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A tshark interface for MATLAB for analyzing and capturing packets.

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pcap2matlab

pcap2matlab brings the TShark network protocol analyzer capabilities to MATLAB. This allows performing live packet captures as well as analyses of saved capture files (*.pcap, *.pcapng etc.), inside MATLAB.

The function is based on the TShark network protocol analyzer and can operate in two modes:

  1. Capture mode in which it starts listening on the requested network interface, capturing packets based on some predefined criteria (i.e. filter) and outputs the relevant packet fields based on the decodeas and dissector input arguments.
  2. Read mode in which it reads an already existing packet capture ("pcap") file, extracts and dissects packets based on some predefined criteria (i.e. filter) and output the relevant packet fields based on the decodeas and dissector input arguments.

The function currently supports Windows 32/64-bit as well as Linux 32/64-bit platforms. Other platforms may be easily added in the future.

Usage

pcap2matlab(filter, decodeas_and_dissector,filename_or_interface, capture_stop_criteria)

Inputs:

  • filter – A TShark format capture filter argument (TShark -f flag like 'net 10.10.10.4 and src port 12001') or a display filter argument (TShark -Y flag like 'ip.src==10.10.10.4 and udp.srcport==12001'), depending on the selected mode of operation (i.e. capture or read). For more information see the Wireshark wiki articles on Capture Filters and Display Filters.

  • decodeas_and_dissector – One of two types:

    1) A MATLAB structure whose field names are the requested packet field names to extract where the content of each field of this structure comprises the byte/bits offsets to capture for this specific field. The content of the structure may be in one of the following forms:

    (a): A MATLAB decimal vector specifying the byte offsets to capture. For example:

    decodeas_and_dissector.sn = [43 44 45 46]
    decodeas_and_dissector.timestamp: [47:54]
    

    will instruct the function to capture 2 fields named "sn" and "timestamp" with byte offsets 43-46 and 47-54 respectively. The offset is calculated from the very first byte (offset 0) of the packet including the layer 2 portion (starting from the MAC destination address in the case of an ethernet frame). The returned value will be a decimal number having the value of these aggregated byte offsets.

    (b): A string comprising the offset bytes to capture in hexadecimal representation. For example:

    decodeas_and_dissector.sn = '43:46'
    decodeas_and_dissector.timestamp: '47:54'
    

    will instruct the function to capture 2 fields named "sn" and "timestamp" with byte offsets 43-46 and 47-54 respectively. The returned value will be a string comprising the entire content of these byte offsets (if only a single byte offset is required, the colon can be omitted, e.g. decodeas_and_dissector.sn = '43').

    (c): Same as (b) with an additional '/' character followed by a specific BIT offsets to be extracted from the specified byte offsets (specified before the '/'). For example, the dissector lines:

    decodeas_and_dissector.firstflag = '43/0:1'
    decodeas_and_dissector.secondflag = '45/6'
    

    will instruct the function to capture MSB bits 0:1 from byte offset 43 in the 'firstflag' field and bit 6 from byte offset 45 in the 'secondflag' field. The returned value is a decimal number having the value of the extracted bits.

    2) A cell vector of strings comprising the TShark decodeas expression (TShark -d flag) (not mandatory, but if required it must appear first) as well as additional TShark dissector expressions (TShark -e flag). Each dissector expression results in a matching field in the output struct. For example: the cell of strings {'tcp.port==8888,http';'frame.number';'frame.time';'tcp.length';'tcp.srcport'} will instruct the function to decode packets captured from TCP port 8888 as http.Then, 4 fields will be extracted from each captured packet: frame.number, frame.time, tcp.length and tcp.srcport and written to the output struct:

capture =

1x97 struct array with fields:

    framenumber
    frametime
    tcplength
    tcpsrcport
  • filename_or_interface – Can be one of two things:
  1. An integer that identifies the network interface from which to start capturing (TShark -i flag). Setting this input argument to an integer (as opposed to a string) will automatically set the function to work in capture mode.
  2. A filename string that identifies the pcap file to read. Setting this input argument to a filename string (as opposed to an integer) will automatically set the function to work in read mode.
  • capture_stop_criteriaRelevant to capture mode only (should not be assigned when working in read mode). Sets the "capture stop" criteria (TShark -a or -c flags). This input argument can be one of the following:
    1. An integer that prescribes the total number of packets to capture (TShark -c flag).
    2. A string that identifies the capture stop criteria (TShark -a flag).
    3. A cell array containing several capture stop criteria. For example, {'duration:10',100} will stop capturing after 10 sec or 100 packets, whichever comes first.

Outputs:

The output is a MATLAB struct containing one row for each captured packet, where the fields of the struct contain the results of packet dissection, according to the fields requested in the input arguments.

Examples:

An example of parsing a GVSP (GigE Vision Stream Protocol) capture is shown in pcap2matlab_example.m. Before running the example, please make sure that:

  1. Wireshark v2.0.0 or above installed (for it to be able to recognize the gvsp protocol).
  2. The folder containing the TShark binary (i.e. tshark.exe; e.g. C:\Program Files\Wireshark) is added to your system PATH.

Testing environment:

The code that was added after release 1.03 was developed and tested on Windows 10 + MATLAB R2016a.


Related projects:

  • sharktools - a set of tools written in C that are built using the Wireshark sources resulting in MEX files. For Mac / Linux only!

Contributors, 3rd party code, and licenses:

  • Jake Hughey for the included library "Nested sort of structure arrays" (BSD License).
  • Alon Geva (v <= 1.03) (BSD License).
  • Dev-iL (v > 1.03) (BSD License).

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A tshark interface for MATLAB for analyzing and capturing packets.

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