However note that after
fork both parent and child have the same randomization applied to them (they are copies of each other after all!).
If the child and parent are to call
mmap(NULL, ...), then their address maps will start to diverge.
Isn't your statement contradictory?
Not at all. Immediately after
fork, the parent and child address spaces are identical (that's the definition of what
fork does). But the ASLR is still in effect for both the parent and the child. The randomization can't "go back in time" and randomize decisions that have already been made, but any future decisions (such as where to place next
mmap) will be randomized, and will likely result in different outcome for parent and child.
Does it have to do with basic mmap or OS writers introduce randomness in mmap as well for security?
Perhaps you don't understand what ASLR is?
In short, with ASLR on, the OS will randomize placement of main stack, and placement of any non-
By the time you
fork, the main stack placement has long been determined, so parent and child will have the same. The future
mmap are the only things that can (and will be) affected by ASLR going forward.