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I need to obfuscate lines of Unicode text to slow down those who may want to extract them. Ideally this would be done with a built in Python module or a small add-on library; the string length will be the same or less than the original; and the "unobfuscation" be as fast as possible.

I have tried various character swaps and XOR routines, but they are slow. Base64 and hex encoding increase the size considerably. To date the most efficient method I've found is compressing with zlib at the lowest setting (1). Is there a better way?

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2  
Use a good, proven, widely-used encryption scheme. Everything else is broken as soon as anyone competent gets an idea of what you're doing. Yes, it will take some time, but that's the price you have to pay if you want anything remotely decent. If the data isn't even important enough for that, just save yourself the hassle and send it as plain text. –  delnan Sep 20 '11 at 17:17
    
You said "slow down", not "prevent". Are you really trying to prevent people from reading the text? Under what conditions does the original text need to be read? –  wberry Sep 20 '11 at 17:47
    
Speed is more important to me than security. Encryption slows the access of the data significantly. If there was an encryption scheme that did not cause a significant bottleneck, a lot of developer's issues would be solved. Is there not room for a middle ground with this issue? Sure, someone with the knowledge and some spare time could get the data, but is it worth their effort. –  Tim Sep 20 '11 at 17:55
    
This issue is similar to the quality of locks on ones home. A bank vault door would be the most secure, but how many have that? Most realize it is nearly impossible to keep a determined intruder out, but they still have relatively weak locks on their doors to keep the less determined out. That is all I want with this obfuscation. I just don't want to leave the doors to my house wide open. –  Tim Sep 20 '11 at 18:04
1  
@Tim: "quality of locks" reasnoning is faulty. Software is not the same as a crowbar for opening a mechanical lock. Once the algorithm is known the "slow down" effect immediately drops to zero. Bank vaults with known combinations are as useless as screen doors with simple hooks to keep the closed in the wind. Same with this "obfuscation". Once the obfuscation is known, the slow-down drops immediately to zero. –  S.Lott Sep 20 '11 at 18:31
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2 Answers 2

How about the old ROT13 trick?

>>> x = 'some string'
>>> y = x.encode('rot13')
>>> y
'fbzr fgevat'
>>> y.decode('rot13')
u'some string'

For a unicode string:

>>> x = u'國碼'
>>> print x
國碼
>>> y = x.encode('unicode-escape').encode('rot13')
>>> print y
\h570o\h78op
>>> print y.decode('rot13').decode('unicode-escape')
國碼
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1  
Works good for ascii but not Unicode. –  Tim Sep 20 '11 at 18:39
1  
Updated for unicode - just escape it first. The escaping adds no overhead for non-unicode characters. –  jterrace Sep 20 '11 at 18:49
    
Didn't know about the unicode-escape, nice. However, it takes roughly twice as long as zlib.compress(s, 1). One would think a simple substitution would be faster, but not according to my quick tests. –  Tim Sep 20 '11 at 19:07
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This uses a simple, fast encryption scheme on bytes objects.

# For Python 3 - strings are Unicode, print is a function

def obfuscate(byt):
    # Use same function in both directions.  Input and output are bytes
    # objects.
    mask = b'keyword'
    lmask = len(mask)
    return bytes(c ^ mask[i % lmask] for i, c in enumerate(byt))

def test(s):
    data = obfuscate(s.encode())
    print(len(s), len(data), data)
    newdata = obfuscate(data).decode()
    print(newdata == s)


simple_string = 'Just plain ASCII'
unicode_string = ('sensei = \N{HIRAGANA LETTER SE}\N{HIRAGANA LETTER N}'
                  '\N{HIRAGANA LETTER SE}\N{HIRAGANA LETTER I}')

test(simple_string)
test(unicode_string)

Python 2 version:

# For Python 2

mask = 'keyword'
nmask = [ord(c) for c in mask]
lmask = len(mask)

def obfuscate(s):
    # Use same function in both directions.  Input and output are
    # Python 2 strings, ASCII only.
    return ''.join([chr(ord(c) ^ nmask[i % lmask])
                    for i, c in enumerate(s)])

def test(s):
    data = obfuscate(s.encode('utf-8'))
    print len(s), len(data), repr(data)
    newdata = obfuscate(data).decode('utf-8')
    print newdata == s


simple_string = u'Just plain ASCII'
unicode_string = (u'sensei = \N{HIRAGANA LETTER SE}\N{HIRAGANA LETTER N}'
                  '\N{HIRAGANA LETTER SE}\N{HIRAGANA LETTER I}')

test(simple_string)
test(unicode_string)
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Looks good, but I didn't mention I am limited to Python 2.5-2.7. I don't even have 3.x on my system to test with. What is the 2.x equivalent to the bytes module? –  Tim Sep 20 '11 at 18:35
    
@Tim: Try this. I only have 2.6 on this machine and it looks like it didn't interpret the \N{...} stuff, so I couldn't test it as completely as I'd like to. –  Tom Zych Sep 20 '11 at 19:03
    
Thanks for the 2.x version. Unfortunately, it is much slower than zlib.compress(). For a 6MB file this takes about 5.1 sec. With zlib it takes .18 sec. About 25 times faster. –  Tim Sep 20 '11 at 20:13
    
Probably the difference between C code and native Python code. Go with zlib, then. –  Tom Zych Sep 20 '11 at 20:14
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