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When the kernel unmaps or modified the attributes of a range of
memory, it has two choices:
 1. Flush the entire TLB with a two-instruction sequence.  This is
    a quick operation, but it causes collateral damage: TLB entries
    from areas other than the one we are trying to flush will be
    destroyed and must be refilled later, at some cost.
 2. Use the invlpg instruction to invalidate a single page at a
    time.  This could potentialy cost many more instructions, but
    it is a much more precise operation, causing no collateral
    damage to other TLB entries.

Which method to do depends on a few things:
 1. The size of the flush being performed.  A flush of the entire
    address space is obviously better performed by flushing the
    entire TLB than doing 2^48/PAGE_SIZE individual flushes.
 2. The contents of the TLB.  If the TLB is empty, then there will
    be no collateral damage caused by doing the global flush, and
    all of the individual flush will have ended up being wasted
    work.
 3. The size of the TLB.  The larger the TLB, the more collateral
    damage we do with a full flush.  So, the larger the TLB, the
    more attrative an individual flush looks.  Data and
    instructions have separate TLBs, as do different page sizes.
 4. The microarchitecture.  The TLB has become a multi-level
    cache on modern CPUs, and the global flushes have become more
    expensive relative to single-page flushes.

There is obviously no way the kernel can know all these things,
especially the contents of the TLB during a given flush.  The
sizes of the flush will vary greatly depending on the workload as
well.  There is essentially no "right" point to choose.

You may be doing too many individual invalidations if you see the
invlpg instruction (or instructions _near_ it) show up high in
profiles.  If you believe that individual invalidations being
called too often, you can lower the tunable:

	/sys/debug/kernel/x86/tlb_single_page_flush_ceiling

This will cause us to do the global flush for more cases.
Lowering it to 0 will disable the use of the individual flushes.
Setting it to 1 is a very conservative setting and it should
never need to be 0 under normal circumstances.

Despite the fact that a single individual flush on x86 is
guaranteed to flush a full 2MB [1], hugetlbfs always uses the full
flushes.  THP is treated exactly the same as normal memory.

You might see invlpg inside of flush_tlb_mm_range() show up in
profiles, or you can use the trace_tlb_flush() tracepoints. to
determine how long the flush operations are taking.

Essentially, you are balancing the cycles you spend doing invlpg
with the cycles that you spend refilling the TLB later.

You can measure how expensive TLB refills are by using
performance counters and 'perf stat', like this:

perf stat -e
	cpu/event=0x8,umask=0x84,name=dtlb_load_misses_walk_duration/,
	cpu/event=0x8,umask=0x82,name=dtlb_load_misses_walk_completed/,
	cpu/event=0x49,umask=0x4,name=dtlb_store_misses_walk_duration/,
	cpu/event=0x49,umask=0x2,name=dtlb_store_misses_walk_completed/,
	cpu/event=0x85,umask=0x4,name=itlb_misses_walk_duration/,
	cpu/event=0x85,umask=0x2,name=itlb_misses_walk_completed/

That works on an IvyBridge-era CPU (i5-3320M).  Different CPUs
may have differently-named counters, but they should at least
be there in some form.  You can use pmu-tools 'ocperf list'
(https://github.com/andikleen/pmu-tools) to find the right
counters for a given CPU.

1. A footnote in Intel's SDM "4.10.4.2 Recommended Invalidation"
   says: "One execution of INVLPG is sufficient even for a page
   with size greater than 4 KBytes."
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