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I'm using an old thread to post new code which attempts to solve the same problem. What constitutes a secure pickle? this?

from socket import socket
from socket import AF_INET
from socket import SOCK_STREAM
from socket import gethostbyname
from socket import gethostname

class SocketServer:
  def __init__(self, port):
    self.sock = socket(AF_INET, SOCK_STREAM)
    self.port = port
  def listen(self, data):
    self.sock.bind(("", self.port))
    while data:
      s = self.sock.accept()[0]
      siz, dat = data.pop()

class Socket:
  def __init__(self, host, port):
    self.sock = socket(AF_INET, SOCK_STREAM)
    self.sock.connect((host, port))
  def recv(self, size):
    return self.sock.recv(size)

from marshal import dumps as marshal_dumps
from pickle import dumps as pickle_dumps
from struct import pack as struct_pack

class packer:
  def __init__(self):
    self.f = []
  def pack(self, what):
    if type(what) is type(lambda:None):
      self.f = []
      self.f = pickle_dumps(self.f)
      return (struct_pack('Q', len(self.f)), self.f)

from types import FunctionType
from pickle import loads as pickle_loads
from marshal import loads as marshal_loads
from struct import unpack as struct_unpack
from struct import calcsize


class unpacker:
  def __init__(self):
    self.f = []
    self.fcompiled = lambda:None
    self.sizeofsize = calcsize('Q')
  def unpack(self, sock):
    size = struct_unpack('Q', sock.recv(self.sizeofsize))[0]
    self.f = pickle_loads(sock.recv(size))
    a = marshal_loads(self.f[0])
    b = globals() ##
    c = pickle_loads(self.f[1])
    d = pickle_loads(self.f[2])
    e = pickle_loads(self.f[3])
    self.fcompiled = FunctionType(a, b, c, d, e)
    return self.fcompiled

from unpack import unpacker
from pack import packer
from sock import SocketServer
from sock import Socket
from threading import Thread
from time import sleep

count = 2
port = 4446

def f():
  print 42

def server():
  ss = SocketServer(port)
  pack = packer()
  functions = [pack.pack(f) for nothing in range(count)]

if __name__ == "__main__":
  unpack = unpacker()
  for nothing in range(count):
    print unpack.unpack(Socket("", port))


<function f at 0x12917d0>
<function f at 0x12915f0>
share|improve this question
could post some example code to test the scripts ? Thanks ! – msalvadores Jun 2 '11 at 10:19
You are very welcome! – Motoko Kusanagi Jun 2 '11 at 10:36
What line is the error thrown on? – Nick ODell Jun 3 '11 at 5:49
@Nick, eh... see edit – Motoko Kusanagi Jun 3 '11 at 6:13
Remember that any globals that the function use should be recreated at – Artur Gaspar Jun 4 '11 at 22:37

2 Answers 2

up vote 2 down vote accepted

ValueError: insecure string pickle is raised when your pickle is corrupted. Are you sure you are receiving the entire pickled object in one sock.recv() (

Edit: to avoid this for any size you could do (your Socket class would have to support recv to be called with an buffer size argument (i.e

 class Socket:
    def recv(self, bufsize):
        return self.sock.recv(bufsize)


import struct

struct.pack('Q', len(pickled_list))
# Send it, and then send the pickled list.

In the receiver program:

import struct

length = struct.unpack('Q', sock.recv(struct.calcsize('Q')))[0]
pickled_list = sock.recv(length)

'Q' is an unsigned long long. For other struct things see the struct module documentation

share|improve this answer
Thank you. The buffer size was too small. – Motoko Kusanagi Jun 4 '11 at 18:56
@Sean Pedersen See my edit. – Artur Gaspar Jun 4 '11 at 19:49

I don't think Process objects are designed to be sent over the network. Look at line 256 in multiprocessing/

# We subclass bytes to avoid accidental transmission of auth keys over network.

Sounds like there's a good reason to me. If you want to do distributed computing, maybe you should look into a library designed for that.

share|improve this answer
I can use native libraries only. My first choice would be circumnavigation of that security measure, as the implementation is using a private network. – Motoko Kusanagi Jun 3 '11 at 6:37
Looking over the docs, it seems that multiprocessing is a clone of threading but over different processes, in order to avoid global interpreter lock. I think your options are rolling your own distributed computing library, or convincing management of the importance of open source. ;) – Nick ODell Jun 3 '11 at 6:58

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