues is now:', len(shared.sendDataQueues)
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print 'broadcasting addr from within connectionFullyEstablished function.'
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shared.printLock.release()
self.broadcastaddr([(int(time.time()), self.streamNumber, 1, self.HOST,
remoteNodeIncomingPort)]) # This lets all of our peers know about this new node.
self.sendaddr() # This is one large addr message to this one peer.
if not self.initiatedConnection and len(shared.connectedHostsList) > 200:
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shared.printLock.acquire()
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print 'We are connected to too many people. Closing connection.'
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shared.printLock.release()
shared.broadcastToSendDataQueues((0, 'shutdown', self.HOST))
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return
self.sendBigInv()
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def sendBigInv(self):
shared.sqlLock.acquire()
# Select all hashes which are younger than two days old and in this
# stream.
t = (int(time.time()) - maximumAgeOfObjectsThatIAdvertiseToOthers, int(
time.time()) - lengthOfTimeToHoldOnToAllPubkeys, self.streamNumber)
shared.sqlSubmitQueue.put(
'''SELECT hash FROM inventory WHERE ((receivedtime>? and objecttype<>'pubkey') or (receivedtime>? and objecttype='pubkey')) and streamnumber=?''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
bigInvList = {}
for row in queryreturn:
hash, = row
if hash not in self.objectsOfWhichThisRemoteNodeIsAlreadyAware:
bigInvList[hash] = 0
# We also have messages in our inventory in memory (which is a python
# dictionary). Let's fetch those too.
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for hash, storedValue in shared.inventory.items():
if hash not in self.objectsOfWhichThisRemoteNodeIsAlreadyAware:
objectType, streamNumber, payload, receivedTime = storedValue
if streamNumber == self.streamNumber and receivedTime > int(time.time()) - maximumAgeOfObjectsThatIAdvertiseToOthers:
bigInvList[hash] = 0
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numberOfObjectsInInvMessage = 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.
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for hash, storedValue in bigInvList.items():
payload += hash
numberOfObjectsInInvMessage += 1
if numberOfObjectsInInvMessage >= 50000: # We can only send a max of 50000 items per inv message but we may have more objects to advertise. They must be split up into multiple inv messages.
self.sendinvMessageToJustThisOnePeer(
numberOfObjectsInInvMessage, payload)
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payload = ''
numberOfObjectsInInvMessage = 0
if numberOfObjectsInInvMessage > 0:
self.sendinvMessageToJustThisOnePeer(
numberOfObjectsInInvMessage, payload)
# Self explanatory. Notice that there is also a broadcastinv function for
# broadcasting invs to everyone in our stream.
def sendinvMessageToJustThisOnePeer(self, numberOfObjects, payload):
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payload = encodeVarint(numberOfObjects) + payload
headerData = '\xe9\xbe\xb4\xd9' # magic bits, slighly different from Bitcoin's magic bits.
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headerData += 'inv\x00\x00\x00\x00\x00\x00\x00\x00\x00'
headerData += pack('>L', len(payload))
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headerData += hashlib.sha512(payload).digest()[:4]
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shared.printLock.acquire()
print 'Sending huge inv message with', numberOfObjects, 'objects to just this one peer'
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shared.printLock.release()
try:
self.sock.sendall(headerData + payload)
except Exception as err:
# if not 'Bad file descriptor' in err:
shared.printLock.acquire()
sys.stderr.write('sock.sendall error: %s\n' % err)
shared.printLock.release()
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# We have received a broadcast message
def recbroadcast(self, data):
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self.messageProcessingStartTime = time.time()
# First we must check to make sure the proof of work is sufficient.
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if not self.isProofOfWorkSufficient(data):
print 'Proof of work in broadcast message insufficient.'
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return
readPosition = 8 # bypass the nonce
embeddedTime, = unpack('>I', data[readPosition:readPosition + 4])
# This section is used for the transition from 32 bit time to 64 bit
# time in the protocol.
if embeddedTime == 0:
embeddedTime, = unpack('>Q', data[readPosition:readPosition + 8])
readPosition += 8
else:
readPosition += 4
if embeddedTime > (int(time.time()) + 10800): # prevent funny business
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print 'The embedded time in this broadcast message is more than three hours in the future. That doesn\'t make sense. Ignoring message.'
return
if embeddedTime < (int(time.time()) - maximumAgeOfAnObjectThatIAmWillingToAccept):
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print 'The embedded time in this broadcast message is too old. Ignoring message.'
return
if len(data) < 180:
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print 'The payload length of this broadcast packet is unreasonably low. Someone is probably trying funny business. Ignoring message.'
return
# Let us check to make sure the stream number is correct (thus
# preventing an individual from sending broadcasts out on the wrong
# streams or all streams).
broadcastVersion, broadcastVersionLength = decodeVarint(
data[readPosition:readPosition + 10])
if broadcastVersion >= 2:
streamNumber, streamNumberLength = decodeVarint(data[
readPosition + broadcastVersionLength:readPosition + broadcastVersionLength + 10])
if streamNumber != self.streamNumber:
print 'The stream number encoded in this broadcast message (' + str(streamNumber) + ') does not match the stream number on which it was received. Ignoring it.'
return
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shared.inventoryLock.acquire()
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self.inventoryHash = calculateInventoryHash(data)
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if self.inventoryHash in shared.inventory:
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print 'We have already received this broadcast object. Ignoring.'
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shared.inventoryLock.release()
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return
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elif isInSqlInventory(self.inventoryHash):
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print 'We have already received this broadcast object (it is stored on disk in the SQL inventory). Ignoring it.'
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shared.inventoryLock.release()
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return
# It is valid so far. Let's let our peers know about it.
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objectType = 'broadcast'
shared.inventory[self.inventoryHash] = (
objectType, self.streamNumber, data, embeddedTime)
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shared.inventoryLock.release()
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self.broadcastinv(self.inventoryHash)
shared.UISignalQueue.put((
'incrementNumberOfBroadcastsProcessed', 'no data'))
self.processbroadcast(
readPosition, data) # When this function returns, we will have either successfully processed this broadcast because we are interested in it, ignored it because we aren't interested in it, or found problem with the broadcast that warranted ignoring it.
# Let us now set lengthOfTimeWeShouldUseToProcessThisMessage. If we
# haven't used the specified amount of time, we shall sleep. These
# values are mostly the same values used for msg messages although
# broadcast messages are processed faster.
if len(data) > 100000000: # Size is greater than 100 megabytes
lengthOfTimeWeShouldUseToProcessThisMessage = 100 # seconds.
elif len(data) > 10000000: # Between 100 and 10 megabytes
lengthOfTimeWeShouldUseToProcessThisMessage = 20 # seconds.
elif len(data) > 1000000: # Between 10 and 1 megabyte
lengthOfTimeWeShouldUseToProcessThisMessage = 3 # seconds.
else: # Less than 1 megabyte
lengthOfTimeWeShouldUseToProcessThisMessage = .6 # seconds.
sleepTime = lengthOfTimeWeShouldUseToProcessThisMessage - \
(time.time() - self.messageProcessingStartTime)
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if sleepTime > 0:
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shared.printLock.acquire()
print 'Timing attack mitigation: Sleeping for', sleepTime, 'seconds.'
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shared.printLock.release()
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time.sleep(sleepTime)
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shared.printLock.acquire()
print 'Total message processing time:', time.time() - self.messageProcessingStartTime, 'seconds.'
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shared.printLock.release()
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# A broadcast message has a valid time and POW and requires processing.
# The recbroadcast function calls this one.
def processbroadcast(self, readPosition, data):
broadcastVersion, broadcastVersionLength = decodeVarint(
data[readPosition:readPosition + 9])
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readPosition += broadcastVersionLength
if broadcastVersion < 1 or broadcastVersion > 2:
print 'Cannot decode incoming broadcast versions higher than 2. Assuming the sender isn\'t being silly, you should upgrade Bitmessage because this message shall be ignored.'
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return
if broadcastVersion == 1:
beginningOfPubkeyPosition = readPosition # used when we add the pubkey to our pubkey table
sendersAddressVersion, sendersAddressVersionLength = decodeVarint(
data[readPosition:readPosition + 9])
if sendersAddressVersion <= 1 or sendersAddressVersion >= 3:
# Cannot decode senderAddressVersion higher than 2. Assuming
# the sender isn\'t being silly, you should upgrade Bitmessage
# because this message shall be ignored.
return
readPosition += sendersAddressVersionLength
if sendersAddressVersion == 2:
sendersStream, sendersStreamLength = decodeVarint(
data[readPosition:readPosition + 9])
readPosition += sendersStreamLength
behaviorBitfield = data[readPosition:readPosition + 4]
readPosition += 4
sendersPubSigningKey = '\x04' + \
data[readPosition:readPosition + 64]
readPosition += 64
sendersPubEncryptionKey = '\x04' + \
data[readPosition:readPosition + 64]
readPosition += 64
endOfPubkeyPosition = readPosition
sendersHash = data[readPosition:readPosition + 20]
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if sendersHash not in shared.broadcastSendersForWhichImWatching:
# Display timing data
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shared.printLock.acquire()
print 'Time spent deciding that we are not interested in this v1 broadcast:', time.time() - self.messageProcessingStartTime
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shared.printLock.release()
return
# At this point, this message claims to be from sendersHash and
# we are interested in it. We still have to hash the public key
# to make sure it is truly the key that matches the hash, and
# also check the signiture.
readPosition += 20
sha = hashlib.new('sha512')
sha.update(sendersPubSigningKey + sendersPubEncryptionKey)
ripe = hashlib.new('ripemd160')
ripe.update(sha.digest())
if ripe.digest() != sendersHash:
# The sender of this message lied.
return
messageEncodingType, messageEncodingTypeLength = decodeVarint(
data[readPosition:readPosition + 9])
if messageEncodingType == 0:
return
readPosition += messageEncodingTypeLength
messageLength, messageLengthLength = decodeVarint(
data[readPosition:readPosition + 9])
readPosition += messageLengthLength
message = data[readPosition:readPosition + messageLength]
readPosition += messageLength
readPositionAtBottomOfMessage = readPosition
signatureLength, signatureLengthLength = decodeVarint(
data[readPosition:readPosition + 9])
readPosition += signatureLengthLength
signature = data[readPosition:readPosition + signatureLength]
try:
if not highlevelcrypto.verify(data[12:readPositionAtBottomOfMessage], signature, sendersPubSigningKey.encode('hex')):
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print 'ECDSA verify failed'
return
print 'ECDSA verify passed'
except Exception as err:
print 'ECDSA verify failed', err
return
# verify passed
# Let's store the public key in case we want to reply to this person.
# We don't have the correct nonce or time (which would let us
# send out a pubkey message) so we'll just fill it with 1's. We
# won't be able to send this pubkey to others (without doing
# the proof of work ourselves, which this program is programmed
# to not do.)
t = (ripe.digest(), '\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF' + '\xFF\xFF\xFF\xFF' + data[
beginningOfPubkeyPosition:endOfPubkeyPosition], int(time.time()), 'yes')
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''INSERT INTO pubkeys VALUES (?,?,?,?)''')
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shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
# shared.workerQueue.put(('newpubkey',(sendersAddressVersion,sendersStream,ripe.digest())))
# This will check to see whether we happen to be awaiting this
# pubkey in order to send a message. If we are, it will do the
# POW and send it.
self.possibleNewPubkey(ripe.digest())
fromAddress = encodeAddress(
sendersAddressVersion, sendersStream, ripe.digest())
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shared.printLock.acquire()
print 'fromAddress:', fromAddress
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shared.printLock.release()
if messageEncodingType == 2:
bodyPositionIndex = string.find(message, '\nBody:')
if bodyPositionIndex > 1:
subject = message[8:bodyPositionIndex]
body = message[bodyPositionIndex + 6:]
else:
subject = ''
body = message
elif messageEncodingType == 1:
body = message
subject = ''
elif messageEncodingType == 0:
print 'messageEncodingType == 0. Doing nothing with the message.'
else:
body = 'Unknown encoding type.\n\n' + repr(message)
subject = ''
toAddress = '[Broadcast subscribers]'
if messageEncodingType != 0:
t = (self.inventoryHash, toAddress, fromAddress, subject, int(
time.time()), body, 'inbox', messageEncodingType, 0)
helper_inbox.insert(t)
shared.UISignalQueue.put(('displayNewInboxMessage', (
self.inventoryHash, toAddress, fromAddress, subject, body)))
# If we are behaving as an API then we might need to run an
# outside command to let some program know that a new
# message has arrived.
if shared.safeConfigGetBoolean('bitmessagesettings', 'apienabled'):
try:
apiNotifyPath = shared.config.get(
'bitmessagesettings', 'apinotifypath')
except:
apiNotifyPath = ''
if apiNotifyPath != '':
call([apiNotifyPath, "newBroadcast"])
# Display timing data
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shared.printLock.acquire()
print 'Time spent processing this interesting broadcast:', time.time() - self.messageProcessingStartTime
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shared.printLock.release()
if broadcastVersion == 2:
cleartextStreamNumber, cleartextStreamNumberLength = decodeVarint(
data[readPosition:readPosition + 10])
readPosition += cleartextStreamNumberLength
initialDecryptionSuccessful = False
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for key, cryptorObject in shared.MyECSubscriptionCryptorObjects.items():
try:
decryptedData = cryptorObject.decrypt(data[readPosition:])
toRipe = key # This is the RIPE hash of the sender's pubkey. We need this below to compare to the RIPE hash of the sender's address to verify that it was encrypted by with their key rather than some other key.
initialDecryptionSuccessful = True
print 'EC decryption successful using key associated with ripe hash:', key.encode('hex')
break
except Exception as err:
pass
# print 'cryptorObject.decrypt Exception:', err
if not initialDecryptionSuccessful:
# This is not a broadcast I am interested in.
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shared.printLock.acquire()
print 'Length of time program spent failing to decrypt this v2 broadcast:', time.time() - self.messageProcessingStartTime, 'seconds.'
2013-05-02 17:53:54 +02:00
shared.printLock.release()
return
# At this point this is a broadcast I have decrypted and thus am
# interested in.
signedBroadcastVersion, readPosition = decodeVarint(
decryptedData[:10])
beginningOfPubkeyPosition = readPosition # used when we add the pubkey to our pubkey table
sendersAddressVersion, sendersAddressVersionLength = decodeVarint(
decryptedData[readPosition:readPosition + 9])
if sendersAddressVersion < 2 or sendersAddressVersion > 3:
print 'Cannot decode senderAddressVersion other than 2 or 3. Assuming the sender isn\'t being silly, you should upgrade Bitmessage because this message shall be ignored.'
return
readPosition += sendersAddressVersionLength
sendersStream, sendersStreamLength = decodeVarint(
decryptedData[readPosition:readPosition + 9])
if sendersStream != cleartextStreamNumber:
print 'The stream number outside of the encryption on which the POW was completed doesn\'t match the stream number inside the encryption. Ignoring broadcast.'
return
readPosition += sendersStreamLength
behaviorBitfield = decryptedData[readPosition:readPosition + 4]
readPosition += 4
sendersPubSigningKey = '\x04' + \
decryptedData[readPosition:readPosition + 64]
readPosition += 64
sendersPubEncryptionKey = '\x04' + \
decryptedData[readPosition:readPosition + 64]
readPosition += 64
if sendersAddressVersion >= 3:
requiredAverageProofOfWorkNonceTrialsPerByte, varintLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
readPosition += varintLength
print 'sender\'s requiredAverageProofOfWorkNonceTrialsPerByte is', requiredAverageProofOfWorkNonceTrialsPerByte
requiredPayloadLengthExtraBytes, varintLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
readPosition += varintLength
print 'sender\'s requiredPayloadLengthExtraBytes is', requiredPayloadLengthExtraBytes
endOfPubkeyPosition = readPosition
sha = hashlib.new('sha512')
sha.update(sendersPubSigningKey + sendersPubEncryptionKey)
ripe = hashlib.new('ripemd160')
ripe.update(sha.digest())
if toRipe != ripe.digest():
print 'The encryption key used to encrypt this message doesn\'t match the keys inbedded in the message itself. Ignoring message.'
return
messageEncodingType, messageEncodingTypeLength = decodeVarint(
decryptedData[readPosition:readPosition + 9])
if messageEncodingType == 0:
return
readPosition += messageEncodingTypeLength
messageLength, messageLengthLength = decodeVarint(
decryptedData[readPosition:readPosition + 9])
readPosition += messageLengthLength
message = decryptedData[readPosition:readPosition + messageLength]
readPosition += messageLength
readPositionAtBottomOfMessage = readPosition
signatureLength, signatureLengthLength = decodeVarint(
decryptedData[readPosition:readPosition + 9])
readPosition += signatureLengthLength
signature = decryptedData[
readPosition:readPosition + signatureLength]
try:
if not highlevelcrypto.verify(decryptedData[:readPositionAtBottomOfMessage], signature, sendersPubSigningKey.encode('hex')):
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print 'ECDSA verify failed'
return
print 'ECDSA verify passed'
except Exception as err:
print 'ECDSA verify failed', err
return
# verify passed
# Let's store the public key in case we want to reply to this
# person.
t = (ripe.digest(), '\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF' + '\xFF\xFF\xFF\xFF' + decryptedData[
beginningOfPubkeyPosition:endOfPubkeyPosition], int(time.time()), 'yes')
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''INSERT INTO pubkeys VALUES (?,?,?,?)''')
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shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
# shared.workerQueue.put(('newpubkey',(sendersAddressVersion,sendersStream,ripe.digest())))
# This will check to see whether we happen to be awaiting this
# pubkey in order to send a message. If we are, it will do the POW
# and send it.
self.possibleNewPubkey(ripe.digest())
fromAddress = encodeAddress(
sendersAddressVersion, sendersStream, ripe.digest())
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shared.printLock.acquire()
print 'fromAddress:', fromAddress
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shared.printLock.release()
if messageEncodingType == 2:
bodyPositionIndex = string.find(message, '\nBody:')
if bodyPositionIndex > 1:
subject = message[8:bodyPositionIndex]
body = message[bodyPositionIndex + 6:]
else:
subject = ''
body = message
elif messageEncodingType == 1:
body = message
subject = ''
elif messageEncodingType == 0:
print 'messageEncodingType == 0. Doing nothing with the message.'
else:
body = 'Unknown encoding type.\n\n' + repr(message)
subject = ''
toAddress = '[Broadcast subscribers]'
if messageEncodingType != 0:
t = (self.inventoryHash, toAddress, fromAddress, subject, int(
time.time()), body, 'inbox', messageEncodingType, 0)
helper_inbox.insert(t)
shared.UISignalQueue.put(('displayNewInboxMessage', (
self.inventoryHash, toAddress, fromAddress, subject, body)))
# If we are behaving as an API then we might need to run an
# outside command to let some program know that a new message
# has arrived.
if shared.safeConfigGetBoolean('bitmessagesettings', 'apienabled'):
try:
apiNotifyPath = shared.config.get(
'bitmessagesettings', 'apinotifypath')
except:
apiNotifyPath = ''
if apiNotifyPath != '':
call([apiNotifyPath, "newBroadcast"])
# Display timing data
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shared.printLock.acquire()
print 'Time spent processing this interesting broadcast:', time.time() - self.messageProcessingStartTime
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shared.printLock.release()
# We have received a msg message.
def recmsg(self, data):
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self.messageProcessingStartTime = time.time()
# First we must check to make sure the proof of work is sufficient.
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if not self.isProofOfWorkSufficient(data):
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print 'Proof of work in msg message insufficient.'
return
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readPosition = 8
embeddedTime, = unpack('>I', data[readPosition:readPosition + 4])
# This section is used for the transition from 32 bit time to 64 bit
# time in the protocol.
if embeddedTime == 0:
embeddedTime, = unpack('>Q', data[readPosition:readPosition + 8])
readPosition += 8
else:
readPosition += 4
if embeddedTime > int(time.time()) + 10800:
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print 'The time in the msg message is too new. Ignoring it. Time:', embeddedTime
return
if embeddedTime < int(time.time()) - maximumAgeOfAnObjectThatIAmWillingToAccept:
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print 'The time in the msg message is too old. Ignoring it. Time:', embeddedTime
return
streamNumberAsClaimedByMsg, streamNumberAsClaimedByMsgLength = decodeVarint(
data[readPosition:readPosition + 9])
if streamNumberAsClaimedByMsg != self.streamNumber:
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print 'The stream number encoded in this msg (' + str(streamNumberAsClaimedByMsg) + ') message does not match the stream number on which it was received. Ignoring it.'
return
readPosition += streamNumberAsClaimedByMsgLength
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self.inventoryHash = calculateInventoryHash(data)
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shared.inventoryLock.acquire()
if self.inventoryHash in shared.inventory:
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print 'We have already received this msg message. Ignoring.'
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shared.inventoryLock.release()
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return
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elif isInSqlInventory(self.inventoryHash):
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print 'We have already received this msg message (it is stored on disk in the SQL inventory). Ignoring it.'
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shared.inventoryLock.release()
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return
# This msg message is valid. Let's let our peers know about it.
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objectType = 'msg'
shared.inventory[self.inventoryHash] = (
objectType, self.streamNumber, data, embeddedTime)
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shared.inventoryLock.release()
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self.broadcastinv(self.inventoryHash)
shared.UISignalQueue.put((
'incrementNumberOfMessagesProcessed', 'no data'))
self.processmsg(
readPosition, data) # When this function returns, we will have either successfully processed the message bound for us, ignored it because it isn't bound for us, or found problem with the message that warranted ignoring it.
# Let us now set lengthOfTimeWeShouldUseToProcessThisMessage. If we
# haven't used the specified amount of time, we shall sleep. These
# values are based on test timings and you may change them at-will.
if len(data) > 100000000: # Size is greater than 100 megabytes
lengthOfTimeWeShouldUseToProcessThisMessage = 100 # seconds. Actual length of time it took my computer to decrypt and verify the signature of a 100 MB message: 3.7 seconds.
elif len(data) > 10000000: # Between 100 and 10 megabytes
lengthOfTimeWeShouldUseToProcessThisMessage = 20 # seconds. Actual length of time it took my computer to decrypt and verify the signature of a 10 MB message: 0.53 seconds. Actual length of time it takes in practice when processing a real message: 1.44 seconds.
elif len(data) > 1000000: # Between 10 and 1 megabyte
lengthOfTimeWeShouldUseToProcessThisMessage = 3 # seconds. Actual length of time it took my computer to decrypt and verify the signature of a 1 MB message: 0.18 seconds. Actual length of time it takes in practice when processing a real message: 0.30 seconds.
else: # Less than 1 megabyte
lengthOfTimeWeShouldUseToProcessThisMessage = .6 # seconds. Actual length of time it took my computer to decrypt and verify the signature of a 100 KB message: 0.15 seconds. Actual length of time it takes in practice when processing a real message: 0.25 seconds.
sleepTime = lengthOfTimeWeShouldUseToProcessThisMessage - \
(time.time() - self.messageProcessingStartTime)
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if sleepTime > 0:
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shared.printLock.acquire()
print 'Timing attack mitigation: Sleeping for', sleepTime, 'seconds.'
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shared.printLock.release()
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time.sleep(sleepTime)
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shared.printLock.acquire()
print 'Total message processing time:', time.time() - self.messageProcessingStartTime, 'seconds.'
2013-05-02 17:53:54 +02:00
shared.printLock.release()
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# A msg message has a valid time and POW and requires processing. The
# recmsg function calls this one.
def processmsg(self, readPosition, encryptedData):
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initialDecryptionSuccessful = False
# Let's check whether this is a message acknowledgement bound for us.
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if encryptedData[readPosition:] in ackdataForWhichImWatching:
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shared.printLock.acquire()
print 'This msg IS an acknowledgement bound for me.'
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shared.printLock.release()
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del ackdataForWhichImWatching[encryptedData[readPosition:]]
t = ('ackreceived', encryptedData[readPosition:])
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'UPDATE sent SET status=? WHERE ackdata=?')
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shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (encryptedData[readPosition:], _translate("MainWindow",'Acknowledgement of the message received. %1').arg(unicode(
strftime(shared.config.get('bitmessagesettings', 'timeformat'), localtime(int(time.time()))), 'utf-8')))))
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return
else:
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shared.printLock.acquire()
print 'This was NOT an acknowledgement bound for me.'
# print 'ackdataForWhichImWatching', ackdataForWhichImWatching
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shared.printLock.release()
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# This is not an acknowledgement bound for me. See if it is a message
# bound for me by trying to decrypt it with my private keys.
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for key, cryptorObject in shared.myECCryptorObjects.items():
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try:
decryptedData = cryptorObject.decrypt(
encryptedData[readPosition:])
toRipe = key # This is the RIPE hash of my pubkeys. We need this below to compare to the destination_ripe included in the encrypted data.
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initialDecryptionSuccessful = True
print 'EC decryption successful using key associated with ripe hash:', key.encode('hex')
break
except Exception as err:
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pass
# print 'cryptorObject.decrypt Exception:', err
if not initialDecryptionSuccessful:
# This is not a message bound for me.
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shared.printLock.acquire()
print 'Length of time program spent failing to decrypt this message:', time.time() - self.messageProcessingStartTime, 'seconds.'
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shared.printLock.release()
else:
# This is a message bound for me.
toAddress = shared.myAddressesByHash[
toRipe] # Look up my address based on the RIPE hash.
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readPosition = 0
messageVersion, messageVersionLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
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readPosition += messageVersionLength
if messageVersion != 1:
print 'Cannot understand message versions other than one. Ignoring message.'
return
sendersAddressVersionNumber, sendersAddressVersionNumberLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
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readPosition += sendersAddressVersionNumberLength
if sendersAddressVersionNumber == 0:
print 'Cannot understand sendersAddressVersionNumber = 0. Ignoring message.'
return
if sendersAddressVersionNumber >= 4:
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print 'Sender\'s address version number', sendersAddressVersionNumber, 'not yet supported. Ignoring message.'
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return
if len(decryptedData) < 170:
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print 'Length of the unencrypted data is unreasonably short. Sanity check failed. Ignoring message.'
return
sendersStreamNumber, sendersStreamNumberLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
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if sendersStreamNumber == 0:
print 'sender\'s stream number is 0. Ignoring message.'
return
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readPosition += sendersStreamNumberLength
behaviorBitfield = decryptedData[readPosition:readPosition + 4]
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readPosition += 4
pubSigningKey = '\x04' + decryptedData[
readPosition:readPosition + 64]
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readPosition += 64
pubEncryptionKey = '\x04' + decryptedData[
readPosition:readPosition + 64]
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readPosition += 64
if sendersAddressVersionNumber >= 3:
requiredAverageProofOfWorkNonceTrialsPerByte, varintLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
readPosition += varintLength
print 'sender\'s requiredAverageProofOfWorkNonceTrialsPerByte is', requiredAverageProofOfWorkNonceTrialsPerByte
requiredPayloadLengthExtraBytes, varintLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
readPosition += varintLength
print 'sender\'s requiredPayloadLengthExtraBytes is', requiredPayloadLengthExtraBytes
endOfThePublicKeyPosition = readPosition # needed for when we store the pubkey in our database of pubkeys for later use.
if toRipe != decryptedData[readPosition:readPosition + 20]:
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shared.printLock.acquire()
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print 'The original sender of this message did not send it to you. Someone is attempting a Surreptitious Forwarding Attack.'
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print 'See: http://world.std.com/~dtd/sign_encrypt/sign_encrypt7.html'
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print 'your toRipe:', toRipe.encode('hex')
print 'embedded destination toRipe:', decryptedData[readPosition:readPosition + 20].encode('hex')
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shared.printLock.release()
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return
readPosition += 20
messageEncodingType, messageEncodingTypeLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
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readPosition += messageEncodingTypeLength
messageLength, messageLengthLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
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readPosition += messageLengthLength
message = decryptedData[readPosition:readPosition + messageLength]
# print 'First 150 characters of message:', repr(message[:150])
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readPosition += messageLength
ackLength, ackLengthLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
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readPosition += ackLengthLength
ackData = decryptedData[readPosition:readPosition + ackLength]
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readPosition += ackLength
positionOfBottomOfAckData = readPosition # needed to mark the end of what is covered by the signature
signatureLength, signatureLengthLength = decodeVarint(
decryptedData[readPosition:readPosition + 10])
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readPosition += signatureLengthLength
signature = decryptedData[
readPosition:readPosition + signatureLength]
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try:
if not highlevelcrypto.verify(decryptedData[:positionOfBottomOfAckData], signature, pubSigningKey.encode('hex')):
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print 'ECDSA verify failed'
return
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print 'ECDSA verify passed'
except Exception as err:
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print 'ECDSA verify failed', err
return
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shared.printLock.acquire()
print 'As a matter of intellectual curiosity, here is the Bitcoin address associated with the keys owned by the other person:', helper_bitcoin.calculateBitcoinAddressFromPubkey(pubSigningKey), ' ..and here is the testnet address:', helper_bitcoin.calculateTestnetAddressFromPubkey(pubSigningKey), '. The other person must take their private signing key from Bitmessage and import it into Bitcoin (or a service like Blockchain.info) for it to be of any use. Do not use this unless you know what you are doing.'
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shared.printLock.release()
# calculate the fromRipe.
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sha = hashlib.new('sha512')
sha.update(pubSigningKey + pubEncryptionKey)
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ripe = hashlib.new('ripemd160')
ripe.update(sha.digest())
# Let's store the public key in case we want to reply to this
# person.
t = (ripe.digest(), '\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF' + '\xFF\xFF\xFF\xFF' + decryptedData[
messageVersionLength:endOfThePublicKeyPosition], int(time.time()), 'yes')
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''INSERT INTO pubkeys VALUES (?,?,?,?)''')
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shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
# shared.workerQueue.put(('newpubkey',(sendersAddressVersionNumber,sendersStreamNumber,ripe.digest())))
# This will check to see whether we happen to be awaiting this
# pubkey in order to send a message. If we are, it will do the POW
# and send it.
self.possibleNewPubkey(ripe.digest())
fromAddress = encodeAddress(
sendersAddressVersionNumber, sendersStreamNumber, ripe.digest())
# If this message is bound for one of my version 3 addresses (or
# higher), then we must check to make sure it meets our demanded
# proof of work requirement.
if decodeAddress(toAddress)[1] >= 3: # If the toAddress version number is 3 or higher:
if not shared.isAddressInMyAddressBookSubscriptionsListOrWhitelist(fromAddress): # If I'm not friendly with this person:
requiredNonceTrialsPerByte = shared.config.getint(
toAddress, 'noncetrialsperbyte')
requiredPayloadLengthExtraBytes = shared.config.getint(
toAddress, 'payloadlengthextrabytes')
if not self.isProofOfWorkSufficient(encryptedData, requiredNonceTrialsPerByte, requiredPayloadLengthExtraBytes):
print 'Proof of work in msg message insufficient only because it does not meet our higher requirement.'
return
blockMessage = False # Gets set to True if the user shouldn't see the message according to black or white lists.
if shared.config.get('bitmessagesettings', 'blackwhitelist') == 'black': # If we are using a blacklist
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t = (fromAddress,)
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT label FROM blacklist where address=? and enabled='1' ''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn != []:
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shared.printLock.acquire()
print 'Message ignored because address is in blacklist.'
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shared.printLock.release()
blockMessage = True
else: # We're using a whitelist
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t = (fromAddress,)
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT label FROM whitelist where address=? and enabled='1' ''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
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if queryreturn == []:
print 'Message ignored because address not in whitelist.'
blockMessage = True
if not blockMessage:
print 'fromAddress:', fromAddress
print 'First 150 characters of message:', repr(message[:150])
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toLabel = shared.config.get(toAddress, 'label')
if toLabel == '':
toLabel = toAddress
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if messageEncodingType == 2:
bodyPositionIndex = string.find(message, '\nBody:')
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if bodyPositionIndex > 1:
subject = message[8:bodyPositionIndex]
subject = subject[
:500] # Only save and show the first 500 characters of the subject. Any more is probably an attak.
body = message[bodyPositionIndex + 6:]
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else:
subject = ''
body = message
elif messageEncodingType == 1:
body = message
subject = ''
elif messageEncodingType == 0:
print 'messageEncodingType == 0. Doing nothing with the message. They probably just sent it so that we would store their public key or send their ack data for them.'
else:
body = 'Unknown encoding type.\n\n' + repr(message)
subject = ''
if messageEncodingType != 0:
t = (self.inventoryHash, toAddress, fromAddress, subject, int(
time.time()), body, 'inbox', messageEncodingType, 0)
helper_inbox.insert(t)
shared.UISignalQueue.put(('displayNewInboxMessage', (
self.inventoryHash, toAddress, fromAddress, subject, body)))
2013-02-26 00:09:32 +01:00
# If we are behaving as an API then we might need to run an
# outside command to let some program know that a new message
# has arrived.
if shared.safeConfigGetBoolean('bitmessagesettings', 'apienabled'):
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try:
apiNotifyPath = shared.config.get(
'bitmessagesettings', 'apinotifypath')
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except:
apiNotifyPath = ''
if apiNotifyPath != '':
call([apiNotifyPath, "newMessage"])
# Let us now check and see whether our receiving address is
# behaving as a mailing list
if shared.safeConfigGetBoolean(toAddress, 'mailinglist'):
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try:
mailingListName = shared.config.get(
toAddress, 'mailinglistname')
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except:
mailingListName = ''
# Let us send out this message as a broadcast
subject = self.addMailingListNameToSubject(
subject, mailingListName)
# Let us now send this message out as a broadcast
message = strftime("%a, %Y-%m-%d %H:%M:%S UTC", gmtime(
)) + ' Message ostensibly from ' + fromAddress + ':\n\n' + body
fromAddress = toAddress # The fromAddress for the broadcast that we are about to send is the toAddress (my address) for the msg message we are currently processing.
ackdata = OpenSSL.rand(
32) # We don't actually need the ackdata for acknowledgement since this is a broadcast message but we can use it to update the user interface when the POW is done generating.
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toAddress = '[Broadcast subscribers]'
ripe = ''
t = ('', toAddress, ripe, fromAddress, subject, message, ackdata, int(
time.time()), 'broadcastqueued', 1, 1, 'sent', 2)
helper_sent.insert(t)
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shared.UISignalQueue.put(('displayNewSentMessage', (
toAddress, '[Broadcast subscribers]', fromAddress, subject, message, ackdata)))
shared.workerQueue.put(('sendbroadcast', ''))
2013-03-19 18:32:37 +01:00
if self.isAckDataValid(ackData):
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print 'ackData is valid. Will process it.'
self.ackDataThatWeHaveYetToSend.append(
ackData) # When we have processed all data, the processData function will pop the ackData out and process it as if it is a message received from our peer.
# Display timing data
timeRequiredToAttemptToDecryptMessage = time.time(
) - self.messageProcessingStartTime
successfullyDecryptMessageTimings.append(
timeRequiredToAttemptToDecryptMessage)
sum = 0
for item in successfullyDecryptMessageTimings:
sum += item
2013-05-02 17:53:54 +02:00
shared.printLock.acquire()
print 'Time to decrypt this message successfully:', timeRequiredToAttemptToDecryptMessage
print 'Average time for all message decryption successes since startup:', sum / len(successfullyDecryptMessageTimings)
2013-05-02 17:53:54 +02:00
shared.printLock.release()
def isAckDataValid(self, ackData):
if len(ackData) < 24:
print 'The length of ackData is unreasonably short. Not sending ackData.'
return False
if ackData[0:4] != '\xe9\xbe\xb4\xd9':
print 'Ackdata magic bytes were wrong. Not sending ackData.'
return False
ackDataPayloadLength, = unpack('>L', ackData[16:20])
if len(ackData) - 24 != ackDataPayloadLength:
print 'ackData payload length doesn\'t match the payload length specified in the header. Not sending ackdata.'
return False
if ackData[4:16] != 'getpubkey\x00\x00\x00' and ackData[4:16] != 'pubkey\x00\x00\x00\x00\x00\x00' and ackData[4:16] != 'msg\x00\x00\x00\x00\x00\x00\x00\x00\x00' and ackData[4:16] != 'broadcast\x00\x00\x00':
return False
return True
def addMailingListNameToSubject(self, subject, mailingListName):
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subject = subject.strip()
if subject[:3] == 'Re:' or subject[:3] == 'RE:':
subject = subject[3:].strip()
if '[' + mailingListName + ']' in subject:
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return subject
else:
return '[' + mailingListName + '] ' + subject
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def possibleNewPubkey(self, toRipe):
if toRipe in neededPubkeys:
print 'We have been awaiting the arrival of this pubkey.'
del neededPubkeys[toRipe]
t = (toRipe,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''UPDATE sent SET status='doingmsgpow' WHERE toripe=? AND status='awaitingpubkey' and folder='sent' ''')
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.workerQueue.put(('sendmessage', ''))
else:
shared.printLock.acquire()
print 'We don\'t need this pub key. We didn\'t ask for it. Pubkey hash:', toRipe.encode('hex')
shared.printLock.release()
# We have received a pubkey
def recpubkey(self, data):
self.pubkeyProcessingStartTime = time.time()
if len(data) < 146 or len(data) > 600: # sanity check
2013-01-18 23:38:09 +01:00
return
# We must check to make sure the proof of work is sufficient.
2013-03-28 22:56:20 +01:00
if not self.isProofOfWorkSufficient(data):
print 'Proof of work in pubkey message insufficient.'
return
readPosition = 8 # for the nonce
embeddedTime, = unpack('>I', data[readPosition:readPosition + 4])
# This section is used for the transition from 32 bit time to 64 bit
# time in the protocol.
if embeddedTime == 0:
embeddedTime, = unpack('>Q', data[readPosition:readPosition + 8])
readPosition += 8
else:
readPosition += 4
if embeddedTime < int(time.time()) - lengthOfTimeToHoldOnToAllPubkeys:
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shared.printLock.acquire()
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print 'The embedded time in this pubkey message is too old. Ignoring. Embedded time is:', embeddedTime
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shared.printLock.release()
return
if embeddedTime > int(time.time()) + 10800:
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shared.printLock.acquire()
print 'The embedded time in this pubkey message more than several hours in the future. This is irrational. Ignoring message.'
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shared.printLock.release()
return
addressVersion, varintLength = decodeVarint(
data[readPosition:readPosition + 10])
2012-11-19 20:45:05 +01:00
readPosition += varintLength
streamNumber, varintLength = decodeVarint(
data[readPosition:readPosition + 10])
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readPosition += varintLength
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if self.streamNumber != streamNumber:
print 'stream number embedded in this pubkey doesn\'t match our stream number. Ignoring.'
return
2012-11-19 20:45:05 +01:00
2013-03-28 22:56:20 +01:00
inventoryHash = calculateInventoryHash(data)
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shared.inventoryLock.acquire()
if inventoryHash in shared.inventory:
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print 'We have already received this pubkey. Ignoring it.'
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shared.inventoryLock.release()
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return
elif isInSqlInventory(inventoryHash):
print 'We have already received this pubkey (it is stored on disk in the SQL inventory). Ignoring it.'
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shared.inventoryLock.release()
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return
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objectType = 'pubkey'
shared.inventory[inventoryHash] = (
objectType, self.streamNumber, data, embeddedTime)
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shared.inventoryLock.release()
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self.broadcastinv(inventoryHash)
shared.UISignalQueue.put((
'incrementNumberOfPubkeysProcessed', 'no data'))
2012-11-19 20:45:05 +01:00
2013-03-28 22:56:20 +01:00
self.processpubkey(data)
lengthOfTimeWeShouldUseToProcessThisMessage = .2
sleepTime = lengthOfTimeWeShouldUseToProcessThisMessage - \
(time.time() - self.pubkeyProcessingStartTime)
if sleepTime > 0:
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shared.printLock.acquire()
print 'Timing attack mitigation: Sleeping for', sleepTime, 'seconds.'
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shared.printLock.release()
time.sleep(sleepTime)
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shared.printLock.acquire()
print 'Total pubkey processing time:', time.time() - self.pubkeyProcessingStartTime, 'seconds.'
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shared.printLock.release()
def processpubkey(self, data):
readPosition = 8 # for the nonce
embeddedTime, = unpack('>I', data[readPosition:readPosition + 4])
# This section is used for the transition from 32 bit time to 64 bit
# time in the protocol.
if embeddedTime == 0:
embeddedTime, = unpack('>Q', data[readPosition:readPosition + 8])
readPosition += 8
else:
readPosition += 4
addressVersion, varintLength = decodeVarint(
data[readPosition:readPosition + 10])
readPosition += varintLength
streamNumber, varintLength = decodeVarint(
data[readPosition:readPosition + 10])
readPosition += varintLength
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if addressVersion == 0:
print '(Within processpubkey) addressVersion of 0 doesn\'t make sense.'
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return
if addressVersion >= 4 or addressVersion == 1:
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shared.printLock.acquire()
print 'This version of Bitmessage cannot handle version', addressVersion, 'addresses.'
2013-05-02 17:53:54 +02:00
shared.printLock.release()
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return
if addressVersion == 2:
if len(data) < 146: # sanity check. This is the minimum possible length.
print '(within processpubkey) payloadLength less than 146. Sanity check failed.'
2013-01-18 23:38:09 +01:00
return
bitfieldBehaviors = data[readPosition:readPosition + 4]
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readPosition += 4
publicSigningKey = data[readPosition:readPosition + 64]
# Is it possible for a public key to be invalid such that trying to
# encrypt or sign with it will cause an error? If it is, we should
# probably test these keys here.
2013-01-18 23:38:09 +01:00
readPosition += 64
publicEncryptionKey = data[readPosition:readPosition + 64]
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if len(publicEncryptionKey) < 64:
print 'publicEncryptionKey length less than 64. Sanity check failed.'
return
sha = hashlib.new('sha512')
sha.update(
'\x04' + publicSigningKey + '\x04' + publicEncryptionKey)
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ripeHasher = hashlib.new('ripemd160')
ripeHasher.update(sha.digest())
ripe = ripeHasher.digest()
2012-11-19 20:45:05 +01:00
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shared.printLock.acquire()
print 'within recpubkey, addressVersion:', addressVersion, ', streamNumber:', streamNumber
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print 'ripe', ripe.encode('hex')
print 'publicSigningKey in hex:', publicSigningKey.encode('hex')
print 'publicEncryptionKey in hex:', publicEncryptionKey.encode('hex')
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shared.printLock.release()
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t = (ripe,)
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT usedpersonally FROM pubkeys WHERE hash=? AND usedpersonally='yes' ''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn != []: # if this pubkey is already in our database and if we have used it personally:
print 'We HAVE used this pubkey personally. Updating time.'
t = (ripe, data, embeddedTime, 'yes')
else:
print 'We have NOT used this pubkey personally. Inserting in database.'
t = (ripe, data, embeddedTime, 'no')
# This will also update the embeddedTime.
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''INSERT INTO pubkeys VALUES (?,?,?,?)''')
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
# shared.workerQueue.put(('newpubkey',(addressVersion,streamNumber,ripe)))
self.possibleNewPubkey(ripe)
if addressVersion == 3:
if len(data) < 170: # sanity check.
print '(within processpubkey) payloadLength less than 170. Sanity check failed.'
return
bitfieldBehaviors = data[readPosition:readPosition + 4]
readPosition += 4
publicSigningKey = '\x04' + data[readPosition:readPosition + 64]
# Is it possible for a public key to be invalid such that trying to
# encrypt or sign with it will cause an error? If it is, we should
# probably test these keys here.
readPosition += 64
publicEncryptionKey = '\x04' + data[readPosition:readPosition + 64]
readPosition += 64
specifiedNonceTrialsPerByte, specifiedNonceTrialsPerByteLength = decodeVarint(
data[readPosition:readPosition + 10])
readPosition += specifiedNonceTrialsPerByteLength
specifiedPayloadLengthExtraBytes, specifiedPayloadLengthExtraBytesLength = decodeVarint(
data[readPosition:readPosition + 10])
readPosition += specifiedPayloadLengthExtraBytesLength
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endOfSignedDataPosition = readPosition
signatureLength, signatureLengthLength = decodeVarint(
data[readPosition:readPosition + 10])
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readPosition += signatureLengthLength
signature = data[readPosition:readPosition + signatureLength]
try:
if not highlevelcrypto.verify(data[8:endOfSignedDataPosition], signature, publicSigningKey.encode('hex')):
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print 'ECDSA verify failed (within processpubkey)'
return
print 'ECDSA verify passed (within processpubkey)'
except Exception as err:
print 'ECDSA verify failed (within processpubkey)', err
return
sha = hashlib.new('sha512')
sha.update(publicSigningKey + publicEncryptionKey)
ripeHasher = hashlib.new('ripemd160')
ripeHasher.update(sha.digest())
ripe = ripeHasher.digest()
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shared.printLock.acquire()
print 'within recpubkey, addressVersion:', addressVersion, ', streamNumber:', streamNumber
print 'ripe', ripe.encode('hex')
print 'publicSigningKey in hex:', publicSigningKey.encode('hex')
print 'publicEncryptionKey in hex:', publicEncryptionKey.encode('hex')
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shared.printLock.release()
t = (ripe,)
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT usedpersonally FROM pubkeys WHERE hash=? AND usedpersonally='yes' ''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn != []: # if this pubkey is already in our database and if we have used it personally:
print 'We HAVE used this pubkey personally. Updating time.'
t = (ripe, data, embeddedTime, 'yes')
else:
print 'We have NOT used this pubkey personally. Inserting in database.'
t = (ripe, data, embeddedTime, 'no')
# This will also update the embeddedTime.
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''INSERT INTO pubkeys VALUES (?,?,?,?)''')
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
# shared.workerQueue.put(('newpubkey',(addressVersion,streamNumber,ripe)))
self.possibleNewPubkey(ripe)
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# We have received a getpubkey message
def recgetpubkey(self, data):
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if not self.isProofOfWorkSufficient(data):
print 'Proof of work in getpubkey message insufficient.'
return
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if len(data) < 34:
print 'getpubkey message doesn\'t contain enough data. Ignoring.'
return
readPosition = 8 # bypass the nonce
embeddedTime, = unpack('>I', data[readPosition:readPosition + 4])
# This section is used for the transition from 32 bit time to 64 bit
# time in the protocol.
if embeddedTime == 0:
embeddedTime, = unpack('>Q', data[readPosition:readPosition + 8])
readPosition += 8
else:
readPosition += 4
if embeddedTime > int(time.time()) + 10800:
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print 'The time in this getpubkey message is too new. Ignoring it. Time:', embeddedTime
return
if embeddedTime < int(time.time()) - maximumAgeOfAnObjectThatIAmWillingToAccept:
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print 'The time in this getpubkey message is too old. Ignoring it. Time:', embeddedTime
return
requestedAddressVersionNumber, addressVersionLength = decodeVarint(
data[readPosition:readPosition + 10])
readPosition += addressVersionLength
streamNumber, streamNumberLength = decodeVarint(
data[readPosition:readPosition + 10])
if streamNumber != self.streamNumber:
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print 'The streamNumber', streamNumber, 'doesn\'t match our stream number:', self.streamNumber
return
readPosition += streamNumberLength
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inventoryHash = calculateInventoryHash(data)
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shared.inventoryLock.acquire()
if inventoryHash in shared.inventory:
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print 'We have already received this getpubkey request. Ignoring it.'
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shared.inventoryLock.release()
return
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elif isInSqlInventory(inventoryHash):
print 'We have already received this getpubkey request (it is stored on disk in the SQL inventory). Ignoring it.'
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shared.inventoryLock.release()
return
objectType = 'getpubkey'
shared.inventory[inventoryHash] = (
objectType, self.streamNumber, data, embeddedTime)
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shared.inventoryLock.release()
# This getpubkey request is valid so far. Forward to peers.
self.broadcastinv(inventoryHash)
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if requestedAddressVersionNumber == 0:
print 'The requestedAddressVersionNumber of the pubkey request is zero. That doesn\'t make any sense. Ignoring it.'
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return
elif requestedAddressVersionNumber == 1:
print 'The requestedAddressVersionNumber of the pubkey request is 1 which isn\'t supported anymore. Ignoring it.'
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return
elif requestedAddressVersionNumber > 3:
print 'The requestedAddressVersionNumber of the pubkey request is too high. Can\'t understand. Ignoring it.'
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return
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requestedHash = data[readPosition:readPosition + 20]
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if len(requestedHash) != 20:
print 'The length of the requested hash is not 20 bytes. Something is wrong. Ignoring.'
return
print 'the hash requested in this getpubkey request is:', requestedHash.encode('hex')
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if requestedHash in shared.myAddressesByHash: # if this address hash is one of mine
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if decodeAddress(shared.myAddressesByHash[requestedHash])[1] != requestedAddressVersionNumber:
shared.printLock.acquire()
sys.stderr.write(
'(Within the recgetpubkey function) Someone requested one of my pubkeys but the requestedAddressVersionNumber doesn\'t match my actual address version number. That shouldn\'t have happened. Ignoring.\n')
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shared.printLock.release()
return
try:
lastPubkeySendTime = int(shared.config.get(
shared.myAddressesByHash[requestedHash], 'lastpubkeysendtime'))
except:
lastPubkeySendTime = 0
if lastPubkeySendTime < time.time() - lengthOfTimeToHoldOnToAllPubkeys: # If the last time we sent our pubkey was 28 days ago
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shared.printLock.acquire()
print 'Found getpubkey-requested-hash in my list of EC hashes. Telling Worker thread to do the POW for a pubkey message and send it out.'
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shared.printLock.release()
if requestedAddressVersionNumber == 2:
shared.workerQueue.put((
'doPOWForMyV2Pubkey', requestedHash))
elif requestedAddressVersionNumber == 3:
shared.workerQueue.put((
'doPOWForMyV3Pubkey', requestedHash))
else:
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shared.printLock.acquire()
print 'Found getpubkey-requested-hash in my list of EC hashes BUT we already sent it recently. Ignoring request. The lastPubkeySendTime is:', lastPubkeySendTime
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shared.printLock.release()
else:
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shared.printLock.acquire()
print 'This getpubkey request is not for any of my keys.'
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shared.printLock.release()
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# We have received an inv message
def recinv(self, data):
totalNumberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave = 0 # ..from all peers, counting duplicates seperately (because they take up memory)
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if len(numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer) > 0:
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for key, value in numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer.items():
totalNumberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave += value
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shared.printLock.acquire()
print 'number of keys(hosts) in numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer:', len(numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer)
print 'totalNumberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave = ', totalNumberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave
shared.printLock.release()
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numberOfItemsInInv, lengthOfVarint = decodeVarint(data[:10])
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if numberOfItemsInInv > 50000:
sys.stderr.write('Too many items in inv message!')
return
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if len(data) < lengthOfVarint + (numberOfItemsInInv * 32):
print 'inv message doesn\'t contain enough data. Ignoring.'
return
if numberOfItemsInInv == 1: # we'll just request this data from the person who advertised the object.
if totalNumberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave > 200000 and len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave) > 1000: # inv flooding attack mitigation
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shared.printLock.acquire()
print 'We already have', totalNumberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave, 'items yet to retrieve from peers and over 1000 from this node in particular. Ignoring this inv message.'
shared.printLock.release()
2013-05-28 19:30:44 +02:00
return
self.objectsOfWhichThisRemoteNodeIsAlreadyAware[
data[lengthOfVarint:32 + lengthOfVarint]] = 0
if data[lengthOfVarint:32 + lengthOfVarint] in shared.inventory:
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shared.printLock.acquire()
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print 'Inventory (in memory) has inventory item already.'
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shared.printLock.release()
elif isInSqlInventory(data[lengthOfVarint:32 + lengthOfVarint]):
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print 'Inventory (SQL on disk) has inventory item already.'
else:
self.sendgetdata(data[lengthOfVarint:32 + lengthOfVarint])
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else:
print 'inv message lists', numberOfItemsInInv, 'objects.'
for i in range(numberOfItemsInInv): # upon finishing dealing with an incoming message, the receiveDataThread will request a random object from the peer. This way if we get multiple inv messages from multiple peers which list mostly the same objects, we will make getdata requests for different random objects from the various peers.
if len(data[lengthOfVarint + (32 * i):32 + lengthOfVarint + (32 * i)]) == 32: # The length of an inventory hash should be 32. If it isn't 32 then the remote node is either badly programmed or behaving nefariously.
if totalNumberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave > 200000 and len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave) > 1000: # inv flooding attack mitigation
2013-05-28 19:30:44 +02:00
shared.printLock.acquire()
print 'We already have', totalNumberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave, 'items yet to retrieve from peers and over', len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave), 'from this node in particular. Ignoring the rest of this inv message.'
2013-05-28 19:30:44 +02:00
shared.printLock.release()
break
self.objectsOfWhichThisRemoteNodeIsAlreadyAware[data[
lengthOfVarint + (32 * i):32 + lengthOfVarint + (32 * i)]] = 0
self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave[
data[lengthOfVarint + (32 * i):32 + lengthOfVarint + (32 * i)]] = 0
numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer[
self.HOST] = len(self.objectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHave)
# Send a getdata message to our peer to request the object with the given
# hash
def sendgetdata(self, hash):
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shared.printLock.acquire()
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print 'sending getdata to retrieve object with hash:', hash.encode('hex')
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shared.printLock.release()
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payload = '\x01' + hash
headerData = '\xe9\xbe\xb4\xd9' # magic bits, slighly different from Bitcoin's magic bits.
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headerData += 'getdata\x00\x00\x00\x00\x00'
headerData += pack('>L', len(
payload)) # payload length. Note that we add an extra 8 for the nonce.
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headerData += hashlib.sha512(payload).digest()[:4]
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try:
self.sock.sendall(headerData + payload)
except Exception as err:
# if not 'Bad file descriptor' in err:
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shared.printLock.acquire()
sys.stderr.write('sock.sendall error: %s\n' % err)
2013-05-02 17:53:54 +02:00
shared.printLock.release()
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# We have received a getdata request from our peer
2013-03-28 22:56:20 +01:00
def recgetdata(self, data):
numberOfRequestedInventoryItems, lengthOfVarint = decodeVarint(
data[:10])
if len(data) < lengthOfVarint + (32 * numberOfRequestedInventoryItems):
print 'getdata message does not contain enough data. Ignoring.'
return
for i in xrange(numberOfRequestedInventoryItems):
hash = data[lengthOfVarint + (
i * 32):32 + lengthOfVarint + (i * 32)]
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shared.printLock.acquire()
print 'received getdata request for item:', hash.encode('hex')
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shared.printLock.release()
# print 'inventory is', shared.inventory
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if hash in shared.inventory:
objectType, streamNumber, payload, receivedTime = shared.inventory[
hash]
self.sendData(objectType, payload)
else:
t = (hash,)
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''select objecttype, payload from inventory where hash=?''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn != []:
for row in queryreturn:
objectType, payload = row
self.sendData(objectType, payload)
2012-11-19 20:45:05 +01:00
else:
print 'Someone asked for an object with a getdata which is not in either our memory inventory or our SQL inventory. That shouldn\'t have happened.'
2012-11-19 20:45:05 +01:00
# Our peer has requested (in a getdata message) that we send an object.
def sendData(self, objectType, payload):
headerData = '\xe9\xbe\xb4\xd9' # magic bits, slighly different from Bitcoin's magic bits.
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if objectType == 'pubkey':
shared.printLock.acquire()
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print 'sending pubkey'
shared.printLock.release()
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headerData += 'pubkey\x00\x00\x00\x00\x00\x00'
2013-04-03 18:59:43 +02:00
elif objectType == 'getpubkey' or objectType == 'pubkeyrequest':
shared.printLock.acquire()
print 'sending getpubkey'
shared.printLock.release()
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headerData += 'getpubkey\x00\x00\x00'
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elif objectType == 'msg':
shared.printLock.acquire()
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print 'sending msg'
shared.printLock.release()
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headerData += 'msg\x00\x00\x00\x00\x00\x00\x00\x00\x00'
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elif objectType == 'broadcast':
shared.printLock.acquire()
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print 'sending broadcast'
shared.printLock.release()
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headerData += 'broadcast\x00\x00\x00'
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else:
sys.stderr.write(
'Error: sendData has been asked to send a strange objectType: %s\n' % str(objectType))
return
headerData += pack('>L', len(payload)) # payload length.
headerData += hashlib.sha512(payload).digest()[:4]
try:
self.sock.sendall(headerData + payload)
except Exception as err:
# if not 'Bad file descriptor' in err:
shared.printLock.acquire()
sys.stderr.write('sock.sendall error: %s\n' % err)
shared.printLock.release()
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# Send an inv message with just one hash to all of our peers
def broadcastinv(self, hash):
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shared.printLock.acquire()
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print 'broadcasting inv with hash:', hash.encode('hex')
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shared.printLock.release()
shared.broadcastToSendDataQueues((self.streamNumber, 'sendinv', hash))
# We have received an addr message.
def recaddr(self, data):
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listOfAddressDetailsToBroadcastToPeers = []
numberOfAddressesIncluded = 0
numberOfAddressesIncluded, lengthOfNumberOfAddresses = decodeVarint(
data[:10])
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if verbose >= 1:
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shared.printLock.acquire()
print 'addr message contains', numberOfAddressesIncluded, 'IP addresses.'
2013-05-02 17:53:54 +02:00
shared.printLock.release()
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if self.remoteProtocolVersion == 1:
if numberOfAddressesIncluded > 1000 or numberOfAddressesIncluded == 0:
return
if len(data) != lengthOfNumberOfAddresses + (34 * numberOfAddressesIncluded):
print 'addr message does not contain the correct amount of data. Ignoring.'
return
needToWriteKnownNodesToDisk = False
for i in range(0, numberOfAddressesIncluded):
try:
if data[16 + lengthOfNumberOfAddresses + (34 * i):28 + lengthOfNumberOfAddresses + (34 * i)] != '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xFF\xFF':
2013-05-02 17:53:54 +02:00
shared.printLock.acquire()
print 'Skipping IPv6 address.', repr(data[16 + lengthOfNumberOfAddresses + (34 * i):28 + lengthOfNumberOfAddresses + (34 * i)])
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shared.printLock.release()
continue
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'ERROR TRYING TO UNPACK recaddr (to test for an IPv6 address). Message: %s\n' % str(err))
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shared.printLock.release()
break # giving up on unpacking any more. We should still be connected however.
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try:
recaddrStream, = unpack('>I', data[4 + lengthOfNumberOfAddresses + (
34 * i):8 + lengthOfNumberOfAddresses + (34 * i)])
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'ERROR TRYING TO UNPACK recaddr (recaddrStream). Message: %s\n' % str(err))
2013-05-02 17:53:54 +02:00
shared.printLock.release()
break # giving up on unpacking any more. We should still be connected however.
if recaddrStream == 0:
continue
if recaddrStream != self.streamNumber and recaddrStream != (self.streamNumber * 2) and recaddrStream != ((self.streamNumber * 2) + 1): # if the embedded stream number is not in my stream or either of my child streams then ignore it. Someone might be trying funny business.
continue
try:
recaddrServices, = unpack('>Q', data[8 + lengthOfNumberOfAddresses + (
34 * i):16 + lengthOfNumberOfAddresses + (34 * i)])
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'ERROR TRYING TO UNPACK recaddr (recaddrServices). Message: %s\n' % str(err))
2013-05-02 17:53:54 +02:00
shared.printLock.release()
break # giving up on unpacking any more. We should still be connected however.
2012-11-19 20:45:05 +01:00
try:
recaddrPort, = unpack('>H', data[32 + lengthOfNumberOfAddresses + (
34 * i):34 + lengthOfNumberOfAddresses + (34 * i)])
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'ERROR TRYING TO UNPACK recaddr (recaddrPort). Message: %s\n' % str(err))
2013-05-02 17:53:54 +02:00
shared.printLock.release()
break # giving up on unpacking any more. We should still be connected however.
# print 'Within recaddr(): IP', recaddrIP, ', Port',
# recaddrPort, ', i', i
hostFromAddrMessage = socket.inet_ntoa(data[
28 + lengthOfNumberOfAddresses + (34 * i):32 + lengthOfNumberOfAddresses + (34 * i)])
# print 'hostFromAddrMessage', hostFromAddrMessage
if data[28 + lengthOfNumberOfAddresses + (34 * i)] == '\x7F':
print 'Ignoring IP address in loopback range:', hostFromAddrMessage
continue
if helper_generic.isHostInPrivateIPRange(hostFromAddrMessage):
print 'Ignoring IP address in private range:', hostFromAddrMessage
continue
timeSomeoneElseReceivedMessageFromThisNode, = unpack('>I', data[lengthOfNumberOfAddresses + (
34 * i):4 + lengthOfNumberOfAddresses + (34 * i)]) # This is the 'time' value in the received addr message.
if recaddrStream not in shared.knownNodes: # knownNodes is a dictionary of dictionaries with one outer dictionary for each stream. If the outer stream dictionary doesn't exist yet then we must make it.
2013-05-02 17:53:54 +02:00
shared.knownNodesLock.acquire()
shared.knownNodes[recaddrStream] = {}
shared.knownNodesLock.release()
if hostFromAddrMessage not in shared.knownNodes[recaddrStream]:
if len(shared.knownNodes[recaddrStream]) < 20000 and timeSomeoneElseReceivedMessageFromThisNode > (int(time.time()) - 10800) and timeSomeoneElseReceivedMessageFromThisNode < (int(time.time()) + 10800): # If we have more than 20000 nodes in our list already then just forget about adding more. Also, make sure that the time that someone else received a message from this node is within three hours from now.
2013-05-02 17:53:54 +02:00
shared.knownNodesLock.acquire()
shared.knownNodes[recaddrStream][hostFromAddrMessage] = (
recaddrPort, timeSomeoneElseReceivedMessageFromThisNode)
2013-05-02 17:53:54 +02:00
shared.knownNodesLock.release()
needToWriteKnownNodesToDisk = True
hostDetails = (
timeSomeoneElseReceivedMessageFromThisNode,
recaddrStream, recaddrServices, hostFromAddrMessage, recaddrPort)
listOfAddressDetailsToBroadcastToPeers.append(
hostDetails)
else:
PORT, timeLastReceivedMessageFromThisNode = shared.knownNodes[recaddrStream][
hostFromAddrMessage] # PORT in this case is either the port we used to connect to the remote node, or the port that was specified by someone else in a past addr message.
if (timeLastReceivedMessageFromThisNode < timeSomeoneElseReceivedMessageFromThisNode) and (timeSomeoneElseReceivedMessageFromThisNode < int(time.time())):
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shared.knownNodesLock.acquire()
shared.knownNodes[recaddrStream][hostFromAddrMessage] = (
PORT, timeSomeoneElseReceivedMessageFromThisNode)
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shared.knownNodesLock.release()
if PORT != recaddrPort:
print 'Strange occurance: The port specified in an addr message', str(recaddrPort), 'does not match the port', str(PORT), 'that this program (or some other peer) used to connect to it', str(hostFromAddrMessage), '. Perhaps they changed their port or are using a strange NAT configuration.'
if needToWriteKnownNodesToDisk: # Runs if any nodes were new to us. Also, share those nodes with our peers.
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shared.knownNodesLock.acquire()
output = open(shared.appdata + 'knownnodes.dat', 'wb')
pickle.dump(shared.knownNodes, output)
output.close()
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shared.knownNodesLock.release()
self.broadcastaddr(
listOfAddressDetailsToBroadcastToPeers) # no longer broadcast
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shared.printLock.acquire()
print 'knownNodes currently has', len(shared.knownNodes[self.streamNumber]), 'nodes for this stream.'
shared.printLock.release()
elif self.remoteProtocolVersion >= 2: # The difference is that in protocol version 2, network addresses use 64 bit times rather than 32 bit times.
if numberOfAddressesIncluded > 1000 or numberOfAddressesIncluded == 0:
return
if len(data) != lengthOfNumberOfAddresses + (38 * numberOfAddressesIncluded):
print 'addr message does not contain the correct amount of data. Ignoring.'
return
needToWriteKnownNodesToDisk = False
for i in range(0, numberOfAddressesIncluded):
try:
if data[20 + lengthOfNumberOfAddresses + (38 * i):32 + lengthOfNumberOfAddresses + (38 * i)] != '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xFF\xFF':
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shared.printLock.acquire()
print 'Skipping IPv6 address.', repr(data[20 + lengthOfNumberOfAddresses + (38 * i):32 + lengthOfNumberOfAddresses + (38 * i)])
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shared.printLock.release()
continue
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'ERROR TRYING TO UNPACK recaddr (to test for an IPv6 address). Message: %s\n' % str(err))
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shared.printLock.release()
break # giving up on unpacking any more. We should still be connected however.
try:
recaddrStream, = unpack('>I', data[8 + lengthOfNumberOfAddresses + (
38 * i):12 + lengthOfNumberOfAddresses + (38 * i)])
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'ERROR TRYING TO UNPACK recaddr (recaddrStream). Message: %s\n' % str(err))
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shared.printLock.release()
break # giving up on unpacking any more. We should still be connected however.
if recaddrStream == 0:
continue
if recaddrStream != self.streamNumber and recaddrStream != (self.streamNumber * 2) and recaddrStream != ((self.streamNumber * 2) + 1): # if the embedded stream number is not in my stream or either of my child streams then ignore it. Someone might be trying funny business.
continue
try:
recaddrServices, = unpack('>Q', data[12 + lengthOfNumberOfAddresses + (
38 * i):20 + lengthOfNumberOfAddresses + (38 * i)])
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'ERROR TRYING TO UNPACK recaddr (recaddrServices). Message: %s\n' % str(err))
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shared.printLock.release()
break # giving up on unpacking any more. We should still be connected however.
try:
recaddrPort, = unpack('>H', data[36 + lengthOfNumberOfAddresses + (
38 * i):38 + lengthOfNumberOfAddresses + (38 * i)])
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'ERROR TRYING TO UNPACK recaddr (recaddrPort). Message: %s\n' % str(err))
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shared.printLock.release()
break # giving up on unpacking any more. We should still be connected however.
# print 'Within recaddr(): IP', recaddrIP, ', Port',
# recaddrPort, ', i', i
hostFromAddrMessage = socket.inet_ntoa(data[
32 + lengthOfNumberOfAddresses + (38 * i):36 + lengthOfNumberOfAddresses + (38 * i)])
# print 'hostFromAddrMessage', hostFromAddrMessage
if data[32 + lengthOfNumberOfAddresses + (38 * i)] == '\x7F':
print 'Ignoring IP address in loopback range:', hostFromAddrMessage
continue
if data[32 + lengthOfNumberOfAddresses + (38 * i)] == '\x0A':
print 'Ignoring IP address in private range:', hostFromAddrMessage
continue
if data[32 + lengthOfNumberOfAddresses + (38 * i):34 + lengthOfNumberOfAddresses + (38 * i)] == '\xC0A8':
print 'Ignoring IP address in private range:', hostFromAddrMessage
continue
timeSomeoneElseReceivedMessageFromThisNode, = unpack('>Q', data[lengthOfNumberOfAddresses + (
38 * i):8 + lengthOfNumberOfAddresses + (38 * i)]) # This is the 'time' value in the received addr message. 64-bit.
if recaddrStream not in shared.knownNodes: # knownNodes is a dictionary of dictionaries with one outer dictionary for each stream. If the outer stream dictionary doesn't exist yet then we must make it.
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shared.knownNodesLock.acquire()
shared.knownNodes[recaddrStream] = {}
shared.knownNodesLock.release()
if hostFromAddrMessage not in shared.knownNodes[recaddrStream]:
if len(shared.knownNodes[recaddrStream]) < 20000 and timeSomeoneElseReceivedMessageFromThisNode > (int(time.time()) - 10800) and timeSomeoneElseReceivedMessageFromThisNode < (int(time.time()) + 10800): # If we have more than 20000 nodes in our list already then just forget about adding more. Also, make sure that the time that someone else received a message from this node is within three hours from now.
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shared.knownNodesLock.acquire()
shared.knownNodes[recaddrStream][hostFromAddrMessage] = (
recaddrPort, timeSomeoneElseReceivedMessageFromThisNode)
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shared.knownNodesLock.release()
shared.printLock.acquire()
print 'added new node', hostFromAddrMessage, 'to knownNodes in stream', recaddrStream
shared.printLock.release()
needToWriteKnownNodesToDisk = True
hostDetails = (
timeSomeoneElseReceivedMessageFromThisNode,
recaddrStream, recaddrServices, hostFromAddrMessage, recaddrPort)
listOfAddressDetailsToBroadcastToPeers.append(
hostDetails)
else:
PORT, timeLastReceivedMessageFromThisNode = shared.knownNodes[recaddrStream][
hostFromAddrMessage] # PORT in this case is either the port we used to connect to the remote node, or the port that was specified by someone else in a past addr message.
if (timeLastReceivedMessageFromThisNode < timeSomeoneElseReceivedMessageFromThisNode) and (timeSomeoneElseReceivedMessageFromThisNode < int(time.time())):
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shared.knownNodesLock.acquire()
shared.knownNodes[recaddrStream][hostFromAddrMessage] = (
PORT, timeSomeoneElseReceivedMessageFromThisNode)
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shared.knownNodesLock.release()
if PORT != recaddrPort:
print 'Strange occurance: The port specified in an addr message', str(recaddrPort), 'does not match the port', str(PORT), 'that this program (or some other peer) used to connect to it', str(hostFromAddrMessage), '. Perhaps they changed their port or are using a strange NAT configuration.'
if needToWriteKnownNodesToDisk: # Runs if any nodes were new to us. Also, share those nodes with our peers.
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shared.knownNodesLock.acquire()
output = open(shared.appdata + 'knownnodes.dat', 'wb')
pickle.dump(shared.knownNodes, output)
output.close()
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shared.knownNodesLock.release()
self.broadcastaddr(listOfAddressDetailsToBroadcastToPeers)
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shared.printLock.acquire()
print 'knownNodes currently has', len(shared.knownNodes[self.streamNumber]), 'nodes for this stream.'
shared.printLock.release()
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# Function runs when we want to broadcast an addr message to all of our
# peers. Runs when we learn of nodes that we didn't previously know about
# and want to share them with our peers.
def broadcastaddr(self, listOfAddressDetailsToBroadcastToPeers):
numberOfAddressesInAddrMessage = len(
listOfAddressDetailsToBroadcastToPeers)
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payload = ''
for hostDetails in listOfAddressDetailsToBroadcastToPeers:
timeLastReceivedMessageFromThisNode, streamNumber, services, host, port = hostDetails
payload += pack(
'>Q', timeLastReceivedMessageFromThisNode) # now uses 64-bit time
payload += pack('>I', streamNumber)
payload += pack(
'>q', services) # service bit flags offered by this node
payload += '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xFF\xFF' + \
socket.inet_aton(host)
payload += pack('>H', port) # remote port
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payload = encodeVarint(numberOfAddressesInAddrMessage) + payload
datatosend = '\xE9\xBE\xB4\xD9addr\x00\x00\x00\x00\x00\x00\x00\x00'
datatosend = datatosend + pack('>L', len(payload)) # payload length
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datatosend = datatosend + hashlib.sha512(payload).digest()[0:4]
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datatosend = datatosend + payload
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if verbose >= 1:
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shared.printLock.acquire()
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print 'Broadcasting addr with', numberOfAddressesInAddrMessage, 'entries.'
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shared.printLock.release()
shared.broadcastToSendDataQueues((
self.streamNumber, 'sendaddr', datatosend))
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# Send a big addr message to our peer
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def sendaddr(self):
addrsInMyStream = {}
addrsInChildStreamLeft = {}
addrsInChildStreamRight = {}
# print 'knownNodes', shared.knownNodes
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# We are going to share a maximum number of 1000 addrs with our peer.
# 500 from this stream, 250 from the left child stream, and 250 from
# the right child stream.
shared.knownNodesLock.acquire()
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if len(shared.knownNodes[self.streamNumber]) > 0:
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for i in range(500):
random.seed()
HOST, = random.sample(shared.knownNodes[self.streamNumber], 1)
if helper_generic.isHostInPrivateIPRange(HOST):
continue
addrsInMyStream[HOST] = shared.knownNodes[
self.streamNumber][HOST]
if len(shared.knownNodes[self.streamNumber * 2]) > 0:
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for i in range(250):
random.seed()
HOST, = random.sample(shared.knownNodes[
self.streamNumber * 2], 1)
if helper_generic.isHostInPrivateIPRange(HOST):
continue
addrsInChildStreamLeft[HOST] = shared.knownNodes[
self.streamNumber * 2][HOST]
if len(shared.knownNodes[(self.streamNumber * 2) + 1]) > 0:
2012-11-19 20:45:05 +01:00
for i in range(250):
random.seed()
HOST, = random.sample(shared.knownNodes[
(self.streamNumber * 2) + 1], 1)
if helper_generic.isHostInPrivateIPRange(HOST):
continue
addrsInChildStreamRight[HOST] = shared.knownNodes[
(self.streamNumber * 2) + 1][HOST]
shared.knownNodesLock.release()
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numberOfAddressesInAddrMessage = 0
payload = ''
# print 'addrsInMyStream.items()', addrsInMyStream.items()
2012-11-19 20:45:05 +01:00
for HOST, value in addrsInMyStream.items():
PORT, timeLastReceivedMessageFromThisNode = value
if timeLastReceivedMessageFromThisNode > (int(time.time()) - maximumAgeOfNodesThatIAdvertiseToOthers): # If it is younger than 3 hours old..
2012-11-19 20:45:05 +01:00
numberOfAddressesInAddrMessage += 1
payload += pack(
'>Q', timeLastReceivedMessageFromThisNode) # 64-bit time
payload += pack('>I', self.streamNumber)
payload += pack(
'>q', 1) # service bit flags offered by this node
payload += '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xFF\xFF' + \
socket.inet_aton(HOST)
payload += pack('>H', PORT) # remote port
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for HOST, value in addrsInChildStreamLeft.items():
PORT, timeLastReceivedMessageFromThisNode = value
if timeLastReceivedMessageFromThisNode > (int(time.time()) - maximumAgeOfNodesThatIAdvertiseToOthers): # If it is younger than 3 hours old..
2012-11-19 20:45:05 +01:00
numberOfAddressesInAddrMessage += 1
payload += pack(
'>Q', timeLastReceivedMessageFromThisNode) # 64-bit time
payload += pack('>I', self.streamNumber * 2)
payload += pack(
'>q', 1) # service bit flags offered by this node
payload += '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xFF\xFF' + \
socket.inet_aton(HOST)
payload += pack('>H', PORT) # remote port
2012-11-19 20:45:05 +01:00
for HOST, value in addrsInChildStreamRight.items():
PORT, timeLastReceivedMessageFromThisNode = value
if timeLastReceivedMessageFromThisNode > (int(time.time()) - maximumAgeOfNodesThatIAdvertiseToOthers): # If it is younger than 3 hours old..
2012-11-19 20:45:05 +01:00
numberOfAddressesInAddrMessage += 1
payload += pack(
'>Q', timeLastReceivedMessageFromThisNode) # 64-bit time
payload += pack('>I', (self.streamNumber * 2) + 1)
payload += pack(
'>q', 1) # service bit flags offered by this node
payload += '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xFF\xFF' + \
socket.inet_aton(HOST)
payload += pack('>H', PORT) # remote port
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payload = encodeVarint(numberOfAddressesInAddrMessage) + payload
datatosend = '\xE9\xBE\xB4\xD9addr\x00\x00\x00\x00\x00\x00\x00\x00'
datatosend = datatosend + pack('>L', len(payload)) # payload length
2012-11-23 01:06:42 +01:00
datatosend = datatosend + hashlib.sha512(payload).digest()[0:4]
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datatosend = datatosend + payload
try:
self.sock.sendall(datatosend)
if verbose >= 1:
shared.printLock.acquire()
print 'Sending addr with', numberOfAddressesInAddrMessage, 'entries.'
shared.printLock.release()
except Exception as err:
# if not 'Bad file descriptor' in err:
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shared.printLock.acquire()
sys.stderr.write('sock.sendall error: %s\n' % err)
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shared.printLock.release()
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# We have received a version message
def recversion(self, data):
if len(data) < 83:
# This version message is unreasonably short. Forget it.
2012-11-19 20:45:05 +01:00
return
elif not self.verackSent:
self.remoteProtocolVersion, = unpack('>L', data[:4])
if self.remoteProtocolVersion <= 1:
shared.broadcastToSendDataQueues((0, 'shutdown', self.HOST))
shared.printLock.acquire()
print 'Closing connection to old protocol version 1 node: ', self.HOST
shared.printLock.release()
return
# print 'remoteProtocolVersion', self.remoteProtocolVersion
2013-03-28 22:56:20 +01:00
self.myExternalIP = socket.inet_ntoa(data[40:44])
# print 'myExternalIP', self.myExternalIP
self.remoteNodeIncomingPort, = unpack('>H', data[70:72])
# print 'remoteNodeIncomingPort', self.remoteNodeIncomingPort
useragentLength, lengthOfUseragentVarint = decodeVarint(
data[80:84])
2013-03-28 22:56:20 +01:00
readPosition = 80 + lengthOfUseragentVarint
useragent = data[readPosition:readPosition + useragentLength]
2013-01-24 17:38:12 +01:00
readPosition += useragentLength
numberOfStreamsInVersionMessage, lengthOfNumberOfStreamsInVersionMessage = decodeVarint(
data[readPosition:])
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readPosition += lengthOfNumberOfStreamsInVersionMessage
self.streamNumber, lengthOfRemoteStreamNumber = decodeVarint(
data[readPosition:])
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shared.printLock.acquire()
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print 'Remote node useragent:', useragent, ' stream number:', self.streamNumber
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shared.printLock.release()
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if self.streamNumber != 1:
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shared.broadcastToSendDataQueues((0, 'shutdown', self.HOST))
shared.printLock.acquire()
print 'Closed connection to', self.HOST, 'because they are interested in stream', self.streamNumber, '.'
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shared.printLock.release()
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return
shared.connectedHostsList[
self.HOST] = 1 # We use this data structure to not only keep track of what hosts we are connected to so that we don't try to connect to them again, but also to list the connections count on the Network Status tab.
# If this was an incoming connection, then the sendData thread
# doesn't know the stream. We have to set it.
if not self.initiatedConnection:
shared.broadcastToSendDataQueues((
0, 'setStreamNumber', (self.HOST, self.streamNumber)))
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if data[72:80] == eightBytesOfRandomDataUsedToDetectConnectionsToSelf:
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shared.broadcastToSendDataQueues((0, 'shutdown', self.HOST))
shared.printLock.acquire()
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print 'Closing connection to myself: ', self.HOST
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shared.printLock.release()
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return
shared.broadcastToSendDataQueues((0, 'setRemoteProtocolVersion', (
self.HOST, self.remoteProtocolVersion)))
2012-11-19 20:45:05 +01:00
2013-05-02 17:53:54 +02:00
shared.knownNodesLock.acquire()
shared.knownNodes[self.streamNumber][self.HOST] = (
self.remoteNodeIncomingPort, int(time.time()))
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output = open(shared.appdata + 'knownnodes.dat', 'wb')
pickle.dump(shared.knownNodes, output)
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output.close()
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shared.knownNodesLock.release()
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self.sendverack()
if self.initiatedConnection == False:
self.sendversion()
# Sends a version message
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def sendversion(self):
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shared.printLock.acquire()
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print 'Sending version message'
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shared.printLock.release()
try:
self.sock.sendall(assembleVersionMessage(
self.HOST, self.PORT, self.streamNumber))
except Exception as err:
# if not 'Bad file descriptor' in err:
shared.printLock.acquire()
sys.stderr.write('sock.sendall error: %s\n' % err)
shared.printLock.release()
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# Sends a verack message
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def sendverack(self):
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shared.printLock.acquire()
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print 'Sending verack'
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shared.printLock.release()
try:
self.sock.sendall(
'\xE9\xBE\xB4\xD9\x76\x65\x72\x61\x63\x6B\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xcf\x83\xe1\x35')
except Exception as err:
# if not 'Bad file descriptor' in err:
shared.printLock.acquire()
sys.stderr.write('sock.sendall error: %s\n' % err)
shared.printLock.release()
# cf
# 83
# e1
# 35
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self.verackSent = True
if self.verackReceived:
2012-11-19 20:45:05 +01:00
self.connectionFullyEstablished()
# Every connection to a peer has a sendDataThread (and also a
# receiveDataThread).
2013-05-01 22:06:55 +02:00
class sendDataThread(threading.Thread):
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def __init__(self):
threading.Thread.__init__(self)
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self.mailbox = Queue.Queue()
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shared.sendDataQueues.append(self.mailbox)
shared.printLock.acquire()
print 'The length of sendDataQueues at sendDataThread init is:', len(shared.sendDataQueues)
shared.printLock.release()
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self.data = ''
def setup(
self,
sock,
HOST,
PORT,
streamNumber,
objectsOfWhichThisRemoteNodeIsAlreadyAware):
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self.sock = sock
self.HOST = HOST
self.PORT = PORT
self.streamNumber = streamNumber
self.remoteProtocolVersion = - \
1 # This must be set using setRemoteProtocolVersion command which is sent through the self.mailbox queue.
self.lastTimeISentData = int(
time.time()) # If this value increases beyond five minutes ago, we'll send a pong message to keep the connection alive.
self.objectsOfWhichThisRemoteNodeIsAlreadyAware = objectsOfWhichThisRemoteNodeIsAlreadyAware
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shared.printLock.acquire()
print 'The streamNumber of this sendDataThread (ID:', str(id(self)) + ') at setup() is', self.streamNumber
2013-05-02 17:53:54 +02:00
shared.printLock.release()
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def sendVersionMessage(self):
datatosend = assembleVersionMessage(
self.HOST, self.PORT, self.streamNumber) # the IP and port of the remote host, and my streamNumber.
2012-11-19 20:45:05 +01:00
2013-05-02 17:53:54 +02:00
shared.printLock.acquire()
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print 'Sending version packet: ', repr(datatosend)
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shared.printLock.release()
try:
self.sock.sendall(datatosend)
except Exception as err:
# if not 'Bad file descriptor' in err:
shared.printLock.acquire()
sys.stderr.write('sock.sendall error: %s\n' % err)
shared.printLock.release()
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self.versionSent = 1
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def run(self):
while True:
deststream, command, data = self.mailbox.get()
# shared.printLock.acquire()
# print 'sendDataThread, destream:', deststream, ', Command:', command, ', ID:',id(self), ', HOST:', self.HOST
# shared.printLock.release()
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if deststream == self.streamNumber or deststream == 0:
if command == 'shutdown':
if data == self.HOST or data == 'all':
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shared.printLock.acquire()
print 'sendDataThread (associated with', self.HOST, ') ID:', id(self), 'shutting down now.'
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shared.printLock.release()
try:
self.sock.shutdown(socket.SHUT_RDWR)
self.sock.close()
except:
pass
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shared.sendDataQueues.remove(self.mailbox)
shared.printLock.acquire()
print 'len of sendDataQueues', len(shared.sendDataQueues)
shared.printLock.release()
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break
# When you receive an incoming connection, a sendDataThread is
# created even though you don't yet know what stream number the
# remote peer is interested in. They will tell you in a version
# message and if you too are interested in that stream then you
# will continue on with the connection and will set the
# streamNumber of this send data thread here:
2012-11-19 20:45:05 +01:00
elif command == 'setStreamNumber':
hostInMessage, specifiedStreamNumber = data
if hostInMessage == self.HOST:
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shared.printLock.acquire()
print 'setting the stream number in the sendData thread (ID:', id(self), ') to', specifiedStreamNumber
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shared.printLock.release()
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self.streamNumber = specifiedStreamNumber
elif command == 'setRemoteProtocolVersion':
hostInMessage, specifiedRemoteProtocolVersion = data
if hostInMessage == self.HOST:
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shared.printLock.acquire()
print 'setting the remote node\'s protocol version in the sendData thread (ID:', id(self), ') to', specifiedRemoteProtocolVersion
2013-05-02 17:53:54 +02:00
shared.printLock.release()
self.remoteProtocolVersion = specifiedRemoteProtocolVersion
elif command == 'sendaddr':
try:
# To prevent some network analysis, 'leak' the data out
# to our peer after waiting a random amount of time
# unless we have a long list of messages in our queue
# to send.
random.seed()
time.sleep(random.randrange(0, 10))
self.sock.sendall(data)
self.lastTimeISentData = int(time.time())
except:
print 'self.sock.sendall failed'
try:
self.sock.shutdown(socket.SHUT_RDWR)
self.sock.close()
except:
pass
shared.sendDataQueues.remove(self.mailbox)
print 'sendDataThread thread (ID:', str(id(self)) + ') ending now. Was connected to', self.HOST
break
elif command == 'sendinv':
if data not in self.objectsOfWhichThisRemoteNodeIsAlreadyAware:
payload = '\x01' + data
headerData = '\xe9\xbe\xb4\xd9' # magic bits, slighly different from Bitcoin's magic bits.
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headerData += 'inv\x00\x00\x00\x00\x00\x00\x00\x00\x00'
headerData += pack('>L', len(payload))
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headerData += hashlib.sha512(payload).digest()[:4]
# To prevent some network analysis, 'leak' the data out
# to our peer after waiting a random amount of time
random.seed()
time.sleep(random.randrange(0, 10))
try:
self.sock.sendall(headerData + payload)
self.lastTimeISentData = int(time.time())
except:
print 'self.sock.sendall failed'
try:
self.sock.shutdown(socket.SHUT_RDWR)
self.sock.close()
except:
pass
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shared.sendDataQueues.remove(self.mailbox)
print 'sendDataThread thread (ID:', str(id(self)) + ') ending now. Was connected to', self.HOST
break
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elif command == 'pong':
if self.lastTimeISentData < (int(time.time()) - 298):
# Send out a pong message to keep the connection alive.
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shared.printLock.acquire()
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print 'Sending pong to', self.HOST, 'to keep connection alive.'
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shared.printLock.release()
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try:
self.sock.sendall(
'\xE9\xBE\xB4\xD9\x70\x6F\x6E\x67\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xcf\x83\xe1\x35')
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self.lastTimeISentData = int(time.time())
except:
print 'send pong failed'
try:
self.sock.shutdown(socket.SHUT_RDWR)
self.sock.close()
except:
pass
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shared.sendDataQueues.remove(self.mailbox)
print 'sendDataThread thread', self, 'ending now. Was connected to', self.HOST
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break
else:
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shared.printLock.acquire()
print 'sendDataThread ID:', id(self), 'ignoring command', command, 'because the thread is not in stream', deststream
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shared.printLock.release()
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def isInSqlInventory(hash):
t = (hash,)
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''select hash from inventory where hash=?''')
shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
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if queryreturn == []:
return False
else:
return True
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def connectToStream(streamNumber):
selfInitiatedConnections[streamNumber] = {}
if sys.platform[0:3] == 'win':
maximumNumberOfHalfOpenConnections = 9
else:
maximumNumberOfHalfOpenConnections = 32
for i in range(maximumNumberOfHalfOpenConnections):
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a = outgoingSynSender()
a.setup(streamNumber)
a.start()
def assembleVersionMessage(remoteHost, remotePort, myStreamNumber):
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shared.softwareVersion
payload = ''
payload += pack('>L', 2) # protocol version.
payload += pack('>q', 1) # bitflags of the services I offer.
payload += pack('>q', int(time.time()))
payload += pack(
'>q', 1) # boolservices of remote connection. How can I even know this for sure? This is probably ignored by the remote host.
payload += '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xFF\xFF' + \
socket.inet_aton(remoteHost)
payload += pack('>H', remotePort) # remote IPv6 and port
payload += pack('>q', 1) # bitflags of the services I offer.
payload += '\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\xFF\xFF' + pack(
'>L', 2130706433) # = 127.0.0.1. This will be ignored by the remote host. The actual remote connected IP will be used.
payload += pack('>H', shared.config.getint(
'bitmessagesettings', 'port')) # my external IPv6 and port
random.seed()
payload += eightBytesOfRandomDataUsedToDetectConnectionsToSelf
userAgent = '/PyBitmessage:' + shared.softwareVersion + \
'/' # Length of userAgent must be less than 253.
payload += pack('>B', len(
userAgent)) # user agent string length. If the user agent is more than 252 bytes long, this code isn't going to work.
payload += userAgent
payload += encodeVarint(
1) # The number of streams about which I care. PyBitmessage currently only supports 1 per connection.
payload += encodeVarint(myStreamNumber)
datatosend = '\xe9\xbe\xb4\xd9' # magic bits, slighly different from Bitcoin's magic bits.
datatosend = datatosend + 'version\x00\x00\x00\x00\x00' # version command
datatosend = datatosend + pack('>L', len(payload)) # payload length
datatosend = datatosend + hashlib.sha512(payload).digest()[0:4]
return datatosend + payload
# This thread, of which there is only one, does the heavy lifting:
# calculating POWs.
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class singleWorker(threading.Thread):
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def __init__(self):
# QThread.__init__(self, parent)
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threading.Thread.__init__(self)
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def run(self):
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT toripe FROM sent WHERE ((status='awaitingpubkey' OR status='doingpubkeypow') AND folder='sent')''')
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shared.sqlSubmitQueue.put('')
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queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
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for row in queryreturn:
toripe, = row
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neededPubkeys[toripe] = 0
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# Initialize the ackdataForWhichImWatching data structure using data
# from the sql database.
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT ackdata FROM sent where (status='msgsent' OR status='doingmsgpow')''')
shared.sqlSubmitQueue.put('')
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
for row in queryreturn:
ackdata, = row
print 'Watching for ackdata', ackdata.encode('hex')
ackdataForWhichImWatching[ackdata] = 0
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT DISTINCT toaddress FROM sent WHERE (status='doingpubkeypow' AND folder='sent')''')
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shared.sqlSubmitQueue.put('')
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queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
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for row in queryreturn:
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toaddress, = row
self.requestPubKey(toaddress)
time.sleep(
10) # give some time for the GUI to start before we start on existing POW tasks.
self.sendMsg()
# just in case there are any pending tasks for msg
# messages that have yet to be sent.
self.sendBroadcast()
# just in case there are any tasks for Broadcasts
# that have yet to be sent.
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while True:
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command, data = shared.workerQueue.get()
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if command == 'sendmessage':
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self.sendMsg()
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elif command == 'sendbroadcast':
self.sendBroadcast()
elif command == 'doPOWForMyV2Pubkey':
self.doPOWForMyV2Pubkey(data)
elif command == 'doPOWForMyV3Pubkey':
self.doPOWForMyV3Pubkey(data)
"""elif command == 'newpubkey':
toAddressVersion,toStreamNumber,toRipe = data
if toRipe in neededPubkeys:
print 'We have been awaiting the arrival of this pubkey.'
del neededPubkeys[toRipe]
t = (toRipe,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''UPDATE sent SET status='doingmsgpow' WHERE toripe=? AND status='awaitingpubkey' and folder='sent' ''')
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
self.sendMsg()
else:
shared.printLock.acquire()
print 'We don\'t need this pub key. We didn\'t ask for it. Pubkey hash:', toRipe.encode('hex')
shared.printLock.release()"""
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else:
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shared.printLock.acquire()
sys.stderr.write(
'Probable programming error: The command sent to the workerThread is weird. It is: %s\n' % command)
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shared.printLock.release()
shared.workerQueue.task_done()
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def doPOWForMyV2Pubkey(self, hash): # This function also broadcasts out the pubkey message once it is done with the POW
# Look up my stream number based on my address hash
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"""configSections = shared.config.sections()
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for addressInKeysFile in configSections:
if addressInKeysFile <> 'bitmessagesettings':
status,addressVersionNumber,streamNumber,hashFromThisParticularAddress = decodeAddress(addressInKeysFile)
if hash == hashFromThisParticularAddress:
myAddress = addressInKeysFile
break"""
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myAddress = shared.myAddressesByHash[hash]
status, addressVersionNumber, streamNumber, hash = decodeAddress(
myAddress)
embeddedTime = int(time.time() + random.randrange(
-300, 300)) # the current time plus or minus five minutes
payload = pack('>I', (embeddedTime))
payload += encodeVarint(addressVersionNumber) # Address version number
payload += encodeVarint(streamNumber)
payload += '\x00\x00\x00\x01' # bitfield of features supported by me (see the wiki).
try:
privSigningKeyBase58 = shared.config.get(
myAddress, 'privsigningkey')
privEncryptionKeyBase58 = shared.config.get(
myAddress, 'privencryptionkey')
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'Error within doPOWForMyV2Pubkey. Could not read the keys from the keys.dat file for a requested address. %s\n' % err)
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shared.printLock.release()
return
privSigningKeyHex = shared.decodeWalletImportFormat(
privSigningKeyBase58).encode('hex')
privEncryptionKeyHex = shared.decodeWalletImportFormat(
privEncryptionKeyBase58).encode('hex')
pubSigningKey = highlevelcrypto.privToPub(
privSigningKeyHex).decode('hex')
pubEncryptionKey = highlevelcrypto.privToPub(
privEncryptionKeyHex).decode('hex')
payload += pubSigningKey[1:]
payload += pubEncryptionKey[1:]
# Do the POW for this pubkey message
target = 2 ** 64 / ((len(payload) + shared.networkDefaultPayloadLengthExtraBytes +
8) * shared.networkDefaultProofOfWorkNonceTrialsPerByte)
print '(For pubkey message) Doing proof of work...'
initialHash = hashlib.sha512(payload).digest()
trialValue, nonce = proofofwork.run(target, initialHash)
print '(For pubkey message) Found proof of work', trialValue, 'Nonce:', nonce
payload = pack('>Q', nonce) + payload
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"""t = (hash,payload,embeddedTime,'no')
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''INSERT INTO pubkeys VALUES (?,?,?,?)''')
shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()"""
inventoryHash = calculateInventoryHash(payload)
objectType = 'pubkey'
shared.inventory[inventoryHash] = (
objectType, streamNumber, payload, embeddedTime)
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shared.printLock.acquire()
print 'broadcasting inv with hash:', inventoryHash.encode('hex')
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shared.printLock.release()
shared.broadcastToSendDataQueues((
streamNumber, 'sendinv', inventoryHash))
shared.UISignalQueue.put(('updateStatusBar', ''))
shared.config.set(
myAddress, 'lastpubkeysendtime', str(int(time.time())))
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with open(shared.appdata + 'keys.dat', 'wb') as configfile:
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shared.config.write(configfile)
def doPOWForMyV3Pubkey(self, hash): # This function also broadcasts out the pubkey message once it is done with the POW
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myAddress = shared.myAddressesByHash[hash]
status, addressVersionNumber, streamNumber, hash = decodeAddress(
myAddress)
embeddedTime = int(time.time() + random.randrange(
-300, 300)) # the current time plus or minus five minutes
payload = pack('>I', (embeddedTime))
payload += encodeVarint(addressVersionNumber) # Address version number
payload += encodeVarint(streamNumber)
payload += '\x00\x00\x00\x01' # bitfield of features supported by me (see the wiki).
try:
privSigningKeyBase58 = shared.config.get(
myAddress, 'privsigningkey')
privEncryptionKeyBase58 = shared.config.get(
myAddress, 'privencryptionkey')
except Exception as err:
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shared.printLock.acquire()
sys.stderr.write(
'Error within doPOWForMyV3Pubkey. Could not read the keys from the keys.dat file for a requested address. %s\n' % err)
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shared.printLock.release()
return
privSigningKeyHex = shared.decodeWalletImportFormat(
privSigningKeyBase58).encode('hex')
privEncryptionKeyHex = shared.decodeWalletImportFormat(
privEncryptionKeyBase58).encode('hex')
pubSigningKey = highlevelcrypto.privToPub(
privSigningKeyHex).decode('hex')
pubEncryptionKey = highlevelcrypto.privToPub(
privEncryptionKeyHex).decode('hex')
payload += pubSigningKey[1:]
payload += pubEncryptionKey[1:]
payload += encodeVarint(shared.config.getint(
myAddress, 'noncetrialsperbyte'))
payload += encodeVarint(shared.config.getint(
myAddress, 'payloadlengthextrabytes'))
signature = highlevelcrypto.sign(payload, privSigningKeyHex)
payload += encodeVarint(len(signature))
payload += signature
# Do the POW for this pubkey message
target = 2 ** 64 / ((len(payload) + shared.networkDefaultPayloadLengthExtraBytes +
8) * shared.networkDefaultProofOfWorkNonceTrialsPerByte)
print '(For pubkey message) Doing proof of work...'
initialHash = hashlib.sha512(payload).digest()
trialValue, nonce = proofofwork.run(target, initialHash)
print '(For pubkey message) Found proof of work', trialValue, 'Nonce:', nonce
payload = pack('>Q', nonce) + payload
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"""t = (hash,payload,embeddedTime,'no')
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''INSERT INTO pubkeys VALUES (?,?,?,?)''')
shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()"""
inventoryHash = calculateInventoryHash(payload)
objectType = 'pubkey'
shared.inventory[inventoryHash] = (
objectType, streamNumber, payload, embeddedTime)
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shared.printLock.acquire()
print 'broadcasting inv with hash:', inventoryHash.encode('hex')
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shared.printLock.release()
shared.broadcastToSendDataQueues((
streamNumber, 'sendinv', inventoryHash))
shared.UISignalQueue.put(('updateStatusBar', ''))
shared.config.set(
myAddress, 'lastpubkeysendtime', str(int(time.time())))
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with open(shared.appdata + 'keys.dat', 'wb') as configfile:
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shared.config.write(configfile)
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def sendBroadcast(self):
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shared.sqlLock.acquire()
t = ('broadcastqueued',)
shared.sqlSubmitQueue.put(
'''SELECT fromaddress, subject, message, ackdata FROM sent WHERE status=? and folder='sent' ''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
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for row in queryreturn:
fromaddress, subject, body, ackdata = row
status, addressVersionNumber, streamNumber, ripe = decodeAddress(
fromaddress)
if addressVersionNumber == 2 and int(time.time()) < encryptedBroadcastSwitchoverTime:
# We need to convert our private keys to public keys in order
# to include them.
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try:
privSigningKeyBase58 = shared.config.get(
fromaddress, 'privsigningkey')
privEncryptionKeyBase58 = shared.config.get(
fromaddress, 'privencryptionkey')
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except:
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (
ackdata, _translate("MainWindow", "Error! Could not find sender address (your address) in the keys.dat file."))))
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continue
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privSigningKeyHex = shared.decodeWalletImportFormat(
privSigningKeyBase58).encode('hex')
privEncryptionKeyHex = shared.decodeWalletImportFormat(
privEncryptionKeyBase58).encode('hex')
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pubSigningKey = highlevelcrypto.privToPub(privSigningKeyHex).decode(
'hex') # At this time these pubkeys are 65 bytes long because they include the encoding byte which we won't be sending in the broadcast message.
pubEncryptionKey = highlevelcrypto.privToPub(
privEncryptionKeyHex).decode('hex')
payload = pack('>Q', (int(time.time()) + random.randrange(
-300, 300))) # the current time plus or minus five minutes
payload += encodeVarint(1) # broadcast version
payload += encodeVarint(addressVersionNumber)
payload += encodeVarint(streamNumber)
payload += '\x00\x00\x00\x01' # behavior bitfield
payload += pubSigningKey[1:]
payload += pubEncryptionKey[1:]
payload += ripe
payload += '\x02' # message encoding type
payload += encodeVarint(len(
'Subject:' + subject + '\n' + 'Body:' + body)) # Type 2 is simple UTF-8 message encoding.
payload += 'Subject:' + subject + '\n' + 'Body:' + body
signature = highlevelcrypto.sign(payload, privSigningKeyHex)
payload += encodeVarint(len(signature))
payload += signature
target = 2 ** 64 / ((len(
payload) + shared.networkDefaultPayloadLengthExtraBytes + 8) * shared.networkDefaultProofOfWorkNonceTrialsPerByte)
print '(For broadcast message) Doing proof of work...'
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (
ackdata, _translate("MainWindow", "Doing work necessary to send broadcast..."))))
initialHash = hashlib.sha512(payload).digest()
trialValue, nonce = proofofwork.run(target, initialHash)
print '(For broadcast message) Found proof of work', trialValue, 'Nonce:', nonce
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payload = pack('>Q', nonce) + payload
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inventoryHash = calculateInventoryHash(payload)
objectType = 'broadcast'
shared.inventory[inventoryHash] = (
objectType, streamNumber, payload, int(time.time()))
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print 'Broadcasting inv for my broadcast (within sendBroadcast function):', inventoryHash.encode('hex')
shared.broadcastToSendDataQueues((
streamNumber, 'sendinv', inventoryHash))
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (ackdata, _translate("MainWindow", "Broadcast sent on %1").arg(unicode(
strftime(shared.config.get('bitmessagesettings', 'timeformat'), localtime(int(time.time()))), 'utf-8')))))
# Update the status of the message in the 'sent' table to have
# a 'broadcastsent' status
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shared.sqlLock.acquire()
t = ('broadcastsent', int(
time.time()), fromaddress, subject, body, 'broadcastqueued')
shared.sqlSubmitQueue.put(
'UPDATE sent SET status=?, lastactiontime=? WHERE fromaddress=? AND subject=? AND message=? AND status=?')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
elif addressVersionNumber == 3 or int(time.time()) > encryptedBroadcastSwitchoverTime:
# We need to convert our private keys to public keys in order
# to include them.
try:
privSigningKeyBase58 = shared.config.get(
fromaddress, 'privsigningkey')
privEncryptionKeyBase58 = shared.config.get(
fromaddress, 'privencryptionkey')
except:
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (
ackdata, _translate("MainWindow", "Error! Could not find sender address (your address) in the keys.dat file."))))
continue
privSigningKeyHex = shared.decodeWalletImportFormat(
privSigningKeyBase58).encode('hex')
privEncryptionKeyHex = shared.decodeWalletImportFormat(
privEncryptionKeyBase58).encode('hex')
pubSigningKey = highlevelcrypto.privToPub(privSigningKeyHex).decode(
'hex') # At this time these pubkeys are 65 bytes long because they include the encoding byte which we won't be sending in the broadcast message.
pubEncryptionKey = highlevelcrypto.privToPub(
privEncryptionKeyHex).decode('hex')
payload = pack('>Q', (int(time.time()) + random.randrange(
-300, 300))) # the current time plus or minus five minutes
payload += encodeVarint(2) # broadcast version
payload += encodeVarint(streamNumber)
dataToEncrypt = encodeVarint(2) # broadcast version
dataToEncrypt += encodeVarint(addressVersionNumber)
dataToEncrypt += encodeVarint(streamNumber)
dataToEncrypt += '\x00\x00\x00\x01' # behavior bitfield
dataToEncrypt += pubSigningKey[1:]
dataToEncrypt += pubEncryptionKey[1:]
if addressVersionNumber >= 3:
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dataToEncrypt += encodeVarint(shared.config.getint(fromaddress,'noncetrialsperbyte'))
dataToEncrypt += encodeVarint(shared.config.getint(fromaddress,'payloadlengthextrabytes'))
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dataToEncrypt += '\x02' # message encoding type
2013-06-13 21:15:22 +02:00
dataToEncrypt += encodeVarint(len('Subject:' + subject + '\n' + 'Body:' + body)) #Type 2 is simple UTF-8 message encoding per the documentation on the wiki.
dataToEncrypt += 'Subject:' + subject + '\n' + 'Body:' + body
signature = highlevelcrypto.sign(
dataToEncrypt, privSigningKeyHex)
dataToEncrypt += encodeVarint(len(signature))
dataToEncrypt += signature
2013-06-14 21:58:46 +02:00
# Encrypt the broadcast with the information contained in the broadcaster's address. Anyone who knows the address can generate
# the private encryption key to decrypt the broadcast. This provides virtually no privacy; its purpose is to keep questionable
# and illegal content from flowing through the Internet connections and being stored on the disk of 3rd parties.
privEncryptionKey = hashlib.sha512(encodeVarint(
addressVersionNumber) + encodeVarint(streamNumber) + ripe).digest()[:32]
pubEncryptionKey = pointMult(privEncryptionKey)
payload += highlevelcrypto.encrypt(
dataToEncrypt, pubEncryptionKey.encode('hex'))
target = 2 ** 64 / ((len(
payload) + shared.networkDefaultPayloadLengthExtraBytes + 8) * shared.networkDefaultProofOfWorkNonceTrialsPerByte)
print '(For broadcast message) Doing proof of work...'
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (
ackdata, _translate("MainWindow", "Doing work necessary to send broadcast..."))))
initialHash = hashlib.sha512(payload).digest()
trialValue, nonce = proofofwork.run(target, initialHash)
print '(For broadcast message) Found proof of work', trialValue, 'Nonce:', nonce
payload = pack('>Q', nonce) + payload
inventoryHash = calculateInventoryHash(payload)
objectType = 'broadcast'
shared.inventory[inventoryHash] = (
objectType, streamNumber, payload, int(time.time()))
print 'sending inv (within sendBroadcast function)'
shared.broadcastToSendDataQueues((
streamNumber, 'sendinv', inventoryHash))
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (ackdata, _translate("MainWindow", "Broadcast sent on %1").arg(unicode(
strftime(shared.config.get('bitmessagesettings', 'timeformat'), localtime(int(time.time()))), 'utf-8')))))
# Update the status of the message in the 'sent' table to have
# a 'broadcastsent' status
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shared.sqlLock.acquire()
t = ('broadcastsent', int(
time.time()), fromaddress, subject, body, 'broadcastqueued')
shared.sqlSubmitQueue.put(
'UPDATE sent SET status=?, lastactiontime=? WHERE fromaddress=? AND subject=? AND message=? AND status=?')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
else:
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shared.printLock.acquire()
sys.stderr.write(
'Error: In the singleWorker thread, the sendBroadcast function doesn\'t understand the address version.\n')
2013-05-02 17:53:54 +02:00
shared.printLock.release()
2012-11-19 20:45:05 +01:00
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def sendMsg(self):
# Check to see if there are any messages queued to be sent
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT DISTINCT toaddress FROM sent WHERE (status='msgqueued' AND folder='sent')''')
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shared.sqlSubmitQueue.put('')
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queryreturn = shared.sqlReturnQueue.get()
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shared.sqlLock.release()
for row in queryreturn: # For each address to which we need to send a message, check to see if we have its pubkey already.
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toaddress, = row
toripe = decodeAddress(toaddress)[3]
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT hash FROM pubkeys WHERE hash=? ''')
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shared.sqlSubmitQueue.put((toripe,))
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn != []: # If we have the needed pubkey, set the status to doingmsgpow (we'll do it further down)
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t = (toaddress,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''UPDATE sent SET status='doingmsgpow' WHERE toaddress=? AND status='msgqueued' ''')
2013-05-29 23:18:44 +02:00
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
else: # We don't have the needed pubkey. Set the status to 'awaitingpubkey' and request it if we haven't already
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if toripe in neededPubkeys:
# We already sent a request for the pubkey
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t = (toaddress,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''UPDATE sent SET status='awaitingpubkey' WHERE toaddress=? AND status='msgqueued' ''')
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shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.UISignalQueue.put(('updateSentItemStatusByHash', (
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toripe, _translate("MainWindow",'Encryption key was requested earlier.'))))
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else:
# We have not yet sent a request for the pubkey
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t = (toaddress,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''UPDATE sent SET status='doingpubkeypow' WHERE toaddress=? AND status='msgqueued' ''')
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shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.UISignalQueue.put(('updateSentItemStatusByHash', (
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toripe, _translate("MainWindow",'Sending a request for the recipient\'s encryption key.'))))
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self.requestPubKey(toaddress)
shared.sqlLock.acquire()
# Get all messages that are ready to be sent, and also all messages
# which we have sent in the last 28 days which were previously marked
# as 'toodifficult'. If the user as raised the maximum acceptable
# difficulty then those messages may now be sendable.
shared.sqlSubmitQueue.put(
'''SELECT toaddress, toripe, fromaddress, subject, message, ackdata, status FROM sent WHERE (status='doingmsgpow' or status='forcepow' or (status='toodifficult' and lastactiontime>?)) and folder='sent' ''')
shared.sqlSubmitQueue.put((int(time.time()) - 2419200,))
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queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
for row in queryreturn: # For each message we need to send..
toaddress, toripe, fromaddress, subject, message, ackdata, status = row
# There is a remote possibility that we may no longer have the
# recipient's pubkey. Let us make sure we still have it or else the
# sendMsg function will appear to freeze. This can happen if the
# user sends a message but doesn't let the POW function finish,
# then leaves their client off for a long time which could cause
# the needed pubkey to expire and be deleted.
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT hash FROM pubkeys WHERE hash=? ''')
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shared.sqlSubmitQueue.put((toripe,))
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn == [] and toripe not in neededPubkeys:
# We no longer have the needed pubkey and we haven't requested
# it.
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shared.printLock.acquire()
sys.stderr.write(
'For some reason, the status of a message in our outbox is \'doingmsgpow\' even though we lack the pubkey. Here is the RIPE hash of the needed pubkey: %s\n' % toripe.encode('hex'))
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shared.printLock.release()
t = (toaddress,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''UPDATE sent SET status='msgqueued' WHERE toaddress=? AND status='doingmsgpow' ''')
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shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.UISignalQueue.put(('updateSentItemStatusByHash', (
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toripe, _translate("MainWindow",'Sending a request for the recipient\'s encryption key.'))))
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self.requestPubKey(toaddress)
continue
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ackdataForWhichImWatching[ackdata] = 0
toStatus, toAddressVersionNumber, toStreamNumber, toHash = decodeAddress(
toaddress)
fromStatus, fromAddressVersionNumber, fromStreamNumber, fromHash = decodeAddress(
fromaddress)
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (
ackdata, _translate("MainWindow", "Looking up the receiver\'s public key"))))
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shared.printLock.acquire()
print 'Found a message in our database that needs to be sent with this pubkey.'
print 'First 150 characters of message:', repr(message[:150])
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shared.printLock.release()
# mark the pubkey as 'usedpersonally' so that we don't ever delete
# it.
shared.sqlLock.acquire()
t = (toripe,)
shared.sqlSubmitQueue.put(
'''UPDATE pubkeys SET usedpersonally='yes' WHERE hash=?''')
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
# Let us fetch the recipient's public key out of our database. If
# the required proof of work difficulty is too hard then we'll
# abort.
shared.sqlSubmitQueue.put(
'SELECT transmitdata FROM pubkeys WHERE hash=?')
shared.sqlSubmitQueue.put((toripe,))
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn == []:
shared.printLock.acquire()
sys.stderr.write(
'(within sendMsg) The needed pubkey was not found. This should never happen. Aborting send.\n')
shared.printLock.release()
return
for row in queryreturn:
pubkeyPayload, = row
# The pubkey message is stored the way we originally received it
# which means that we need to read beyond things like the nonce and
# time to get to the actual public keys.
readPosition = 8 # to bypass the nonce
pubkeyEmbeddedTime, = unpack(
'>I', pubkeyPayload[readPosition:readPosition + 4])
# This section is used for the transition from 32 bit time to 64
# bit time in the protocol.
if pubkeyEmbeddedTime == 0:
pubkeyEmbeddedTime, = unpack(
'>Q', pubkeyPayload[readPosition:readPosition + 8])
readPosition += 8
else:
readPosition += 4
readPosition += 1 # to bypass the address version whose length is definitely 1
streamNumber, streamNumberLength = decodeVarint(
pubkeyPayload[readPosition:readPosition + 10])
readPosition += streamNumberLength
behaviorBitfield = pubkeyPayload[readPosition:readPosition + 4]
readPosition += 4 # to bypass the bitfield of behaviors
# pubSigningKeyBase256 =
# pubkeyPayload[readPosition:readPosition+64] #We don't use this
# key for anything here.
readPosition += 64
pubEncryptionKeyBase256 = pubkeyPayload[
readPosition:readPosition + 64]
readPosition += 64
if toAddressVersionNumber == 2:
requiredAverageProofOfWorkNonceTrialsPerByte = shared.networkDefaultProofOfWorkNonceTrialsPerByte
requiredPayloadLengthExtraBytes = shared.networkDefaultPayloadLengthExtraBytes
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (
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ackdata, _translate("MainWindow", "Doing work necessary to send message.\nThere is no required difficulty for version 2 addresses like this."))))
elif toAddressVersionNumber == 3:
requiredAverageProofOfWorkNonceTrialsPerByte, varintLength = decodeVarint(
pubkeyPayload[readPosition:readPosition + 10])
readPosition += varintLength
requiredPayloadLengthExtraBytes, varintLength = decodeVarint(
pubkeyPayload[readPosition:readPosition + 10])
readPosition += varintLength
if requiredAverageProofOfWorkNonceTrialsPerByte < shared.networkDefaultProofOfWorkNonceTrialsPerByte: # We still have to meet a minimum POW difficulty regardless of what they say is allowed in order to get our message to propagate through the network.
requiredAverageProofOfWorkNonceTrialsPerByte = shared.networkDefaultProofOfWorkNonceTrialsPerByte
if requiredPayloadLengthExtraBytes < shared.networkDefaultPayloadLengthExtraBytes:
requiredPayloadLengthExtraBytes = shared.networkDefaultPayloadLengthExtraBytes
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (ackdata, _translate("MainWindow", "Doing work necessary to send message.\nReceiver\'s required difficulty: %1 and %2").arg(str(float(
requiredAverageProofOfWorkNonceTrialsPerByte) / shared.networkDefaultProofOfWorkNonceTrialsPerByte)).arg(str(float(requiredPayloadLengthExtraBytes) / shared.networkDefaultPayloadLengthExtraBytes)))))
if status != 'forcepow':
if (requiredAverageProofOfWorkNonceTrialsPerByte > shared.config.getint('bitmessagesettings', 'maxacceptablenoncetrialsperbyte') and shared.config.getint('bitmessagesettings', 'maxacceptablenoncetrialsperbyte') != 0) or (requiredPayloadLengthExtraBytes > shared.config.getint('bitmessagesettings', 'maxacceptablepayloadlengthextrabytes') and shared.config.getint('bitmessagesettings', 'maxacceptablepayloadlengthextrabytes') != 0):
# The demanded difficulty is more than we are willing
# to do.
shared.sqlLock.acquire()
t = (ackdata,)
shared.sqlSubmitQueue.put(
'''UPDATE sent SET status='toodifficult' WHERE ackdata=? ''')
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (ackdata, _translate("MainWindow", "Problem: The work demanded by the recipient (%1 and %2) is more difficult than you are willing to do.").arg(str(float(requiredAverageProofOfWorkNonceTrialsPerByte) / shared.networkDefaultProofOfWorkNonceTrialsPerByte)).arg(str(float(
requiredPayloadLengthExtraBytes) / shared.networkDefaultPayloadLengthExtraBytes)).arg(unicode(strftime(shared.config.get('bitmessagesettings', 'timeformat'), localtime(int(time.time()))), 'utf-8')))))
continue
embeddedTime = pack('>Q', (int(time.time()) + random.randrange(
-300, 300))) # the current time plus or minus five minutes. We will use this time both for our message and for the ackdata packed within our message.
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if fromAddressVersionNumber == 2:
payload = '\x01' # Message version.
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payload += encodeVarint(fromAddressVersionNumber)
payload += encodeVarint(fromStreamNumber)
payload += '\x00\x00\x00\x01' # Bitfield of features and behaviors that can be expected from me. (See https://bitmessage.org/wiki/Protocol_specification#Pubkey_bitfield_features )
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# We need to convert our private keys to public keys in order
# to include them.
2013-03-19 18:32:37 +01:00
try:
privSigningKeyBase58 = shared.config.get(
fromaddress, 'privsigningkey')
privEncryptionKeyBase58 = shared.config.get(
fromaddress, 'privencryptionkey')
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except:
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (
ackdata, _translate("MainWindow", "Error! Could not find sender address (your address) in the keys.dat file."))))
2013-03-19 18:32:37 +01:00
continue
2013-01-18 23:38:09 +01:00
privSigningKeyHex = shared.decodeWalletImportFormat(
privSigningKeyBase58).encode('hex')
privEncryptionKeyHex = shared.decodeWalletImportFormat(
privEncryptionKeyBase58).encode('hex')
2013-01-18 23:38:09 +01:00
pubSigningKey = highlevelcrypto.privToPub(
privSigningKeyHex).decode('hex')
pubEncryptionKey = highlevelcrypto.privToPub(
privEncryptionKeyHex).decode('hex')
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payload += pubSigningKey[
1:] # The \x04 on the beginning of the public keys are not sent. This way there is only one acceptable way to encode and send a public key.
2013-01-18 23:38:09 +01:00
payload += pubEncryptionKey[1:]
payload += toHash # This hash will be checked by the receiver of the message to verify that toHash belongs to them. This prevents a Surreptitious Forwarding Attack.
payload += '\x02' # Type 2 is simple UTF-8 message encoding as specified on the Protocol Specification on the Bitmessage Wiki.
messageToTransmit = 'Subject:' + \
subject + '\n' + 'Body:' + message
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payload += encodeVarint(len(messageToTransmit))
payload += messageToTransmit
fullAckPayload = self.generateFullAckMessage(
ackdata, toStreamNumber, embeddedTime) # The fullAckPayload is a normal msg protocol message with the proof of work already completed that the receiver of this message can easily send out.
2013-01-18 23:38:09 +01:00
payload += encodeVarint(len(fullAckPayload))
payload += fullAckPayload
signature = highlevelcrypto.sign(payload, privSigningKeyHex)
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payload += encodeVarint(len(signature))
payload += signature
if fromAddressVersionNumber == 3:
payload = '\x01' # Message version.
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payload += encodeVarint(fromAddressVersionNumber)
payload += encodeVarint(fromStreamNumber)
payload += '\x00\x00\x00\x01' # Bitfield of features and behaviors that can be expected from me. (See https://bitmessage.org/wiki/Protocol_specification#Pubkey_bitfield_features )
2012-11-19 20:45:05 +01:00
# We need to convert our private keys to public keys in order
# to include them.
try:
privSigningKeyBase58 = shared.config.get(
fromaddress, 'privsigningkey')
privEncryptionKeyBase58 = shared.config.get(
fromaddress, 'privencryptionkey')
except:
shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (
ackdata, _translate("MainWindow", "Error! Could not find sender address (your address) in the keys.dat file."))))
continue
privSigningKeyHex = shared.decodeWalletImportFormat(
privSigningKeyBase58).encode('hex')
privEncryptionKeyHex = shared.decodeWalletImportFormat(
privEncryptionKeyBase58).encode('hex')
pubSigningKey = highlevelcrypto.privToPub(
privSigningKeyHex).decode('hex')
pubEncryptionKey = highlevelcrypto.privToPub(
privEncryptionKeyHex).decode('hex')
2012-11-19 20:45:05 +01:00
payload += pubSigningKey[
1:] # The \x04 on the beginning of the public keys are not sent. This way there is only one acceptable way to encode and send a public key.
payload += pubEncryptionKey[1:]
# If the receiver of our message is in our address book,
# subscriptions list, or whitelist then we will allow them to
# do the network-minimum proof of work. Let us check to see if
# the receiver is in any of those lists.
2013-05-02 17:53:54 +02:00
if shared.isAddressInMyAddressBookSubscriptionsListOrWhitelist(toaddress):
payload += encodeVarint(
shared.networkDefaultProofOfWorkNonceTrialsPerByte)
payload += encodeVarint(
shared.networkDefaultPayloadLengthExtraBytes)
else:
payload += encodeVarint(shared.config.getint(
fromaddress, 'noncetrialsperbyte'))
payload += encodeVarint(shared.config.getint(
fromaddress, 'payloadlengthextrabytes'))
payload += toHash # This hash will be checked by the receiver of the message to verify that toHash belongs to them. This prevents a Surreptitious Forwarding Attack.
payload += '\x02' # Type 2 is simple UTF-8 message encoding as specified on the Protocol Specification on the Bitmessage Wiki.
messageToTransmit = 'Subject:' + \
subject + '\n' + 'Body:' + message
2013-01-18 23:38:09 +01:00
payload += encodeVarint(len(messageToTransmit))
payload += messageToTransmit
fullAckPayload = self.generateFullAckMessage(
ackdata, toStreamNumber, embeddedTime) # The fullAckPayload is a normal msg protocol message with the proof of work already completed that the receiver of this message can easily send out.
2013-01-18 23:38:09 +01:00
payload += encodeVarint(len(fullAckPayload))
payload += fullAckPayload
signature = highlevelcrypto.sign(payload, privSigningKeyHex)
payload += encodeVarint(len(signature))
payload += signature
2012-11-19 20:45:05 +01:00
2013-06-14 21:58:46 +02:00
# We have assembled the data that will be encrypted.
2013-06-13 21:15:22 +02:00
try:
encrypted = highlevelcrypto.encrypt(payload,"04"+pubEncryptionKeyBase256.encode('hex'))
except:
shared.sqlLock.acquire()
t = (ackdata,)
shared.sqlSubmitQueue.put('''UPDATE sent SET status='badkey' WHERE ackdata=?''')
shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
2013-06-17 23:49:06 +02:00
shared.UISignalQueue.put(('updateSentItemStatusByAckdata',(ackdata,_translate("MainWindow",'Problem: The recipient\'s encryption key is no good. Could not encrypt message. %1').arg(unicode(strftime(shared.config.get('bitmessagesettings', 'timeformat'),localtime(int(time.time()))),'utf-8')))))
2013-06-13 21:15:22 +02:00
continue
encryptedPayload = embeddedTime + encodeVarint(toStreamNumber) + encrypted
target = 2**64 / ((len(encryptedPayload)+requiredPayloadLengthExtraBytes+8) * requiredAverageProofOfWorkNonceTrialsPerByte)
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shared.printLock.acquire()
print '(For msg message) Doing proof of work. Total required difficulty:', float(requiredAverageProofOfWorkNonceTrialsPerByte) / shared.networkDefaultProofOfWorkNonceTrialsPerByte, 'Required small message difficulty:', float(requiredPayloadLengthExtraBytes) / shared.networkDefaultPayloadLengthExtraBytes
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shared.printLock.release()
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powStartTime = time.time()
initialHash = hashlib.sha512(encryptedPayload).digest()
trialValue, nonce = proofofwork.run(target, initialHash)
shared.printLock.acquire()
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print '(For msg message) Found proof of work', trialValue, 'Nonce:', nonce
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try:
print 'POW took', int(time.time() - powStartTime), 'seconds.', nonce / (time.time() - powStartTime), 'nonce trials per second.'
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except:
pass
shared.printLock.release()
encryptedPayload = pack('>Q', nonce) + encryptedPayload
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inventoryHash = calculateInventoryHash(encryptedPayload)
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objectType = 'msg'
shared.inventory[inventoryHash] = (
objectType, toStreamNumber, encryptedPayload, int(time.time()))
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shared.UISignalQueue.put(('updateSentItemStatusByAckdata', (ackdata, _translate("MainWindow", "Message sent. Waiting on acknowledgement. Sent on %1").arg(unicode(
strftime(shared.config.get('bitmessagesettings', 'timeformat'), localtime(int(time.time()))), 'utf-8')))))
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print 'Broadcasting inv for my msg(within sendmsg function):', inventoryHash.encode('hex')
shared.broadcastToSendDataQueues((
streamNumber, 'sendinv', inventoryHash))
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# Update the status of the message in the 'sent' table to have a
# 'msgsent' status
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shared.sqlLock.acquire()
t = (ackdata,)
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shared.sqlSubmitQueue.put('''UPDATE sent SET status='msgsent' WHERE ackdata=?''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
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def requestPubKey(self, toAddress):
toStatus, addressVersionNumber, streamNumber, ripe = decodeAddress(
toAddress)
if toStatus != 'success':
shared.printLock.acquire()
sys.stderr.write('Very abnormal error occurred in requestPubKey. toAddress is: ' + repr(
toAddress) + '. Please report this error to Atheros.')
shared.printLock.release()
return
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neededPubkeys[ripe] = 0
payload = pack('>Q', (int(time.time()) + random.randrange(
-300, 300))) # the current time plus or minus five minutes.
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payload += encodeVarint(addressVersionNumber)
payload += encodeVarint(streamNumber)
payload += ripe
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shared.printLock.acquire()
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print 'making request for pubkey with ripe:', ripe.encode('hex')
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shared.printLock.release()
# print 'trial value', trialValue
statusbar = 'Doing the computations necessary to request the recipient\'s public key.'
shared.UISignalQueue.put(('updateStatusBar', statusbar))
shared.UISignalQueue.put(('updateSentItemStatusByHash', (
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ripe, _translate("MainWindow",'Doing work necessary to request encryption key.'))))
target = 2 ** 64 / ((len(payload) + shared.networkDefaultPayloadLengthExtraBytes +
8) * shared.networkDefaultProofOfWorkNonceTrialsPerByte)
initialHash = hashlib.sha512(payload).digest()
trialValue, nonce = proofofwork.run(target, initialHash)
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shared.printLock.acquire()
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print 'Found proof of work', trialValue, 'Nonce:', nonce
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shared.printLock.release()
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payload = pack('>Q', nonce) + payload
2012-11-19 20:45:05 +01:00
inventoryHash = calculateInventoryHash(payload)
objectType = 'getpubkey'
shared.inventory[inventoryHash] = (
objectType, streamNumber, payload, int(time.time()))
2012-11-19 20:45:05 +01:00
print 'sending inv (for the getpubkey message)'
shared.broadcastToSendDataQueues((
streamNumber, 'sendinv', inventoryHash))
2012-11-19 20:45:05 +01:00
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t = (toAddress,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''UPDATE sent SET status='awaitingpubkey' WHERE toaddress=? AND status='doingpubkeypow' ''')
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shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.UISignalQueue.put((
2013-06-18 17:30:42 +02:00
'updateStatusBar', _translate("MainWindow",'Broacasting the public key request. This program will auto-retry if they are offline.')))
shared.UISignalQueue.put(('updateSentItemStatusByHash', (ripe, _translate("MainWindow",'Sending public key request. Waiting for reply. Requested at %1').arg(unicode(
strftime(shared.config.get('bitmessagesettings', 'timeformat'), localtime(int(time.time()))), 'utf-8')))))
2012-11-19 20:45:05 +01:00
def generateFullAckMessage(self, ackdata, toStreamNumber, embeddedTime):
payload = embeddedTime + encodeVarint(toStreamNumber) + ackdata
target = 2 ** 64 / ((len(payload) + shared.networkDefaultPayloadLengthExtraBytes +
8) * shared.networkDefaultProofOfWorkNonceTrialsPerByte)
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shared.printLock.acquire()
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print '(For ack message) Doing proof of work...'
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shared.printLock.release()
powStartTime = time.time()
initialHash = hashlib.sha512(payload).digest()
trialValue, nonce = proofofwork.run(target, initialHash)
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shared.printLock.acquire()
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print '(For ack message) Found proof of work', trialValue, 'Nonce:', nonce
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try:
print 'POW took', int(time.time() - powStartTime), 'seconds.', nonce / (time.time() - powStartTime), 'nonce trials per second.'
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except:
pass
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shared.printLock.release()
payload = pack('>Q', nonce) + payload
headerData = '\xe9\xbe\xb4\xd9' # magic bits, slighly different from Bitcoin's magic bits.
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headerData += 'msg\x00\x00\x00\x00\x00\x00\x00\x00\x00'
headerData += pack('>L', len(payload))
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headerData += hashlib.sha512(payload).digest()[:4]
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return headerData + payload
# This is one of several classes that constitute the API
# This class was written by Vaibhav Bhatia. Modified by Jonathan Warren (Atheros).
# http://code.activestate.com/recipes/501148-xmlrpc-serverclient-which-does-cookie-handling-and/
2012-11-19 20:45:05 +01:00
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class MySimpleXMLRPCRequestHandler(SimpleXMLRPCRequestHandler):
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def do_POST(self):
# Handles the HTTP POST request.
# Attempts to interpret all HTTP POST requests as XML-RPC calls,
# which are forwarded to the server's _dispatch method for handling.
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# Note: this method is the same as in SimpleXMLRPCRequestHandler,
# just hacked to handle cookies
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# Check that the path is legal
if not self.is_rpc_path_valid():
self.report_404()
return
try:
# Get arguments by reading body of request.
# We read this in chunks to avoid straining
# socket.read(); around the 10 or 15Mb mark, some platforms
# begin to have problems (bug #792570).
max_chunk_size = 10 * 1024 * 1024
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size_remaining = int(self.headers["content-length"])
L = []
while size_remaining:
chunk_size = min(size_remaining, max_chunk_size)
L.append(self.rfile.read(chunk_size))
size_remaining -= len(L[-1])
data = ''.join(L)
# In previous versions of SimpleXMLRPCServer, _dispatch
# could be overridden in this class, instead of in
# SimpleXMLRPCDispatcher. To maintain backwards compatibility,
# check to see if a subclass implements _dispatch and dispatch
# using that method if present.
response = self.server._marshaled_dispatch(
data, getattr(self, '_dispatch', None)
)
except: # This should only happen if the module is buggy
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# internal error, report as HTTP server error
self.send_response(500)
self.end_headers()
else:
# got a valid XML RPC response
self.send_response(200)
self.send_header("Content-type", "text/xml")
self.send_header("Content-length", str(len(response)))
# HACK :start -> sends cookies here
if self.cookies:
for cookie in self.cookies:
self.send_header('Set-Cookie', cookie.output(header=''))
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# HACK :end
self.end_headers()
self.wfile.write(response)
# shut down the connection
self.wfile.flush()
self.connection.shutdown(1)
def APIAuthenticateClient(self):
if 'Authorization' in self.headers:
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# handle Basic authentication
(enctype, encstr) = self.headers.get('Authorization').split()
(emailid, password) = encstr.decode('base64').split(':')
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if emailid == shared.config.get('bitmessagesettings', 'apiusername') and password == shared.config.get('bitmessagesettings', 'apipassword'):
return True
else:
return False
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else:
print 'Authentication failed because header lacks Authentication field'
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time.sleep(2)
return False
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return False
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def _dispatch(self, method, params):
self.cookies = []
validuser = self.APIAuthenticateClient()
if not validuser:
time.sleep(2)
return "RPC Username or password incorrect or HTTP header lacks authentication at all."
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# handle request
if method == 'helloWorld':
(a, b) = params
return a + '-' + b
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elif method == 'add':
(a, b) = params
return a + b
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elif method == 'statusBar':
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message, = params
shared.UISignalQueue.put(('updateStatusBar', message))
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elif method == 'listAddresses':
data = '{"addresses":['
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configSections = shared.config.sections()
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for addressInKeysFile in configSections:
if addressInKeysFile != 'bitmessagesettings':
status, addressVersionNumber, streamNumber, hash = decodeAddress(
addressInKeysFile)
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data
if len(data) > 20:
data += ','
data += json.dumps({'label': shared.config.get(addressInKeysFile, 'label'), 'address': addressInKeysFile, 'stream':
streamNumber, 'enabled': shared.config.getboolean(addressInKeysFile, 'enabled')}, indent=4, separators=(',', ': '))
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data += ']}'
return data
elif method == 'createRandomAddress':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
elif len(params) == 1:
label, = params
eighteenByteRipe = False
nonceTrialsPerByte = shared.config.get(
'bitmessagesettings', 'defaultnoncetrialsperbyte')
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
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elif len(params) == 2:
label, eighteenByteRipe = params
nonceTrialsPerByte = shared.config.get(
'bitmessagesettings', 'defaultnoncetrialsperbyte')
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
elif len(params) == 3:
label, eighteenByteRipe, totalDifficulty = params
nonceTrialsPerByte = int(
shared.networkDefaultProofOfWorkNonceTrialsPerByte * totalDifficulty)
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
elif len(params) == 4:
label, eighteenByteRipe, totalDifficulty, smallMessageDifficulty = params
nonceTrialsPerByte = int(
shared.networkDefaultProofOfWorkNonceTrialsPerByte * totalDifficulty)
payloadLengthExtraBytes = int(
shared.networkDefaultPayloadLengthExtraBytes * smallMessageDifficulty)
else:
return 'API Error 0000: Too many parameters!'
label = label.decode('base64')
try:
unicode(label, 'utf-8')
except:
return 'API Error 0017: Label is not valid UTF-8 data.'
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apiAddressGeneratorReturnQueue.queue.clear()
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streamNumberForAddress = 1
shared.addressGeneratorQueue.put((
'createRandomAddress', 3, streamNumberForAddress, label, 1, "", eighteenByteRipe, nonceTrialsPerByte, payloadLengthExtraBytes))
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return apiAddressGeneratorReturnQueue.get()
elif method == 'createDeterministicAddresses':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
elif len(params) == 1:
passphrase, = params
numberOfAddresses = 1
addressVersionNumber = 0
streamNumber = 0
eighteenByteRipe = False
nonceTrialsPerByte = shared.config.get(
'bitmessagesettings', 'defaultnoncetrialsperbyte')
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
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elif len(params) == 2:
passphrase, numberOfAddresses = params
addressVersionNumber = 0
streamNumber = 0
eighteenByteRipe = False
nonceTrialsPerByte = shared.config.get(
'bitmessagesettings', 'defaultnoncetrialsperbyte')
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
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elif len(params) == 3:
passphrase, numberOfAddresses, addressVersionNumber = params
streamNumber = 0
eighteenByteRipe = False
nonceTrialsPerByte = shared.config.get(
'bitmessagesettings', 'defaultnoncetrialsperbyte')
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
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elif len(params) == 4:
passphrase, numberOfAddresses, addressVersionNumber, streamNumber = params
eighteenByteRipe = False
nonceTrialsPerByte = shared.config.get(
'bitmessagesettings', 'defaultnoncetrialsperbyte')
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
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elif len(params) == 5:
passphrase, numberOfAddresses, addressVersionNumber, streamNumber, eighteenByteRipe = params
nonceTrialsPerByte = shared.config.get(
'bitmessagesettings', 'defaultnoncetrialsperbyte')
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
elif len(params) == 6:
passphrase, numberOfAddresses, addressVersionNumber, streamNumber, eighteenByteRipe, totalDifficulty = params
nonceTrialsPerByte = int(
shared.networkDefaultProofOfWorkNonceTrialsPerByte * totalDifficulty)
payloadLengthExtraBytes = shared.config.get(
'bitmessagesettings', 'defaultpayloadlengthextrabytes')
elif len(params) == 7:
passphrase, numberOfAddresses, addressVersionNumber, streamNumber, eighteenByteRipe, totalDifficulty, smallMessageDifficulty = params
nonceTrialsPerByte = int(
shared.networkDefaultProofOfWorkNonceTrialsPerByte * totalDifficulty)
payloadLengthExtraBytes = int(
shared.networkDefaultPayloadLengthExtraBytes * smallMessageDifficulty)
else:
return 'API Error 0000: Too many parameters!'
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if len(passphrase) == 0:
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return 'API Error 0001: The specified passphrase is blank.'
passphrase = passphrase.decode('base64')
if addressVersionNumber == 0: # 0 means "just use the proper addressVersionNumber"
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addressVersionNumber = 3
if addressVersionNumber != 3:
return 'API Error 0002: The address version number currently must be 3 (or 0 which means auto-select). ' + addressVersionNumber + ' isn\'t supported.'
if streamNumber == 0: # 0 means "just use the most available stream"
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streamNumber = 1
if streamNumber != 1:
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return 'API Error 0003: The stream number must be 1 (or 0 which means auto-select). Others aren\'t supported.'
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if numberOfAddresses == 0:
return 'API Error 0004: Why would you ask me to generate 0 addresses for you?'
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if numberOfAddresses > 999:
return 'API Error 0005: You have (accidentally?) specified too many addresses to make. Maximum 999. This check only exists to prevent mischief; if you really want to create more addresses than this, contact the Bitmessage developers and we can modify the check or you can do it yourself by searching the source code for this message.'
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apiAddressGeneratorReturnQueue.queue.clear()
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print 'Requesting that the addressGenerator create', numberOfAddresses, 'addresses.'
shared.addressGeneratorQueue.put(
('createDeterministicAddresses', addressVersionNumber, streamNumber,
'unused API address', numberOfAddresses, passphrase, eighteenByteRipe, nonceTrialsPerByte, payloadLengthExtraBytes))
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data = '{"addresses":['
queueReturn = apiAddressGeneratorReturnQueue.get()
for item in queueReturn:
if len(data) > 20:
data += ','
data += "\"" + item + "\""
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data += ']}'
return data
elif method == 'getDeterministicAddress':
if len(params) != 3:
return 'API Error 0000: I need exactly 3 parameters.'
passphrase, addressVersionNumber, streamNumber = params
numberOfAddresses = 1
eighteenByteRipe = False
if len(passphrase) == 0:
return 'API Error 0001: The specified passphrase is blank.'
passphrase = passphrase.decode('base64')
if addressVersionNumber != 3:
return 'API Error 0002: The address version number currently must be 3. ' + addressVersionNumber + ' isn\'t supported.'
if streamNumber != 1:
return 'API Error 0003: The stream number must be 1. Others aren\'t supported.'
apiAddressGeneratorReturnQueue.queue.clear()
print 'Requesting that the addressGenerator create', numberOfAddresses, 'addresses.'
shared.addressGeneratorQueue.put(
('getDeterministicAddress', addressVersionNumber,
streamNumber, 'unused API address', numberOfAddresses, passphrase, eighteenByteRipe))
return apiAddressGeneratorReturnQueue.get()
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elif method == 'getAllInboxMessages':
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT msgid, toaddress, fromaddress, subject, received, message, encodingtype FROM inbox where folder='inbox' ORDER BY received''')
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shared.sqlSubmitQueue.put('')
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
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data = '{"inboxMessages":['
for row in queryreturn:
msgid, toAddress, fromAddress, subject, received, message, encodingtype = row
subject = shared.fixPotentiallyInvalidUTF8Data(subject)
message = shared.fixPotentiallyInvalidUTF8Data(message)
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if len(data) > 25:
data += ','
data += json.dumps({'msgid': msgid.encode('hex'), 'toAddress': toAddress, 'fromAddress': fromAddress, 'subject': subject.encode(
'base64'), 'message': message.encode('base64'), 'encodingType': encodingtype, 'receivedTime': received}, indent=4, separators=(',', ': '))
2013-03-19 18:32:37 +01:00
data += ']}'
return data
elif method == 'getInboxMessageById':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
msgid = params[0].decode('hex')
v = (msgid,)
shared.sqlLock.acquire()
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shared.sqlSubmitQueue.put('''SELECT msgid, toaddress, fromaddress, subject, received, message, encodingtype FROM inbox WHERE msgid=?''')
shared.sqlSubmitQueue.put(v)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
data = '{"inboxMessage":['
for row in queryreturn:
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msgid, toAddress, fromAddress, subject, received, message, encodingtype = row
subject = shared.fixPotentiallyInvalidUTF8Data(subject)
message = shared.fixPotentiallyInvalidUTF8Data(message)
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data += json.dumps({'msgid':msgid.encode('hex'),'toAddress':toAddress,'fromAddress':fromAddress,'subject':subject.encode('base64'),'message':message.encode('base64'),'encodingType':encodingtype,'receivedTime':received},indent=4, separators=(',', ': '))
data += ']}'
return data
elif method == 'getAllSentMessages':
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''SELECT msgid, toaddress, fromaddress, subject, lastactiontime, message, encodingtype, status, ackdata FROM sent where folder='sent' ORDER BY lastactiontime''')
shared.sqlSubmitQueue.put('')
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
data = '{"sentMessages":['
for row in queryreturn:
msgid, toAddress, fromAddress, subject, lastactiontime, message, encodingtype, status, ackdata = row
2013-06-20 13:51:02 +02:00
subject = shared.fixPotentiallyInvalidUTF8Data(subject)
message = shared.fixPotentiallyInvalidUTF8Data(message)
if len(data) > 25:
data += ','
data += json.dumps({'msgid':msgid.encode('hex'),'toAddress':toAddress,'fromAddress':fromAddress,'subject':subject.encode('base64'),'message':message.encode('base64'),'encodingType':encodingtype,'lastActionTime':lastactiontime,'status':status,'ackData':ackdata.encode('hex')},indent=4, separators=(',', ': '))
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data += ']}'
return data
elif method == 'getInboxMessagesByAddress':
toAddress = params[0]
v = (toAddress,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''SELECT msgid, toaddress, fromaddress, subject, received, message, encodingtype FROM inbox WHERE toAddress=?''')
shared.sqlSubmitQueue.put(v)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
data = '{"inboxMessages":['
for row in queryreturn:
msgid, toAddress, fromAddress, subject, received, message, encodingtype= row
subject = shared.fixPotentiallyInvalidUTF8Data(subject)
message = shared.fixPotentiallyInvalidUTF8Data(message)
if len(data) > 25:
data += ','
data += json.dumps({'msgid':msgid.encode('hex'),'toAddress':toAddress,'fromAddress':fromAddress,'subject':subject.encode('base64'),'message':message.encode('base64'),'encodingType':encodingtype,'received':received},indent=4, separators=(',', ': '))
data += ']}'
return data
elif method == 'getSentMessageById':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
msgid = params[0].decode('hex')
v = (msgid,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''SELECT msgid, toaddress, fromaddress, subject, lastactiontime, message, encodingtype, status, ackdata FROM sent WHERE msgid=?''')
shared.sqlSubmitQueue.put(v)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
data = '{"sentMessage":['
for row in queryreturn:
msgid, toAddress, fromAddress, subject, lastactiontime, message, encodingtype, status, ackdata = row
subject = shared.fixPotentiallyInvalidUTF8Data(subject)
message = shared.fixPotentiallyInvalidUTF8Data(message)
data += json.dumps({'msgid':msgid.encode('hex'),'toAddress':toAddress,'fromAddress':fromAddress,'subject':subject.encode('base64'),'message':message.encode('base64'),'encodingType':encodingtype,'lastActionTime':lastactiontime,'status':status,'ackData':ackdata.encode('hex')},indent=4, separators=(',', ': '))
data += ']}'
return data
elif method == 'getSentMessageByAckData':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
ackData = params[0].decode('hex')
v = (ackData,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''SELECT msgid, toaddress, fromaddress, subject, lastactiontime, message, encodingtype, status, ackdata FROM sent WHERE ackdata=?''')
shared.sqlSubmitQueue.put(v)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
data = '{"sentMessage":['
for row in queryreturn:
msgid, toAddress, fromAddress, subject, lastactiontime, message, encodingtype, status, ackdata = row
subject = shared.fixPotentiallyInvalidUTF8Data(subject)
message = shared.fixPotentiallyInvalidUTF8Data(message)
data += json.dumps({'msgid':msgid.encode('hex'),'toAddress':toAddress,'fromAddress':fromAddress,'subject':subject.encode('base64'),'message':message.encode('base64'),'encodingType':encodingtype,'lastActionTime':lastactiontime,'status':status,'ackData':ackdata.encode('hex')},indent=4, separators=(',', ': '))
data += ']}'
return data
elif (method == 'trashMessage') or (method == 'trashInboxMessage'):
if len(params) == 0:
return 'API Error 0000: I need parameters!'
2013-03-19 18:32:37 +01:00
msgid = params[0].decode('hex')
helper_inbox.trash(msgid)
return 'Trashed inbox message (assuming message existed).'
elif method == 'trashSentMessage':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
msgid = params[0].decode('hex')
t = (msgid,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put('''UPDATE sent SET folder='trash' WHERE msgid=?''')
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
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#shared.UISignalQueue.put(('removeSentRowByMsgid',msgid)) This function doesn't exist yet.
return 'Trashed sent message (assuming message existed).'
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elif method == 'sendMessage':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
elif len(params) == 4:
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toAddress, fromAddress, subject, message = params
encodingType = 2
elif len(params) == 5:
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toAddress, fromAddress, subject, message, encodingType = params
if encodingType != 2:
return 'API Error 0006: The encoding type must be 2 because that is the only one this program currently supports.'
2013-03-19 18:32:37 +01:00
subject = subject.decode('base64')
message = message.decode('base64')
status, addressVersionNumber, streamNumber, toRipe = decodeAddress(
toAddress)
if status != 'success':
2013-05-02 17:53:54 +02:00
shared.printLock.acquire()
print 'API Error 0007: Could not decode address:', toAddress, ':', status
2013-05-02 17:53:54 +02:00
shared.printLock.release()
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if status == 'checksumfailed':
return 'API Error 0008: Checksum failed for address: ' + toAddress
2013-03-19 18:32:37 +01:00
if status == 'invalidcharacters':
return 'API Error 0009: Invalid characters in address: ' + toAddress
2013-03-19 18:32:37 +01:00
if status == 'versiontoohigh':
return 'API Error 0010: Address version number too high (or zero) in address: ' + toAddress
return 'API Error 0007: Could not decode address: ' + toAddress + ' : ' + status
2013-05-02 18:47:43 +02:00
if addressVersionNumber < 2 or addressVersionNumber > 3:
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return 'API Error 0011: The address version number currently must be 2 or 3. Others aren\'t supported. Check the toAddress.'
2013-03-19 18:32:37 +01:00
if streamNumber != 1:
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return 'API Error 0012: The stream number must be 1. Others aren\'t supported. Check the toAddress.'
status, addressVersionNumber, streamNumber, fromRipe = decodeAddress(
fromAddress)
if status != 'success':
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shared.printLock.acquire()
print 'API Error 0007: Could not decode address:', fromAddress, ':', status
2013-05-02 17:53:54 +02:00
shared.printLock.release()
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if status == 'checksumfailed':
return 'API Error 0008: Checksum failed for address: ' + fromAddress
2013-03-19 18:32:37 +01:00
if status == 'invalidcharacters':
return 'API Error 0009: Invalid characters in address: ' + fromAddress
2013-03-19 18:32:37 +01:00
if status == 'versiontoohigh':
return 'API Error 0010: Address version number too high (or zero) in address: ' + fromAddress
return 'API Error 0007: Could not decode address: ' + fromAddress + ' : ' + status
2013-05-02 18:47:43 +02:00
if addressVersionNumber < 2 or addressVersionNumber > 3:
2013-05-03 23:26:29 +02:00
return 'API Error 0011: The address version number currently must be 2 or 3. Others aren\'t supported. Check the fromAddress.'
2013-03-19 18:32:37 +01:00
if streamNumber != 1:
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return 'API Error 0012: The stream number must be 1. Others aren\'t supported. Check the fromAddress.'
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toAddress = addBMIfNotPresent(toAddress)
fromAddress = addBMIfNotPresent(fromAddress)
try:
fromAddressEnabled = shared.config.getboolean(
fromAddress, 'enabled')
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except:
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return 'API Error 0013: Could not find your fromAddress in the keys.dat file.'
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if not fromAddressEnabled:
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return 'API Error 0014: Your fromAddress is disabled. Cannot send.'
2013-03-19 18:32:37 +01:00
ackdata = OpenSSL.rand(32)
t = ('', toAddress, toRipe, fromAddress, subject, message, ackdata, int(
time.time()), 'msgqueued', 1, 1, 'sent', 2)
helper_sent.insert(t)
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toLabel = ''
t = (toAddress,)
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shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''select label from addressbook where address=?''')
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shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn != []:
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for row in queryreturn:
toLabel, = row
# apiSignalQueue.put(('displayNewSentMessage',(toAddress,toLabel,fromAddress,subject,message,ackdata)))
shared.UISignalQueue.put(('displayNewSentMessage', (
toAddress, toLabel, fromAddress, subject, message, ackdata)))
shared.workerQueue.put(('sendmessage', toAddress))
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return ackdata.encode('hex')
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elif method == 'sendBroadcast':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
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if len(params) == 3:
fromAddress, subject, message = params
encodingType = 2
elif len(params) == 4:
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fromAddress, subject, message, encodingType = params
if encodingType != 2:
return 'API Error 0006: The encoding type must be 2 because that is the only one this program currently supports.'
2013-03-19 18:32:37 +01:00
subject = subject.decode('base64')
message = message.decode('base64')
status, addressVersionNumber, streamNumber, fromRipe = decodeAddress(
fromAddress)
if status != 'success':
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shared.printLock.acquire()
print 'API Error 0007: Could not decode address:', fromAddress, ':', status
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shared.printLock.release()
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if status == 'checksumfailed':
return 'API Error 0008: Checksum failed for address: ' + fromAddress
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if status == 'invalidcharacters':
return 'API Error 0009: Invalid characters in address: ' + fromAddress
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if status == 'versiontoohigh':
return 'API Error 0010: Address version number too high (or zero) in address: ' + fromAddress
return 'API Error 0007: Could not decode address: ' + fromAddress + ' : ' + status
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if addressVersionNumber < 2 or addressVersionNumber > 3:
return 'API Error 0011: the address version number currently must be 2 or 3. Others aren\'t supported. Check the fromAddress.'
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if streamNumber != 1:
return 'API Error 0012: the stream number must be 1. Others aren\'t supported. Check the fromAddress.'
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fromAddress = addBMIfNotPresent(fromAddress)
try:
fromAddressEnabled = shared.config.getboolean(
fromAddress, 'enabled')
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except:
return 'API Error 0013: could not find your fromAddress in the keys.dat file.'
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ackdata = OpenSSL.rand(32)
toAddress = '[Broadcast subscribers]'
ripe = ''
t = ('', toAddress, ripe, fromAddress, subject, message, ackdata, int(
time.time()), 'broadcastqueued', 1, 1, 'sent', 2)
helper_sent.insert(t)
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toLabel = '[Broadcast subscribers]'
shared.UISignalQueue.put(('displayNewSentMessage', (
toAddress, toLabel, fromAddress, subject, message, ackdata)))
shared.workerQueue.put(('sendbroadcast', ''))
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return ackdata.encode('hex')
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elif method == 'getStatus':
if len(params) != 1:
return 'API Error 0000: I need one parameter!'
ackdata, = params
if len(ackdata) != 64:
return 'API Error 0015: The length of ackData should be 32 bytes (encoded in hex thus 64 characters).'
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''SELECT status FROM sent where ackdata=?''')
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shared.sqlSubmitQueue.put((ackdata.decode('hex'),))
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn == []:
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return 'notfound'
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for row in queryreturn:
status, = row
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return status
elif method == 'addSubscription':
if len(params) == 0:
return 'API Error 0000: I need parameters!'
if len(params) == 1:
address, = params
label == ''
if len(params) == 2:
address, label = params
label = label.decode('base64')
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try:
unicode(label, 'utf-8')
except:
return 'API Error 0017: Label is not valid UTF-8 data.'
if len(params) > 2:
return 'API Error 0000: I need either 1 or 2 parameters!'
address = addBMIfNotPresent(address)
status, addressVersionNumber, streamNumber, toRipe = decodeAddress(
address)
if status != 'success':
shared.printLock.acquire()
print 'API Error 0007: Could not decode address:', address, ':', status
shared.printLock.release()
if status == 'checksumfailed':
return 'API Error 0008: Checksum failed for address: ' + address
if status == 'invalidcharacters':
return 'API Error 0009: Invalid characters in address: ' + address
if status == 'versiontoohigh':
return 'API Error 0010: Address version number too high (or zero) in address: ' + address
return 'API Error 0007: Could not decode address: ' + address + ' : ' + status
if addressVersionNumber < 2 or addressVersionNumber > 3:
return 'API Error 0011: The address version number currently must be 2 or 3. Others aren\'t supported.'
if streamNumber != 1:
return 'API Error 0012: The stream number must be 1. Others aren\'t supported.'
# First we must check to see if the address is already in the
# subscriptions list.
shared.sqlLock.acquire()
t = (address,)
shared.sqlSubmitQueue.put(
'''select * from subscriptions where address=?''')
shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlLock.release()
if queryreturn != []:
return 'API Error 0016: You are already subscribed to that address.'
t = (label, address, True)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''INSERT INTO subscriptions VALUES (?,?,?)''')
shared.sqlSubmitQueue.put(t)
queryreturn = shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.reloadBroadcastSendersForWhichImWatching()
shared.UISignalQueue.put(('rerenderInboxFromLabels', ''))
shared.UISignalQueue.put(('rerenderSubscriptions', ''))
return 'Added subscription.'
elif method == 'deleteSubscription':
if len(params) != 1:
return 'API Error 0000: I need 1 parameter!'
address, = params
address = addBMIfNotPresent(address)
t = (address,)
shared.sqlLock.acquire()
shared.sqlSubmitQueue.put(
'''DELETE FROM subscriptions WHERE address=?''')
shared.sqlSubmitQueue.put(t)
shared.sqlReturnQueue.get()
shared.sqlSubmitQueue.put('commit')
shared.sqlLock.release()
shared.reloadBroadcastSendersForWhichImWatching()
shared.UISignalQueue.put(('rerenderInboxFromLabels', ''))
shared.UISignalQueue.put(('rerenderSubscriptions', ''))
return 'Deleted subscription if it existed.'
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elif method == 'clientStatus':
return '{ "networkConnections" : "%s" }' % str(len(shared.connectedHostsList))
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else:
return 'Invalid Method: %s' % method
# This thread, of which there is only one, runs the API.
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class singleAPI(threading.Thread):
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def __init__(self):
threading.Thread.__init__(self)
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def run(self):
se = SimpleXMLRPCServer((shared.config.get('bitmessagesettings', 'apiinterface'), shared.config.getint(
'bitmessagesettings', 'apiport')), MySimpleXMLRPCRequestHandler, True, True)
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se.register_introspection_functions()
se.serve_forever()
# This is used so that the _translate function can be used when we are in daemon mode and not using any QT functions.
class translateClass:
def __init__(self, context, text):
self.context = context
self.text = text
def arg(self,argument):
if '%' in self.text:
return translateClass(self.context, self.text.replace('%','',1)) # This doesn't actually do anything with the arguments because we don't have a UI in which to display this information anyway.
else:
return self.text
selfInitiatedConnections = {}
# This is a list of current connections (the thread pointers at least)
alreadyAttemptedConnectionsList = {
} # This is a list of nodes to which we have already attempted a connection
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ackdataForWhichImWatching = {}
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alreadyAttemptedConnectionsListLock = threading.Lock()
eightBytesOfRandomDataUsedToDetectConnectionsToSelf = pack(
'>Q', random.randrange(1, 18446744073709551615))
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neededPubkeys = {}
successfullyDecryptMessageTimings = [
] # A list of the amounts of time it took to successfully decrypt msg messages
apiAddressGeneratorReturnQueue = Queue.Queue(
) # The address generator thread uses this queue to get information back to the API thread.
alreadyAttemptedConnectionsListResetTime = int(
time.time()) # used to clear out the alreadyAttemptedConnectionsList periodically so that we will retry connecting to hosts to which we have already tried to connect.
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numberOfObjectsThatWeHaveYetToCheckAndSeeWhetherWeAlreadyHavePerPeer = {}
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if useVeryEasyProofOfWorkForTesting:
shared.networkDefaultProofOfWorkNonceTrialsPerByte = int(
shared.networkDefaultProofOfWorkNonceTrialsPerByte / 16)
shared.networkDefaultPayloadLengthExtraBytes = int(
shared.networkDefaultPayloadLengthExtraBytes / 7000)
2013-01-18 23:38:09 +01:00
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if __name__ == "__main__":
# is the application already running? If yes then exit.
thisapp = singleton.singleinstance()
signal.signal(signal.SIGINT, helper_generic.signal_handler)
# signal.signal(signal.SIGINT, signal.SIG_DFL)
# Check the Major version, the first element in the array
if sqlite3.sqlite_version_info[0] < 3:
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print 'This program requires sqlite version 3 or higher because 2 and lower cannot store NULL values. I see version:', sqlite3.sqlite_version_info
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os._exit(0)
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helper_startup.loadConfig()
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helper_bootstrap.knownNodes()
helper_bootstrap.dns()
# Start the address generation thread
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addressGeneratorThread = addressGenerator()
addressGeneratorThread.daemon = True # close the main program even if there are threads left
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addressGeneratorThread.start()
# Start the thread that calculates POWs
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singleWorkerThread = singleWorker()
singleWorkerThread.daemon = True # close the main program even if there are threads left
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singleWorkerThread.start()
# Start the SQL thread
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sqlLookup = sqlThread()
sqlLookup.daemon = False # DON'T close the main program even if there are threads left. The closeEvent should command this thread to exit gracefully.
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sqlLookup.start()
# Start the cleanerThread
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singleCleanerThread = singleCleaner()
singleCleanerThread.daemon = True # close the main program even if there are threads left
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singleCleanerThread.start()
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shared.reloadMyAddressHashes()
shared.reloadBroadcastSendersForWhichImWatching()
if shared.safeConfigGetBoolean('bitmessagesettings', 'apienabled'):
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try:
apiNotifyPath = shared.config.get(
'bitmessagesettings', 'apinotifypath')
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except:
apiNotifyPath = ''
if apiNotifyPath != '':
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shared.printLock.acquire()
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print 'Trying to call', apiNotifyPath
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shared.printLock.release()
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call([apiNotifyPath, "startingUp"])
singleAPIThread = singleAPI()
singleAPIThread.daemon = True # close the main program even if there are threads left
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singleAPIThread.start()
# self.singleAPISignalHandlerThread = singleAPISignalHandler()
# self.singleAPISignalHandlerThread.start()
# QtCore.QObject.connect(self.singleAPISignalHandlerThread, QtCore.SIGNAL("updateStatusBar(PyQt_PyObject)"), self.updateStatusBar)
# QtCore.QObject.connect(self.singleAPISignalHandlerThread, QtCore.SIGNAL("passAddressGeneratorObjectThrough(PyQt_PyObject)"), self.connectObjectToAddressGeneratorSignals)
# QtCore.QObject.connect(self.singleAPISignalHandlerThread,
# QtCore.SIGNAL("displayNewSentMessage(PyQt_PyObject,PyQt_PyObject,PyQt_PyObject,PyQt_PyObject,PyQt_PyObject,PyQt_PyObject)"),
# self.displayNewSentMessage)
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connectToStream(1)
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singleListenerThread = singleListener()
singleListenerThread.daemon = True # close the main program even if there are threads left
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singleListenerThread.start()
if not shared.safeConfigGetBoolean('bitmessagesettings', 'daemon'):
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try:
from PyQt4 import QtCore, QtGui
except Exception as err:
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print 'PyBitmessage requires PyQt unless you want to run it as a daemon and interact with it using the API. You can download PyQt from http://www.riverbankcomputing.com/software/pyqt/download or by searching Google for \'PyQt Download\'. If you want to run in daemon mode, see https://bitmessage.org/wiki/Daemon'
print 'Error message:', err
os._exit(0)
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import bitmessageqt
bitmessageqt.run()
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else:
shared.printLock.acquire()
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print 'Running as a daemon. You can use Ctrl+C to exit.'
shared.printLock.release()
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while True:
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time.sleep(20)
def _translate(context, text):
return translateText(context, text)
def translateText(context, text):
if not shared.safeConfigGetBoolean('bitmessagesettings', 'daemon'):
try:
from PyQt4 import QtCore, QtGui
except Exception as err:
print 'PyBitmessage requires PyQt unless you want to run it as a daemon and interact with it using the API. You can download PyQt from http://www.riverbankcomputing.com/software/pyqt/download or by searching Google for \'PyQt Download\'. If you want to run in daemon mode, see https://bitmessage.org/wiki/Daemon'
print 'Error message:', err
os._exit(0)
return QtGui.QApplication.translate(context, text)
else:
if '%' in text:
return translateClass(context, text.replace('%','',1))
else:
return text
# So far, the creation of and management of the Bitmessage protocol and this
# client is a one-man operation. Bitcoin tips are quite appreciated.
# 1H5XaDA6fYENLbknwZyjiYXYPQaFjjLX2u