I was recently compressing some files, and I noticed that base64-encoded data seems to compress really bad. Here is one example:
xz -9
:13,2 MiB / 429,7 MiB = 0,031
4,9 MiB/s
1:28
base64
it and compress via xz -9
:26,7 MiB / 580,4 MiB = 0,046
2,6 MiB/s
3:47
base64
the original compressed xz file:17,8 MiB
in almost no time = the expected 1.33x
increase in sizeSo what can be observed is that:
How can this be? Base64 is a lossless, reversible algorithm, why does it affect compression so much? (I tried with gzip as well, with similar results).
I know it doesn't make sense to base64-then-compress a file, but most of the time one doesn't have control over the input files, and I would have thought that since the actual information density (or whatever it is called) of a base64-encoded file would be nearly identical to the non-encoded version, and thus be similarily compressible.
Most generic compression algorithms work with a one-byte granularity.
Let's consider the following string:
"XXXXYYYYXXXXYYYY"
Now let's encode our string in Base64. Here's what we get:
"WFhYWFlZWVlYWFhYWVlZWQ=="
All algorithms are now saying: "What kind of mess is that?". And they're not likely to compress that string very well.
As a reminder, Base64 basically works by re-encoding groups of 3 bytes in (0...255) into groups of 4 bytes in (0...63):
Input bytes : aaaaaaaa bbbbbbbb cccccccc
6-bit repacking: 00aaaaaa 00aabbbb 00bbbbcc 00cccccc
Each output byte is then transformed into a printable ASCII character. By convention, these characters are (here with a mark every 10 characters):
0 1 2 3 4 5 6
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/
For instance, our example string begins with a group of three bytes equal to 0x58 in hexadecimal (ASCII code of character "X"). Or in binary: 01011000. Let's apply Base64 encoding:
Input bytes : 0x58 0x58 0x58
As binary : 01011000 01011000 01011000
6-bit repacking : 00010110 00000101 00100001 00011000
As decimal : 22 5 33 24
Base64 characters: 'W' 'F' 'h' 'Y'
Output bytes : 0x57 0x46 0x68 0x59
Basically, the pattern "3 times the byte 0x58" which was obvious in the original data stream is not obvious anymore in the encoded data stream because we've broken the bytes into 6-bit packets and mapped them to new bytes that now appear to be random.
Or in other words: we have broken the original byte alignment that most compression algorithms rely on.
Whatever compression method is used, it usually has a severe impact on the algorithm performance. That's why you should always compress first and encode second.
This is even more true for encryption: compress first, encrypt second.
EDIT - A note about LZMA
As MSalters noticed, LZMA -- which xz is using -- is working on bit streams rather than byte streams.
Still, this algorithm will also suffer from Base64 encoding in a way which is essentially consistent with my earlier description:
Input bytes : 0x58 0x58 0x58
As binary : 01011000 01011000 01011000
(see above for the details of Base64 encoding)
Output bytes : 0x57 0x46 0x68 0x59
As binary : 01010111 01000110 01101000 01011001
Even by working at the bit level, it's much easier to recognize a pattern in the input binary sequence than in the output binary sequence.