[PATCH v7 0/6] Allow user to request memory to be locked on page fault

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mlock() allows a user to control page out of program memory, but this
comes at the cost of faulting in the entire mapping when it is
allocated.  For large mappings where the entire area is not necessary
this is not ideal.  Instead of forcing all locked pages to be present
when they are allocated, this set creates a middle ground.  Pages are
marked to be placed on the unevictable LRU (locked) when they are first
used, but they are not faulted in by the mlock call.

This series introduces a new mlock() system call that takes a flags
argument along with the start address and size.  This flags argument
gives the caller the ability to request memory be locked in the
traditional way, or to be locked after the page is faulted in.  A new
MCL flag is added to mirror the lock on fault behavior from mlock() in
mlockall().

There are two main use cases that this set covers.  The first is the
security focussed mlock case.  A buffer is needed that cannot be written
to swap.  The maximum size is known, but on average the memory used is
significantly less than this maximum.  With lock on fault, the buffer
is guaranteed to never be paged out without consuming the maximum size
every time such a buffer is created.

The second use case is focussed on performance.  Portions of a large
file are needed and we want to keep the used portions in memory once
accessed.  This is the case for large graphical models where the path
through the graph is not known until run time.  The entire graph is
unlikely to be used in a given invocation, but once a node has been
used it needs to stay resident for further processing.  Given these
constraints we have a number of options.  We can potentially waste a
large amount of memory by mlocking the entire region (this can also
cause a significant stall at startup as the entire file is read in).
We can mlock every page as we access them without tracking if the page
is already resident but this introduces large overhead for each access.
The third option is mapping the entire region with PROT_NONE and using
a signal handler for SIGSEGV to mprotect(PROT_READ) and mlock() the
needed page.  Doing this page at a time adds a significant performance
penalty.  Batching can be used to mitigate this overhead, but in order
to safely avoid trying to mprotect pages outside of the mapping, the
boundaries of each mapping to be used in this way must be tracked and
available to the signal handler.  This is precisely what the mm system
in the kernel should already be doing.

For mlock(MLOCK_ONFAULT) the user is charged against RLIMIT_MEMLOCK as
if mlock(MLOCK_LOCKED) or mmap(MAP_LOCKED) was used, so when the VMA is
created not when the pages are faulted in.  For mlockall(MCL_ONFAULT)
the user is charged as if MCL_FUTURE was used.  This decision was made
to keep the accounting checks out of the page fault path.

To illustrate the benefit of this set I wrote a test program that mmaps
a 5 GB file filled with random data and then makes 15,000,000 accesses
to random addresses in that mapping.  The test program was run 20 times
for each setup.  Results are reported for two program portions, setup
and execution.  The setup phase is calling mmap and optionally mlock on
the entire region.  For most experiments this is trivial, but it
highlights the cost of faulting in the entire region.  Results are
averages across the 20 runs in milliseconds.

mmap with mlock(MLOCK_LOCKED) on entire range:
Setup avg:      8228.666
Processing avg: 8274.257

mmap with mlock(MLOCK_LOCKED) before each access:
Setup avg:      0.113
Processing avg: 90993.552

mmap with PROT_NONE and signal handler and batch size of 1 page:
With the default value in max_map_count, this gets ENOMEM as I attempt
to change the permissions, after upping the sysctl significantly I get:
Setup avg:      0.058
Processing avg: 69488.073
mmap with PROT_NONE and signal handler and batch size of 8 pages:
Setup avg:      0.068
Processing avg: 38204.116

mmap with PROT_NONE and signal handler and batch size of 16 pages:
Setup avg:      0.044
Processing avg: 29671.180

mmap with mlock(MLOCK_ONFAULT) on entire range:
Setup avg:      0.189
Processing avg: 17904.899

The signal handler in the batch cases faulted in memory in two steps to
avoid having to know the start and end of the faulting mapping.  The
first step covers the page that caused the fault as we know that it will
be possible to lock.  The second step speculatively tries to mlock and
mprotect the batch size - 1 pages that follow.  There may be a clever
way to avoid this without having the program track each mapping to be
covered by this handeler in a globally accessible structure, but I could
not find it.  It should be noted that with a large enough batch size
this two step fault handler can still cause the program to crash if it
reaches far beyond the end of the mapping.

These results show that if the developer knows that a majority of the
mapping will be used, it is better to try and fault it in at once,
otherwise mlock(MLOCK_ONFAULT) is significantly faster.

The performance cost of these patches are minimal on the two benchmarks
I have tested (stream and kernbench).  The following are the average
values across 20 runs of stream and 10 runs of kernbench after a warmup
run whose results were discarded.

Avg throughput in MB/s from stream using 1000000 element arrays
Test     4.2-rc1      4.2-rc1+lock-on-fault
Copy:    10,566.5     10,421
Scale:   10,685       10,503.5
Add:     12,044.1     11,814.2
Triad:   12,064.8     11,846.3

Kernbench optimal load
                 4.2-rc1  4.2-rc1+lock-on-fault
Elapsed Time     78.453   78.991
User Time        64.2395  65.2355
System Time      9.7335   9.7085
Context Switches 22211.5  22412.1
Sleeps           14965.3  14956.1

---
Changes from V6:
* Bump the x86 system call number to avoid collision with userfaultfd
* Fix FOLL_POPULATE and FOLL_MLOCK usage when mmap is called with
 MAP_POPULATE
* Add documentation for the proc smaps change
* checkpatch fixes

Changes from V5:
Drop MLOCK_LOCKED flag
* MLOCK_ONFAULT and MCL_ONFAULT are treated as a modifier to other locking
 operations, mirroring the relationship between VM_LOCKED and
 VM_LOCKONFAULT
* Drop mmap flag and related tests
* Fix clearing of MCL_CURRENT when mlockall is called with MCL_FUTURE,
 mlockall behavoir now matches the old behavior WRT to ordering

Changes from V4:
Drop all architectures for new sys call entries except x86[_64] and MIPS
Drop munlock2 and munlockall2
Make VM_LOCKONFAULT a modifier to VM_LOCKED only to simplify book keeping
Adjust tests to match

Changes from V3:
Ensure that pages present when mlock2(MLOCK_ONFAULT) is called are locked
Ensure that VM_LOCKONFAULT is handled in cases that used to only check VM_LOCKED
Add tests for new system calls
Add missing syscall entries, fix NR_syscalls on multiple arch's
Add missing MAP_LOCKONFAULT for tile

Changes from V2:
Added new system calls for mlock, munlock, and munlockall with added
flags arguments for controlling how memory is locked or unlocked.


Eric B Munson (6):
  mm: mlock: Refactor mlock, munlock, and munlockall code
  mm: mlock: Add new mlock system call
  mm: Introduce VM_LOCKONFAULT
  mm: mlock: Add mlock flags to enable VM_LOCKONFAULT usage
  selftests: vm: Add tests for lock on fault
  mips: Add entry for new mlock2 syscall

 Documentation/filesystems/proc.txt          |   1 +
 arch/alpha/include/uapi/asm/mman.h          |   3 +
 arch/mips/include/uapi/asm/mman.h           |   6 +
 arch/mips/include/uapi/asm/unistd.h         |  15 +-
 arch/mips/kernel/scall32-o32.S              |   1 +
 arch/mips/kernel/scall64-64.S               |   1 +
 arch/mips/kernel/scall64-n32.S              |   1 +
 arch/mips/kernel/scall64-o32.S              |   1 +
 arch/parisc/include/uapi/asm/mman.h         |   3 +
 arch/powerpc/include/uapi/asm/mman.h        |   1 +
 arch/sparc/include/uapi/asm/mman.h          |   1 +
 arch/tile/include/uapi/asm/mman.h           |   1 +
 arch/x86/entry/syscalls/syscall_32.tbl      |   1 +
 arch/x86/entry/syscalls/syscall_64.tbl      |   1 +
 arch/xtensa/include/uapi/asm/mman.h         |   6 +
 drivers/gpu/drm/drm_vm.c                    |   8 +-
 fs/proc/task_mmu.c                          |   1 +
 include/linux/mm.h                          |   2 +
 include/linux/syscalls.h                    |   2 +
 include/uapi/asm-generic/mman-common.h      |   5 +
 include/uapi/asm-generic/mman.h             |   1 +
 include/uapi/asm-generic/unistd.h           |   4 +-
 kernel/fork.c                               |   2 +-
 kernel/sys_ni.c                             |   1 +
 mm/debug.c                                  |   1 +
 mm/gup.c                                    |  10 +-
 mm/huge_memory.c                            |   2 +-
 mm/hugetlb.c                                |   4 +-
 mm/mlock.c                                  |  87 +++-
 mm/mmap.c                                   |   2 +-
 mm/rmap.c                                   |   6 +-
 tools/testing/selftests/vm/Makefile         |   2 +
 tools/testing/selftests/vm/mlock2-tests.c   | 661 ++++++++++++++++++++++++++++
 tools/testing/selftests/vm/on-fault-limit.c |  47 ++
 tools/testing/selftests/vm/run_vmtests      |  22 +
 35 files changed, 872 insertions(+), 41 deletions(-)
 create mode 100644 tools/testing/selftests/vm/mlock2-tests.c
 create mode 100644 tools/testing/selftests/vm/on-fault-limit.c

Cc: Shuah Khan <shuahkh@xxxxxxxxxxxxxxx>
Cc: Michal Hocko <mhocko@xxxxxxx>
Cc: Michael Kerrisk <mtk.manpages@xxxxxxxxx>
Cc: Vlastimil Babka <vbabka@xxxxxxx>
Cc: Jonathan Corbet <corbet@xxxxxxx>
Cc: Ralf Baechle <ralf@xxxxxxxxxxxxxx>
Cc: Andrea Arcangeli <aarcange@xxxxxxxxxx>
Cc: linux-alpha@xxxxxxxxxxxxxxx
Cc: linux-kernel@xxxxxxxxxxxxxxx
Cc: linux-mips@xxxxxxxxxxxxxx
Cc: linux-parisc@xxxxxxxxxxxxxxx
Cc: linuxppc-dev@xxxxxxxxxxxxxxxx
Cc: sparclinux@xxxxxxxxxxxxxxx
Cc: linux-xtensa@xxxxxxxxxxxxxxxx
Cc: linux-mm@xxxxxxxxx
Cc: linux-arch@xxxxxxxxxxxxxxx
Cc: linux-api@xxxxxxxxxxxxxxx

-- 
1.9.1

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