Age | Commit message (Collapse) | Author |
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install everything in /boot/efi, if this is a mountpoint
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Trivial fixes3
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WaitForKeyEx may never return on some UEFI systems depending
on firmware, hardware configuration and the phase of the moon.
Use ConIn->WaitForKey unconditionally instead.
Fixes #3632
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Such mkdir errors happen for example when trying to mkdir /sys/fs/selinux.
/sys is documented to be readonly in the container, so mkdir errors below /sys
can be expected.
They shouldn't be logged as warnings since they lead users to think that
there is something wrong.
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Fix make nulstr confusion
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Trivial fixes
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Usually multiple DNS servers are configured, and it looks strange to have
singular in the heading.
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strv_make_nulstr was creating a nulstr which was not a valid nulstr,
because it was missing the terminating NUL. This didn't cause any issues,
because strv_parse_nulstr correctly parsed the result, using the
separately specified length.
But it's confusing to have something called nulstr which really isn't.
It is likely that somebody will try to use strv_make_nulstr() in
some other place, incorrectly.
This patch changes strv_parse_nulstr() to produce a valid nulstr, and
changes the output length parameter to be the minimum number of bytes
which can be later on parsed by strv_parse_nulstr(). This allows the
only user in ask-password-api to be slightly simplified.
Based-on-patch-by: Jean-Sébastien Bour <jean-sebastien@bour.name>
Fixes #3689.
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(systemd/systemd#3689)
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(#3738)
During stop when service has one "regular" pid one main pid and one
control pid and the sighld for the regular one is processed first the
unit_tidy_watch_pids will skip the main and control pid and does not
remove them from u->pids(). But then we skip the sigchld event because we
already did one in the iteration and there are two pids in u->pids.
v2: Use general unit_main_pid() and unit_control_pid() instead of
reaching directly to service structure.
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The distinction between systemd-shutdown the binary vs system-shutdown
the hook directory (without the 'd') is not immediately obvious and can
be quite confusing if you are looking for a directory which doesn't exist.
Therefore explicitly mention the hook directory in the synopsis with a
trailing slash to make it clearer which is which.
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This adds a build script and a settings file for "mkosi", a tool for putting
together full, bootable disk images for container managers of EFI systems and
VMs.
With these files it's enough to type "mkosi" in the project directory to
generate a bootable Fedora 24 OS image with a version of systemd compiled fresh
from the working tree.
See https://github.com/systemd/mkosi
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We should look that the kind is invalid rather than pointer is NULL.
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Sometimes, the persistent storage rules should be skipped for a subset
of devices. For example, the Qubes operating system prevents dom0 from
parsing untrusted block device content (such as filesystem metadata) by
shipping a custom 60-persistent-storage.rules, patched to bail out early
if the device name matches a hardcoded pattern.
As a less brittle and more flexible alternative, this commit adds a line
to the two relevant .rules files which makes them test the value of the
UDEV_DISABLE_PERSISTENT_STORAGE_RULES_FLAG device property, modeled
after the various DM_UDEV_DISABLE_*_RULES_FLAG properties.
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https://github.com/SELinuxProject/selinux/commit/9eb9c9327563014ad6a807814e7975424642d5b9
deprecated selinux_context_t. Replace with a simple char* everywhere.
Alternative fix for #3719.
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Callers of the 'udev monitor' tool expect to see output when
an event occurs. The stdio buffering defeats that. This patch
switches it to line buffering.
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... as requested in
https://lists.fedoraproject.org/archives/list/devel@lists.fedoraproject.org/message/DJ7HDNRM5JGBSA4HL3UWW5ZGLQDJ6Y7M/.
Adding the macro makes it marginally easier to create generators
for outside projects.
I opted for "generatordir" and "usergeneratordir" to match
%unitdir and %userunitdir. OTOH, "_systemd" prefix makes it obvious
that this is related to systemd. "%_generatordir" would be to generic
of a name.
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Do not allocate objects of dynamic and potentially large size on the stack
to avoid both clang compilation errors and unpredictable runtime behavior
on exotic platforms. Use the heap for that instead.
While at it, refactor the code a bit. Access 's->domain' via
NDISC_DNSSL_DOMAIN(), and refrain from allocating 'x' independently, but
rather reuse 's' if we're dealing with a new entry to the set.
Fixes #3717
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systemd.special.xml: corrections about implicit
dependencies for basic.target, sysinit.target and shutdown.target.
systemd.target.xml: corrections about implicit dependencies for
target units in general.
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journald-related shutdown fixes for slow I/O
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(#3724)
Signed-off-by: Andreas Pokorny <andreas.pokorny@canonical.com>
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https://bugs.freedesktop.org/show_bug.cgi?id=96875
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This way, slow IO journald has to wait for can't cause it to reach the killing
spree timeout and is hit by SIGKILL in addition to SIGTERM.
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There's really no reason to use 10s here, let's instead default to 90s like we
do for everything else.
The SIGKILL during the final killing spree is in most regards the fourth level
of a safety net, after all: any normal service should have already been stopped
during the normal service shutdown logic, first via SIGTERM and then SIGKILL,
and then also via SIGTERM during the finall killing spree before we send
SIGKILL. And as a fourth level safety net it should only be required in
exceptional cases, which means it's safe to rais the default timeout, as normal
shutdowns should never be delayed by it.
Note that journald excludes itself from the normal service shutdown, and relies
on the final killing spree to terminate it (this is because it wants to cover
the normal shutdown phase's complete logging). If the system's IO is
excessively slow, then the 10s might not be enough for journald to sync
everything to disk and logs might get lost during shutdown.
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seccomp_syscall_resolve_name() can return a mix of positive and negative
(pseudo-) syscall numbers, while errors are signaled via __NR_SCMP_ERROR.
This commit lets the syscall filter parser only abort on real parsing
failures, letting libseccomp handle pseudo-syscall number on its own
and allowing proper multiplexed syscalls filtering.
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treewide: fix typos and remove accidental repetition of words
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Relative to: https://github.com/systemd/systemd/pull/3474
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Persistent memory devices can be exposed as block devices as /dev/pmemN
and /dev/pmemNs. pmemN is the raw device and is byte-addressable from
within the kernel and when mmapped by applications from a DAX-mounted
file system. pmemNs has the block translation table (BTT) layered on top,
offering atomic sector/block access. Both pmemN and pmemNs are expected
to contain file systems.
blkid(8) and lsblk(8) seem to correctly report on pmemN and pmemNs.
systemd v219 will populate /dev/disk/by-uuid/ when, for example, mkfs is
used on pmem, but systemd v228 does not.
Add pmem to the whitelist.
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This is basically the same change as ea68351.
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Follow up on #3503 (pass service env vars to PAM sessions)
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Prevent free from being called on (a part of) the call-by-reference
variable env when setup_pam fails.
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The unit load queue can be processed in the middle of setting the
unit's properties, so its load_state would no longer be UNIT_STUB
for the check in bus_unit_set_properties(), which would cause it to
incorrectly return an error.
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Commit da4d897e ("core: add cgroup memory controller support on the unified
hierarchy (#3315)") changed the code in src/core/cgroup.c to always write
the real numeric value from the cgroup parameters to the
"memory.limit_in_bytes" attribute file.
For parameters set to CGROUP_LIMIT_MAX, this results in the string
"18446744073709551615" being written into that file, which is UINT64_MAX.
Before that commit, CGROUP_LIMIT_MAX was special-cased to the string "-1".
This causes a regression on CentOS 7, which is based on kernel 3.10, as the
value is interpreted as *signed* 64 bit, and clamped to 0:
[root@n54 ~]# echo 18446744073709551615 >/sys/fs/cgroup/memory/user.slice/memory.limit_in_bytes
[root@n54 ~]# cat /sys/fs/cgroup/memory/user.slice/memory.limit_in_bytes
0
[root@n54 ~]# echo -1 >/sys/fs/cgroup/memory/user.slice/memory.limit_in_bytes
[root@n54 ~]# cat /sys/fs/cgroup/memory/user.slice/memory.limit_in_bytes
9223372036854775807
Hence, all units that are subject to the limits enforced by the memory
controller will crash immediately, even though they have no actual limit
set. This happens to for the user.slice, for instance:
[ 453.577153] Hardware name: SeaMicro SM15000-64-CC-AA-1Ox1/AMD Server CRB, BIOS Estoc.3.72.19.0018 08/19/2014
[ 453.587024] ffff880810c56780 00000000aae9501f ffff880813d7fcd0 ffffffff816360fc
[ 453.594544] ffff880813d7fd60 ffffffff8163109c ffff88080ffc5000 ffff880813d7fd28
[ 453.602120] ffffffff00000202 fffeefff00000000 0000000000000001 ffff880810c56c03
[ 453.609680] Call Trace:
[ 453.612156] [<ffffffff816360fc>] dump_stack+0x19/0x1b
[ 453.617324] [<ffffffff8163109c>] dump_header+0x8e/0x214
[ 453.622671] [<ffffffff8116d20e>] oom_kill_process+0x24e/0x3b0
[ 453.628559] [<ffffffff81088dae>] ? has_capability_noaudit+0x1e/0x30
[ 453.634969] [<ffffffff811d4155>] mem_cgroup_oom_synchronize+0x575/0x5a0
[ 453.641721] [<ffffffff811d3520>] ? mem_cgroup_charge_common+0xc0/0xc0
[ 453.648299] [<ffffffff8116da84>] pagefault_out_of_memory+0x14/0x90
[ 453.654621] [<ffffffff8162f4cc>] mm_fault_error+0x68/0x12b
[ 453.660233] [<ffffffff81642012>] __do_page_fault+0x3e2/0x450
[ 453.666017] [<ffffffff816420a3>] do_page_fault+0x23/0x80
[ 453.671467] [<ffffffff8163e308>] page_fault+0x28/0x30
[ 453.676656] Task in /user.slice/user-0.slice/user@0.service killed as a result of limit of /user.slice/user-0.slice/user@0.service
[ 453.688477] memory: usage 0kB, limit 0kB, failcnt 7
[ 453.693391] memory+swap: usage 0kB, limit 9007199254740991kB, failcnt 0
[ 453.700039] kmem: usage 0kB, limit 9007199254740991kB, failcnt 0
[ 453.706076] Memory cgroup stats for /user.slice/user-0.slice/user@0.service: cache:0KB rss:0KB rss_huge:0KB mapped_file:0KB swap:0KB inactive_anon:0KB active_anon:0KB inactive_file:0KB active_file:0KB unevictable:0KB
[ 453.725702] [ pid ] uid tgid total_vm rss nr_ptes swapents oom_score_adj name
[ 453.733614] [ 2837] 0 2837 11950 899 23 0 0 (systemd)
[ 453.741919] Memory cgroup out of memory: Kill process 2837 ((systemd)) score 1 or sacrifice child
[ 453.750831] Killed process 2837 ((systemd)) total-vm:47800kB, anon-rss:3188kB, file-rss:408kB
Fix this issue by special-casing the UINT64_MAX case again.
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By cleaning up before setting up PAM we maintain control of overriding
behavior in setting variables. Otherwise, pam_putenv is in control.
This also makes sure we use a cleaned up environment in replacing
variables in argv.
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