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SubjectRe: [PATCH RFC v4 1/1] random: WARN on large getrandom() waits and introduce getrandom2()
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20.09.2019 03:23, Alexander E. Patrakov пишет:
> 20.09.2019 02:47, Linus Torvalds пишет:
>> On Thu, Sep 19, 2019 at 1:45 PM Alexander E. Patrakov
>> <patrakov@gmail.com> wrote:
>>>
>>> This already resembles in-kernel haveged (except that it doesn't credit
>>> entropy), and Willy Tarreau said "collect the small entropy where it is,
>>> period" today. So, too many people touched upon the topic in one day,
>>> and therefore I'll bite.
>>
>> I'm one of the people who aren't entirely convinced by the jitter
>> entropy - I definitely believe it exists, I just am not necessarily
>> convinced about the actual entropy calculations.
>>
>> So while I do think we should take things like the cycle counter into
>> account just because I think it's a a useful way to force some noise,
>> I am *not* a huge fan of the jitter entropy driver either, because of
>> the whole "I'm not convinced about the amount of entropy".
>>
>> The whole "third order time difference" thing would make sense if the
>> time difference was some kind of smooth function - which it is at a
>> macro level.
>>
>> But at a micro level, I could easily see the time difference having
>> some very simple pattern - say that your cycle counter isn't really
>> cycle-granular, and the load takes 5.33 "cycles" and you see a time
>> difference pattern of (5, 5, 6, 5, 5, 6, ...). No real entropy at all
>> there, it is 100% reliable.
>>
>> At a macro level, that's a very smooth curve, and you'd say "ok, time
>> difference is 5.3333 (repeating)". But that's not what the jitter
>> entropy code does. It just does differences of differences.
>>
>> And that completely non-random pattern has a first-order difference of
>> 0, 1, 1, 0, 1, 1.. and a second order of 1, 0, 1, 1, 0,  and so on
>> forever. So the "jitter entropy" logic will assign that completely
>> repeatable thing entropy, because the delta difference doesn't ever go
>> away.
>>
>> Maybe I misread it.
>
> You didn't. Let me generalize and rephrase the part of the concern that
> I agree with, in my own words:
>
> The same code is used in cryptoapi rng, and also a userspace version
> exists. These two have been tested by the author via the "dieharder"
> tool (see the message for commit d9d67c87), so we know that on his
> machine it actually produces good-quality random bits. However, the
> in-kernel self-test is much, much weaker, and would not catch the
> situation when someone's machine is deterministic in a way that you
> describe, or something similar.

A constructive suggestion here would be to put the first few thousands
(ok, a completely made up number) raw timing intervals through a "gzip
compression test" in addition to the third derivative test, just based
on what we already have in the kernel.

--
Alexander E. Patrakov

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