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Author SHA1 Message Date
Linus Torvalds
4815519ed0 - Improve DM core's bio splitting to use blk_max_size_offset(). Also 
fix bio splitting for bios that were deferred to the worker thread
   due to a DM device being suspended.
 
 - Remove DM core's special handling of NVMe devices now that block
   core has internalized efficiencies drivers previously needed to
   be concerned about (via now removed direct_make_request).
 
 - Fix request-based DM to not bounce through indirect dm_submit_bio;
   instead have block core make direct call to blk_mq_submit_bio().
 
 - Various DM core cleanups to simplify and improve code.
 
 - Update DM cryot to not use drivers that set
   CRYPTO_ALG_ALLOCATES_MEMORY.
 
 - Fix DM raid's raid1 and raid10 discard limits for the purposes of
   linux-stable. But then remove DM raid's discard limits settings now
   that MD raid can efficiently handle large discards.
 
 - A couple small cleanups across various targets.
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Merge tag 'for-5.10/dm-changes' of git://git.kernel.org/pub/scm/linux/kernel/git/device-mapper/linux-dm

Pull device mapper updates from Mike Snitzer:

 - Improve DM core's bio splitting to use blk_max_size_offset(). Also
   fix bio splitting for bios that were deferred to the worker thread
   due to a DM device being suspended.

 - Remove DM core's special handling of NVMe devices now that block core
   has internalized efficiencies drivers previously needed to be
   concerned about (via now removed direct_make_request).

 - Fix request-based DM to not bounce through indirect dm_submit_bio;
   instead have block core make direct call to blk_mq_submit_bio().

 - Various DM core cleanups to simplify and improve code.

 - Update DM cryot to not use drivers that set
   CRYPTO_ALG_ALLOCATES_MEMORY.

 - Fix DM raid's raid1 and raid10 discard limits for the purposes of
   linux-stable. But then remove DM raid's discard limits settings now
   that MD raid can efficiently handle large discards.

 - A couple small cleanups across various targets.

* tag 'for-5.10/dm-changes' of git://git.kernel.org/pub/scm/linux/kernel/git/device-mapper/linux-dm:
  dm: fix request-based DM to not bounce through indirect dm_submit_bio
  dm: remove special-casing of bio-based immutable singleton target on NVMe
  dm: export dm_copy_name_and_uuid
  dm: fix comment in __dm_suspend()
  dm: fold dm_process_bio() into dm_submit_bio()
  dm: fix missing imposition of queue_limits from dm_wq_work() thread
  dm snap persistent: simplify area_io()
  dm thin metadata: Remove unused local variable when create thin and snap
  dm raid: remove unnecessary discard limits for raid10
  dm raid: fix discard limits for raid1 and raid10
  dm crypt: don't use drivers that have CRYPTO_ALG_ALLOCATES_MEMORY
  dm: use dm_table_get_device_name() where appropriate in targets
  dm table: make 'struct dm_table' definition accessible to all of DM core
  dm: eliminate need for start_io_acct() forward declaration
  dm: simplify __process_abnormal_io()
  dm: push use of on-stack flush_bio down to __send_empty_flush()
  dm: optimize max_io_len() by inlining max_io_len_target_boundary()
  dm: push md->immutable_target optimization down to __process_bio()
  dm: change max_io_len() to use blk_max_size_offset()
  dm table: stack 'chunk_sectors' limit to account for target-specific splitting
 2020-10-14 15:05:38 -07:00
Linus Torvalds
6e4dc3d592 Bug fix pull for IPMI for 5.10 
Some minor bug fixes, return values, cleanups of prints, conversion of
 tasklets to the new API.
 
 The biggest change is retrying the initial information fetch from the
 management controller.  If that fails, the iterface is not operational,
 and one group was having trouble with the management controller not
 being ready when the OS started up.  So a retry was added.
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Merge tag 'for-linus-5.10-1' of git://github.com/cminyard/linux-ipmi

Pull IPMI updates from Corey Minyard:
 "Some minor bug fixes, return values, cleanups of prints, conversion of
  tasklets to the new API.

  The biggest change is retrying the initial information fetch from the
  management controller. If that fails, the iterface is not operational,
  and one group was having trouble with the management controller not
  being ready when the OS started up. So a retry was added"

* tag 'for-linus-5.10-1' of git://github.com/cminyard/linux-ipmi:
  ipmi_si: Fix wrong return value in try_smi_init()
  ipmi: msghandler: Fix a signedness bug
  ipmi: add retry in try_get_dev_id()
  ipmi: Clean up some printks
  ipmi:msghandler: retry to get device id on an error
  ipmi:sm: Print current state when the state is invalid
  ipmi: Reset response handler when failing to send the command
  ipmi: add a newline when printing parameter 'panic_op' by sysfs
  char: ipmi: convert tasklets to use new tasklet_setup() API
 2020-10-14 15:00:20 -07:00
Linus Torvalds
2f6c6d0891 Merge branch 'for-5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/tj/cgroup 
Pull cgroup updates from Tejun Heo:
 "Two minor changes.

  One makes cgroup interface files ignore zero-sized writes rather than
  triggering -EINVAL on them. The other change is a cleanup which
  doesn't cause any behavior changes"

* 'for-5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/tj/cgroup:
  cgroup: Zero sized write should be no-op
  cgroup: remove redundant kernfs_activate in cgroup_setup_root()
 2020-10-14 14:58:32 -07:00
Maciej W. Rozycki
cf3af0a4d3 MIPS: DEC: Restore bootmem reservation for firmware working memory area 
Fix a crash on DEC platforms starting with:

VFS: Mounted root (nfs filesystem) on device 0:11.
Freeing unused PROM memory: 124k freed
BUG: Bad page state in process swapper  pfn:00001
page:(ptrval) refcount:0 mapcount:-128 mapping:00000000 index:0x1 pfn:0x1
flags: 0x0()
raw: 00000000 00000100 00000122 00000000 00000001 00000000 ffffff7f 00000000
page dumped because: nonzero mapcount
Modules linked in:
CPU: 0 PID: 1 Comm: swapper Not tainted 5.9.0-00858-g865c50e1d279 #1
Stack : 8065dc48 0000000b 8065d2b8 9bc27dcc 80645bfc 9bc259a4 806a1b97 80703124
        80710000 8064a900 00000001 80099574 806b116c 1000ec00 9bc27d88 806a6f30
        00000000 00000000 80645bfc 00000000 31232039 80706ba4 2e392e35 8039f348
        2d383538 00000070 0000000a 35363867 00000000 806c2830 80710000 806b0000
        80710000 8064a900 00000001 81000000 00000000 00000000 8035af2c 80700000
        ...
Call Trace:
[<8004bc5c>] show_stack+0x34/0x104
[<8015675c>] bad_page+0xfc/0x128
[<80157714>] free_pcppages_bulk+0x1f4/0x5dc
[<801591cc>] free_unref_page+0xc0/0x130
[<8015cb04>] free_reserved_area+0x144/0x1d8
[<805abd78>] kernel_init+0x20/0x100
[<80046070>] ret_from_kernel_thread+0x14/0x1c
Disabling lock debugging due to kernel taint

caused by an attempt to free bootmem space that as from
commit b93ddc4f91 ("mips: Reserve memory for the kernel image resources")
has not been anymore reserved due to the removal of generic MIPS arch code
that used to reserve all the memory from the beginning of RAM up to the
kernel load address.

This memory does need to be reserved on DEC platforms however as it is
used by REX firmware as working area, as per the TURBOchannel firmware
specification[1]:

Table 2-2  REX Memory Regions
-------------------------------------------------------------------------
        Starting        Ending
Region  Address         Address         Use
-------------------------------------------------------------------------
0       0xa0000000      0xa000ffff      Restart block, exception vectors,
                                        REX stack and bss
1       0xa0010000      0xa0017fff      Keyboard or tty drivers

2       0xa0018000      0xa001f3ff 1)   CRT driver

3       0xa0020000      0xa002ffff      boot, cnfg, init and t objects

4       0xa0020000      0xa002ffff      64KB scratch space
-------------------------------------------------------------------------
1) Note that the last 3 Kbytes of region 2 are reserved for backward
compatibility with previous system software.
-------------------------------------------------------------------------

(this table uses KSEG2 unmapped virtual addresses, which in the MIPS
architecture are offset from physical addresses by a fixed value of
0xa0000000 and therefore the regions referred do correspond to the
beginning of the physical address space) and we call into the firmware
on several occasions throughout the bootstrap process.  It is believed
that pre-REX firmware used with non-TURBOchannel DEC platforms has the
same requirements, as hinted by note #1 cited.

Recreate the discarded reservation then, in DEC platform code, removing
the crash.

References:

[1] "TURBOchannel Firmware Specification", On-line version,
    EK-TCAAD-FS-004, Digital Equipment Corporation, January 1993,
    Chapter 2 "System Module Firmware", p. 2-5

Signed-off-by: Maciej W. Rozycki <macro@linux-mips.org>
Fixes: b93ddc4f91 ("mips: Reserve memory for the kernel image resources")
Cc: stable@vger.kernel.org # v5.2+

Signed-off-by: Thomas Bogendoerfer <tsbogend@alpha.franken.de>
 2020-10-14 23:57:57 +02:00
Andrii Nakryiko
09cad07547 fs: fix NULL dereference due to data race in prepend_path() 
Fix data race in prepend_path() with re-reading mnt->mnt_ns twice
without holding the lock.

is_mounted() does check for NULL, but is_anon_ns(mnt->mnt_ns) might
re-read the pointer again which could be NULL already, if in between
reads one of kern_unmount()/kern_unmount_array()/umount_tree() sets
mnt->mnt_ns to NULL.

This is seen in production with the following stack trace:

  BUG: kernel NULL pointer dereference, address: 0000000000000048
  ...
  RIP: 0010:prepend_path.isra.4+0x1ce/0x2e0
  Call Trace:
    d_path+0xe6/0x150
    proc_pid_readlink+0x8f/0x100
    vfs_readlink+0xf8/0x110
    do_readlinkat+0xfd/0x120
    __x64_sys_readlinkat+0x1a/0x20
    do_syscall_64+0x42/0x110
    entry_SYSCALL_64_after_hwframe+0x44/0xa9

Fixes: f2683bd8d5 ("[PATCH] fix d_absolute_path() interplay with fsmount()")
Signed-off-by: Andrii Nakryiko <andrii@kernel.org>
Reviewed-by: Josef Bacik <josef@toxicpanda.com>
Cc: Alexander Viro <viro@zeniv.linux.org.uk>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
 2020-10-14 14:54:45 -07:00
Jamie Iles
c2a04b02c0 gfs2: use-after-free in sysfs deregistration 
syzkaller found the following splat with CONFIG_DEBUG_KOBJECT_RELEASE=y:

  Read of size 1 at addr ffff000028e896b8 by task kworker/1:2/228

  CPU: 1 PID: 228 Comm: kworker/1:2 Tainted: G S                5.9.0-rc8+ #101
  Hardware name: linux,dummy-virt (DT)
  Workqueue: events kobject_delayed_cleanup
  Call trace:
   dump_backtrace+0x0/0x4d8
   show_stack+0x34/0x48
   dump_stack+0x174/0x1f8
   print_address_description.constprop.0+0x5c/0x550
   kasan_report+0x13c/0x1c0
   __asan_report_load1_noabort+0x34/0x60
   memcmp+0xd0/0xd8
   gfs2_uevent+0xc4/0x188
   kobject_uevent_env+0x54c/0x1240
   kobject_uevent+0x2c/0x40
   __kobject_del+0x190/0x1d8
   kobject_delayed_cleanup+0x2bc/0x3b8
   process_one_work+0x96c/0x18c0
   worker_thread+0x3f0/0xc30
   kthread+0x390/0x498
   ret_from_fork+0x10/0x18

  Allocated by task 1110:
   kasan_save_stack+0x28/0x58
   __kasan_kmalloc.isra.0+0xc8/0xe8
   kasan_kmalloc+0x10/0x20
   kmem_cache_alloc_trace+0x1d8/0x2f0
   alloc_super+0x64/0x8c0
   sget_fc+0x110/0x620
   get_tree_bdev+0x190/0x648
   gfs2_get_tree+0x50/0x228
   vfs_get_tree+0x84/0x2e8
   path_mount+0x1134/0x1da8
   do_mount+0x124/0x138
   __arm64_sys_mount+0x164/0x238
   el0_svc_common.constprop.0+0x15c/0x598
   do_el0_svc+0x60/0x150
   el0_svc+0x34/0xb0
   el0_sync_handler+0xc8/0x5b4
   el0_sync+0x15c/0x180

  Freed by task 228:
   kasan_save_stack+0x28/0x58
   kasan_set_track+0x28/0x40
   kasan_set_free_info+0x24/0x48
   __kasan_slab_free+0x118/0x190
   kasan_slab_free+0x14/0x20
   slab_free_freelist_hook+0x6c/0x210
   kfree+0x13c/0x460

Use the same pattern as f2fs + ext4 where the kobject destruction must
complete before allowing the FS itself to be freed.  This means that we
need an explicit free_sbd in the callers.

Cc: Bob Peterson <rpeterso@redhat.com>
Cc: Andreas Gruenbacher <agruenba@redhat.com>
Signed-off-by: Jamie Iles <jamie@nuviainc.com>
[Also go to fail_free when init_names fails.]
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:43 +02:00
Andrew Price
0e539ca1bb gfs2: Fix NULL pointer dereference in gfs2_rgrp_dump 
When an rindex entry is found to be corrupt, compute_bitstructs() calls
gfs2_consist_rgrpd() which calls gfs2_rgrp_dump() like this:

    gfs2_rgrp_dump(NULL, rgd->rd_gl, fs_id_buf);

gfs2_rgrp_dump then dereferences the gl without checking it and we get

    BUG: KASAN: null-ptr-deref in gfs2_rgrp_dump+0x28/0x280

because there's no rgrp glock involved while reading the rindex on mount.

Fix this by changing gfs2_rgrp_dump to take an rgrp argument.

Reported-by: syzbot+43fa87986bdd31df9de6@syzkaller.appspotmail.com
Signed-off-by: Andrew Price <anprice@redhat.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:43 +02:00
Christoph Hellwig
2164f9b918 gfs2: use iomap for buffered I/O in ordered and writeback mode 
Switch to using the iomap readpage and writepage helpers for all I/O in
the ordered and writeback modes, and thus eliminate using buffer_heads
for I/O in these cases.  The journaled data mode is left untouched.

(Andreas Gruenbacher: In gfs2_unstuffer_page, switch from mark_buffer_dirty
to set_page_dirty instead of accidentally leaving the page / buffer clean.)

Signed-off-by: Christoph Hellwig <hch@lst.de>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:42 +02:00
Bob Peterson
ee1e2c773e gfs2: call truncate_inode_pages_final for address space glocks 
Before this patch, we were not calling truncate_inode_pages_final for the
address space for glocks, which left the possibility of a leak. We now
take care of the problem instead of complaining, and we do it during
glock tear-down..

Signed-off-by: Bob Peterson <rpeterso@redhat.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:42 +02:00
Bob Peterson
0a0d9f55c2 gfs2: simplify the logic in gfs2_evict_inode 
Now that we've factored out the deleted and undeleted dinode cases
in gfs2_evict_inode, we can greatly simplify the logic. Now the
function is easy to read and understand.

Signed-off-by: Bob Peterson <rpeterso@redhat.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:42 +02:00
Bob Peterson
d90be6ab9a gfs2: factor evict_linked_inode out of gfs2_evict_inode 
Now that we've factored out the delete-dinode case to simplify
gfs2_evict_inode, we take it a step further and factor out the other
case: where we don't delete the inode.

Signed-off-by: Bob Peterson <rpeterso@redhat.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:42 +02:00
Bob Peterson
53dbc27eb1 gfs2: further simplify gfs2_evict_inode with new func evict_should_delete 
This patch further simplifies function gfs2_evict_inode() by adding a
new function evict_should_delete. The function may also lock the inode
glock.

Signed-off-by: Bob Peterson <rpeterso@redhat.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:42 +02:00
Bob Peterson
6e7e9a5055 gfs2: factor evict_unlinked_inode out of gfs2_evict_inode 
Function gfs2_evict_inode is way too big, complex and unreadable. This
is a baby step toward breaking it apart to be more readable. It factors
out the portion that deletes the online bits for a dinode that is
unlinked and needs to be deleted. A future patch will factor out more.
(If I factor out too much, the patch itself becomes unreadable).

Signed-off-by: Bob Peterson <rpeterso@redhat.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:41 +02:00
Bob Peterson
23d828fc3f gfs2: rename variable error to ret in gfs2_evict_inode 
Function gfs2_evict_inode is too big and unreadable. This patch is just
a baby step toward improving that. This first step just renames variable
error to ret. This will help make future patches more readable.

Signed-off-by: Bob Peterson <rpeterso@redhat.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:41 +02:00
Liu Shixin
e8a8023ee0 gfs2: convert to use DEFINE_SEQ_ATTRIBUTE macro 
Use DEFINE_SEQ_ATTRIBUTE macro to simplify the code.

Signed-off-by: Liu Shixin <liushixin2@huawei.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:41 +02:00
Bob Peterson
521031fa97 gfs2: Fix bad comment for trans_drain 
Signed-off-by: Bob Peterson <rpeterso@redhat.com>
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:41 +02:00
Andreas Gruenbacher
5a61ae1402 gfs2: Make sure we don't miss any delayed withdraws 
Commit ca399c96e9 changes gfs2_log_flush to not withdraw the
filesystem while holding the log flush lock, but it fails to check if
the filesystem needs to be withdrawn once the log flush lock has been
released.  Likewise, commit f05b86db31 depends on gfs2_log_flush to
trigger for delayed withdraws.  Add that and clean up the code flow
somewhat.

In gfs2_put_super, add a check for delayed withdraws that have been
missed to prevent these kinds of bugs in the future.

Fixes: ca399c96e9 ("gfs2: flesh out delayed withdraw for gfs2_log_flush")
Fixes: f05b86db31 ("gfs2: Prepare to withdraw as soon as an IO error occurs in log write")
Cc: stable@vger.kernel.org # v5.7+: 462582b99b: gfs2: add some much needed cleanup for log flushes that fail
Signed-off-by: Andreas Gruenbacher <agruenba@redhat.com>
 2020-10-14 23:54:41 +02:00
Thomas Bogendoerfer
3e4614e7fd MIPS: dec: fix section mismatch 
Drop inline for memory setup functions and mark them __init to
fix section mismatch of pmax_setup_memory_region.

Signed-off-by: Thomas Bogendoerfer <tsbogend@alpha.franken.de>
Acked-by: Maciej W. Rozycki <macro@linux-mips.org>
 2020-10-14 23:54:28 +02:00
Linus Torvalds
4da9af0014 threads-v5.10 
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Merge tag 'threads-v5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/brauner/linux

Pull pidfd updates from Christian Brauner:
 "This introduces a new extension to the pidfd_open() syscall. Users can
  now raise the new PIDFD_NONBLOCK flag to support non-blocking pidfd
  file descriptors. This has been requested for uses in async process
  management libraries such as async-pidfd in Rust.

  Ever since the introduction of pidfds and more advanced async io
  various programming languages such as Rust have grown support for
  async event libraries. These libraries are created to help build
  epoll-based event loops around file descriptors. A common pattern is
  to automatically make all file descriptors they manage to O_NONBLOCK.

  For such libraries the EAGAIN error code is treated specially. When a
  function is called that returns EAGAIN the function isn't called again
  until the event loop indicates the the file descriptor is ready.
  Supporting EAGAIN when waiting on pidfds makes such libraries just
  work with little effort.

  This introduces a new flag PIDFD_NONBLOCK that is equivalent to
  O_NONBLOCK. This follows the same patterns we have for other (anon
  inode) file descriptors such as EFD_NONBLOCK, IN_NONBLOCK,
  SFD_NONBLOCK, TFD_NONBLOCK and the same for close-on-exec flags.

  Passing a non-blocking pidfd to waitid() currently has no effect, i.e.
  is not supported. There are users which would like to use waitid() on
  pidfds that are O_NONBLOCK and mix it with pidfds that are blocking
  and both pass them to waitid().

  The expected behavior is to have waitid() return -EAGAIN for
  non-blocking pidfds and to block for blocking pidfds without needing
  to perform any additional checks for flags set on the pidfd before
  passing it to waitid(). Non-blocking pidfds will return EAGAIN from
  waitid() when no child process is ready yet. Returning -EAGAIN for
  non-blocking pidfds makes it easier for event loops that handle EAGAIN
  specially.

  It also makes the API more consistent and uniform. In essence,
  waitid() is treated like a read on a non-blocking pidfd or a recvmsg()
  on a non-blocking socket.

  With the addition of support for non-blocking pidfds we support the
  same functionality that sockets do. For sockets() recvmsg() supports
  MSG_DONTWAIT for pidfds waitid() supports WNOHANG. Both flags are
  per-call options. In contrast non-blocking pidfds and non-blocking
  sockets are a setting on an open file description affecting all
  threads in the calling process as well as other processes that hold
  file descriptors referring to the same open file description. Both
  behaviors, per call and per open file description, have genuine
  use-cases.

  The interaction with the WNOHANG flag is documented as follows:

   - If a non-blocking pidfd is passed and WNOHANG is not raised we
     simply raise the WNOHANG flag internally. When do_wait() returns
     indicating that there are eligible child processes but none have
     exited yet we set EAGAIN. If no child process exists we continue
     returning ECHILD.

   - If a non-blocking pidfd is passed and WNOHANG is raised waitid()
     will continue returning 0, i.e. it will not set EAGAIN. This ensure
     backwards compatibility with applications passing WNOHANG
     explicitly with pidfds"

* tag 'threads-v5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/brauner/linux:
  tests: remove O_NONBLOCK before waiting for WSTOPPED
  tests: add waitid() tests for non-blocking pidfds
  tests: port pidfd_wait to kselftest harness
  pidfd: support PIDFD_NONBLOCK in pidfd_open()
  exit: support non-blocking pidfds
 2020-10-14 14:39:20 -07:00
Linus Torvalds
612e7a4c16 kernel-clone-v5.9 
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Merge tag 'kernel-clone-v5.9' of git://git.kernel.org/pub/scm/linux/kernel/git/brauner/linux

Pull kernel_clone() updates from Christian Brauner:
 "During the v5.9 merge window we reworked the process creation
  codepaths across multiple architectures. After this work we were only
  left with the _do_fork() helper based on the struct kernel_clone_args
  calling convention. As was pointed out _do_fork() isn't valid
  kernelese especially for a helper that isn't just static.

  This series removes the _do_fork() helper and introduces the new
  kernel_clone() helper. The process creation cleanup didn't change the
  name to something more reasonable mainly because _do_fork() was used
  in quite a few places. So sending this as a separate series seemed the
  better strategy.

  I originally intended to send this early in the v5.9 development cycle
  after the merge window had closed but given that this was touching
  quite a few places I decided to defer this until the v5.10 merge
  window"

* tag 'kernel-clone-v5.9' of git://git.kernel.org/pub/scm/linux/kernel/git/brauner/linux:
  sched: remove _do_fork()
  tracing: switch to kernel_clone()
  kgdbts: switch to kernel_clone()
  kprobes: switch to kernel_clone()
  x86: switch to kernel_clone()
  sparc: switch to kernel_clone()
  nios2: switch to kernel_clone()
  m68k: switch to kernel_clone()
  ia64: switch to kernel_clone()
  h8300: switch to kernel_clone()
  fork: introduce kernel_clone()
 2020-10-14 14:32:52 -07:00
Linus Torvalds
9e51183e94 linux-kselftest-fixes-5.10-rc1 
This kselftest fixes update consists of a selftests harness fix to
 flush stdout before forking to avoid parent and child printing
 duplicates messages. This is evident when test output is redirected
 to a file.
 
 The second fix is a tools/ wide change to avoid comma separated statements
 from Joe Perches. This fix spans tools/lib, tools/power/cpupower, and
 selftests.
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Merge tag 'linux-kselftest-fixes-5.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/shuah/linux-kselftest

Pull kselftest updates from Shuah Khan:

 - a selftests harness fix to flush stdout before forking to avoid
   parent and child printing duplicates messages. This is evident when
   test output is redirected to a file.

 - a tools/ wide change to avoid comma separated statements from Joe
   Perches. This fix spans tools/lib, tools/power/cpupower, and
   selftests.

* tag 'linux-kselftest-fixes-5.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/shuah/linux-kselftest:
  tools: Avoid comma separated statements
  selftests/harness: Flush stdout before forking
 2020-10-14 14:23:51 -07:00
Linus Torvalds
2fc61f25fb New code for 5.10: 
- Clean up the buffer ioend calling path so that the retry strategy
   isn't quite so scattered everywhere.
 - Clean up m_sb_bp handling.
 - New feature: storing inode btree counts in the AGI to speed up certain
   mount time per-AG block reservation operatoins and add a little more
   metadata redundancy.
 - New feature: Widen inode timestamps and quota grace expiration
   timestamps to support dates through the year 2486.
 - Get rid of more of our custom buffer allocation API wrappers.
 - Use a proper VLA for shortform xattr structure namevals.
 - Force the log after reflinking or deduping into a file that is opened
   with O_SYNC or O_DSYNC.
 - Fix some math errors in the realtime allocator.
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Merge tag 'xfs-5.10-merge-2' of git://git.kernel.org/pub/scm/fs/xfs/xfs-linux

Pull xfs updates from Darrick Wong:
 "The biggest changes are two new features for the ondisk metadata: one
  to record the sizes of the inode btrees in the AG to increase
  redundancy checks and to improve mount times; and a second new feature
  to support timestamps until the year 2486.

  We also fixed a problem where reflinking into a file that requires
  synchronous writes wouldn't actually flush the updates to disk; clean
  up a fair amount of cruft; and started fixing some bugs in the
  realtime volume code.

  Summary:

   - Clean up the buffer ioend calling path so that the retry strategy
     isn't quite so scattered everywhere.

   - Clean up m_sb_bp handling.

   - New feature: storing inode btree counts in the AGI to speed up
     certain mount time per-AG block reservation operatoins and add a
     little more metadata redundancy.

   - New feature: Widen inode timestamps and quota grace expiration
     timestamps to support dates through the year 2486.

   - Get rid of more of our custom buffer allocation API wrappers.

   - Use a proper VLA for shortform xattr structure namevals.

   - Force the log after reflinking or deduping into a file that is
     opened with O_SYNC or O_DSYNC.

   - Fix some math errors in the realtime allocator"

* tag 'xfs-5.10-merge-2' of git://git.kernel.org/pub/scm/fs/xfs/xfs-linux: (42 commits)
  xfs: ensure that fpunch, fcollapse, and finsert operations are aligned to rt extent size
  xfs: make sure the rt allocator doesn't run off the end
  xfs: Remove unneeded semicolon
  xfs: force the log after remapping a synchronous-writes file
  xfs: Convert xfs_attr_sf macros to inline functions
  xfs: Use variable-size array for nameval in xfs_attr_sf_entry
  xfs: Remove typedef xfs_attr_shortform_t
  xfs: remove typedef xfs_attr_sf_entry_t
  xfs: Remove kmem_zalloc_large()
  xfs: enable big timestamps
  xfs: trace timestamp limits
  xfs: widen ondisk quota expiration timestamps to handle y2038+
  xfs: widen ondisk inode timestamps to deal with y2038+
  xfs: redefine xfs_ictimestamp_t
  xfs: redefine xfs_timestamp_t
  xfs: move xfs_log_dinode_to_disk to the log recovery code
  xfs: refactor quota timestamp coding
  xfs: refactor default quota grace period setting code
  xfs: refactor quota expiration timer modification
  xfs: explicitly define inode timestamp range
  ...
 2020-10-14 14:06:06 -07:00
Chengguang Xu
788e96d1d3 f2fs: code cleanup by removing unnecessary check 
f2fs_seek_block() is only used for regular file,
so don't have to check inline dentry in it.

Signed-off-by: Chengguang Xu <cgxu519@mykernel.net>
Reviewed-by: Chao Yu <yuchao0@huawei.com>
Signed-off-by: Jaegeuk Kim <jaegeuk@kernel.org>
 2020-10-14 13:23:41 -07:00
Jamie Iles
ae284d87ab f2fs: wait for sysfs kobject removal before freeing f2fs_sb_info 
syzkaller found that with CONFIG_DEBUG_KOBJECT_RELEASE=y, unmounting an
f2fs filesystem could result in the following splat:

  kobject: 'loop5' ((____ptrval____)): kobject_release, parent 0000000000000000 (delayed 250)
  kobject: 'f2fs_xattr_entry-7:5' ((____ptrval____)): kobject_release, parent 0000000000000000 (delayed 750)
  ------------[ cut here ]------------
  ODEBUG: free active (active state 0) object type: timer_list hint: delayed_work_timer_fn+0x0/0x98
  WARNING: CPU: 0 PID: 699 at lib/debugobjects.c:485 debug_print_object+0x180/0x240
  Kernel panic - not syncing: panic_on_warn set ...
  CPU: 0 PID: 699 Comm: syz-executor.5 Tainted: G S                5.9.0-rc8+ #101
  Hardware name: linux,dummy-virt (DT)
  Call trace:
   dump_backtrace+0x0/0x4d8
   show_stack+0x34/0x48
   dump_stack+0x174/0x1f8
   panic+0x360/0x7a0
   __warn+0x244/0x2ec
   report_bug+0x240/0x398
   bug_handler+0x50/0xc0
   call_break_hook+0x160/0x1d8
   brk_handler+0x30/0xc0
   do_debug_exception+0x184/0x340
   el1_dbg+0x48/0xb0
   el1_sync_handler+0x170/0x1c8
   el1_sync+0x80/0x100
   debug_print_object+0x180/0x240
   debug_check_no_obj_freed+0x200/0x430
   slab_free_freelist_hook+0x190/0x210
   kfree+0x13c/0x460
   f2fs_put_super+0x624/0xa58
   generic_shutdown_super+0x120/0x300
   kill_block_super+0x94/0xf8
   kill_f2fs_super+0x244/0x308
   deactivate_locked_super+0x104/0x150
   deactivate_super+0x118/0x148
   cleanup_mnt+0x27c/0x3c0
   __cleanup_mnt+0x28/0x38
   task_work_run+0x10c/0x248
   do_notify_resume+0x9d4/0x1188
   work_pending+0x8/0x34c

Like the error handling for f2fs_register_sysfs(), we need to wait for
the kobject to be destroyed before returning to prevent a potential
use-after-free.

Fixes: bf9e697ecd ("f2fs: expose features to sysfs entry")
Cc: Jaegeuk Kim <jaegeuk@kernel.org>
Cc: Chao Yu <chao@kernel.org>
Signed-off-by: Jamie Iles <jamie@nuviainc.com>
Reviewed-by: Chao Yu <yuchao0@huawei.com>
Signed-off-by: Jaegeuk Kim <jaegeuk@kernel.org>
 2020-10-14 13:23:30 -07:00
Kent Russell
8f4729e880 drm/amdkfd: Use kvfree in destroy_crat_image 
Now that we use kvmalloc for the crat_image, we need to use kvfree when
we destroy this.

Fixes: d0e63b343e ("drm/amdkfd: Use kvmalloc instead of kmalloc for VCRAT")
Reported-by: Morris Zhang <shiwu.zhang@amd.clm>
Signed-off-by: Kent Russell <kent.russell@amd.com>
Reviewed-by: Alex Deucher <alexander.deucher@amd.com>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
 2020-10-14 15:29:28 -04:00
Veerabadhran G
187561dd76 drm/amdgpu: vcn and jpeg ring synchronization 
Synchronize the ring usage for vcn1 and jpeg1 to workaround a hardware bug.

Signed-off-by: Veerabadhran Gopalakrishnan <veerabadhran.gopalakrishnan@amd.com>
Acked-by: Christian König <christian.koenig@amd.com>
Reviewed-by: Christian König <christian.koenig@amd.com>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
Cc: stable@vger.kernel.org
 2020-10-14 15:27:50 -04:00
Evan Quan
83da6eea3a drm/amd/pm: increase mclk switch threshold to 200 us 
To avoid underflow seen on Polaris10 with some 3440x1440
144Hz displays. As the threshold of 190 us cuts too close
to minVBlankTime of 192 us.

Signed-off-by: Evan Quan <evan.quan@amd.com>
Acked-by: Alex Deucher <alexander.deucher@amd.com>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
Cc: stable@vger.kernel.org
 2020-10-14 15:27:16 -04:00
Mauro Carvalho Chehab
39ec39d771 docs: amdgpu: fix a warning when building the documentation 
As reported by Sphinx:

	Documentation/gpu/amdgpu.rst:200: WARNING: Inline emphasis start-string without end-string.

Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
 2020-10-14 15:26:58 -04:00
Mauro Carvalho Chehab
c0e35ed924 drm/amd/display: kernel-doc: document force_timing_sync 
As warned when running "make htmldocs":

	./drivers/gpu/drm/amd/display/amdgpu_dm/amdgpu_dm.h:345: warning: Function parameter or member 'force_timing_sync' not described in 'amdgpu_display_manager'

This new struct member was not documented at kernel-doc markup.

Fixes: 3d4e52d0cf ("drm/amd/display: Add debugfs for forcing stream timing sync")
Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
 2020-10-14 15:26:43 -04:00
Alex Deucher
02a1bea65b drm/amdgpu/swsmu: init the baco mutex in early_init 
GPU reset might get called during init time, before
sw_init has been called.

Reviewed-by: Kevin Wang <kevin1.wang@amd.com>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
 2020-10-14 15:26:32 -04:00
Linus Torvalds
37187df45a New code for 5.10: 
- Don't WARN_ON weird states that unprivileged users can create.
 - Don't invalidate page cache when direct writes want to fall back to
   buffered.
 - Fix some problems when readahead ios fail.
 - Fix a problem where inline data pages weren't getting flushed during
   an unshare operation.
 - Rework iomap to support arbitrarily many blocks per page in
   preparation to support THP for the page cache.
 - Fix a bug in the blocksize < pagesize buffered io path where we could
   fail to initialize the many-blocks-per-page uptodate bitmap correctly
   when the backing page is actually up to date.  This could cause us to
   forget to write out dirty pages.
 - Split out the generic_write_sync at the end of the directio write path
   so that btrfs can drop the inode lock before sync'ing the file.
 - Call inode_dio_end before trying to sync the file after a O_DSYNC
   direct write (instead of afterwards) to match the behavior of the
   old directio code.
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Merge tag 'iomap-5.10-merge-4' of git://git.kernel.org/pub/scm/fs/xfs/xfs-linux

Pull iomap updates from Darrick Wong:
 "There's not a lot of new stuff going on here -- a little bit of code
  refactoring to make iomap workable with btrfs' fsync locking model,
  cleanups in preparation for adding THP support for filesystems, and
  fixing a data corruption issue for blocksize < pagesize filesystems.

  Summary:

   - Don't WARN_ON weird states that unprivileged users can create.

   - Don't invalidate page cache when direct writes want to fall back to
     buffered.

   - Fix some problems when readahead ios fail.

   - Fix a problem where inline data pages weren't getting flushed
     during an unshare operation.

   - Rework iomap to support arbitrarily many blocks per page in
     preparation to support THP for the page cache.

   - Fix a bug in the blocksize < pagesize buffered io path where we
     could fail to initialize the many-blocks-per-page uptodate bitmap
     correctly when the backing page is actually up to date. This could
     cause us to forget to write out dirty pages.

   - Split out the generic_write_sync at the end of the directio write
     path so that btrfs can drop the inode lock before sync'ing the
     file.

   - Call inode_dio_end before trying to sync the file after a O_DSYNC
     direct write (instead of afterwards) to match the behavior of the
     old directio code"

* tag 'iomap-5.10-merge-4' of git://git.kernel.org/pub/scm/fs/xfs/xfs-linux:
  iomap: Call inode_dio_end() before generic_write_sync()
  iomap: Allow filesystem to call iomap_dio_complete without i_rwsem
  iomap: Set all uptodate bits for an Uptodate page
  iomap: Change calling convention for zeroing
  iomap: Convert iomap_write_end types
  iomap: Convert write_count to write_bytes_pending
  iomap: Convert read_count to read_bytes_pending
  iomap: Support arbitrarily many blocks per page
  iomap: Use bitmap ops to set uptodate bits
  iomap: Use kzalloc to allocate iomap_page
  fs: Introduce i_blocks_per_page
  iomap: Fix misplaced page flushing
  iomap: Use round_down/round_up macros in __iomap_write_begin
  iomap: Mark read blocks uptodate in write_begin
  iomap: Clear page error before beginning a write
  iomap: Fix direct I/O write consistency check
  iomap: fix WARN_ON_ONCE() from unprivileged users
 2020-10-14 12:23:00 -07:00
Rodrigo Siqueira
44264591a8 drm/amd/display: Fix module load hangs when connected to an eDP 
It was recently introduced a change that enables driver to disable
streams if pixel clock changes. Consequently, the code path executed in
the disable vbios function expanded to an encoder verification part.
The encoder loop is nested inside the pipe count loop, and both loops
share the 'i' variable in control of their flow. This situation may lead
to an infinite loop because the encoder loop constantly updates the `i`
variable, making the first loop always positive. As a result, we can see
a soft hang during the module load (modprobe amdgpu) and a series of
dmesg log that looks like this:

kernel:[  124.538727] watchdog: BUG: soft lockup - CPU#2 stuck for 22s!
[modprobe:1000]

RSP: 0018:ffffabbf419bf0e8 EFLAGS: 00000282
RAX: ffffffffc0809de0 RBX: ffff93b35ccc0000 RCX: ffff93b366c21800
RDX: 0000000000000000 RSI: 0000000000000141 RDI: ffff93b35ccc0000
RBP: ffffabbf419bf108 R08: ffffabbf419bf164 R09: 0000000000000001
R10: 0000000000000003 R11: 0000000000000003 R12: 0000000008677d40
R13: 0000000000000141 R14: ffff93b35cfc0000 R15: ffff93b35abc0000
FS:  00007f1400717540(0000) GS:ffff93b37f680000(0000)
     knlGS:0000000000000000
CS:  0010 DS: 0000 ES: 0000 CR0: 0000000080050033
CR2: 00005649b66b0968 CR3: 00000003e0fec000 CR4: 0000000000350ee0
Call Trace:
 amdgpu_device_rreg+0x17/0x20 [amdgpu]
 amdgpu_cgs_read_register+0x14/0x20 [amdgpu]
 dm_read_reg_func+0x3a/0xb0 [amdgpu]
 get_pixel_clk_frequency_100hz+0x30/0x50 [amdgpu]
 dc_commit_state+0x8f1/0xae0 [amdgpu]
 ? drm_calc_timestamping_constants+0x101/0x160 [drm]
 amdgpu_dm_atomic_commit_tail+0x39d/0x21a0 [amdgpu]
 ? dcn21_validate_bandwidth+0xe5/0x290 [amdgpu]
 ? kfree+0xc3/0x390
 ? dcn21_validate_bandwidth+0xe5/0x290 [amdgpu]
...
RSP: 002b:00007fff26009bd8 EFLAGS: 00000246 ORIG_RAX: 0000000000000139
RAX: ffffffffffffffda RBX: 000055a8025bea50 RCX: 00007f140085c89d
RDX: 0000000000000000 RSI: 000055a8025b8290 RDI: 000000000000000c
RBP: 0000000000040000 R08: 0000000000000000 R09: 0000000000000000
R10: 000000000000000c R11: 0000000000000246 R12: 000055a8025b8290
R13: 0000000000000000 R14: 000055a8025bead0 R15: 000055a8025bea50

This issue was fixed by introducing a second variable for the internal
loop.

Fixes: 8353d30e74 ("drm/amd/display: disable stream if pixel clock changed with link active")
Reviewed-by: Roman Li <Roman.Li@amd.com>
Reviewed-by: Nicholas Kazlauskas <nicholas.kazlauskas@amd.com>
Signed-off-by: Rodrigo Siqueira <Rodrigo.Siqueira@amd.com>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
 2020-10-14 15:22:46 -04:00
Michael Kelley
626b901f60 Drivers: hv: vmbus: Add parsing of VMbus interrupt in ACPI DSDT 
On ARM64, Hyper-V now specifies the interrupt to be used by VMbus
in the ACPI DSDT.  This information is not used on x86 because the
interrupt vector must be hardcoded.  But update the generic
VMbus driver to do the parsing and pass the information to the
architecture specific code that sets up the Linux IRQ.  Update
consumers of the interrupt to get it from an architecture specific
function.

Signed-off-by: Michael Kelley <mikelley@microsoft.com>
Link: https://lore.kernel.org/r/1597434304-40631-1-git-send-email-mikelley@microsoft.com
Signed-off-by: Wei Liu <wei.liu@kernel.org>
 2020-10-14 19:14:51 +00:00
Linus Torvalds
531d29b0b6 IOMMU Updates for Linux v5.10 
Including:
 
 	- ARM-SMMU Updates from Will:
 
 	  - Continued SVM enablement, where page-table is shared with
 	    CPU
 
 	  - Groundwork to support integrated SMMU with Adreno GPU
 
 	  - Allow disabling of MSI-based polling on the kernel
 	    command-line
 
 	  - Minor driver fixes and cleanups (octal permissions, error
 	    messages, ...)
 
 	- Secure Nested Paging Support for AMD IOMMU. The IOMMU will
 	  fault when a device tries DMA on memory owned by a guest. This
 	  needs new fault-types as well as a rewrite of the IOMMU memory
 	  semaphore for command completions.
 
 	- Allow broken Intel IOMMUs (wrong address widths reported) to
 	  still be used for interrupt remapping.
 
 	- IOMMU UAPI updates for supporting vSVA, where the IOMMU can
 	  access address spaces of processes running in a VM.
 
 	- Support for the MT8167 IOMMU in the Mediatek IOMMU driver.
 
 	- Device-tree updates for the Renesas driver to support r8a7742.
 
 	- Several smaller fixes and cleanups all over the place.
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Merge tag 'iommu-updates-v5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/joro/iommu

Pull iommu updates from Joerg Roedel:

 - ARM-SMMU Updates from Will:

      - Continued SVM enablement, where page-table is shared with CPU

      - Groundwork to support integrated SMMU with Adreno GPU

      - Allow disabling of MSI-based polling on the kernel command-line

      - Minor driver fixes and cleanups (octal permissions, error
        messages, ...)

 - Secure Nested Paging Support for AMD IOMMU. The IOMMU will fault when
   a device tries DMA on memory owned by a guest. This needs new
   fault-types as well as a rewrite of the IOMMU memory semaphore for
   command completions.

 - Allow broken Intel IOMMUs (wrong address widths reported) to still be
   used for interrupt remapping.

 - IOMMU UAPI updates for supporting vSVA, where the IOMMU can access
   address spaces of processes running in a VM.

 - Support for the MT8167 IOMMU in the Mediatek IOMMU driver.

 - Device-tree updates for the Renesas driver to support r8a7742.

 - Several smaller fixes and cleanups all over the place.

* tag 'iommu-updates-v5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/joro/iommu: (57 commits)
  iommu/vt-d: Gracefully handle DMAR units with no supported address widths
  iommu/vt-d: Check UAPI data processed by IOMMU core
  iommu/uapi: Handle data and argsz filled by users
  iommu/uapi: Rename uapi functions
  iommu/uapi: Use named union for user data
  iommu/uapi: Add argsz for user filled data
  docs: IOMMU user API
  iommu/qcom: add missing put_device() call in qcom_iommu_of_xlate()
  iommu/arm-smmu-v3: Add SVA device feature
  iommu/arm-smmu-v3: Check for SVA features
  iommu/arm-smmu-v3: Seize private ASID
  iommu/arm-smmu-v3: Share process page tables
  iommu/arm-smmu-v3: Move definitions to a header
  iommu/io-pgtable-arm: Move some definitions to a header
  iommu/arm-smmu-v3: Ensure queue is read after updating prod pointer
  iommu/amd: Re-purpose Exclusion range registers to support SNP CWWB
  iommu/amd: Add support for RMP_PAGE_FAULT and RMP_HW_ERR
  iommu/amd: Use 4K page for completion wait write-back semaphore
  iommu/tegra-smmu: Allow to group clients in same swgroup
  iommu/tegra-smmu: Fix iova->phys translation
  ...
 2020-10-14 12:08:34 -07:00
Linus Torvalds
79db2b74aa Merge branch 'stable/for-linus-5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/konrad/swiotlb 
Pull swiotlb updates from Konrad Rzeszutek Wilk:
 "Minor enhancement of using %p to print phys_addr_r and also compiler
  warnings"

* 'stable/for-linus-5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/konrad/swiotlb:
  swiotlb: Mark max_segment with static keyword
  swiotlb: Declare swiotlb_late_init_with_default_size() in header
  swiotlb: Use %pa to print phys_addr_t variables
 2020-10-14 12:00:02 -07:00
Linus Torvalds
defb53a7c7 PNP updates for 5.10-rc1 
- Remove the now unused pnp_find_card() function (Christoph Hellwig).
 
  - Drop duplicate pci.h include from the quirks code and add an
    "internal.h" include to acpi_pnp.c to fix a compiler warning (Tian
    Tao).
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Merge tag 'pnp-5.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/rafael/linux-pm

Pull PNP updates from Rafael Wysocki:
 "These clean the PNP code somewhat:

   - Remove the now unused pnp_find_card() function (Christoph Hellwig)

   - Drop duplicate pci.h include from the quirks code and add an
     "internal.h" include to acpi_pnp.c to fix a compiler warning (Tian
     Tao)"

* tag 'pnp-5.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/rafael/linux-pm:
  PNP: remove the now unused pnp_find_card() function
  PNP: ACPI: Fix missing-prototypes in acpi_pnp.c
  PNP: quirks: Fix duplicate included pci.h
 2020-10-14 11:50:01 -07:00
Linus Torvalds
cf1d2b44f6 ACPI updates for 5.10-rc1 
- Add support for generic initiator-only proximity domains to
    the ACPI NUMA code and the architectures using it (Jonathan
    Cameron).
 
  - Clean up some non-ACPICA code referring to debug facilities from
    ACPICA that are not actually used in there (Hanjun Guo).
 
  - Add new DPTF driver for the PCH FIVR participant (Srinivas
    Pandruvada).
 
  - Reduce overhead related to accessing GPE registers in ACPICA and
    the OS interface layer and make it possible to access GPE registers
    using logical addresses if they are memory-mapped (Rafael Wysocki).
 
  - Update the ACPICA code in the kernel to upstream revision 20200925
    including changes as follows:
    * Add predefined names from the SMBus sepcification (Bob Moore).
    * Update acpi_help UUID list (Bob Moore).
    * Return exceptions for string-to-integer conversions in iASL (Bob
      Moore).
    * Add a new "ALL <NameSeg>" debugger command (Bob Moore).
    * Add support for 64 bit risc-v compilation (Colin Ian King).
    * Do assorted cleanups (Bob Moore, Colin Ian King, Randy Dunlap).
 
  - Add new ACPI backlight whitelist entry for HP 635 Notebook (Alex
    Hung).
 
  - Move TPS68470 OpRegion driver to drivers/acpi/pmic/ and split out
    Kconfig and Makefile specific for ACPI PMIC (Andy Shevchenko).
 
  - Clean up the ACPI SoC driver for AMD SoCs (Hanjun Guo).
 
  - Add missing config_item_put() to fix refcount leak (Hanjun Guo).
 
  - Drop lefrover field from struct acpi_memory_device (Hanjun Guo).
 
  - Make the ACPI extlog driver check for RDMSR failures (Ben
    Hutchings).
 
  - Fix handling of lid state changes in the ACPI button driver when
    input device is closed (Dmitry Torokhov).
 
  - Fix several assorted build issues (Barnabás Pőcze, John Garry,
    Nathan Chancellor, Tian Tao).
 
  - Drop unused inline functions and reduce code duplication by using
    kobj_to_dev() in the NFIT parsing code (YueHaibing, Wang Qing).
 
  - Serialize tools/power/acpi Makefile (Thomas Renninger).
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Merge tag 'acpi-5.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/rafael/linux-pm

Pull ACPI updates from Rafael Wysocki:
 "These add support for generic initiator-only proximity domains to the
  ACPI NUMA code and the architectures using it, clean up some
  non-ACPICA code referring to debug facilities from ACPICA, reduce the
  overhead related to accessing GPE registers, add a new DPTF (Dynamic
  Power and Thermal Framework) participant driver, update the ACPICA
  code in the kernel to upstream revision 20200925, add a new ACPI
  backlight whitelist entry, fix a few assorted issues and clean up some
  code.

  Specifics:

   - Add support for generic initiator-only proximity domains to the
     ACPI NUMA code and the architectures using it (Jonathan Cameron)

   - Clean up some non-ACPICA code referring to debug facilities from
     ACPICA that are not actually used in there (Hanjun Guo)

   - Add new DPTF driver for the PCH FIVR participant (Srinivas
     Pandruvada)

   - Reduce overhead related to accessing GPE registers in ACPICA and
     the OS interface layer and make it possible to access GPE registers
     using logical addresses if they are memory-mapped (Rafael Wysocki)

   - Update the ACPICA code in the kernel to upstream revision 20200925
     including changes as follows:
      + Add predefined names from the SMBus sepcification (Bob Moore)
      + Update acpi_help UUID list (Bob Moore)
      + Return exceptions for string-to-integer conversions in iASL (Bob
        Moore)
      + Add a new "ALL <NameSeg>" debugger command (Bob Moore)
      + Add support for 64 bit risc-v compilation (Colin Ian King)
      + Do assorted cleanups (Bob Moore, Colin Ian King, Randy Dunlap)

   - Add new ACPI backlight whitelist entry for HP 635 Notebook (Alex
     Hung)

   - Move TPS68470 OpRegion driver to drivers/acpi/pmic/ and split out
     Kconfig and Makefile specific for ACPI PMIC (Andy Shevchenko)

   - Clean up the ACPI SoC driver for AMD SoCs (Hanjun Guo)

   - Add missing config_item_put() to fix refcount leak (Hanjun Guo)

   - Drop lefrover field from struct acpi_memory_device (Hanjun Guo)

   - Make the ACPI extlog driver check for RDMSR failures (Ben
     Hutchings)

   - Fix handling of lid state changes in the ACPI button driver when
     input device is closed (Dmitry Torokhov)

   - Fix several assorted build issues (Barnabás Pőcze, John Garry,
     Nathan Chancellor, Tian Tao)

   - Drop unused inline functions and reduce code duplication by using
     kobj_to_dev() in the NFIT parsing code (YueHaibing, Wang Qing)

   - Serialize tools/power/acpi Makefile (Thomas Renninger)"

* tag 'acpi-5.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/rafael/linux-pm: (64 commits)
  ACPICA: Update version to 20200925 Version 20200925
  ACPICA: Remove unnecessary semicolon
  ACPICA: Debugger: Add a new command: "ALL <NameSeg>"
  ACPICA: iASL: Return exceptions for string-to-integer conversions
  ACPICA: acpi_help: Update UUID list
  ACPICA: Add predefined names found in the SMBus sepcification
  ACPICA: Tree-wide: fix various typos and spelling mistakes
  ACPICA: Drop the repeated word "an" in a comment
  ACPICA: Add support for 64 bit risc-v compilation
  ACPI: button: fix handling lid state changes when input device closed
  tools/power/acpi: Serialize Makefile
  ACPI: scan: Replace ACPI_DEBUG_PRINT() with pr_debug()
  ACPI: memhotplug: Remove 'state' from struct acpi_memory_device
  ACPI / extlog: Check for RDMSR failure
  ACPI: Make acpi_evaluate_dsm() prototype consistent
  docs: mm: numaperf.rst Add brief description for access class 1.
  node: Add access1 class to represent CPU to memory characteristics
  ACPI: HMAT: Fix handling of changes from ACPI 6.2 to ACPI 6.3
  ACPI: Let ACPI know we support Generic Initiator Affinity Structures
  x86: Support Generic Initiator only proximity domains
  ...
 2020-10-14 11:42:04 -07:00
Xiubo Li
87aac3a80a nbd: make the config put is called before the notifying the waiter 
There has one race case for ceph's rbd-nbd tool. When do mapping
it may fail with EBUSY from ioctl(nbd, NBD_DO_IT), but actually
the nbd device has already unmaped.

It dues to if just after the wake_up(), the recv_work() is scheduled
out and defers calling the nbd_config_put(), though the map process
has exited the "nbd->recv_task" is not cleared.

Signed-off-by: Xiubo Li <xiubli@redhat.com>
Reviewed-by: Josef Bacik <josef@toxicpanda.com>
Signed-off-by: Jens Axboe <axboe@kernel.dk>
 2020-10-14 12:30:37 -06:00
Juri Lelli
a73f863af4 sched/features: Fix !CONFIG_JUMP_LABEL case 
Commit:

  765cc3a4b2 ("sched/core: Optimize sched_feat() for !CONFIG_SCHED_DEBUG builds")

made sched features static for !CONFIG_SCHED_DEBUG configurations, but
overlooked the CONFIG_SCHED_DEBUG=y and !CONFIG_JUMP_LABEL cases.

For the latter echoing changes to /sys/kernel/debug/sched_features has
the nasty effect of effectively changing what sched_features reports,
but without actually changing the scheduler behaviour (since different
translation units get different sysctl_sched_features).

Fix CONFIG_SCHED_DEBUG=y and !CONFIG_JUMP_LABEL configurations by properly
restructuring ifdefs.

Fixes: 765cc3a4b2 ("sched/core: Optimize sched_feat() for !CONFIG_SCHED_DEBUG builds")
Co-developed-by: Daniel Bristot de Oliveira <bristot@redhat.com>
Signed-off-by: Daniel Bristot de Oliveira <bristot@redhat.com>
Signed-off-by: Juri Lelli <juri.lelli@redhat.com>
Signed-off-by: Ingo Molnar <mingo@kernel.org>
Acked-by: Patrick Bellasi <patrick.bellasi@matbug.net>
Reviewed-by: Valentin Schneider <valentin.schneider@arm.com>
Link: https://lore.kernel.org/r/20201013053114.160628-1-juri.lelli@redhat.com
 2020-10-14 19:55:46 +02:00
zhuguangqing
eba9f08293 sched: Replace zero-length array with flexible-array 
In the following commit:

  04f5c362ec: ("sched/fair: Replace zero-length array with flexible-array")

a zero-length array cpumask[0] has been replaced with cpumask[].
But there is still a cpumask[0] in 'struct sched_group_capacity'
which was missed.

The point of using [] instead of [0] is that with [] the compiler will
generate a build warning if it isn't the last member of a struct.

[ mingo: Rewrote the changelog. ]

Signed-off-by: zhuguangqing <zhuguangqing@xiaomi.com>
Signed-off-by: Ingo Molnar <mingo@kernel.org>
Link: https://lore.kernel.org/r/20201014140220.11384-1-zhuguangqing83@gmail.com
 2020-10-14 19:55:19 +02:00
Andy Lutomirski
c3b484c439 x86/syscalls: Document the fact that syscalls 512-547 are a legacy mistake 
Since this commit:

  6365b842aa ("x86/syscalls: Split the x32 syscalls into their own table")

there is no need for special x32-specific syscall numbers.  I forgot to
update the comments in syscall_64.tbl.  Add comments to make it clear to
future contributors that this range is a legacy wart.

Reported-by: Jessica Clarke <jrtc27@jrtc27.com>
Signed-off-by: Andy Lutomirski <luto@kernel.org>
Signed-off-by: Ingo Molnar <mingo@kernel.org>
Link: https://lore.kernel.org/r/6c56fb4ddd18fc60a238eb4d867e4b3d97c6351e.1602471055.git.luto@kernel.org
 2020-10-14 19:53:40 +02:00
Linus Torvalds
0b8417c141 Power management updates for 5.10-rc1 
- Rework cpufreq statistics collection to allow it to take place
    when fast frequency switching is enabled in the governor (Viresh
    Kumar).
 
  - Make the cpufreq core set the frequency scale on behalf of the
    driver and update several cpufreq drivers accordingly (Ionela
    Voinescu, Valentin Schneider).
 
  - Add new hardware support to the STI and qcom cpufreq drivers and
    improve them (Alain Volmat, Manivannan Sadhasivam).
 
  - Fix multiple assorted issues in cpufreq drivers (Jon Hunter,
    Krzysztof Kozlowski, Matthias Kaehlcke, Pali Rohár, Stephan
    Gerhold, Viresh Kumar).
 
  - Fix several assorted issues in the operating performance points
    (OPP) framework (Stephan Gerhold, Viresh Kumar).
 
  - Allow devfreq drivers to fetch devfreq instances by DT enumeration
    instead of using explicit phandles and modify the devfreq core
    code to support driver-specific devfreq DT bindings (Leonard
    Crestez, Chanwoo Choi).
 
  - Improve initial hardware resetting in the tegra30 devfreq driver
    and clean up the tegra cpuidle driver (Dmitry Osipenko).
 
  - Update the cpuidle core to collect state entry rejection
    statistics and expose them via sysfs (Lina Iyer).
 
  - Improve the ACPI _CST code handling diagnostics (Chen Yu).
 
  - Update the PSCI cpuidle driver to allow the PM domain
    initialization to occur in the OSI mode as well as in the PC
    mode (Ulf Hansson).
 
  - Rework the generic power domains (genpd) core code to allow
    domain power off transition to be aborted in the absence of the
    "power off" domain callback (Ulf Hansson).
 
  - Fix two suspend-to-idle issues in the ACPI EC driver (Rafael
    Wysocki).
 
  - Fix the handling of timer_expires in the PM-runtime framework on
    32-bit systems and the handling of device links in it (Grygorii
    Strashko, Xiang Chen).
 
  - Add IO requests batching support to the hibernate image saving and
    reading code and drop a bogus get_gendisk() from there (Xiaoyi
    Chen, Christoph Hellwig).
 
  - Allow PCIe ports to be put into the D3cold power state if they
    are power-manageable via ACPI (Lukas Wunner).
 
  - Add missing header file include to a power capping driver (Pujin
    Shi).
 
  - Clean up the qcom-cpr AVS driver a bit (Liu Shixin).
 
  - Kevin Hilman steps down as designated reviwer of adaptive voltage
    scaling (AVS) driverrs (Kevin Hilman).
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Merge tag 'pm-5.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/rafael/linux-pm

Pull power management updates from Rafael Wysocki:
 "These rework the collection of cpufreq statistics to allow it to take
  place if fast frequency switching is enabled in the governor, rework
  the frequency invariance handling in the cpufreq core and drivers, add
  new hardware support to a couple of cpufreq drivers, fix a number of
  assorted issues and clean up the code all over.

  Specifics:

   - Rework cpufreq statistics collection to allow it to take place when
     fast frequency switching is enabled in the governor (Viresh Kumar).

   - Make the cpufreq core set the frequency scale on behalf of the
     driver and update several cpufreq drivers accordingly (Ionela
     Voinescu, Valentin Schneider).

   - Add new hardware support to the STI and qcom cpufreq drivers and
     improve them (Alain Volmat, Manivannan Sadhasivam).

   - Fix multiple assorted issues in cpufreq drivers (Jon Hunter,
     Krzysztof Kozlowski, Matthias Kaehlcke, Pali Rohár, Stephan
     Gerhold, Viresh Kumar).

   - Fix several assorted issues in the operating performance points
     (OPP) framework (Stephan Gerhold, Viresh Kumar).

   - Allow devfreq drivers to fetch devfreq instances by DT enumeration
     instead of using explicit phandles and modify the devfreq core code
     to support driver-specific devfreq DT bindings (Leonard Crestez,
     Chanwoo Choi).

   - Improve initial hardware resetting in the tegra30 devfreq driver
     and clean up the tegra cpuidle driver (Dmitry Osipenko).

   - Update the cpuidle core to collect state entry rejection statistics
     and expose them via sysfs (Lina Iyer).

   - Improve the ACPI _CST code handling diagnostics (Chen Yu).

   - Update the PSCI cpuidle driver to allow the PM domain
     initialization to occur in the OSI mode as well as in the PC mode
     (Ulf Hansson).

   - Rework the generic power domains (genpd) core code to allow domain
     power off transition to be aborted in the absence of the "power
     off" domain callback (Ulf Hansson).

   - Fix two suspend-to-idle issues in the ACPI EC driver (Rafael
     Wysocki).

   - Fix the handling of timer_expires in the PM-runtime framework on
     32-bit systems and the handling of device links in it (Grygorii
     Strashko, Xiang Chen).

   - Add IO requests batching support to the hibernate image saving and
     reading code and drop a bogus get_gendisk() from there (Xiaoyi
     Chen, Christoph Hellwig).

   - Allow PCIe ports to be put into the D3cold power state if they are
     power-manageable via ACPI (Lukas Wunner).

   - Add missing header file include to a power capping driver (Pujin
     Shi).

   - Clean up the qcom-cpr AVS driver a bit (Liu Shixin).

   - Kevin Hilman steps down as designated reviwer of adaptive voltage
     scaling (AVS) drivers (Kevin Hilman)"

* tag 'pm-5.10-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/rafael/linux-pm: (65 commits)
  cpufreq: stats: Fix string format specifier mismatch
  arm: disable frequency invariance for CONFIG_BL_SWITCHER
  cpufreq,arm,arm64: restructure definitions of arch_set_freq_scale()
  cpufreq: stats: Add memory barrier to store_reset()
  cpufreq: schedutil: Simplify sugov_fast_switch()
  ACPI: EC: PM: Drop ec_no_wakeup check from acpi_ec_dispatch_gpe()
  ACPI: EC: PM: Flush EC work unconditionally after wakeup
  PCI/ACPI: Whitelist hotplug ports for D3 if power managed by ACPI
  PM: hibernate: remove the bogus call to get_gendisk() in software_resume()
  cpufreq: Move traces and update to policy->cur to cpufreq core
  cpufreq: stats: Enable stats for fast-switch as well
  cpufreq: stats: Mark few conditionals with unlikely()
  cpufreq: stats: Remove locking
  cpufreq: stats: Defer stats update to cpufreq_stats_record_transition()
  PM: domains: Allow to abort power off when no ->power_off() callback
  PM: domains: Rename power state enums for genpd
  PM / devfreq: tegra30: Improve initial hardware resetting
  PM / devfreq: event: Change prototype of devfreq_event_get_edev_by_phandle function
  PM / devfreq: Change prototype of devfreq_get_devfreq_by_phandle function
  PM / devfreq: Add devfreq_get_devfreq_by_node function
  ...
 2020-10-14 10:45:41 -07:00
Linus Torvalds
15cb5469fc platform-drivers-x86 for v5.10-1 
Rather calm cycle for PDx86, all these have been in for-next for
 a couple of days with no bot complaints.
 
 Highlights:
 - PMC TigerLake fixes and new RocketLake support
 - Various small fixes / updates in other drivers/tools
 
 The following is an automated git shortlog grouped by driver:
 
 MAINTAINERS:
  -  update X86 PLATFORM DRIVERS entry with new kernel.org git repo
  -  Update maintainers for pmc_core driver
 
 hp-wmi:
  -  add support for thermal policy
 
 intel_pmc_core:
  -  fix: Replace dev_dbg macro with dev_info()
  -  Add Intel RocketLake (RKL) support
  -  Clean up: Remove the duplicate comments and reorganize
  -  Fix the slp_s0 counter displayed value
  -  Fix TigerLake power gating status map
 
 mlx-platform:
  -  Add capability field to platform FAN description
  -  Remove PSU EEPROM configuration
 
 platform_data/mlxreg:
  -  Extend core platform structure
  -  Update module license
 
 pmc_core:
  -  Use descriptive names for LPM registers
 
 tools/power/x86/intel-speed-select:
  -  Update version for v5.10
  -  Fix missing base-freq core IDs
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Merge tag 'platform-drivers-x86-v5.10-1' of git://git.kernel.org/pub/scm/linux/kernel/git/pdx86/platform-drivers-x86

Pull x86 platform driver updates from Hans de Goede:
 "Rather calm cycle for x86 platform drivers, all these have been in
  for-next for a couple of days with no bot complaints.

  Highlights:

   - PMC TigerLake fixes and new RocketLake support

   - various small fixes / updates in other drivers/tools"

* tag 'platform-drivers-x86-v5.10-1' of git://git.kernel.org/pub/scm/linux/kernel/git/pdx86/platform-drivers-x86:
  MAINTAINERS: update X86 PLATFORM DRIVERS entry with new kernel.org git repo
  platform/x86: mlx-platform: Add capability field to platform FAN description
  platform_data/mlxreg: Extend core platform structure
  platform_data/mlxreg: Update module license
  platform/x86: mlx-platform: Remove PSU EEPROM configuration
  MAINTAINERS: Update maintainers for pmc_core driver
  platform/x86: intel_pmc_core: fix: Replace dev_dbg macro with dev_info()
  platform/x86: intel_pmc_core: Add Intel RocketLake (RKL) support
  platform/x86: intel_pmc_core: Clean up: Remove the duplicate comments and reorganize
  platform/x86: intel_pmc_core: Fix the slp_s0 counter displayed value
  platform/x86: intel_pmc_core: Fix TigerLake power gating status map
  platform/x86: pmc_core: Use descriptive names for LPM registers
  tools/power/x86/intel-speed-select: Update version for v5.10
  tools/power/x86/intel-speed-select: Fix missing base-freq core IDs
  platform/x86: hp-wmi: add support for thermal policy
 2020-10-14 10:43:24 -07:00
Linus Torvalds
a09b1d7850 xen: branch for v5.10-rc1 
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Merge tag 'for-linus-5.10b-rc1-tag' of git://git.kernel.org/pub/scm/linux/kernel/git/xen/tip

Pull xen updates from Juergen Gross:

 - two small cleanup patches

 - avoid error messages when initializing MCA banks in a Xen dom0

 - a small series for converting the Xen gntdev driver to use
   pin_user_pages*() instead of get_user_pages*()

 - intermediate fix for running as a Xen guest on Arm with KPTI enabled
   (the final solution will need new Xen functionality)

* tag 'for-linus-5.10b-rc1-tag' of git://git.kernel.org/pub/scm/linux/kernel/git/xen/tip:
  x86/xen: Fix typo in xen_pagetable_p2m_free()
  x86/xen: disable Firmware First mode for correctable memory errors
  xen/arm: do not setup the runstate info page if kpti is enabled
  xen: remove redundant initialization of variable ret
  xen/gntdev.c: Convert get_user_pages*() to pin_user_pages*()
  xen/gntdev.c: Mark pages as dirty
 2020-10-14 10:34:45 -07:00
Linus Torvalds
4907a43da8 hyperv-next for 5.10 
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Merge tag 'hyperv-next-signed' of git://git.kernel.org/pub/scm/linux/kernel/git/hyperv/linux

Pull Hyper-V updates from Wei Liu:

 - a series from Boqun Feng to support page size larger than 4K

 - a few miscellaneous clean-ups

* tag 'hyperv-next-signed' of git://git.kernel.org/pub/scm/linux/kernel/git/hyperv/linux:
  hv: clocksource: Add notrace attribute to read_hv_sched_clock_*() functions
  x86/hyperv: Remove aliases with X64 in their name
  PCI: hv: Document missing hv_pci_protocol_negotiation() parameter
  scsi: storvsc: Support PAGE_SIZE larger than 4K
  Driver: hv: util: Use VMBUS_RING_SIZE() for ringbuffer sizes
  HID: hyperv: Use VMBUS_RING_SIZE() for ringbuffer sizes
  Input: hyperv-keyboard: Use VMBUS_RING_SIZE() for ringbuffer sizes
  hv_netvsc: Use HV_HYP_PAGE_SIZE for Hyper-V communication
  hv: hyperv.h: Introduce some hvpfn helper functions
  Drivers: hv: vmbus: Move virt_to_hvpfn() to hyperv header
  Drivers: hv: Use HV_HYP_PAGE in hv_synic_enable_regs()
  Drivers: hv: vmbus: Introduce types of GPADL
  Drivers: hv: vmbus: Move __vmbus_open()
  Drivers: hv: vmbus: Always use HV_HYP_PAGE_SIZE for gpadl
  drivers: hv: remove cast from hyperv_die_event
 2020-10-14 10:32:10 -07:00
Ian Rogers
f92993851f perf bench: Use condition variables in numa. 
The existing approach to synchronization between threads in the numa
benchmark is unbalanced mutexes.

This synchronization causes thread sanitizer to warn of locks being
taken twice on a thread without an unlock, as well as unlocks with no
corresponding locks.

This change replaces the synchronization with more regular condition
variables.

While this fixes one class of thread sanitizer warnings, there still
remain warnings of data races due to threads reading and writing shared
memory without any atomics.

Committer testing:

  Basic run on a non-NUMA machine.

  # perf bench numa

          # List of available benchmarks for collection 'numa':

             mem: Benchmark for NUMA workloads
             all: Run all NUMA benchmarks

  # perf bench numa all
  # Running numa/mem benchmark...

   # Running main, "perf bench numa numa-mem"
   #
   # Running test on: Linux five 5.8.12-200.fc32.x86_64 #1 SMP Mon Sep 28 12:17:31 UTC 2020 x86_64 x86_64 x86_64 GNU/Linux
   #

   # Running RAM-bw-local, "perf bench numa mem -p 1 -t 1 -P 1024 -C 0 -M 0 -s 20 -zZq --thp  1 --no-data_rand_walk"
           20.076 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.073 secs average thread-runtime
            0.190 % difference between max/avg runtime
          241.828 GB data processed, per thread
          241.828 GB data processed, total
            0.083 nsecs/byte/thread runtime
           12.045 GB/sec/thread speed
           12.045 GB/sec total speed

   # Running RAM-bw-local-NOTHP, "perf bench numa mem -p 1 -t 1 -P 1024 -C 0 -M 0 -s 20 -zZq --thp  1 --no-data_rand_walk --thp -1"
           20.045 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.014 secs average thread-runtime
            0.111 % difference between max/avg runtime
          234.304 GB data processed, per thread
          234.304 GB data processed, total
            0.086 nsecs/byte/thread runtime
           11.689 GB/sec/thread speed
           11.689 GB/sec total speed

   # Running RAM-bw-remote, "perf bench numa mem -p 1 -t 1 -P 1024 -C 0 -M 1 -s 20 -zZq --thp  1 --no-data_rand_walk"

  Test not applicable, system has only 1 nodes.

   # Running RAM-bw-local-2x, "perf bench numa mem -p 2 -t 1 -P 1024 -C 0,2 -M 0x2 -s 20 -zZq --thp  1 --no-data_rand_walk"
           20.138 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.121 secs average thread-runtime
            0.342 % difference between max/avg runtime
          135.961 GB data processed, per thread
          271.922 GB data processed, total
            0.148 nsecs/byte/thread runtime
            6.752 GB/sec/thread speed
           13.503 GB/sec total speed

   # Running RAM-bw-remote-2x, "perf bench numa mem -p 2 -t 1 -P 1024 -C 0,2 -M 1x2 -s 20 -zZq --thp  1 --no-data_rand_walk"

  Test not applicable, system has only 1 nodes.

   # Running RAM-bw-cross, "perf bench numa mem -p 2 -t 1 -P 1024 -C 0,8 -M 1,0 -s 20 -zZq --thp  1 --no-data_rand_walk"

  Test not applicable, system has only 1 nodes.

   # Running  1x3-convergence, "perf bench numa mem -p 1 -t 3 -P 512 -s 100 -zZ0qcm --thp  1"
            0.747 secs latency to NUMA-converge
            0.747 secs slowest (max) thread-runtime
            0.000 secs fastest (min) thread-runtime
            0.714 secs average thread-runtime
           50.000 % difference between max/avg runtime
            3.228 GB data processed, per thread
            9.683 GB data processed, total
            0.231 nsecs/byte/thread runtime
            4.321 GB/sec/thread speed
           12.964 GB/sec total speed

   # Running  1x4-convergence, "perf bench numa mem -p 1 -t 4 -P 512 -s 100 -zZ0qcm --thp  1"
            1.127 secs latency to NUMA-converge
            1.127 secs slowest (max) thread-runtime
            1.000 secs fastest (min) thread-runtime
            1.089 secs average thread-runtime
            5.624 % difference between max/avg runtime
            3.765 GB data processed, per thread
           15.062 GB data processed, total
            0.299 nsecs/byte/thread runtime
            3.342 GB/sec/thread speed
           13.368 GB/sec total speed

   # Running  1x6-convergence, "perf bench numa mem -p 1 -t 6 -P 1020 -s 100 -zZ0qcm --thp  1"
            1.003 secs latency to NUMA-converge
            1.003 secs slowest (max) thread-runtime
            0.000 secs fastest (min) thread-runtime
            0.889 secs average thread-runtime
           50.000 % difference between max/avg runtime
            2.141 GB data processed, per thread
           12.847 GB data processed, total
            0.469 nsecs/byte/thread runtime
            2.134 GB/sec/thread speed
           12.805 GB/sec total speed

   # Running  2x3-convergence, "perf bench numa mem -p 2 -t 3 -P 1020 -s 100 -zZ0qcm --thp  1"
            1.814 secs latency to NUMA-converge
            1.814 secs slowest (max) thread-runtime
            1.000 secs fastest (min) thread-runtime
            1.716 secs average thread-runtime
           22.440 % difference between max/avg runtime
            3.747 GB data processed, per thread
           22.483 GB data processed, total
            0.484 nsecs/byte/thread runtime
            2.065 GB/sec/thread speed
           12.393 GB/sec total speed

   # Running  3x3-convergence, "perf bench numa mem -p 3 -t 3 -P 1020 -s 100 -zZ0qcm --thp  1"
            2.065 secs latency to NUMA-converge
            2.065 secs slowest (max) thread-runtime
            1.000 secs fastest (min) thread-runtime
            1.947 secs average thread-runtime
           25.788 % difference between max/avg runtime
            2.855 GB data processed, per thread
           25.694 GB data processed, total
            0.723 nsecs/byte/thread runtime
            1.382 GB/sec/thread speed
           12.442 GB/sec total speed

   # Running  4x4-convergence, "perf bench numa mem -p 4 -t 4 -P 512 -s 100 -zZ0qcm --thp  1"
            1.912 secs latency to NUMA-converge
            1.912 secs slowest (max) thread-runtime
            1.000 secs fastest (min) thread-runtime
            1.775 secs average thread-runtime
           23.852 % difference between max/avg runtime
            1.479 GB data processed, per thread
           23.668 GB data processed, total
            1.293 nsecs/byte/thread runtime
            0.774 GB/sec/thread speed
           12.378 GB/sec total speed

   # Running  4x4-convergence-NOTHP, "perf bench numa mem -p 4 -t 4 -P 512 -s 100 -zZ0qcm --thp  1 --thp -1"
            1.783 secs latency to NUMA-converge
            1.783 secs slowest (max) thread-runtime
            1.000 secs fastest (min) thread-runtime
            1.633 secs average thread-runtime
           21.960 % difference between max/avg runtime
            1.345 GB data processed, per thread
           21.517 GB data processed, total
            1.326 nsecs/byte/thread runtime
            0.754 GB/sec/thread speed
           12.067 GB/sec total speed

   # Running  4x6-convergence, "perf bench numa mem -p 4 -t 6 -P 1020 -s 100 -zZ0qcm --thp  1"
            5.396 secs latency to NUMA-converge
            5.396 secs slowest (max) thread-runtime
            4.000 secs fastest (min) thread-runtime
            4.928 secs average thread-runtime
           12.937 % difference between max/avg runtime
            2.721 GB data processed, per thread
           65.306 GB data processed, total
            1.983 nsecs/byte/thread runtime
            0.504 GB/sec/thread speed
           12.102 GB/sec total speed

   # Running  4x8-convergence, "perf bench numa mem -p 4 -t 8 -P 512 -s 100 -zZ0qcm --thp  1"
            3.121 secs latency to NUMA-converge
            3.121 secs slowest (max) thread-runtime
            2.000 secs fastest (min) thread-runtime
            2.836 secs average thread-runtime
           17.962 % difference between max/avg runtime
            1.194 GB data processed, per thread
           38.192 GB data processed, total
            2.615 nsecs/byte/thread runtime
            0.382 GB/sec/thread speed
           12.236 GB/sec total speed

   # Running  8x4-convergence, "perf bench numa mem -p 8 -t 4 -P 512 -s 100 -zZ0qcm --thp  1"
            4.302 secs latency to NUMA-converge
            4.302 secs slowest (max) thread-runtime
            3.000 secs fastest (min) thread-runtime
            4.045 secs average thread-runtime
           15.133 % difference between max/avg runtime
            1.631 GB data processed, per thread
           52.178 GB data processed, total
            2.638 nsecs/byte/thread runtime
            0.379 GB/sec/thread speed
           12.128 GB/sec total speed

   # Running  8x4-convergence-NOTHP, "perf bench numa mem -p 8 -t 4 -P 512 -s 100 -zZ0qcm --thp  1 --thp -1"
            4.418 secs latency to NUMA-converge
            4.418 secs slowest (max) thread-runtime
            3.000 secs fastest (min) thread-runtime
            4.104 secs average thread-runtime
           16.045 % difference between max/avg runtime
            1.664 GB data processed, per thread
           53.254 GB data processed, total
            2.655 nsecs/byte/thread runtime
            0.377 GB/sec/thread speed
           12.055 GB/sec total speed

   # Running  3x1-convergence, "perf bench numa mem -p 3 -t 1 -P 512 -s 100 -zZ0qcm --thp  1"
            0.973 secs latency to NUMA-converge
            0.973 secs slowest (max) thread-runtime
            0.000 secs fastest (min) thread-runtime
            0.955 secs average thread-runtime
           50.000 % difference between max/avg runtime
            4.124 GB data processed, per thread
           12.372 GB data processed, total
            0.236 nsecs/byte/thread runtime
            4.238 GB/sec/thread speed
           12.715 GB/sec total speed

   # Running  4x1-convergence, "perf bench numa mem -p 4 -t 1 -P 512 -s 100 -zZ0qcm --thp  1"
            0.820 secs latency to NUMA-converge
            0.820 secs slowest (max) thread-runtime
            0.000 secs fastest (min) thread-runtime
            0.808 secs average thread-runtime
           50.000 % difference between max/avg runtime
            2.555 GB data processed, per thread
           10.220 GB data processed, total
            0.321 nsecs/byte/thread runtime
            3.117 GB/sec/thread speed
           12.468 GB/sec total speed

   # Running  8x1-convergence, "perf bench numa mem -p 8 -t 1 -P 512 -s 100 -zZ0qcm --thp  1"
            0.667 secs latency to NUMA-converge
            0.667 secs slowest (max) thread-runtime
            0.000 secs fastest (min) thread-runtime
            0.607 secs average thread-runtime
           50.000 % difference between max/avg runtime
            1.009 GB data processed, per thread
            8.069 GB data processed, total
            0.661 nsecs/byte/thread runtime
            1.512 GB/sec/thread speed
           12.095 GB/sec total speed

   # Running 16x1-convergence, "perf bench numa mem -p 16 -t 1 -P 256 -s 100 -zZ0qcm --thp  1"
            1.546 secs latency to NUMA-converge
            1.546 secs slowest (max) thread-runtime
            1.000 secs fastest (min) thread-runtime
            1.485 secs average thread-runtime
           17.664 % difference between max/avg runtime
            1.162 GB data processed, per thread
           18.594 GB data processed, total
            1.331 nsecs/byte/thread runtime
            0.752 GB/sec/thread speed
           12.025 GB/sec total speed

   # Running 32x1-convergence, "perf bench numa mem -p 32 -t 1 -P 128 -s 100 -zZ0qcm --thp  1"
            0.812 secs latency to NUMA-converge
            0.812 secs slowest (max) thread-runtime
            0.000 secs fastest (min) thread-runtime
            0.739 secs average thread-runtime
           50.000 % difference between max/avg runtime
            0.309 GB data processed, per thread
            9.874 GB data processed, total
            2.630 nsecs/byte/thread runtime
            0.380 GB/sec/thread speed
           12.166 GB/sec total speed

   # Running  2x1-bw-process, "perf bench numa mem -p 2 -t 1 -P 1024 -s 20 -zZ0q --thp  1"
           20.044 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.020 secs average thread-runtime
            0.109 % difference between max/avg runtime
          125.750 GB data processed, per thread
          251.501 GB data processed, total
            0.159 nsecs/byte/thread runtime
            6.274 GB/sec/thread speed
           12.548 GB/sec total speed

   # Running  3x1-bw-process, "perf bench numa mem -p 3 -t 1 -P 1024 -s 20 -zZ0q --thp  1"
           20.148 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.090 secs average thread-runtime
            0.367 % difference between max/avg runtime
           85.267 GB data processed, per thread
          255.800 GB data processed, total
            0.236 nsecs/byte/thread runtime
            4.232 GB/sec/thread speed
           12.696 GB/sec total speed

   # Running  4x1-bw-process, "perf bench numa mem -p 4 -t 1 -P 1024 -s 20 -zZ0q --thp  1"
           20.169 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.100 secs average thread-runtime
            0.419 % difference between max/avg runtime
           63.144 GB data processed, per thread
          252.576 GB data processed, total
            0.319 nsecs/byte/thread runtime
            3.131 GB/sec/thread speed
           12.523 GB/sec total speed

   # Running  8x1-bw-process, "perf bench numa mem -p 8 -t 1 -P  512 -s 20 -zZ0q --thp  1"
           20.175 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.107 secs average thread-runtime
            0.433 % difference between max/avg runtime
           31.267 GB data processed, per thread
          250.133 GB data processed, total
            0.645 nsecs/byte/thread runtime
            1.550 GB/sec/thread speed
           12.398 GB/sec total speed

   # Running  8x1-bw-process-NOTHP, "perf bench numa mem -p 8 -t 1 -P  512 -s 20 -zZ0q --thp  1 --thp -1"
           20.216 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.113 secs average thread-runtime
            0.535 % difference between max/avg runtime
           30.998 GB data processed, per thread
          247.981 GB data processed, total
            0.652 nsecs/byte/thread runtime
            1.533 GB/sec/thread speed
           12.266 GB/sec total speed

   # Running 16x1-bw-process, "perf bench numa mem -p 16 -t 1 -P 256 -s 20 -zZ0q --thp  1"
           20.234 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.174 secs average thread-runtime
            0.577 % difference between max/avg runtime
           15.377 GB data processed, per thread
          246.039 GB data processed, total
            1.316 nsecs/byte/thread runtime
            0.760 GB/sec/thread speed
           12.160 GB/sec total speed

   # Running  1x4-bw-thread, "perf bench numa mem -p 1 -t 4 -T 256 -s 20 -zZ0q --thp  1"
           20.040 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.028 secs average thread-runtime
            0.099 % difference between max/avg runtime
           66.832 GB data processed, per thread
          267.328 GB data processed, total
            0.300 nsecs/byte/thread runtime
            3.335 GB/sec/thread speed
           13.340 GB/sec total speed

   # Running  1x8-bw-thread, "perf bench numa mem -p 1 -t 8 -T 256 -s 20 -zZ0q --thp  1"
           20.064 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.034 secs average thread-runtime
            0.160 % difference between max/avg runtime
           32.911 GB data processed, per thread
          263.286 GB data processed, total
            0.610 nsecs/byte/thread runtime
            1.640 GB/sec/thread speed
           13.122 GB/sec total speed

   # Running 1x16-bw-thread, "perf bench numa mem -p 1 -t 16 -T 128 -s 20 -zZ0q --thp  1"
           20.092 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.052 secs average thread-runtime
            0.230 % difference between max/avg runtime
           16.131 GB data processed, per thread
          258.088 GB data processed, total
            1.246 nsecs/byte/thread runtime
            0.803 GB/sec/thread speed
           12.845 GB/sec total speed

   # Running 1x32-bw-thread, "perf bench numa mem -p 1 -t 32 -T 64 -s 20 -zZ0q --thp  1"
           20.099 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.063 secs average thread-runtime
            0.247 % difference between max/avg runtime
            7.962 GB data processed, per thread
          254.773 GB data processed, total
            2.525 nsecs/byte/thread runtime
            0.396 GB/sec/thread speed
           12.676 GB/sec total speed

   # Running  2x3-bw-process, "perf bench numa mem -p 2 -t 3 -P 512 -s 20 -zZ0q --thp  1"
           20.150 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.120 secs average thread-runtime
            0.372 % difference between max/avg runtime
           44.827 GB data processed, per thread
          268.960 GB data processed, total
            0.450 nsecs/byte/thread runtime
            2.225 GB/sec/thread speed
           13.348 GB/sec total speed

   # Running  4x4-bw-process, "perf bench numa mem -p 4 -t 4 -P 512 -s 20 -zZ0q --thp  1"
           20.258 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.168 secs average thread-runtime
            0.636 % difference between max/avg runtime
           17.079 GB data processed, per thread
          273.263 GB data processed, total
            1.186 nsecs/byte/thread runtime
            0.843 GB/sec/thread speed
           13.489 GB/sec total speed

   # Running  4x6-bw-process, "perf bench numa mem -p 4 -t 6 -P 512 -s 20 -zZ0q --thp  1"
           20.559 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.382 secs average thread-runtime
            1.359 % difference between max/avg runtime
           10.758 GB data processed, per thread
          258.201 GB data processed, total
            1.911 nsecs/byte/thread runtime
            0.523 GB/sec/thread speed
           12.559 GB/sec total speed

   # Running  4x8-bw-process, "perf bench numa mem -p 4 -t 8 -P 512 -s 20 -zZ0q --thp  1"
           20.744 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.516 secs average thread-runtime
            1.792 % difference between max/avg runtime
            8.069 GB data processed, per thread
          258.201 GB data processed, total
            2.571 nsecs/byte/thread runtime
            0.389 GB/sec/thread speed
           12.447 GB/sec total speed

   # Running  4x8-bw-process-NOTHP, "perf bench numa mem -p 4 -t 8 -P 512 -s 20 -zZ0q --thp  1 --thp -1"
           20.855 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.561 secs average thread-runtime
            2.050 % difference between max/avg runtime
            8.069 GB data processed, per thread
          258.201 GB data processed, total
            2.585 nsecs/byte/thread runtime
            0.387 GB/sec/thread speed
           12.381 GB/sec total speed

   # Running  3x3-bw-process, "perf bench numa mem -p 3 -t 3 -P 512 -s 20 -zZ0q --thp  1"
           20.134 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.077 secs average thread-runtime
            0.333 % difference between max/avg runtime
           28.091 GB data processed, per thread
          252.822 GB data processed, total
            0.717 nsecs/byte/thread runtime
            1.395 GB/sec/thread speed
           12.557 GB/sec total speed

   # Running  5x5-bw-process, "perf bench numa mem -p 5 -t 5 -P 512 -s 20 -zZ0q --thp  1"
           20.588 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.375 secs average thread-runtime
            1.427 % difference between max/avg runtime
           10.177 GB data processed, per thread
          254.436 GB data processed, total
            2.023 nsecs/byte/thread runtime
            0.494 GB/sec/thread speed
           12.359 GB/sec total speed

   # Running 2x16-bw-process, "perf bench numa mem -p 2 -t 16 -P 512 -s 20 -zZ0q --thp  1"
           20.657 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.429 secs average thread-runtime
            1.589 % difference between max/avg runtime
            8.170 GB data processed, per thread
          261.429 GB data processed, total
            2.528 nsecs/byte/thread runtime
            0.395 GB/sec/thread speed
           12.656 GB/sec total speed

   # Running 1x32-bw-process, "perf bench numa mem -p 1 -t 32 -P 2048 -s 20 -zZ0q --thp  1"
           22.981 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           21.996 secs average thread-runtime
            6.486 % difference between max/avg runtime
            8.863 GB data processed, per thread
          283.606 GB data processed, total
            2.593 nsecs/byte/thread runtime
            0.386 GB/sec/thread speed
           12.341 GB/sec total speed

   # Running numa02-bw, "perf bench numa mem -p 1 -t 32 -T 32 -s 20 -zZ0q --thp  1"
           20.047 secs slowest (max) thread-runtime
           19.000 secs fastest (min) thread-runtime
           20.026 secs average thread-runtime
            2.611 % difference between max/avg runtime
            8.441 GB data processed, per thread
          270.111 GB data processed, total
            2.375 nsecs/byte/thread runtime
            0.421 GB/sec/thread speed
           13.474 GB/sec total speed

   # Running numa02-bw-NOTHP, "perf bench numa mem -p 1 -t 32 -T 32 -s 20 -zZ0q --thp  1 --thp -1"
           20.088 secs slowest (max) thread-runtime
           19.000 secs fastest (min) thread-runtime
           20.025 secs average thread-runtime
            2.709 % difference between max/avg runtime
            8.411 GB data processed, per thread
          269.142 GB data processed, total
            2.388 nsecs/byte/thread runtime
            0.419 GB/sec/thread speed
           13.398 GB/sec total speed

   # Running numa01-bw-thread, "perf bench numa mem -p 2 -t 16 -T 192 -s 20 -zZ0q --thp  1"
           20.293 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.175 secs average thread-runtime
            0.721 % difference between max/avg runtime
            7.918 GB data processed, per thread
          253.374 GB data processed, total
            2.563 nsecs/byte/thread runtime
            0.390 GB/sec/thread speed
           12.486 GB/sec total speed

   # Running numa01-bw-thread-NOTHP, "perf bench numa mem -p 2 -t 16 -T 192 -s 20 -zZ0q --thp  1 --thp -1"
           20.411 secs slowest (max) thread-runtime
           20.000 secs fastest (min) thread-runtime
           20.226 secs average thread-runtime
            1.006 % difference between max/avg runtime
            7.931 GB data processed, per thread
          253.778 GB data processed, total
            2.574 nsecs/byte/thread runtime
            0.389 GB/sec/thread speed
           12.434 GB/sec total speed

  #

Signed-off-by: Ian Rogers <irogers@google.com>
Acked-by: Jiri Olsa <jolsa@redhat.com>
Tested-by: Arnaldo Carvalho de Melo <acme@redhat.com>
Link: https://lore.kernel.org/r/20201012161611.366482-1-irogers@google.com
Signed-off-by: Arnaldo Carvalho de Melo <acme@redhat.com>
 2020-10-14 14:24:53 -03:00
Linus Torvalds
da9803dfd3 This feature enhances the current guest memory encryption support 
called SEV by also encrypting the guest register state, making the
 registers inaccessible to the hypervisor by en-/decrypting them on world
 switches. Thus, it adds additional protection to Linux guests against
 exfiltration, control flow and rollback attacks.
 
 With SEV-ES, the guest is in full control of what registers the
 hypervisor can access. This is provided by a guest-host exchange
 mechanism based on a new exception vector called VMM Communication
 Exception (#VC), a new instruction called VMGEXIT and a shared
 Guest-Host Communication Block which is a decrypted page shared between
 the guest and the hypervisor.
 
 Intercepts to the hypervisor become #VC exceptions in an SEV-ES guest so
 in order for that exception mechanism to work, the early x86 init code
 needed to be made able to handle exceptions, which, in itself, brings
 a bunch of very nice cleanups and improvements to the early boot code
 like an early page fault handler, allowing for on-demand building of the
 identity mapping. With that, !KASLR configurations do not use the EFI
 page table anymore but switch to a kernel-controlled one.
 
 The main part of this series adds the support for that new exchange
 mechanism. The goal has been to keep this as much as possibly
 separate from the core x86 code by concentrating the machinery in two
 SEV-ES-specific files:
 
  arch/x86/kernel/sev-es-shared.c
  arch/x86/kernel/sev-es.c
 
 Other interaction with core x86 code has been kept at minimum and behind
 static keys to minimize the performance impact on !SEV-ES setups.
 
 Work by Joerg Roedel and Thomas Lendacky and others.
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Merge tag 'x86_seves_for_v5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip

Pull x86 SEV-ES support from Borislav Petkov:
 "SEV-ES enhances the current guest memory encryption support called SEV
  by also encrypting the guest register state, making the registers
  inaccessible to the hypervisor by en-/decrypting them on world
  switches. Thus, it adds additional protection to Linux guests against
  exfiltration, control flow and rollback attacks.

  With SEV-ES, the guest is in full control of what registers the
  hypervisor can access. This is provided by a guest-host exchange
  mechanism based on a new exception vector called VMM Communication
  Exception (#VC), a new instruction called VMGEXIT and a shared
  Guest-Host Communication Block which is a decrypted page shared
  between the guest and the hypervisor.

  Intercepts to the hypervisor become #VC exceptions in an SEV-ES guest
  so in order for that exception mechanism to work, the early x86 init
  code needed to be made able to handle exceptions, which, in itself,
  brings a bunch of very nice cleanups and improvements to the early
  boot code like an early page fault handler, allowing for on-demand
  building of the identity mapping. With that, !KASLR configurations do
  not use the EFI page table anymore but switch to a kernel-controlled
  one.

  The main part of this series adds the support for that new exchange
  mechanism. The goal has been to keep this as much as possibly separate
  from the core x86 code by concentrating the machinery in two
  SEV-ES-specific files:

    arch/x86/kernel/sev-es-shared.c
    arch/x86/kernel/sev-es.c

  Other interaction with core x86 code has been kept at minimum and
  behind static keys to minimize the performance impact on !SEV-ES
  setups.

  Work by Joerg Roedel and Thomas Lendacky and others"

* tag 'x86_seves_for_v5.10' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: (73 commits)
  x86/sev-es: Use GHCB accessor for setting the MMIO scratch buffer
  x86/sev-es: Check required CPU features for SEV-ES
  x86/efi: Add GHCB mappings when SEV-ES is active
  x86/sev-es: Handle NMI State
  x86/sev-es: Support CPU offline/online
  x86/head/64: Don't call verify_cpu() on starting APs
  x86/smpboot: Load TSS and getcpu GDT entry before loading IDT
  x86/realmode: Setup AP jump table
  x86/realmode: Add SEV-ES specific trampoline entry point
  x86/vmware: Add VMware-specific handling for VMMCALL under SEV-ES
  x86/kvm: Add KVM-specific VMMCALL handling under SEV-ES
  x86/paravirt: Allow hypervisor-specific VMMCALL handling under SEV-ES
  x86/sev-es: Handle #DB Events
  x86/sev-es: Handle #AC Events
  x86/sev-es: Handle VMMCALL Events
  x86/sev-es: Handle MWAIT/MWAITX Events
  x86/sev-es: Handle MONITOR/MONITORX Events
  x86/sev-es: Handle INVD Events
  x86/sev-es: Handle RDPMC Events
  x86/sev-es: Handle RDTSC(P) Events
  ...
 2020-10-14 10:21:34 -07:00
Geert Uytterhoeven
f6bade6875 clk: Restrict CLK_HSDK to ARC_SOC_HSDK 
The HSDK PLL driver is only useful when building for an ARC HSDK
platform.
As ARC selects OF, the dependency on OF can just be replaced by a
dependency on ARC_SOC_HSDK.

Signed-off-by: Geert Uytterhoeven <geert+renesas@glider.be>
Link: https://lore.kernel.org/r/20200807094351.1046-1-geert+renesas@glider.be
Signed-off-by: Stephen Boyd <sboyd@kernel.org>
 2020-10-14 10:17:00 -07:00
Linus Torvalds
6873139ed0 objtool changes for v5.10: 
- Most of the changes are cleanups and reorganization to make the objtool code
    more arch-agnostic. This is in preparation for non-x86 support.
 
 Fixes:
 
  - KASAN fixes.
  - Handle unreachable trap after call to noreturn functions better.
  - Ignore unreachable fake jumps.
  - Misc smaller fixes & cleanups.
 
 Signed-off-by: Ingo Molnar <mingo@kernel.org>
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Merge tag 'objtool-core-2020-10-13' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip

Pull objtool updates from Ingo Molnar:
 "Most of the changes are cleanups and reorganization to make the
  objtool code more arch-agnostic. This is in preparation for non-x86
  support.

  Other changes:

   - KASAN fixes

   - Handle unreachable trap after call to noreturn functions better

   - Ignore unreachable fake jumps

   - Misc smaller fixes & cleanups"

* tag 'objtool-core-2020-10-13' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: (21 commits)
  perf build: Allow nested externs to enable BUILD_BUG() usage
  objtool: Allow nested externs to enable BUILD_BUG()
  objtool: Permit __kasan_check_{read,write} under UACCESS
  objtool: Ignore unreachable trap after call to noreturn functions
  objtool: Handle calling non-function symbols in other sections
  objtool: Ignore unreachable fake jumps
  objtool: Remove useless tests before save_reg()
  objtool: Decode unwind hint register depending on architecture
  objtool: Make unwind hint definitions available to other architectures
  objtool: Only include valid definitions depending on source file type
  objtool: Rename frame.h -> objtool.h
  objtool: Refactor jump table code to support other architectures
  objtool: Make relocation in alternative handling arch dependent
  objtool: Abstract alternative special case handling
  objtool: Move macros describing structures to arch-dependent code
  objtool: Make sync-check consider the target architecture
  objtool: Group headers to check in a single list
  objtool: Define 'struct orc_entry' only when needed
  objtool: Skip ORC entry creation for non-text sections
  objtool: Move ORC logic out of check()
  ...
 2020-10-14 10:13:37 -07:00
Claudiu Beznea
fcedb589b5 clk: at91: sam9x60: support only two programmable clocks 
According to datasheet (Chapter 29.16.13, PMC Programmable Clock Register)
there are only two programmable clocks on SAM9X60.

Fixes: 01e2113de9 ("clk: at91: add sam9x60 pmc driver")
Signed-off-by: Claudiu Beznea <claudiu.beznea@microchip.com>
Link: https://lore.kernel.org/r/1602686072-28296-1-git-send-email-claudiu.beznea@microchip.com
Acked-by: Nicolas Ferre <nicolas.ferre@microchip.com>
Signed-off-by: Stephen Boyd <sboyd@kernel.org>
 2020-10-14 10:06:52 -07:00