Add a very basic NVRAM driver for OPAL which can be used by the IBM
powerpc-utils nvram utility, not to be confused with the base nvram utility,
which only operates on powermac_nvram.
The IBM utility handles all partitions itself, treating the nvram device as
a plain store.
An alternative would be to manage partitions in the kernel, and augment the
base nvram utility to deal with different backing stores, but that
complicates the driver significantly. Instead, present the same interface
IBM's utlity expects, and we get the usage for free.
Tested by: bdragon
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
We only call alloc_pvo_entry() with M_WAITOK from one location. However,
this can be called while holding nonsleepable locks. Rather than passing
M_WAITOK down, use vm_wait() and loop.
Summary:
MOEA64_PTE_REPLACE() is called often with the pmap lock held, and
sometimes with the page pv lock held. The less work done while holding
a lock, the better. Since we are intending to replace the same PTE
(same hash index), we don't need to recalculate anything, just flat
replace the PTE. This cuts more than 200 instructions off the
invalidating code path. In addition, we don't need to replace a PTE
that's not occupied by this PVO.
Reviewed by: luporl
Differential Revision: https://reviews.freebsd.org/D21515
Many extern struct pcpu <something>__pcpu declarations were
copied/pasted in sources. The issue is that the definition is MD, but
it cannot be provided by machine/pcpu.h due to actual struct pcpu
defined in sys/pcpu.h later than the inclusion of machine/pcpu.h.
This forced the copying when other code needed direct access to
__pcpu. There is no way around it, due to machine/pcpu.h supplying
part of struct pcpu fields.
To work around the problem, add a new machine/pcpu_aux.h header, which
should fill any needed MD definitions after struct pcpu definition is
completed. This allows to remove copies of __pcpu spread around the
source. Also on x86 it makes it possible to remove work arounds like
OFFSETOF_CURTHREAD or clang specific warnings supressions.
Reported and tested by: lwhsu, bcran
Reviewed by: imp, markj (previous version)
Discussed with: jhb
Sponsored by: The FreeBSD Foundation
Differential revision: https://reviews.freebsd.org/D21418
Many arm kernel configs bogusly specified WERROR=-Werror. There's no
reason for this because the default is that and there's no reason to
override. These date from a time when we needed to add additional
warning->error suppression. They are obsolete and were cut and paste
propagated from file to file.
Comment out all the WERROR=.... lines in powerpc. They aren't bogus,
but were appropriate for the old defaults for gcc4.2.1. Now that we've
made the policy decision to suppress -Werror by default on these
platforms, it is appropriate to comment these out. People wishing to
fix these errors can still un-comment them out, or say WERROR=-Werror
on the command line.
Fix two instances (cut and paste propagation) of hard-coded -Werror
in x86 code. Replace with ${WERROR} instead. This is a no-op change
except for people who build WERROR=-Wno-error :).
This should fix tinderbox / CI breakage.
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
tcpratelimit isn't supported as there's now atomic_add_64, so add it to the exclusion list
Add comment for why PPC_PROBE_CHIPSET is on the list
Remove UKBD_DFLT_KEYMAP now that ukbd works on all platforms.
Move the floppy driver to the x86 specific notes file.
Reviewed by: jhb, manu, jhibbits, emaste
Differential Revision: https://reviews.freebsd.org/D21208
x86 needs sc, as does sparc64. powerpc doesn't use it by default, but some old
powermac notebooks do not work with vt yet for reasons unknonw. Even so, I've
removed it from powerpc LINT. It's not in daily use there, and the intent is to
100% switch to vt now that it works for that platform to limit support burden.
All the other architectures omit some or all of the screen savers from their
lint config. Move them to the x86 NOTES files and remove the exclusions. This
reduces slightly the number of savers sparc64 compiles, but since they are in
GENERIC, the overage is adequate and if someone reaelly wants to sort them out
in sparc64 they can sweat the details and the testing.
Reviewed by: jhb (earlier version), manu (earlier version), jhibbits
Differential Revision: https://reviews.freebsd.org/D21233
Avoid empty structs, that have undefined behavior in C99 and
make compilers complain about it
(empty struct has size 0 in C, size 1 in C++).
Reviewed by: jhibbits
Differential Revision: https://reviews.freebsd.org/D21231
Fixed trap handler logic, in order to make it save FPU registers,
if FPU is enabled, before enabling VSX. Without this change, FPU
register contents were being lost when set before VSX was enabled.
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 last few changes needed before 32-bit AIM builds with secure-PLT with
base GCC. Because ofwcall32.S and swtch32.S were branching to the GOT it
could not use secure PLT.
The flag handling was committed commented out 7 years ago. It works, and is
needed for LinuxKPI-based DRM drivers.
Also mark a local as potentially unusable, as it's only really used when KTR
is enabled.
Submitted by: mmacy
Freeze clearing needs to heppen any time OPAL reads return either an error
(except OPAL_HARDWARE), AND any time it returns 0xff for all bytes.
For cfgwrite, any error that's not OPAL_HARDWARE should be cleaned up.
Only clear an EEH freeze if an error occurs. However, if an OPAL_HARDWARE
error is returned, this indicates a hardware failure which cannot be
unfrozen, and instead needs a hardware reset. Attempting to unfreeze a
broken PCH will result in console spam for each attempt. To avoid the spam,
just don't do it.
Summary:
Although it's convenient to reuse the pvo_plist for deletion, RB_TREE
insertion and removal is not free, and can result in a lot of extra work
to rebalance the tree. Instead, use a SLIST as a LIFO delete queue,
which gives us almost free insertion, deletion, and traversal.
Reviewed by: luporl
Differential Revision: https://reviews.freebsd.org/D21061
Added allocation retry loop in alloc_pvo_entry(), to wait for
memory to become available if the caller specifies the M_WAITOK flag.
Also, the loop in moa64_enter() was removed, as moea64_pvo_enter()
never returns ENOMEM. It is alloc_pvo_entry() memory allocation that
can fail and must be retried.
Reviewed by: jhibbits
Differential Revision: https://reviews.freebsd.org/D21035
Summary:
It turns out statistics accounting is very expensive in the pmap driver,
and doesn't seem necessary in the common case. Make this optional
behind a MOEA64_STATS #define, which one can set if they really need
statistics.
This saves ~7-8% on buildworld time on a POWER9.
Found by bdragon.
Reviewed by: luporl
Differential Revision: https://reviews.freebsd.org/D20903
oldpvo is never explicitly NULL'd by moea64_pvo_enter(), so don't check for
NULL to do anything, only check error.
PR: 239372
Reported by: Francis Little
Summary:
Instead of searching for a PVO entry before adding, take advantage of
the fact that RB_INSERT() returns NULL if it inserts, and the existing entry if
an entry exists, without inserting a new entry. This saves an extra tree
traversal in the cases where the PVO does not exist.
Reviewed by: luporl
Differential Revision: https://reviews.freebsd.org/D20944
EFSCFD (floating point single convert from double) emulation requires saving
the high word of the register, which uses SPE instructions. Enable the SPE
to avoid an SPV Unavailable exception.
MFC after: 1 week
'=' asm constraint marks a variable as write-only. Because of this, gcc
throws away the initialization of 'res', causing garbage to be returned if
the CAS was successful. Use '+' to mark res as read/write, so that the
initialization stays in the generated asm. Also, fix the reservation
clearing stwcx store index register in casueword32, and only do the dummy
store when needed, skip it if the real store has already succeeded.
syscallret() doesn't use error anymore. Fix a few other places to permit
removing the return value from syscallenter() entirely.
- Remove a duplicated assertion from arm's syscall().
- Use td_errno for amd64_syscall_ret_flush_l1d.
Reviewed by: kib
MFC after: 1 month
Sponsored by: DARPA
Differential Revision: https://reviews.freebsd.org/D2090
The only consumer of moea64_pvo_remove_from_page_locked() already has the
page in hand, so there is no need to search for the page while holding the
lock. Drop the wrapper, and rename _moea64_pvo_remove_from_page_locked().
Reported by: alc
Summary:
Since the 'page pv' lock is one of the most highly contended locks, we
need to try to do as much work outside of the lock as we can. The
moea64_pvo_remove_from_page() path is a low hanging fruit, where we can
do some heavy work (PHYS_TO_VM_PAGE()) outside of the lock if needed.
In one path, moea64_remove_all(), the PV lock is already held and can't
be swizzled, so we provide two ways to perform the locked operation, one
that can call PHYS_TO_VM_PAGE outside the lock, and one that calls with
the lock already held.
Reviewed By: luporl
Differential Revision: https://reviews.freebsd.org/D20694
Summary:
If an illegal instruction is encountered on a process running on a
powerpc64 kernel it would attempt to sync the cache before retrying the
instruction "just in case". However, since curpmap is not set, when
moea64_sync_icache() attempts to lock the pmap, it's locking on a NULL pointer,
triggering a panic. Fix this by adding a (assumed unnecessary) fallback to
curthread's pmap in moea64_sync_icache().
Reported by: alfredo.junior_eldorado.org.br
Reviewed by: luporl, alfredo.junior_eldorado.org.br
Differential Revision: https://reviews.freebsd.org/D20911
Casueword(9) on ll/sc architectures must be prepared for userspace
constantly modifying the same cache line as containing the CAS word,
and not loop infinitely. Otherwise, rogue userspace livelocks the
kernel.
To fix the issue, change casueword(9) interface to return new value 1
indicating that either comparision or store failed, instead of relying
on the oldval == *oldvalp comparison. The primitive no longer retries
the operation if it failed spuriously. Modify callers of
casueword(9), all in kern_umtx.c, to handle retries, and react to
stops and requests to terminate between retries.
On x86, despite cmpxchg should not return spurious failures, we can
take advantage of the new interface and just return PSL.ZF.
Reviewed by: andrew (arm64, previous version), markj
Tested by: pho
Reported by: https://xenbits.xen.org/xsa/advisory-295.txt
Sponsored by: The FreeBSD Foundation
MFC after: 2 weeks
Differential revision: https://reviews.freebsd.org/D20772
Summary:
Running a 32-bit process on a 64-bit POWER CPU may still use all 64-bits
in calculations, while ignoring the upper 32 bits for addressing
storage. It so happens that some processes end up with r1 (SP) having
bit 31 set in some cases (33-bit address). Writing out to this 33-bit
address obviosly fails. Since the CPU ignores the upper bits, we should
as well.
sendsig() and cpu_fetch_syscall_args() appear to be the only functions
that actually rely on userspace register values for copy in/out, and
cpu_fetch_syscall_args() doesn't seem to be bitten in practice yet.
Reviewed By: luporl
Differential Revision: https://reviews.freebsd.org/D20896
On POWER9/pseries, QEMU passes several regions of memory,
instead of a single region containing all memory, as the
code was expecting.
Reviewed by: jhibbits
Differential Revision: https://reviews.freebsd.org/D20857
sv_maxuser specifies the maximum addressable space for user space. Presently
this is all 64-bits worth, which is impossible for a 32-bit process.
This bug has existed since the initial import of powerpc64 in 2010.
MFC after: 2 weeks
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
Although PPC SLB code doesn't handle allocation failures,
which are rare, in most places it asserts that the pointer
returned by uma_zalloc() is not NULL, making it easier to
identify the failure and avoiding an invalid pointer dereference.
This change simply adds a missing KASSERT in SLB code.
There was an issue in pseries llan driver, that resulted in the first 2 bytes
of the MAC address getting stripped, and the last 2 being always 0.
In most cases the network interface still worked, despite the MAC being
different of what was specified to QEMU, but when some other host or DHCP
server expected a specific MAC, this would fail.
This change fixes this by shifting right by 2 the local-mac-address read from
device tree, if its length is 6 instead of 8, as observed in QEMU DT, that
always presents a 6 bytes value for this property.
PR: 237471
Reported by: Alfredo Dal'Ava Junior
Reviewed by: jhibbits
Differential Revision: https://reviews.freebsd.org/D20843
Misaligned floating point loads and stores are already handled for AIM, but
use the DSISR to obtain the necessary data. Book-E does not have the DSISR,
so these fixups are not performed, leading to a SIGBUS on misaligned FP
loads or stores. Obtain the necessary data on the Book-E side, similar to
how is done for SPE.
MFC after: 1 week
Summary:
PowerPC has two PLT models: BSS-PLT and Secure-PLT. BSS-PLT uses runtime
code generation to generate the PLT stubs. Secure-PLT was introduced with
GCC 4.1 and Binutils 2.17 (base has GCC 4.2.1 and Binutils 2.17), and is a
more secure PLT format, using a read-only linkage table, with the dynamic
linker populating a non-executable index table.
This is the libc, rtld, and kernel support only. The toolchain and build
parts will be updated separately.
Reviewed By: nwhitehorn, bdragon, pfg
Differential Revision: https://reviews.freebsd.org/D20598
MFC after: 1 month
r348783 changed the behavior of the kernel mappings and broke booting on G5.
- Split the kernel mapping logic out so that the case where we are
running from the wrong memory space is handled using identity
mappings, and the case where we are not using a DMAP is handled by
forcibly mapping the kernel into the dmap range as intended by
r348783.
Reported by: Mikael Urankar
Reviewed by: luporl
Approved by: jhibbits (mentor)
Differential Revision: https://reviews.freebsd.org/D20608
