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-rw-r--r--Documentation/kvm/mmu.txt52
1 files changed, 48 insertions, 4 deletions
diff --git a/Documentation/kvm/mmu.txt b/Documentation/kvm/mmu.txt
index aaed6ab9d7ab..142cc5136650 100644
--- a/Documentation/kvm/mmu.txt
+++ b/Documentation/kvm/mmu.txt
@@ -77,10 +77,10 @@ Memory
Guest memory (gpa) is part of the user address space of the process that is
using kvm. Userspace defines the translation between guest addresses and user
-addresses (gpa->hva); note that two gpas may alias to the same gva, but not
+addresses (gpa->hva); note that two gpas may alias to the same hva, but not
vice versa.
-These gvas may be backed using any method available to the host: anonymous
+These hvas may be backed using any method available to the host: anonymous
memory, file backed memory, and device memory. Memory might be paged by the
host at any time.
@@ -161,7 +161,7 @@ Shadow pages contain the following information:
role.cr4_pae:
Contains the value of cr4.pae for which the page is valid (e.g. whether
32-bit or 64-bit gptes are in use).
- role.cr4_nxe:
+ role.nxe:
Contains the value of efer.nxe for which the page is valid.
role.cr0_wp:
Contains the value of cr0.wp for which the page is valid.
@@ -180,7 +180,9 @@ Shadow pages contain the following information:
guest pages as leaves.
gfns:
An array of 512 guest frame numbers, one for each present pte. Used to
- perform a reverse map from a pte to a gfn.
+ perform a reverse map from a pte to a gfn. When role.direct is set, any
+ element of this array can be calculated from the gfn field when used, in
+ this case, the array of gfns is not allocated. See role.direct and gfn.
slot_bitmap:
A bitmap containing one bit per memory slot. If the page contains a pte
mapping a page from memory slot n, then bit n of slot_bitmap will be set
@@ -296,6 +298,48 @@ Host translation updates:
- look up affected sptes through reverse map
- drop (or update) translations
+Emulating cr0.wp
+================
+
+If tdp is not enabled, the host must keep cr0.wp=1 so page write protection
+works for the guest kernel, not guest guest userspace. When the guest
+cr0.wp=1, this does not present a problem. However when the guest cr0.wp=0,
+we cannot map the permissions for gpte.u=1, gpte.w=0 to any spte (the
+semantics require allowing any guest kernel access plus user read access).
+
+We handle this by mapping the permissions to two possible sptes, depending
+on fault type:
+
+- kernel write fault: spte.u=0, spte.w=1 (allows full kernel access,
+ disallows user access)
+- read fault: spte.u=1, spte.w=0 (allows full read access, disallows kernel
+ write access)
+
+(user write faults generate a #PF)
+
+Large pages
+===========
+
+The mmu supports all combinations of large and small guest and host pages.
+Supported page sizes include 4k, 2M, 4M, and 1G. 4M pages are treated as
+two separate 2M pages, on both guest and host, since the mmu always uses PAE
+paging.
+
+To instantiate a large spte, four constraints must be satisfied:
+
+- the spte must point to a large host page
+- the guest pte must be a large pte of at least equivalent size (if tdp is
+ enabled, there is no guest pte and this condition is satisified)
+- if the spte will be writeable, the large page frame may not overlap any
+ write-protected pages
+- the guest page must be wholly contained by a single memory slot
+
+To check the last two conditions, the mmu maintains a ->write_count set of
+arrays for each memory slot and large page size. Every write protected page
+causes its write_count to be incremented, thus preventing instantiation of
+a large spte. The frames at the end of an unaligned memory slot have
+artificically inflated ->write_counts so they can never be instantiated.
+
Further reading
===============