Re: [PATCH 0/2] PUD/PGDIR entries for linear mapping

From: Alex Ghiti
Date: Mon Jun 15 2020 - 01:35:36 EST

Hi Atish,

Le 6/12/20 Ã 1:43 PM, Atish Patra a ÃcritÂ:
On Fri, Jun 12, 2020 at 6:17 AM Alex Ghiti <alex@xxxxxxxx> wrote:
Le 6/12/20 Ã 8:59 AM, Alex Ghiti a Ãcrit :
Hi Atish,

Le 6/11/20 Ã 1:29 PM, Atish Patra a Ãcrit :
On Wed, Jun 10, 2020 at 11:51 PM Alex Ghiti<alex@xxxxxxxx> wrote:
Hi Atish,

Le 6/10/20 Ã 2:32 PM, Atish Patra a Ãcrit :
On Wed, Jun 3, 2020 at 8:36 AM Alexandre Ghiti<alex@xxxxxxxx> wrote:
This small patchset intends to use PUD/PGDIR entries for linear
mapping
in order to better utilize TLB.

At the moment, only PMD entries can be used since on common platforms
(qemu/unleashed), the kernel is loaded at DRAM + 2MB which
dealigns virtual
and physical addresses and then prevents the use of PUD/PGDIR
entries.
So the kernel must be able to get those 2MB for PAGE_OFFSET to map
the
beginning of the DRAM: this is achieved in patch 1.

I don't have in depth knowledge of how mm code works so this question
may be a completely
stupid one :). Just for my understanding,
As per my understanding, kernel will map those 2MB of memory but
never use it.
How does the kernel ensure that it doesn't allocate any memory from
those 2MB
memory if it is not marked as reserved?
Yes, a 1GB hugepage will cover those 2MB: I rely on the previous boot
stage to mark this region
as reserved if there is something there (like opensbi). Otherwise, the
kernel will indeed try to
allocate memory from there :)

In that case, this patch mandates that the firmware region has to be
mark "reserved"
the device tree so that the Linux kernel doesn't try to allocate
memory from there.
OpenSBI is already doing it from v0.7. Thus, any user using latest
OpenSBI can leverage
this patch for a better TLB utilization.

Note that *currently* OpenSBI v0.7 still adds the "no-map" property
which prevents such optimization.

Thanks for the clarification. When I said latest, I meant including
your patch in the mailing list.

However, legacy previous boot stages(BBL) do not reserve this area via
DT which may
result in an unexpected crash. I am not sure how many developers still
use BBL though.

Few general suggestions to tackle this problem:
1. This mandatory requirement should be added to the booting document
so that any other
SBI implementation is also aware of it.
2. You may have to move the patch1 to a separate config so that any
users of legacy boot stages
can disable this feature.

IMHO, the region occupied by runtime services should be marked as
reserved in the device-tree. So it seems redundant to add this as a
requirement, I would rather consider its absence as a bug.

I agree. I was just suggesting to document this bug :).

Oh ok then, we meant the same thing :)

Even if I understand that this might break some system, I don't like
the idea of a new config to support old "buggy" bootloaders: when will
we be able to remove it ? We'll never know when people will stop using
those bootloaders, so it will stay here forever...Where can I find the
Personally, I am fine with that. However, there were few concerns in the past.
I am leaving it to Palmer to decide.

@Palmer Dabbelt : Any thoughts ?

boot document you are talking about ? Can we simply state here that
this kernel version will not be compatible with those bootloaders
(we'll draw an exhaustive list here) ?
Yes.

Ok, I have just found Documentation/riscv/boot-image-header.rst: could
we imagine doing something like incrementing the version and use that as
a hint in the kernel not to map the 2MB offset ? That's still legacy,
but at least it does not require to recompile a kernel as the check
would be done at runtime.

I was suggesting to add a risc-v specific booting document and
document this "bug".
Documentation/riscv/boot-image-header.rst can be linked from that document or
the boot hader content can be included in that. No changes in code is necessary.

Eventually, this booting document will also include other additional
booting constraints for RISC-V
such as minimum extension required to boot Linux, csr state upon
entering S-mode, mmu state.


Ok I will prepare a boot document that links to the existing documents and
add all of that, I will need you for the last constraints that I don't know about.

Thanks Atish,

Alex

Alex


Alex


But furthermore, at the moment, the firmware (opensbi) explicitly
asks the
kernel not to map the region it occupies, which is on those common
platforms at the very beginning of the DRAM and then it also dealigns
virtual and physical addresses. I proposed a patch here:

https://github.com/riscv/opensbi/pull/167

that removes this 'constraint' but *not* all the time as it offers
some
kind of protection in case PMP is not available. So sometimes, we may
have a part of the memory below the kernel that is removed creating a
misalignment between virtual and physical addresses. So for
performance
reasons, we must at least make sure that PMD entries can be used:
that
is guaranteed by patch 1 too.

Finally the second patch simply improves best_map_size so that
whenever
possible, PUD/PGDIR entries are used.

Below is the kernel page table without this patch on a 6G platform:

---[ Linear mapping ]---
0xffffc00000000000-0xffffc00176e00000 0x0000000080200000 5998M
PMD D A . . . W R V

And with this patchset + opensbi patch:

---[ Linear mapping ]---
0xffffc00000000000-0xffffc00140000000 0x0000000080000000
5G PUD D A . . . W R V
0xffffc00140000000-0xffffc00177000000 0x00000001c0000000 880M
PMD D A . . . W R V

Alexandre Ghiti (2):
riscv: Get memory below load_pa while ensuring linear mapping
is PMD
aligned
riscv: Use PUD/PGDIR entries for linear mapping when possible

arch/riscv/include/asm/page.h | 8 ++++
arch/riscv/mm/init.c | 69
+++++++++++++++++++++++++++++------
2 files changed, 65 insertions(+), 12 deletions(-)

--
2.20.1