I’m studying up on OS memory management, and I wish to verify that I got the basic mechanism of allocation \ virtual memory \ paging straight.
Let’s say a process calls malloc(), what happens behind the scenes?
my answer: The runtime library finds an appropriately sized block of memory in its virtual memory address space.
(This is where allocation algorithms such as first-fit, best-fit that deal with fragmentation come into play)
Now let’s say the process accesses that memory, how is that done?
my answer: The memory address, as seen by the process, is in fact virtual. The OS checks if that address is currently mapped to a physical memory address and if so performs the access. If it isn’t mapped – a page fault is raised.
Am I getting this straight? i.e. the compiler\runtime library are in charge of allocating virtual memory blocks, and the OS is in charge of a mapping between processes’ virtual address and physical addresses (and the paging algorithm that entails)?
Thanks!
About right. The memory needs to exist in the virtual memory of the process for a page fault to actually allocate a physical page though. You can’t just start poking around anywhere and expect the kernel to put physical memory where you happen to access.
There is much more to it than this. Read up on mmap(), anonymous and not, shared and private. And brk() too. malloc() builds on brk() and mmap().