Chaos Communication Congress
Chaos Communication Congress
The plain simple reality of entropy (32x111)
Data di messa in onda: Dic 29, 2015
Speaker: Filippo Valsorda
Entropy, the randomness used in many critical cryptography processes including key generation, is as important as it is misunderstood. Many myths are fueled by misleading documentation. This presentation aims to provide simple and actionable information while explaining the core technical details and real world implementations.
Randomness is as simple as critical. An application wants some bytes which an attacker can't predict. The clearest example is generating a cryptographic key, but a wide array of functions depend on randomness.
Any time a key is generated, any time a DSA signature is made, any time the memory layout is randomized, applications rely on being able to create strings of bytes impossible to predict. If that comes short everything fails: cryptographic keys are compromised, exploits protections are ineffective.
Entropy, the unpredictable raw material, is usually collected by the Operating System and exposed to the applications that need it. Once enough bits of entropy have been collected, it becomes impossible to predict the output of the CSPRNG (cryptographically secure pseudo-random number generator), a stirrer of sorts that expands a seed into unlimited whitened random bytes, often based on stream ciphers or hashes.
Real risks include trying to use a CSPRNG early on in the boot process, when not enough random events have been collected, or using a userspace CSPRNG instead of the kernel one and forgetting to seed it. Or using a non-CS PRNG.
That's just about it. However, there is a lot of misunderstanding on "decreasing entropy". It's a widespread myth that using random bytes decreases the "amount" of entropy. Reality is, to an attacker who's basically trying to predict the CSPRNG output there's no decrease in difficulty no matter how much output is drawn, so developers can avoid introducing additional complexity because of this.
This is all backed up by showing a simple toy CSPRNG design, and reasonin
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