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I've got a python (3.1 if that matters) application that pickles data for another process to consume, and exchange them over network connections. For some reason, some exchange are unexpectedly large ... I can make sense of some of the pickled data and figure out what's transmitted, but there remain a large blob of apparently binary data which I fail to explain to myself, such as redundant strings or large chunk of binary data.

Do you know whether there is a wireshark plugin that could assist me with that task, or another process you'd recommend to someone trying to figure out what more should have been =None'd before the object is transmitted over the connection ?

RouteDirect
q.).q.}q.(X...._RouteDirect__dst_nodeq.cnode
Node
q.).q.}q.(X...._Node__status_upq.NX...._Node__neighbourhoodq.NX...._Node__sendq.NX
..._Node__cpeq
cequation
CPE
q.).q.}q^M(X...._CPE__dim_countq.}q.X...._CPE__internal_nodesq.]q.ubX...._Node__major_stateq.NX...._Node__partition_idq.G?.$:..4.    X...._Node__name_idq.cnodeid
NameID
q.).q.}q.X^M..._NameID__nameq.X....checkq.sbX...._Node__dispatcherq.NX...._Node__pendingq.]q.cmessages

^ I can make sense of that: RouteDirect, CPE and NameID are classes in my program.

v I'm more surprised about this: there shouldn't be that much "plain binary" data in the exchange, although Iproto, Tflags, Isrc and Idst are strings contained within those data

 q0).q1}q2(X...._Range__maxq3X....1f40q4X...._Range__min_includedq5.X...._Range__max_includedq6.X...._
 Range__minq7h4ubX...._Component__dimensionq8h'ubh&).q9}q:h)X....Tflagsq;sbh+).q<}q=(h..h/h0).q>}q?            
 (h3X....02q@h5.h6.h7h@ubh8h9ubh&).qA}qBh)X....IprotoqCsbh+).qD}qE(h..h/h0).qF}qG(h3X...

 .06qHh5.h6.h7hHubh8hAubh&).qI}qJh)X....IsrcqKsbh+).qL}qM(h..h/h0).qN}qO(h3X....7d59d8faqPh5.h6.
 h7hPubh8hIubh&).qQ}qRh)X....IdstqS    
 sbh+).qT}qU(h..h/h0).qV}qW(h3X....00001011qXh5.h6.h7hXubh8hQubh&).qY}qZh)X....Tsrcq[sbh+).q\}q]         
 (h..h/h0).q^}q_(h3X....0bcfq`h5.h6.h7h`ubh8hYubusbX....

v and this is really perplexing.

qt).qu}qv(X...._LookupRequest__keyqwh!).qx}qyh$}qz(h&).q{}q|h)h*sbh+).q}}q~(h..h/h0).q.}q.
(h3h4h5.h6.h7h4ubh8h{ubh&).q.}q.h)h;sbh+).q.}q.(h..h/h0).q.}q.(h3h@h5.h6.h7h@ubh8h.ubh&).q.}q.h)hCsbh+).q.}q.(h..h/h0).q.}q.
(h3hHh5.h6.h7hHubh8h.ubh&).q.}q.h)hKsbh+).q.}q.(h..h/h0).q.}q.(h3hPh5.h6.h7hPubh8h.ubh&).q.}q.h)hSsbh+).q.}q.(h..h/h0).q.}q.
(h3hXh5.h6.h7hXubh8h.ubh&).q.}q.h)h[sbh+).q.}q.(h..h/h0).q.}q.
(h3h`h5.h6.h7h`ubh8h.ubusbX...._LookupRequest__nonceq.G?...u...X...._LookupRequest__fromq.h.).q.}q.(h.Nh.Nh.Nh
h.).q.}q.(h.}q.

What puzzle me the most is that it seems too regular to be e.g. mere floats/ints in binary. It has some affinity for numbers and [shub] and lot of 'isolated' q's ... which reminds me more of machine code. or is it just my eyes ?

example of pickling support in the Node class, # # Define special pickling behaviour.

def __getstate__(self):
    """Indicate witch fields should be pickled."""
    state = copy.copy(self.__dict__)

    # 'state' is a shallow copy: don't modify objects' content
    # Make transients fields point to nothing
    state['_Node__dispatcher'] = None
    state['_Node__send'] = None
    state['_Node__neighbourhood'] = None
    state['_Node__status_up'] = None
    state['_Node__data_store'] = None
    state['_Node__running_op'] = None
    state['_Node__major_state'] = None

    return state

Many other objects (e.g. CPE, RouteDirect) have no __getstate__ method. I'd love it if there was some technique that doesn't require me to crawl through all constructors of all classes, of course.

share|improve this question
    
How does your pickling code look like? –  eumiro Sep 11 '12 at 11:35
3  
Without your pickling and network code, it's harder to figure out what's going on. You could try saving your pickled data to file for debugging purposes. –  Evert Sep 11 '12 at 11:42
    
@Evert: true. I'm looking for guidance on "how could I assess why" more than the "why" itself, actually. –  sylvainulg Sep 11 '12 at 11:51
2  
I'd also save the data chunks until there is a large one which looks suspicious in the way you describe; then I'd unpickle that chunk in the interactive console and have a look at it (dir() etc.). I wouldn't be too surprised to find just some references to other objects than the main one. Ah, to find out what gets created during unpickling, I'd insert some debug output in the __init__s of all possible classes. –  Alfe Sep 11 '12 at 12:21
    
and since it's bytecode, it make sense that there's no automated analyzer in wireshark as you'd find for e.g. HTTP or SNMP ... –  sylvainulg Sep 12 '12 at 15:50
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1 Answer

up vote 1 down vote accepted

Ah, reading /usr/lib/python3.1/pickle.py code at least make one point less obscure: output of pickling is indeed some bytecode for some interpreter, with push/pop pairs that explains the regular patterns seen.

BINPUT         = b'q'   # store stack top in memo; index is 1-byte arg
BINGET         = b'h'   # push item from memo on stack; index is 1-byte arg
EMPTY_TUPLE    = b')'   # push empty tuple
MARK           = b'('   # push special markobject on stack

etc.

Following @Alfe's comment, I captured raw traffic using wireshark "follow TCP stream" and "save as ..." features, then used

x=pickle.load(open("wirecapture.bin","rb"))

and used Python evaluator to get a better understanding of what was there. Esp. using

len(pickle.dump(x.my_field))

for all fields reported by dir(x) allowed me to pin-point the over-sized field. Unfortunately, I couldn't get

for y in dir(x):
   print("%s: %iKb"%(y,len(pickle.dumps(x[y])/1024))

properly working (x[y] wasn't the valid way to extract x.my_field when y == 'my_field' >_< )

share|improve this answer
    
for p in vars(x).keys(): ... print("%s:%s"%(p,vars(x)[p])) will help for the next time ... –  sylvainulg Sep 12 '12 at 15:56
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