--Eliminate a big ifdef that encompassed all currently-supported
architectures except mips and powerpc32. This applied to the case
in which we've allocated a superpage but the pager-populated range
is insufficient for a superpage mapping. For platforms that don't
support superpages the check should be inexpensive as we shouldn't
get a superpage in the first place. Make the normal-page fallback
logic identical for all platforms and provide a simple implementation
of pmap_ps_enabled() for MIPS and Book-E/AIM32 powerpc.
--Apply the logic for handling pmap_enter() failure if a superpage
mapping can't be supported due to additional protection policy.
Use KERN_PROTECTION_FAILURE instead of KERN_FAILURE for this case,
and note Intel PKU on amd64 as the first example of such protection
policy.
Reviewed by: kib, markj, bdragon
Differential Revision: https://reviews.freebsd.org/D29439
Move dump_avail[] extern declaration and inlines into a new header
vm/vm_dumpset.h. This fixes default gcc build for mips.
Reviewed by: alc, scottph
Tested by: kevans (previous version)
Sponsored by: The FreeBSD Foundation
Differential revision: https://reviews.freebsd.org/D26741
Subsequent to r240317, kmem_free() was replaced with kva_free() (r254025).
kva_free() releases the KVA allocation for the mapped region, but no longer
clears the pmap (pagetable) entries.
An affected pmap_unmapdev operation would leave the still-pmap'd VA space
free for allocation by other KVA consumers. However, this bug easily
avoided notice for ~7 years because most devices (1) never call
pmap_unmapdev and (2) on amd64, mostly fit within the DMAP and do not need
KVA allocations. Other affected arch are less popular: i386, MIPS, and
PowerPC. Arm64, arm32, and riscv are not affected.
Reported by: Don Morris <dgmorris AT earthlink.net>
Submitted by: Don Morris (amd64 part)
Reviewed by: kib, markj, Don (!amd64 parts)
MFC after: I don't intend to, but you might want to
Sponsored by: Dell Isilon
Differential Revision: https://reviews.freebsd.org/D25689
Summary:
Radix on AIM, and all of Book-E (currently), can do direct addressing of
user space, instead of needing to map user addresses into kernel space.
Take advantage of this to optimize the copy(9) functions for this
behavior, and avoid effectively NOP translations.
Test Plan: Tested on powerpcspe, powerpc64/booke, powerpc64/AIM
Reviewed by: bdragon
Differential Revision: https://reviews.freebsd.org/D25129
With IFUNC support in the kernel, we can finally get rid of our poor-man's
ifunc for pmap, utilizing kobj. Since moea64 uses a second tier kobj as
well, for its own private methods, this adds a second pmap install function
(pmap_mmu_init()) to perform pmap 'post-install pre-bootstrap'
initialization, before the IFUNCs get initialized.
Reviewed by: bdragon
Summary:
POWER9 supports two MMU formats: traditional hashed page tables, and Radix
page tables, similar to what's presesnt on most other architectures. The
PowerISA also specifies a process table -- a table of page table pointers--
which on the POWER9 is only available with the Radix MMU, so we can take
advantage of it with the Radix MMU driver.
Written by Matt Macy.
Differential Revision: https://reviews.freebsd.org/D19516
Summary:
This reduces the precious TLB1 entry consumption (64 possible in
existing 64-bit cores), by adjusting the size and alignment of a device
mapping to a power of 2, to encompass the full mapping and its
surroundings.
One caveat with this: If a mapping really is smaller than a power of 2,
it's possible to get a machine check or hang if the 'missing' physical
space is accessed. In practice this should not be an issue for users,
as devices overwhelmingly have physical spaces on power-of-two sizes and
alignments, and any design that includes devices which don't follow this
can be addressed by undefining the POW2_MAPPINGS guard.
Reviewed by: bdragon
Differential Revision: https://reviews.freebsd.org/D24248
Summary:
Iterating over VM_MIN_ADDRESS->VM_MAXUSER_ADDRESS can take a very long
time iterating one page at a time (2**(log_2(SIZE)-12) operations),
yielding possibly several days or even weeks on 64-bit Book-E, even for
a largely empty, which can happen when swapping out a process by
vmdaemon. Speed this up by instead finding the next PTE at or equal to
the given VA.
Reviewed by: bdragon
Differential Revision: https://reviews.freebsd.org/D24238
Summary:
The existing page table is fraught with errors, since it creates a hole
in the address space bits. Fix this by taking a cue from the POWER9
radix pmap, and make the page table 4 levels, 52 bits.
Reviewed by: bdragon
Differential Revision: https://reviews.freebsd.org/D24220
Summary:
This is largely a straight-forward cleave of the 32-bit and 64-bit page
table specifics, along with the mmu_booke_*() functions that are wholely
different between the two implementations.
The ultimate goal of this is to make it easier to reason about and
update a specific implementation without wading through the other
implementation details. This is in support of further changes to the 64-bit
pmap.
Reviewed by: bdragon
Differential Revision: https://reviews.freebsd.org/D23983
Since powerpc64 has such a large virtual address space, significantly larger
than its physical address space, take advantage of this, and create yet
another DMAP-like instance for the device mappings. In this case, the
device mapping "DMAP" is in the 0x8000000000000000 - 0xc000000000000000
range, so as not to overlap the physical memory DMAP.
This will allow us to add TLB1 entry coalescing in the future, especially
useful for things like the radeonkms driver, which maps parts of the GPU at
a time, but eventually maps all of it, using up a lot of TLB1 entries (~40).
ptbl_alloc() is expected to return with the pvh_global_lock and pmap
lock held. However, it will return with them unlocked if nosleep is
specified.
Along with this, fix lock ordering of pvh_global_lock with respect to
the pmap lock in other places.
Differential Revision: https://reviews.freebsd.org/D23692
It turns out the maximum TLB1 page size on e5500 is 4G, despite the format
being defined for up to 1TB.
So, we need to clamp the DMAP TLB1 entries to not attempt to create 16G or
larger entries.
Fixes boot on my X5000 in which I just installed 16G of RAM.
Reviewed by: jhibbits
Sponsored by: Tag1 Consulting, Inc.
Differential Revision: https://reviews.freebsd.org/D23244
Summary:
This matches r351198 from amd64. This only applies to AIM64 and Book-E.
On AIM64 it short-circuits with one domain, to behave similar to
existing. Otherwise it will allocate 16MB huge pages to hold the page
array, across all NUMA domains. On the first domain it will shift the
page array base up, to "upper-align" the page array in that domain, so
as to reduce the number of pages from the next domain appearing in this
domain. After the first domain, subsequent domains will be allocated in
full 16MB pages, until the final domain, which can be short. This means
some inner domains may have pages accounted in earlier domains.
On Book-E the page array is setup at MMU bootstrap time so that it's
always mapped in TLB1, on both 32-bit and 64-bit. This reduces the TLB0
overhead for touching the vm_page_array, which reduces up to one TLB
miss per array access.
Since page_range (vm_page_startup()) is no longer used on Book-E but is on
32-bit AIM, mark the variable as potentially unused, rather than using a
nasty #if defined() list.
Reviewed by: luporl
Differential Revision: https://reviews.freebsd.org/D21449
Use the right formats for the types given (vm_offset_t and vm_size_t are
both uint32_t on 32-bit platforms, and uint64_t on 64-bit platforms, and
match size_t in size, so we can use the size_t format as we do in other
similar code).
These were found by clang.
'tlbilxpid' is 'tlbilx 1, 0', while the existing form is 'tlbilx 0, 0',
which translates to 'tlbilxlpid', invalidating a LDPID. This effectively
invalidates the entire TLB, causing unnecessary reloads.
Also, fix pmap_change_attr() to ignore non-kernel mappings.
* Fix a masking bug in mmu_booke_mapdev_attr() which caused it to align
mappings to the smallest mapping alignment, instead of the largest. This
caused mappings to be potentially pessimally aligned, using more TLB
entries than necessary.
* Return existing mappings from mmu_booke_mapdev_attr() that span more than
one TLB1 entry. The drm-current-kmod drivers map discontiguous segments
of the GPU, resulting in more than one TLB entry being used to satisfy the
mapping.
* Ignore non-kernel mappings in mmu_booke_change_attr(). There's a bug in
the linuxkpi layer that causes it to actually try to change physical
address mappings, instead of virtual addresses. amd64 doesn't encounter
this because it ignores non-kernel mappings.
With this it's possible to use drm-current-kmod on Book-E.
tlb1_mapin_region() and pmap_mapdev_attr() do roughly the same thing -- map
a chunk of physical address space(memory or MMIO) into virtual, but do it in
differing ways. Unify the code, settling on pmap_mapdev_attr()'s algorithm,
to simplify and unify the logic. This fixes a bug with growing the kernel
mappings in mmu_booke_bootstrap(), where part of the mapping was not getting
done, leading to a hang when the unmapped VAs were accessed.
This involved several changes:
* Since lld does not like text relocations, replace SMP boot page text relocs
in booke/locore.S with position-independent math, and track the virtual base
in the SMP boot page header.
* As some SPRs are interpreted differently on clang due to the way it handles
platform-specific SPRs, switch m*dear and m*esr mnemonics out for regular
m*spr. Add both forms of SPR_DEAR to spr.h so the correct encoding is selected.
* Change some hardcoded 32 bit things in the boot page to be pointer-sized, and
fix alignment.
* Fix 64-bit build of booke/pmap.c when enabling pmap debugging.
Additionally, I took the opportunity to document how the SMP boot page works.
Approved by: jhibbits (mentor)
Differential Revision: https://reviews.freebsd.org/D21999
It's possible, with per-CPU mappings, for TLB1 indices to get out of sync.
This presents a problem when trying to insert an entry into TLB1 of all
CPUs. Currently that's done by assuming (hoping) that the TLBs are
perfectly synced, and inserting to the same index for all CPUs. However,
with aforementioned private mappings, this can result in overwriting
mappings on the other CPUs.
An example:
CPU0 CPU1
<setup all mappings> <idle>
3 private mappings
kick off CPU 1
initialize shared mappings (3 indices low)
Load kernel module, triggers 20 new mappings
Sync mappings at N-3
initialize 3 private mappings.
At this point, CPU 1 has all the correct mappings, while CPU 0 is missing 3
mappings that were shared across to CPU 1. When CPU 0 tries to access
memory in one of the overwritten mappings, it hangs while tripping through
the TLB miss handler. Device mappings are not stored in any page table.
This fixes by introducing a '-1' index for tlb1_write_entry_int(), so each
CPU searches for an available index private to itself.
MFC after: 3 weeks
r353489 added minidump support for powerpc64, but it added a dependency on
the dump_avail array. Leaving it uninitialized caused breakage in late
boot. Initialize dump_avail, even though the 64-bit booke pmap doesn't yet
support minidumps, but will in the future.
After r352110 the page lock no longer protects a page's identity, so
there is no purpose in locking the page in pmap_mincore(). Instead,
if vm.mincore_mapped is set to the non-default value of 0, re-lookup
the page after acquiring its object lock, which holds the page's
identity stable.
The change removes the last callers of vm_page_pa_tryrelock(), so
remove it.
Reviewed by: kib
Sponsored by: Netflix
Differential Revision: https://reviews.freebsd.org/D21823
The VM_PAGE_OBJECT_BUSY_ASSERT() in pmap_enter() implementation should
be only asserted when the code is executed as result of pmap_enter(),
not when the same code is entered from e.g. pmap_enter_quick(). This
is relevant for all PowerPC pmap variants, because mmu_*_enter() is
used as the backend, and assert is located there.
Add a PowerPC private pmap_enter() PMAP_ENTER_QUICK_LOCKED flag to
indicate that the call is not from pmap_enter(). For non-quick-locked
calls, assert that the object is locked.
Reported and tested by: bdragon
Reviewed by: alc, bdragon, markj
Sponsored by: The FreeBSD Foundation
Differential revision: https://reviews.freebsd.org/D22041
callers hold it.
This simplifies pmap code and removes a dependency on the object lock.
Reviewed by: kib, markj
Tested by: pho
Sponsored by: Netflix, Intel
Differential Revision: https://reviews.freebsd.org/D21596
busy acquires while held.
This allows code that would need to acquire and release a very large number
of page busy locks to use the old mechanism where busy is only checked and
not held. This comes at the cost of false positives but never false
negatives which the single consumer, vm_fault_soft_fast(), handles.
Reviewed by: kib
Tested by: pho
Sponsored by: Netflix, Intel
Differential Revision: https://reviews.freebsd.org/D21592
There are cases where there's no vm_page_t structure for a given physical
address, such as the CCSR. In this case, trying to obtain the
md.page_tracked struct member would lead to a NULL dereference, and panic.
Tighten this up by checking for kernel_pmap AND that the page structure
actually exists before dereferencing. The flag can only be set when it's
tracked in the kernel pmap anyway.
MFC after: 3 weeks
Convert all remaining references to that field to "ref_count" and update
comments accordingly. No functional change intended.
Reviewed by: alc, kib
Sponsored by: Intel, Netflix
Differential Revision: https://reviews.freebsd.org/D21768
- Remove a dead variable from the amd64 pmap_extract_and_hold().
- Fix grammar in the vm_page_wire man page.
Reported by: alc
Reviewed by: alc, kib
Sponsored by: Netflix
Differential Revision: https://reviews.freebsd.org/D21639
There are several mechanisms by which a vm_page reference is held,
preventing the page from being freed back to the page allocator. In
particular, holding the page's object lock is sufficient to prevent the
page from being freed; holding the busy lock or a wiring is sufficent as
well. These references are protected by the page lock, which must
therefore be acquired for many per-page operations. This results in
false sharing since the page locks are external to the vm_page
structures themselves and each lock protects multiple structures.
Transition to using an atomically updated per-page reference counter.
The object's reference is counted using a flag bit in the counter. A
second flag bit is used to atomically block new references via
pmap_extract_and_hold() while removing managed mappings of a page.
Thus, the reference count of a page is guaranteed not to increase if the
page is unbusied, unmapped, and the object's write lock is held. As
a consequence of this, the page lock no longer protects a page's
identity; operations which move pages between objects are now
synchronized solely by the objects' locks.
The vm_page_wire() and vm_page_unwire() KPIs are changed. The former
requires that either the object lock or the busy lock is held. The
latter no longer has a return value and may free the page if it releases
the last reference to that page. vm_page_unwire_noq() behaves the same
as before; the caller is responsible for checking its return value and
freeing or enqueuing the page as appropriate. vm_page_wire_mapped() is
introduced for use in pmap_extract_and_hold(). It fails if the page is
concurrently being unmapped, typically triggering a fallback to the
fault handler. vm_page_wire() no longer requires the page lock and
vm_page_unwire() now internally acquires the page lock when releasing
the last wiring of a page (since the page lock still protects a page's
queue state). In particular, synchronization details are no longer
leaked into the caller.
The change excises the page lock from several frequently executed code
paths. In particular, vm_object_terminate() no longer bounces between
page locks as it releases an object's pages, and direct I/O and
sendfile(SF_NOCACHE) completions no longer require the page lock. In
these latter cases we now get linear scalability in the common scenario
where different threads are operating on different files.
__FreeBSD_version is bumped. The DRM ports have been updated to
accomodate the KPI changes.
Reviewed by: jeff (earlier version)
Tested by: gallatin (earlier version), pho
Sponsored by: Netflix
Differential Revision: https://reviews.freebsd.org/D20486
Summary:
Reduce the diff between AIM and Book-E even more. This also cleans up
vmparam.h significantly.
Reviewed by: luporl
Differential Revision: https://reviews.freebsd.org/D21301
doing so adds more flexibility with less redundant code.
Reviewed by: jhb, markj, kib
Sponsored by: Netflix
Differential Revision: https://reviews.freebsd.org/D21250
The only thing blocking UMA_MD_SMALL_ALLOC from working on 64-bit booke
powerpc was a missing check in pmap_kextract(). Adding DMAP handling into
pmap_kextract(), we can now use UMA_MD_SMALL_ALLOC. This should improve
performance and stability a bit, since DMAP is always mapped in TLB1, so
this relieves pressure on TLB0.
MFC after: 3 weeks
This is part 2 of r347078, pulling the page directory out of the Book-E
pmap. This breaks KBI for anything that uses struct pmap (such as vm_map)
so any modules that access this must be rebuilt.
There is no need for the 64-bit pmap to have a fixed number of page table
buffers. Since the 64-bit pmap has a DMAP, we can effectively have user
page tables limited only by total RAM size.
The hold_count and wire_count fields of struct vm_page are separate
reference counters with similar semantics. The remaining essential
differences are that holds are not counted as a reference with respect
to LRU, and holds have an implicit free-on-last unhold semantic whereas
vm_page_unwire() callers must explicitly determine whether to free the
page once the last reference to the page is released.
This change removes the KPIs which directly manipulate hold_count.
Functions such as vm_fault_quick_hold_pages() now return wired pages
instead. Since r328977 the overhead of maintaining LRU for wired pages
is lower, and in many cases vm_fault_quick_hold_pages() callers would
swap holds for wirings on the returned pages anyway, so with this change
we remove a number of page lock acquisitions.
No functional change is intended. __FreeBSD_version is bumped.
Reviewed by: alc, kib
Discussed with: jeff
Discussed with: jhb, np (cxgbe)
Tested by: pho (previous version)
Sponsored by: Netflix
Differential Revision: https://reviews.freebsd.org/D19247
Actually set the source and destination VA's before using them. Fixes a
bizarre panic on 32-bit Book-E. Not sure why this wasn't caught by the
compiler.
The MSR[EE] bit does not require synchronization when changing. This is a
trivial micro-optimization, removing the trailing isync from mtmsr().
MFC after: 1 week
* Make mmu_booke_sync_icache() use the DMAP on 64-bit prcoesses, no need to
map the page into the user's address space. This removes the
pvh_global_lock from the equation on 64-bit.
* Don't map the page with user-readability on 32-bit. I don't know what the
chance of a given user process being able to access the NULL page when
another process's page is added there, but it doesn't seem like a good
idea to map it to NULL with user read permissions.
* Only sync as much as we need to. There are only two significant places
where pmap_sync_icache is used: proc_rwmem(), and the SIGILL second-chance
for powerpc. The SIGILL second chance is likely the most common, and only
syncs 4 bytes, so avoid the other 127 loop iterations (4096 / 32 byte
cacheline) in __syncicache().
Reduce the surface area of the TLB locks. Unfortunately the same trick for
serializing the tlbie instruction on OEA64 cannot be used here to reduce the
scope of the tlbivax mutex to the tlbsync only, as the mutex also serializes
the TLB miss lock as a side effect, so contention on this lock may not be
reducible any further.
Since the DMAP is only available on powerpc64, and is *always* available on
Book-E powerpc64, don't penalize either side (32-bit or 64-bit) by always
checking hw_direct_map to perform operations. This saves 5-10% time on
various ports builds, and on buildworld+buildkernel on Book-E hardware.
MFC after: 3 weeks