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== Overview ==

Original x86-64 was limited by 4-level paing to 256 TiB of virtual address
space and 64 TiB of physical address space. We are already bumping into
this limit: some vendors offers servers with 64 TiB of memory today.

To overcome the limitation upcoming hardware will introduce support for
5-level paging. It is a straight-forward extension of the current page
table structure adding one more layer of translation.

It bumps the limits to 128 PiB of virtual address space and 4 PiB of
physical address space. This "ought to be enough for anybody" ©.

QEMU 2.9 and later support 5-level paging.

Virtual memory layout for 5-level paging is described in
Documentation/x86/x86_64/mm.txt

== Enabling 5-level paging ==

CONFIG_X86_5LEVEL=y enables the feature.

So far, a kernel compiled with the option enabled will be able to boot
only on machines that supports the feature -- see for 'la57' flag in
/proc/cpuinfo.

The plan is to implement boot-time switching between 4- and 5-level paging
in the future.

== User-space and large virtual address space ==

On x86, 5-level paging enables 56-bit userspace virtual address space.
Not all user space is ready to handle wide addresses. It's known that
at least some JIT compilers use higher bits in pointers to encode their
information. It collides with valid pointers with 5-level paging and
leads to crashes.

To mitigate this, we are not going to allocate virtual address space
above 47-bit by default.

But userspace can ask for allocation from full address space by
specifying hint address (with or without MAP_FIXED) above 47-bits.

If hint address set above 47-bit, but MAP_FIXED is not specified, we try
to look for unmapped area by specified address. If it's already
occupied, we look for unmapped area in *full* address space, rather than
from 47-bit window.

A high hint address would only affect the allocation in question, but not
any future mmap()s.

Specifying high hint address on older kernel or on machine without 5-level
paging support is safe. The hint will be ignored and kernel will fall back
to allocation from 47-bit address space.

This approach helps to easily make application's memory allocator aware
about large address space without manually tracking allocated virtual
address space.

One important case we need to handle here is interaction with MPX.
MPX (without MAWA extension) cannot handle addresses above 47-bit, so we
need to make sure that MPX cannot be enabled we already have VMA above
the boundary and forbid creating such VMAs once MPX is enabled.