A process can enable KSM with the prctl system call. When the process is
forked the KSM flag is inherited by the child process. However if the
process is executing an exec system call directly after the fork, the
KSM setting is cleared. This patch series addresses this problem.
1) Change the mask in coredump.h for execing a new process
2) Add a new test case in ksm_functional_tests
Changes:
- V3:
- Combined two lines in function ksm_fork_exec_child()
- V2:
- Removed the child program from the patch series
- Child program is implemented by the program itself
- Added a new command line parameter for the child program
- Removed new section from Makefile
- Removed duplicate ; charaters
- Added return in if clause
- Used PR_GET_MEMORY_MERGE instead of magic numbers
- Resetting PR_SET_MEMROY_MERGE at the end.
Stefan Roesch (2):
mm/ksm: support fork/exec for prctl
mm/ksm: Test case for prctl fork/exec workflow
include/linux/sched/coredump.h | 7 +-
.../selftests/mm/ksm_functional_tests.c | 66 ++++++++++++++++++-
2 files changed, 70 insertions(+), 3 deletions(-)
base-commit: 15bcc9730fcd7526a3b92eff105d6701767a53bb
--
2.39.3
On Thu, 21 Sep 2023 09:47:07 -0700 Stefan Roesch <[email protected]> wrote:
> A process can enable KSM with the prctl system call. When the process is
> forked the KSM flag is inherited by the child process.
I guess that's logical, as it's still the same program.
> However if the
> process is executing an exec system call directly after the fork, the
> KSM setting is cleared. This patch series addresses this problem.
Well... who said it's a problem? There's nothing in our documentation
about this(?). Why is the current behavior wrong? If the new program
wants KSM, it can turn on KSM.
This significant change in user-visible behavior deserves much more
explanation and justification, please. Including an explanation of why
it's OK to change kernel behavior under existing users' feet like this,
Andrew Morton <[email protected]> writes:
> On Thu, 21 Sep 2023 09:47:07 -0700 Stefan Roesch <[email protected]> wrote:
>
>> A process can enable KSM with the prctl system call. When the process is
>> forked the KSM flag is inherited by the child process.
>
> I guess that's logical, as it's still the same program.
>
>> However if the
>> process is executing an exec system call directly after the fork, the
>> KSM setting is cleared. This patch series addresses this problem.
>
> Well... who said it's a problem? There's nothing in our documentation
> about this(?). Why is the current behavior wrong? If the new program
> wants KSM, it can turn on KSM.
>
> This significant change in user-visible behavior deserves much more
> explanation and justification, please. Including an explanation of why
> it's OK to change kernel behavior under existing users' feet like this,
Today we have two ways to enable KSM:
1) madvise system call
This allows to enable KSM for a memory region for a long time.
2) prctl system call
This is a recent addition to enable KSM for the complete process.
In addition when a process is forked, the KSM setting is inherited.
This change only affects the second case.
One of the use cases for (2) was to support the ability to enable
KSM for cgroups. This allows systemd to enable KSM for the seed
process. By enabling it in the seed process all child processes inherit
the setting.
This works correctly when the process is forked. However it doesn't
support fork/exec workflow.
From the previous cover letter:
....
Use case 3:
With the madvise call sharing opportunities are only enabled for the current
process: it is a workload-local decision. A considerable number of sharing
opportunities may exist across multiple workloads or jobs (if they are part
of the same security domain). Only a higler level entity like a job scheduler
or container can know for certain if its running one or more instances of a
job. That job scheduler however doesn't have the necessary internal workload
knowledge to make targeted madvise calls.
...
In addition it can also be a bit surprising that fork keeps the KSM
setting and fork/exec does not.