I am an operating system hobbyist, and my kernel runs on 80486+, and already supports virtual memory.
Starting from 80386, the x86 processor family by Intel and various clones thereof has supported virtual memory with paging. It is well known that when the
PG bit in
CR0 is set, the processor uses virtual address translation. Then, the
CR3 register points to the top-level page directory, that is the root for 2-4 levels of page table structures that map the virtual addresses to physical addresses.
The processor does not consult these tables for each virtual address generated, instead caching them in a structure called Translation Lookaside Buffer, or TLB. However, when changes to the page tables are made, the TLB needs to be flushed. On 80386 processors, this flush would be done by
CR3 with the top level page directory address, or a task switch. This supposedly unconditionally flushes all the TLB entries. As I understand, it would be perfectly valid for a virtual memory system to always reload CR3 after any change.
This is wasteful, since the TLB would now throw out completely good entries, thus in 80486 processors the
INVLPG instruction was introduced.
INVLPG will invalidate the TLB entry matching the source operand address.
Yet starting with Pentium Pro, we also have global pages that are not flushed with the moves to
CR3 or task switch; and AMD x86-64 ISA says that some upper level page table structures might be cached and not invalidated by
INVLPG. To get a coherent picture of what is needed and what is not needed on each ISA one would really need to download a 1000-page datasheet for a multitudes of ISAs released since 80s to read a couple pages therein, and even then the documents seem to be particularly vague as to the TLB invalidation and what happens if the TLB is not properly invalidated.
For the simplicity, one can assume that we are talking about a uniprocessor system. Also, it can be assumed that no task-switch is required after changing the page structures. (thus
INVLPG is always supposedly at least as good choice as reloading the
The base assumption is that one would need to reload
CR3 after each change to page tables and page directories, and such a system would be correct. However, if one wants to avoid flushing the TLB needlessly, one needs answers to the 2 questions:
INVLPGis supported on the ISA, after what kind of changes can one safely use it instead of reloading the
CR3? E.g. "If one unmaps one page frame (set the corresponding table entry to not present), one can always use
What kind of changes one can do to the tables and directories without touching either
INVLPG? E.g. "If a page is not mapped at all (not present), one can write a PTE with
Present=1for it without flushing the TLB at all"?
Even after reading a quite a load of ISA documents and everything related to
INVLPG here on Stack Overflow I am not personally sure of either examples I presented there. Indeed, one notable post stated it right away: "I don't know exactly when you should use it and when you shouldn't." Thus any certain, correct examples, preferably documented, and for either IA32 or x86-64, that you can give, are appreciated.