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KeyringMode option is useful for user services. Also, documentation for the
option suggests that the option applies to user services. However, setting the
option to any of its allowed values has no effect.
This commit fixes that and removes EXEC_NEW_KEYRING flag. The flag is no longer
necessary: instead of checking if the flag is set we can check if keyring_mode
is not equal to EXEC_KEYRING_INHERIT.
With cgroupsv1 a zombie process is migrated to root cgroup in all
hierarchies. This was changed for unified hierarchy and /proc/PID/cgroup
reports cgroup to which process belonged before it exited.
Be more suspicious about cgroup path reported by the kernel and use
unit_id provided by the log client if the kernel reports that process is
running in the root cgroup.
Users tend to care the most about 'log->unit_id' mapping so systemctl
status can correctly report last log lines. Also we wouldn't be able to
infer anything useful from "/" path anyway.
See: 2e91fa7f6d
This appears to be necessary for client software to ensure the reponse data
is validated with DNSSEC. For example, `ssh -v -o VerifyHostKeyDNS=yes -o
StrictHostKeyChecking=yes redpilllinpro01.ring.nlnog.net` fails if EDNS0 is
not enabled. The debugging output reveals that the `SSHFP` records were
found in DNS, but were considered insecure.
Note that the patch intentionally does *not* enable EDNS0 in the
`/run/systemd/resolve/resolv.conf` file (the one that contains `nameserver`
entries for the upstream DNS servers), as it is impossible to know for
certain that all the upstream DNS servers handles EDNS0 correctly.
Fixes#10526.
Even if we waited for the root device to appear, the mount could still fail if
we didn't wait for udev to initalize the device. In particular, the
/dev/block/n:m path used to mount the device is created by udev, and nspawn
would sometimes win the race and the mount would fail with -ENOENT.
The same wait is done for partitions, since if we try to mount them, the same
considerations apply.
Note: I first implemented a version which just does a loop (with a short wait).
In that approach, udev takes on average ~800 µs to initialize the loopback
device. The approach where we set up a monitor and avoid the loop is a bit
nicer. There doesn't seem to be a significant difference in speed.
With 1000 invocations of 'systemd-nspawn -i image.squashfs echo':
loop (previous approach):
real 4m52.625s
user 0m37.094s
sys 2m14.705s
monitor (this patch):
real 4m50.791s
user 0m36.619s
sys 2m14.039s
dissect-image would wait for the root device and paritions to appear. But if we
had an image with no partitions, we'd not wait at all. If the kernel or udev
were slow in creating device nodes or symlinks, subsequent mount attempt might
fail if nspawn won the race.
Calling wait_for_partitions_to_appear() in case of no partitions means that we
verify that the kernel agrees that there are no partitions. We verify that the
kernel sees the same number of partitions as blkid, so let's that also in this
case.
This makes the failure in #10526 much less likely, but doesn't eliminate it
completely. Stay tuned.
The function interface is the same, except that the output pointer may be NULL.
The implementation is slightly simplified by taking advantage of changes in
ancestor commit 'sd-device: attempt to read db again if it wasn't found', by
not creating a new sd_device object before re-checking the is_initialized
status.
v2:
- In v1, the old object was always used and the device received back from the
sd_device_monitor_start callback was ignored. I *think* the result will be
equivalent in both cases, because by the time we the callback gets called,
the db entry in the filesystem will also exist, and any subsequent access to
properties of the object would trigger a read of the database from disk. But
I'm not certain, and anyway, using the device object received in the callback
seems cleaner.
Apparently people want more of these (as #11175 shows). Since this is
merely a safety limit for us, let's just bump all values substantially.
Fixes: #11175
Normally, we don't care too much about what pahole reports. But this structure
could potentially be allocated for every device on the system, i.e. in a large
number of copies. 5 vs 7 cache lines is nice.
/* size: 400, cachelines: 7, members: 53 */
/* sum members: 330, holes: 12, sum holes: 70 */
/* last cacheline: 16 bytes */
/* size: 320, cachelines: 5, members: 53 */
/* bit holes: 1, sum bit holes: 6 bits */
/* bit_padding: 5 bits */
ensure that mfree() on filename is called after the logging function
which uses the string pointed by filename
Signed-off-by: Khem Raj <raj.khem@gmail.com>
value pointer here is always NULL but subsequent use of that pointer
with a %s format will always be NULL, printing p instead would be a
valid string
Signed-off-by: Khem Raj <raj.khem@gmail.com>
We had two very similar functions: device_read_db_aux and device_read_db,
and a number of wrappers for them:
device_read_db_aux
← device_read_db (in sd-device.c)
← all functions in sd-device.c, including sd_device_is_initialized
← device_read_db_force
← event_execute_rules_on_remove (in udev-event.c)
device_read_db (in device-private.c)
← functions in device_private.c (but not device_read_db_force):
device_get_devnode_{mode,uid,gid}
device_get_devlink_priority
device_get_watch_handle
device_clone_with_db
← called from udevadm, udev-{node,event,watch}.c
Before 7141e4f62c (sd-device: don't retry loading
uevent/db files more than once), the two implementations were the same. In that
commit, device_read_db_aux was changed. Those changes were reverted in the parent
commit, so the two implementations are now again the same except for superficial
differences. This commit removes device_read_db (in sd-device.c), and renames
device_read_db_aux to device_read_db_internal and makes everyone use this one
implementation. There should be no functional change.
This mostly reverts "sd-device: don't retry loading uevent/db files more than
once", 7141e4f62c. We will retry if we couldn't
access the file, but not if parsing failed.
Not re-reading the database at all just doesn't seem like a good idea. We have
two implementations of device_read_db, and one does that, and the other retries
to read the db. Re-reading seems more useful, since we can create the object
and then access properties as some later time when we know that the device has
been initialized and we can get useful results. Otherwise, we force the user to
destroy this object and create a new one.
This changes device_read_uevent_file() and device_read_db_aux(). See next
commit for description of where those functions are used.
If we create 2000 mounts (on a 1-CPU qemu VM) with
mkdir -p /MNT/{1..2000}
time for i in {1..2000}; do mount --bind /etc /MNT/$i ; done
it takes around 20 seconds to complete. Much of this time is taken up
by systemd repeatedly processing /proc/self/mountinfo.
If I disable the processing, the time drops to about 4 seconds.
I have reports that on a larger system with multiple active user sessions, each
with it's own systemd, the impact can be higher.
One particular use-case where a large number of mounts can be expected in quick
succession is when the "clearcase" SCM starts up.
This patch modifies the handling up events from /proc/self/mountinfo so
that systemd backs off when a storm is detected. Specifically the time to process
mountinfo is measured, and the process will not be repeated until 10 times
that duration has passed. This ensures systemd won't use more than 10% of
real time processing mountinfo.
With this patch, my test above takes about 5 seconds.
This reverts commit dd102e4d0c.
That test case exposed a memory leak and breaks CI, so let's revert it until
the original issue is fixed, to prevent disruption of automated testing.
