armtlbarmv6

ARM11 Translation Lookaside Buffer (TLB) usage?


Is there a decent guide explaining how to use the TLB (Translation Lookaside Buffers) tables on an ARM1176JZF-S core?

Having looked over the technical documentation for the that ARM platform I still have no clue what a TLB is or what it looks like. As far as I understand, each TLB entry maps a virtual page to a physical page, allowing remapping and controlling memory permissions.

Apart from that, I have absolutely no clue on how to use them.

Thank you in advance. I'll be really glad if someone provides an explanation of what TLBs are. I'm currently working on a memory mapper for my kernel, and I've pretty much hit a dead end.


Solution

  • The technical reference manual for ARM1176JZF-S appears to be DDI 0301. That document contains all the specific details for that specific ARM core.

    I still have no clue what a TLB is or what it looks like. As far as I understand, each TLB entry maps a virtual page to a physical page, allowing remapping and controlling memory permissions.

    A TLB is a cache of the page table. Some processors allow direct access to the TLB, while knowing nothing about page tables (e.g: MIPS), while others know about page tables, and internally use TLBs that the programmer mostly doesn't see (e.g: x86). In this case, the TLB is managed by hardware, and the system programmer only has to care to make the TTB (Translation Table Base) registers point to the page table, and invalidate the TLB in apropriate places.

    What structure does a TLB entry have? How do I create new entries?

    Done by hardware. On a TLB miss, the MMU walks the page table and fills the TLB from there.

    How do I handle VM in context switches for user-space threads?

    Some platforms have TLBs that simply map virtual addresses to physical addresses (e.g: x86). On these platforms, you have to do a full TLB flush on each context switch. Other platforms (MIPS, this specific ARM core) map (ASID, virtual address) pairs to physical addresses. An ASID is an Application-Specific Identifier, i.e: an identifier for a process. The MMU uses a register to know which ASID to use (I think it's the Context ID register in this case). Since there may be more processes than ASIDs, occasionally you may need to recycle an ASID (assigning it to a different process) and do a TLB flush (that's what the Invalidate TLB by ASID operation is for).

    Why are there two TLBs? What can I use the MicroTLB for if it can only have 10 entries? Surely, I need more than 10.

    This is exactly for the same reason you have small separate level-1 caches for instructions and data. Since they are caches, you don't need more than 10 (though having more could improve performance).

    It says that one of the parts of the main TLB is "a fully-associative array of eight elements, that is lockable". What is that? Do I only get to have 8 entries for the Main TLB?

    Some memory pages (e.g: some portions of the kernel) are accessed very often. It makes sense to lock them, so they don't get thrown off of the TLB. Also, on realtime systems, a TLB miss or a cache miss may introduce some unwanted unpredictability. So, there is an option to lock a number of TLB entries. The main TLB has more entries, but only those 8 are lockable.