Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

If I were to AES-encrypt a file, and then ZLIB-compress it, would the compression be less efficient than if I first compressed and then encrypted?

In other words, should I compress first or encrypt first, or does it matter?

share|improve this question

6 Answers 6

Compress first. Once you encrypt the file you will generate a stream of random data, which will be not be compressible. The compression process depends on finding compressible patterns in the data.

share|improve this answer
It's not really random. It's just that no compression algorithm will be able to spot the pattern anymore after it's encrypted. –  finnw Jan 13 '11 at 2:04
True enough. It looks random. The process is deterministic, so given the same data and key you will get the same random looking result. –  Ferruccio Jan 13 '11 at 11:46
@finnw Supposing the encryption algorithm takes steps to remove patterns (such as using a block cipher in CBC mode with a random IV), encrypted data is indistinguishable from random data. –  yfeldblum Jan 13 '11 at 14:06
@Ferruccio If you use, for example, a block cipher in CBC mode with a random IV, then, given the same data and the same key, you will get a different random-looking result. –  yfeldblum Jan 13 '11 at 14:07
@Justice, I can distinguish it from random data (as long as you give me the key.) –  finnw Jan 13 '11 at 14:10

Compress first. If you encrypt then your data turns into (essentially) a stream of random bits. Random bits are incompressable because compression looks for patterns in the data and a random stream, by definition, has no patterns.

share|improve this answer

If your encryption algorithm is any good (and AES, with a proper chaining mode, is good), then the no compressor will be able to shrink the encrypted text. Or, if you prefer it the other way round: if you succeed in compressing some encrypted text, then it is high time to question the quality of the encryption algorithm...

That is because the output of an encryption system should be indistinguishable from pure random, even by a determined attacker. A compressor is not a malicious attacker, but it works by trying to find non-random patterns which it can represent with less bits. The compressor should not be able to find any such pattern in encrypted text.

So you should compress data first, then encrypt the result, not the other way round. This is what is done in, e.g., the OpenPGP format.

share|improve this answer

Of course it matters. It's generally better to compress first and then to encrypt.

ZLib uses Huffman coding and LZ77 compression. The Huffman tree will be more balanced and optimum if it's performed on plain text for instance and so the compression rate will be better.

Encryption can follow after compression even if the compression result appear to be "encrypted" but can easily be detected to be compressed because the file usually starts with PK.

ZLib don't provide encryption natively. That's why I've implemented ZeusProtection. The source code is also available at github.

share|improve this answer

it is true that compressor works only on data sets that has well defined patterns but it is exploratory to encrypt data first that produces well defiend non-random patterns that can be handled by compressor with less time complexity.

share|improve this answer

From a practical perspective, I think you should compress first simply because many files are pre-compressed. For example, video encoding usually involves heavy compression. If you encrypt this video file then compress it, it has now been compressed twice. Not only will the second compression get a dismal compression ratio, but compressing again will take a great deal of resources to compress large files or streams. As Thomas Pornin and Ferruccio stated, compression of encrypted files may have little effect anyway because of the randomness of the encrypted files.

I think the best, and simplest, policy may be to compress files only-as-needed beforehand (using a whitelist or blacklist), then encrypt them regardless.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.