I'm trying to find out the differences between
- What are the differences between
- When should I use them?
- when should I not use them?
/dev/random may require waiting for the result as it uses so-called entropy pool, where random data may not be available at the moment.
/dev/urandom returns as many bytes as user requested and thus it is less random than
As can be read from the man page:
When read, the
/dev/randomdevice will only return random bytes within the estimated number of bits of noise in the entropy pool.
/dev/randomshould be suitable for uses that need very high quality randomness such as one-time pad or key generation. When the entropy pool is empty, reads from
/dev/randomwill block until additional environmental noise is gathered.
A read from the
/dev/urandomdevice will not block waiting for more entropy. As a result, if there is not sufficient entropy in the entropy pool, the returned values are theoretically vulnerable to a cryptographic attack on the algorithms used by the driver. Knowledge of how to do this is not available in the current unclassified literature, but it is theoretically possible that such an attack may exist. If this is a concern in your application, use
For cryptographic purposes you should really use
/dev/random because of nature of data it returns. Possible waiting should be considered as acceptable tradeoff for the sake of security, IMO.
When you need random data fast, you should use
/dev/urandom of course.
Always use /dev/urandom.
/dev/urandom and /dev/random use the same random number generator. They both are seeded by the same entropy pool. They both will give an equally random number of an arbitrary size. They both can give an infinite amount of random numbers with only a 256 bit seed. As long as the initial seed has 256 bits of entropy, you can have an infinite supply of arbitrarily long random numbers. You gain nothing from using /dev/random. The fact that there's two devices is a flaw in the Linux API.
If you are concerned about entropy, using /dev/random is not going to fix that. But it will slow down your application while not generating numbers anymore random than /dev/urandom. And if you aren't concerned about entropy, why are you using /dev/random at all?
Here's a much better/indepth explanation on why you should always use /dev/urandom: http://www.2uo.de/myths-about-urandom/
What are the differences between
/dev/urandom are interfaces to the kernel's random number generator:
When it comes to the differences, it depends on the operation system:
/dev/randommay block, which limits its use in practice considerably
/dev/urandomis just a symbolic link to
When should I use them? When should I not use them?
It is very difficult to find a use case where you should use
Danger of blocking:
/dev/random. For single usages like
ssh-keygenit should be OK to wait for some seconds, but for most other situations it will be not an option.
/dev/random, you should open it in nonblocking mode and provide some sort of user notification if the desired entropy is not immediately available.
/dev/urandomis considered secure for almost all practical cases (e.g, Is a rand from /dev/urandom secure for a login key? and Myths about /dev/urandom).
/dev/randominterface is considered a legacy interface, and
/dev/urandomis preferred and sufficient in all use cases, with the exception of applications which require randomness during early boot time; for these applications, getrandom(2) must be used instead, because it will block until the entropy pool is initialized.
If a seed file is saved across reboots as recommended below (all major Linux distributions have done this since 2000 at least), the output is cryptographically secure against attackers without local root access as soon as it is reloaded in the boot sequence, and perfectly adequate for network encryption session keys. Since reads from
/dev/randommay block, users will usually want to open it in nonblocking mode (or perform a read with timeout), and provide some sort of user notification if the desired entropy is not immediately available.
As a general rule,
/dev/urandomshould be used for everything except long-lived GPG/SSL/SSH keys.
They are both fed by the same cryptographically secure pseudorandom number generator (CSPRNG). The fact that
/dev/random waits for entropy (or more specifically, waits for the system's estimation of its entropy to reach an appropriate level) only makes a difference when you are using a information-theoretically secure algorithm, as opposed to a computationally secure algorithm. The former encompasses algorithms that you probably aren't using, such as Shamir's Secret Sharing and the One-time pad. The latter contains algorithms that you actually use and care about, such as AES, RSA, Diffie-Hellman, OpenSSL, GnuTLS, etc.
So it doesn't matter if you use numbers from
/dev/random since they're getting pumped out of a CSPRNG anyway, and it is "theoretically possible" to break the algorithms that you're likely using them with anyway.
Lastly, that "theoretically possible" bit means just that. In this case, that means using all of the computing power in the world, for the amount of time that that the universe has existed to crack the application.
Therefore, there is pretty much no point in using