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arc4random initialises itself with some random bytes from the kernel, but rather than using those bytes directly, a stream cipher is used to produce longer streams of output. Re-seeding happens occasionally thereafter. The intention was to avoid the overhead of a system call, for each call to arc4random(3) arc4random(3) initialises itself with some random bytes from the kernel, but rather than returning those bytes directly, a stream cipher is used to produce longer streams of output. Re-seeding happens occasionally thereafter. The intention was to avoid the overhead of making a system call, on each call to arc4random(3)
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The function when originally implemented in OpenBSD, used the RC4 cipher to produce the output stream. OpenBSD now uses a ChaCha20 stream cipher. The function when originally implemented in OpenBSD, used the RC4 cipher to produce the output stream. OpenBSD now uses a !ChaCha20 stream cipher.
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FreeBSD makes a system call to getpid(2) to check whether it should do this, but that means the overhead of arc4random(3) could be worse than if the RC4 cipher wasn't used at all... FreeBSD makes a system call to getpid(2) to detect forking, but that means the overhead of its arc4random(3) may be worse than if the RC4 cipher wasn't being used there at all...
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libbsd changed from using RC4 to ChaCha20 in version 0.8.0 (Debian package version 0.8.0-1). https://lists.freebsd.org/pipermail/freebsd-security/2014-July/007849.html
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libbsd provides an arc4random(3), previous using RC4 but this was changed to !ChaCha20 in version 0.8.0 (Debian package version 0.8.0-1). GNU libc's atfork can be used to reliably detect forking.
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Similar code to arc4random can be found in libevent, and dozens of other free software programs. Similar code to arc4random(3) can be found in libevent, and dozens of other free software programs.

arc4random(3) is random-number-generating library function, first available on BSD platforms, and also on GNU/Linux with libbsd.

Manual pages

http://man.openbsd.org/?query=arc4random

https://www.freebsd.org/cgi/man.cgi?query=arc4random

https://manpages.debian.org/cgi-bin/man.cgi?query=arc4random

Implementation

arc4random(3) initialises itself with some random bytes from the kernel, but rather than returning those bytes directly, a stream cipher is used to produce longer streams of output. Re-seeding happens occasionally thereafter. The intention was to avoid the overhead of making a system call, on each call to arc4random(3)

The function when originally implemented in OpenBSD, used the RC4 cipher to produce the output stream. OpenBSD now uses a ChaCha20 stream cipher.

If a process forks, it should re-seed itself to avoid each process sharing the same RNG state. OpenBSD uses the mmap(2) INHERIT_ZERO flag to reliably detect forks, and then re-seed.

FreeBSD makes a system call to getpid(2) to detect forking, but that means the overhead of its arc4random(3) may be worse than if the RC4 cipher wasn't being used there at all...

https://lists.freebsd.org/pipermail/freebsd-security/2014-July/007849.html

FreeBSD's libc still uses RC4 libkern/arc4random.c, but discards the first 1024 bytes of the stream cipher's output, to try to mitigate known weaknesses in the cipher.

https://svnweb.freebsd.org/base/head/lib/libc/gen/arc4random.c?view=markup

and is also used within the kernel:

https://svnweb.freebsd.org/base/head/sys/libkern/arc4random.c?view=markup

libbsd provides an arc4random(3), previous using RC4 but this was changed to ChaCha20 in version 0.8.0 (Debian package version 0.8.0-1). GNU libc's atfork can be used to reliably detect forking.

GNU/kFreeBSD provides only the libbsd implementation.

Similar code to arc4random(3) can be found in libevent, and dozens of other free software programs.

Concerns

RC4 is not considered to be a cryptographically strong cipher any more.

Some implementations discard the first 1KByte of more of the keystream as a possible countermeasure, but some do not.

Some implementations don't re-seed reliably (or perhaps at all) when a process forks.

https://www.agwa.name/blog/post/libressls_prng_is_unsafe_on_linux

Some methods of seeding are unsafe, and failures cannot be indicated to the caller. In a chroot/jail environment, perhaps /dev/urandom is missing. Or if all file descriptors are exhausted, nothing can be read from there. OpenBSD and FreeBSD provide system calls that are guaranteed to not fail.