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The Objective

I'm trying to achieve the following:

  • capture network traffic containing a conversation in the FIX protocol
  • extract the individual FIX messages from the network traffic into a "nice" format, e.g. CSV
  • do some data analysis on the exported "nice" format data

I have achieved this by:

  • using pcap to capture the network traffic
  • using tshark to print the relevant data as a CSV
  • using Python (pandas) to analyse the data

The Problem

The problem is that some of the captured TCP packets contain more than one FIX message, which means that when I do the export to CSV using tshark I don't get a FIX message per line. This makes consuming the CSV difficult.

This is the tshark commandline I'm using to extract the relevant FIX fields as CSV is:

tshark -r dump.pcap \
-R \'(fix.MsgType[0]=="G" or fix.MsgType[0]=="D" or fix.MsgType[0]=="8" or \ fix.MsgType[0]=="F") and fix.ClOrdID != "0"\' \ 
-Tfields -Eseparator=, -Eoccurrence=l -e frame.time_relative \
-e fix.MsgType -e fix.SenderCompID \
-e fix.SenderSubID -e fix.Symbol -e fix.Side \
-e fix.Price -e fix.OrderQty -e fix.ClOrdID \
-e fix.OrderID -e fix.OrdStatus'

Note that I'm currently using "-Eoccurrence=l" to get just the last occurrence of a named field in the case where there is more than one occurrence of a field in the packet. This is not an acceptable solution as information will get thrown away when there are multiple FIX messages in a packet.

This is what I expect to see per line in the exported CSV file (fields from one FIX message):

16.508949000,D,XXX,XXX,YTZ2,2,97480,34,646427,,

This is what I see when there is more than one FIX message (three is this case) in a TCP packet and the commandline flag "-Eoccurrence=a" is used:

16.515886000,F,F,G,XXX,XXX,XXX,XXX,XXX,XXX,XTZ2,2,97015,22,646429,646430,646431,323180,323175,301151,

The Question

Is there a way (not necessarily using tshark) to extract each individual, protocol specific message from a pcap file?

share|improve this question
    
One opinion though, the last field in the FIX message is guaranteed to be checksum (10=some number). Why don't you break your message boundaries on this tag, while read/write of FIX messages. As FIX messages aren't going to be of same length the TCP packets will surely vary, and you cannot set a fixed packet size to read FIX messages, because of this. –  DumbCoder Dec 11 '12 at 21:54
    
I don't have control over the writing of the FIX messages to the network in this case, so cannot force one FIX message per packet. I also don't read the FIX directly from the network either. The reason I'm looking at the FIX is for performance analysis. I ended up using "|8=FIX" to indicate the beginning of the second or later FIX messages in the TCP payload (see my solution below). –  commander.trout Dec 12 '12 at 21:58

1 Answer 1

up vote 1 down vote accepted

I'm using Scapy (see also Scapy Documentation, The Very Unofficial Dummies Guide to Scapy) to read in a pcap file and extract each individual FIX message from the packets.

Below is the basis of the code I'm using:

from scapy.all import *

def ExtractFIX(pcap):
    """A generator that iterates over the packets in a scapy pcap iterable
and extracts the FIX messages.
In the case where there are multiple FIX messages in one packet, yield each
FIX message individually."""
    for packet in pcap:
        if packet.haslayer('Raw'):
            # Only consider TCP packets which contain raw data.
            load = packet.getlayer('Raw').load

            # Ignore raw data that doesn't contain FIX.
            if not 'FIX' in load:
                continue

            # Replace \x01 with '|'.
            load = re.sub(r'\x01', '|', load)

            # Split out each individual FIX message in the packet by putting a 
            # ';' between them and then using split(';').
            for subMessage in re.sub(r'\|8=FIX', '|;8=FIX', load).split(';'):
                # Yield each sub message. More often than not, there will only be one.
                assert subMessage[-1:] == '|'
                yield subMessage
        else:
            continue

pcap = rdpcap('dump.pcap')
for fixMessage in ExtractFIX(pcap):
    print fixMessage        

I would still like to be able to get other information from the "frame" layer of the network packet, in particular the relative (or reference) time. Unfortunately, this doesn't seem to be available from the Scapy packet object - it's topmost layer is the Ether layer as shown below.

In [229]: pcap[0]
Out[229]: <Ether  dst=00:0f:53:08:14:81 src=24:b6:fd:cd:d5:f7 type=0x800 |<IP  version=4L ihl=5L tos=0x0 len=215 id=16214 flags=DF frag=0L ttl=128 proto=tcp chksum=0xa53d src=10.129.0.25 dst=10.129.0.115 options=[] |<TCP  sport=2634 dport=54611 seq=3296969378 ack=2383325407 dataofs=8L reserved=0L flags=PA window=65319 chksum=0x4b73 urgptr=0 options=[('NOP', None), ('NOP', None), ('Timestamp', (581177, 2013197542))] |<Raw  load='8=FIX.4.0\x019=0139\x0135=U\x0149=XXX\x0134=110169\x015006=20\x0150=XXX\x0143=N\x0152=20121210-00:12:13\x01122=20121210-00:12:13\x015001=6\x01100=SFE\x0155=AP\x015009=F3\x015022=45810\x015023=3\x015057=2\x0110=232\x01' |>>>>
In [245]: pcap[0].summary()
Out[245]: 'Ether / IP / TCP 10.129.0.25:2634 > 10.129.0.115:54611 PA / Raw'
share|improve this answer
    
It seems that scapy.packet.time() probably gives me what I want. Wireshark shows a [Time since reference or first frame: 77.326326000 seconds] field in section called "Frame" which looks like a layer above the Ether layer. I think this is just extra data that Wireshark generates rather than actually being data present in the packet. –  commander.trout Dec 12 '12 at 4:53

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