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Tool for reading/writing PCAPNG network packet capture files

Alan Thompson

Please see the IETF document PCAP Next Generation (pcapng) Capture File Format

Please also see the project home page on GitHub
and at PyPI - the Python Package Index

Quick Start

PCAPNG files must begin with a Section Header Block:

import pcapng.block
import pcapng.linktype
import pcapng.option

pcap_fp = open( 'data.pcapng', 'wb' );

shb_opts = [ pcapng.option.ShbHardware( "Dell" ),
             pcapng.option.ShbOs( "Ubuntu" ),
             pcapng.option.ShbUserAppl( "IntelliJ Idea" ) ]
shb_obj = pcapng.block.SectionHeaderBlock( shb_opts )
shb_packed_bytes = shb_obj.pack()
pcap_fp.write( shb_packed_bytes )  # must be 1st block

where the options list may be omitted for this or any other block type. After the SHB, one or more Interface Description Blocks may be included:

idb_opts = [ pcapng.option.IdbName( interface_name ),
             pcapng.option.IdbDescription( "primary interface on host" ),
             pcapng.option.IdbSpeed( 12345 ) ]
idb_obj = pcapng.block.InterfaceDescBlock( linktype.LINKTYPE_ETHERNET, idb_opts )  # optional block
pcap_fp.write( idb_obj.pack() )

After the SHB and any optional IDBs, one may include packet information as either Simple Packet Blocks or Enhanced Packet Blocks:

pkt_bytes = get_next_packet( socket_fd )
dbg_print( pkt_bytes )
pcap_fp.write( pcapng.block.SimplePacketBlock( pkt_bytes ).pack() )

pkt_bytes = get_next_packet( socket_fd )
dbg_print( pkt_bytes )

epb_opts = [ pcapng.option.EpbFlags(       [13,14,15,16] ),
             pcapng.option.EpbHash(        'just about any hash spec can go here' ),
             pcapng.option.EpbDropCount(   13 ) ]
pcap_fp.write( pcapng.block.EnhancedPacketBlock( 0, pkt_bytes, len(pkt_bytes), epb_opts ).pack() )

Blocks may also be serialized & deserialized in bulk, as seen in the unit tests:

def test_blocks_lst():
    blk_lst = [
        # SHB must be 1st block
        pcapng.block.SectionHeaderBlock( [ pcapng.option.ShbHardware( "Dell" ),
                                           pcapng.option.ShbOs( "Ubuntu" ),
                                           pcapng.option.ShbUserAppl( "IntelliJ Idea" ) ] ),
        pcapng.block.InterfaceDescBlock( linktype.LINKTYPE_ETHERNET,
                                        [ pcapng.option.IdbName( "Carrier Pigeon" ),
                                          pcapng.option.IdbDescription( "Something profound here..." ),
                                          pcapng.option.IdbIpv4Addr(     [192, 168, 13, 7], [255, 255, 255, 0] ),
                                          pcapng.option.IdbOs( 'Ubuntu Xenial 16.04.1 LTS' ) ] ),
        pcapng.block.SimplePacketBlock('abc'),
        pcapng.block.EnhancedPacketBlock( 0, "<<<Stand-in for actual packet data>>>"  ),
        pcapng.block.CustomBlockCopyable( pen.BROCADE_PEN, 'User-defined custom data' ),
    ]
    packed_bytes = pcapng.block.pack_all( blk_lst )

    if False:
        pcap_fp = open( 'block_list.pcapng', 'wb' )
        pcap_fp.write( packed_bytes )
        pcap_fp.close()

    util.assert_block32_length( packed_bytes )
    blk_lst_unpacked = pcapng.block.unpack_all( packed_bytes )
    assert blk_lst == blk_lst_unpacked

Installation

Install from the Python Package Index (PyPI):

sudo pip install pcapng

Environment

This project is designed to use pipenv, and is configured for Python 2.7

Testing

~/gh/pcapng > pipenv shell
Launching subshell in virtual environment…
 . /home/alan/.local/share/virtualenvs/pcapng-GhZ5R3T5/bin/activate

(pcapng) ~/gh/pcapng > python --version     # verify Python version
Python 2.7.18rc1

(pcapng) ~/gh/pcapng > pytest               # execute unit tests

================================== test session starts ==================================
platform linux2 -- Python 2.7.18rc1, pytest-4.6.11, py-1.9.0, pluggy-0.13.1
rootdir: /home/alan/gh/pcapng
collected 69 items

pcapng/block_test.py .......                                                [ 10%]
pcapng/mrt_test.py ....                                                     [ 15%]
pcapng/option_test.py ..........................                            [ 53%]
pcapng/tlv_test.py ..........                                               [ 68%]
pcapng/util_test.py ......................                                  [100%]
=============================== 69 passed in 0.27 seconds ===============================

(pcapng) ~/gh/pcapng > exit

API Documentation

Point your browser to the included HTML documentation:

firefox doc/pcapng/index.html         # or similar (system dependent)

Sample Programs

Please see the sample programs:

isis_agent_pcapng.py    # real-time packet capture from your machine into a PCAPNG file
isis_demo_mrt.py        # same as above but save in Custom Block MRT format
pcapng_timing.py        # capure 1M sample packets

The program isis_agent_pcapng.py creates an output file data.pcapng, which is viewable in Wireshark.

The program isis_demo_mrt.py creates two output files isis.mrt & isis.pcapng. The first of thes is in raw MRT format and is not viewable by Wireshark. For the second file, each raw MRT block is wrapped in a PCAPNG Custom Block. The file may be loaded successfully in Wireshark; however, since Wireshark doesn't understand the custom format, it produces a blank display.

The third program pcapng_timing.py writes 1 million dummy packets to a PCAPNG file. A flag selects either Simple Packet Block or Enhanced Packet Block output format. Execution on a representative computer yields execution times of ~6 seconds and ~16 seconds for SPB and EPB formats, respectively.

Generating Documentation

Documentation uses the pdoc tool. Note that pdoc generates documentation from the installed pcapng package, not directly from thesource code. To use:

sudo pip install pdoc       # install pdoc if not present
./generate-docs.bash        # generate docs

Endian Convention

The PCAPNG specification mandates that data be saved in the native endian format of the capturing machine. This avoids the possible need for byte-swapping during data capture, which may aid in efficiency. However, a reader of a PCAPNG file is obligated to examine the special BYTE_ORDER_MAGIC field of the Section Header Block in order to determine the endian convention used in generating the file. Additionaly, since several PCAPNG files may be concatenated together to form a larger, valid PCAPNG file, the reader must re-evaluate the endian convention for each subsequent Section Header Block encountered.

Currently, this library does not implement endian-sensitive decoding logic, using native endian encoding for both writing and reading. The library thus assumes that both the capturing maching and the reading machine share the same endian conventions. The library may be extended in the future to implement the endian-sensitive logic for reading PCAPNG written on foreign hosts.