I am trying to compress TCP packets each one of about 4 KB in size. The packets can contain any byte (from 0 to 255). All of the benchmarks on compression algorithms that I found were based on larger files. I did not find anything that compares the compression ratio of different algorithms on small files, which is what I need. I need it to be open source so it can be implemented on C++, so no RAR for example. What algorithm can be recommended for small files of about 4 kilobytes in size? LZMA? HACC? ZIP? gzip? bzip2?
Choose the algorithm that is the quickest, since you probably care about doing this in real time. Generally for smaller blocks of data, the algorithms compress about the same (give or take a few bytes) mostly because the algorithms need to transmit the dictionary or Huffman trees in addition to the payload.
The other compression algorithms mentioned have their merits. I prefer Deflate because of its runtime performance on both the compression step and particularly in decompression step.
A point of clarification: Zip is not a compression type, it is a container. For doing packet compression, I would bypass Zip and just use the deflate/inflate APIs provided by zlib.
If you want to "compress TCP packets", you might consider using a RFC standard technique.
- RFC1978 PPP Predictor Compression Protocol
- RFC2394 IP Payload Compression Using DEFLATE
- RFC2395 IP Payload Compression Using LZS
- RFC3173 IP Payload Compression Protocol (IPComp)
- RFC3051 IP Payload Compression Using ITU-T V.44 Packet Method
- RFC5172 Negotiation for IPv6 Datagram Compression Using IPv6 Control Protocol
- RFC5112 The Presence-Specific Static Dictionary for Signaling Compression (Sigcomp)
- RFC3284 The VCDIFF Generic Differencing and Compression Data Format
- RFC2118 Microsoft Point-To-Point Compression (MPPC) Protocol
There are probably other relevant RFCs I've overlooked.
All of those algorithms are reasonable to try. As you say, they aren't optimized for tiny files, but your next step is to simply try them. It will likely take only 10 minutes to test-compress some typical packets and see what sizes result. (Try different compress flags too). From the resulting files you can likely pick out which tool works best.
The candidates you listed are all good first tries. You might also try bzip2.
Sometimes simple "try them all" is a good solution when the tests are easy to do.. thinking too much sometimes slow you down.
I don't think the file size matters - if I remember correctly, the LZW in GIF resets its dictionary every 4K.
ZLIB should be fine. It is used in MCCP.
However, if you really need good compression, I would do an analysis of common patterns and include a dictionary of them in the client, which can yield even higher levels of compression.
I've had luck using zlib compression libraries directly and not using any file containers. ZIP, RAR, have overhead to store things like filenames. I've seen compression this way yield positive results (compression less than original size) for packets down to 200 bytes.
You may test bicom. This algorithm is forbidden for commercial use. If you want it for professional or commercial usage look at "range coding algorithm".
You can try delta compression. Compression will depend on your data. If you have any encapsulation on the payload, then you can compress the headers.
I did what Arno Setagaya suggested in his answer: made some sample tests and compared the results.
The compression tests were done using 5 files, each of them 4096 bytes in size. Each byte inside of these 5 files was generated randomly.
IMPORTANT: In real life, the data would not likely be all random, but would tend to have quiet a bit of repeating bytes. Thus in real life application the compression would tend to be a bit better then the following results.
NOTE: Each of the 5 files was compressed by itself (i.e. not together with the other 4 files, which would result in better compression). In the following results I just use the sum of the size of the 5 files together for simplicity.
I included RAR just for comparison reasons, even though it is not open source.
Results: (from best to worst)
LZOP: 20775 / 20480 * 100 = 101.44% of original size
RAR : 20825 / 20480 * 100 = 101.68% of original size
LZMA: 20827 / 20480 * 100 = 101.69% of original size
ZIP : 21020 / 20480 * 100 = 102.64% of original size
BZIP: 22899 / 20480 * 100 = 111.81% of original size
Conclusion: To my surprise ALL of the tested algorithms produced a larger size then the originals!!! I guess they are only good for compressing larger files, or files that have a lot of repeating bytes (not random data like the above). Thus I will not be using any type of compression on my TCP packets. Maybe this information will be useful to others who consider compressing small pieces of data.
EDIT: I forgot to mention that I used default options (flags) for each of the algorithms.