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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-10 20:49:52 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-10 20:49:52 +0000
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Adding upstream version 255.4.upstream/255.4
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+---
+title: systemd Coredump Handling
+category: Concepts
+layout: default
+SPDX-License-Identifier: LGPL-2.1-or-later
+---
+
+# systemd Coredump Handling
+
+## Support in the Service Manager (PID 1)
+
+The systemd service manager natively provides coredump handling functionality,
+as implemented by the Linux kernel. Specifically, PID 1 provides the following
+functionality:
+
+1. During very early boot it will raise the
+ [`LIMIT_CORE`](https://man7.org/linux/man-pages/man2/getrlimit.2.html)
+ resource limit for itself to infinity (and thus implicitly also all its
+ children). This removes any limits on the size of generated coredumps, for
+ all invoked processes, from earliest boot on. (The Linux kernel sets the
+ limit to 0 by default.)
+
+2. At the same time it will turn off coredump handling in the kernel by writing
+ `|/bin/false` into `/proc/sys/kernel/core_pattern` (also known as the
+ "`kernel.core_pattern` sysctl"; see
+ [core(5)](https://man7.org/linux/man-pages/man5/core.5.html) for
+ details). This means that coredumps are not actually processed. (The Linux
+ kernel sets the pattern to `core` by default, so that coredumps are written
+ to the current working directory of the crashing process.)
+
+Net effect: after PID1 has started and performed this setup coredumps are
+disabled, but by means of the the `kernel.core_pattern` sysctl rather than by
+size limit. This is generally preferable, since the pattern can be updated
+trivially at the right time to enable coredumping once the system is ready,
+taking comprehensive effect on all userspace. (Or to say this differently:
+disabling coredumps via the size limit is problematic, since it cannot easily
+be undone without iterating through all already running processes once the
+system is ready for coredump handling.)
+
+Processing of core dumps may be enabled at the appropriate time by updating the
+`kernel.core_pattern` sysctl. Only coredumps that happen later will be
+processed.
+
+During the final shutdown phase the `kernel.core_pattern` sysctl is updated
+again to `|/bin/false`, disabling coredump support again, should it have been
+enabled in the meantime.
+
+This means coredump handling is generally not available during earliest boot
+and latest shutdown, reflecting the fact that storage is typically not
+available in these environments, and many other facilities are missing too that
+are required to collect and process a coredump successfully.
+
+## `systemd-coredump` Handler
+
+The systemd suite provides a coredump handler
+[`systemd-coredump`](https://www.freedesktop.org/software/systemd/man/systemd-coredump.html)
+which can be enabled at build-time. It is activated during boot via the
+`/usr/lib/sysctl.d/50-coredump.conf` drop-in file for
+`systemd-sysctl.service`. It registers the `systemd-coredump` tool as
+`kernel.core_pattern` sysctl.
+
+`systemd-coredump` is implemented as socket activated service: when the kernel
+invokes the userspace coredump handler, the received coredump file descriptor
+is immediately handed off to the socket activated service
+`systemd-coredump@.service` via the `systemd-coredump.socket` socket unit. This
+means the coredump handler runs for a very short time only, and the potentially
+*heavy* and security sensitive coredump processing work is done as part of the
+specified service unit, and thus can take benefit of regular service resource
+management and sandboxing.
+
+The `systemd-coredump` handler will extract a backtrace and [ELF packaging
+metadata](https://systemd.io/ELF_PACKAGE_METADATA) from any coredumps it
+receives and log both. The information about coredumps stored in the journal
+can be enumerated and queried with the
+[`coredumpctl`](https://www.freedesktop.org/software/systemd/man/coredumpctl.html)
+tool, for example for directly invoking a debugger such as `gdb` on a collected
+coredump.
+
+The handler writes coredump files to `/var/lib/systemd/coredump/`. Old files
+are cleaned up periodically by
+[`systemd-tmpfiles(8)`](https://www.freedesktop.org/software/systemd/man/systemd-tmpfiles.html).
+
+## User Experience
+
+With the above, any coredumps generated on the system are by default collected
+and turned into logged events — except during very early boot and late
+shutdown. Individual services, processes or users can opt-out of coredump
+collection, by setting `LIMIT_CORE` to 0 (or alternatively invoke
+[`PR_SET_DUMPABLE`](https://man7.org/linux/man-pages/man2/prctl.2.html)). The
+resource limit can be set freely by daemons/processes/users to arbitrary
+values, which the coredump handler will respect. The `coredumpctl` tool may be
+used to further analyze/debug coredumps.
+
+## Alternative Coredump Handlers
+
+While we recommend usage of the `systemd-coredump` handler, it's fully
+supported to use alternative coredump handlers instead. A similar
+implementation pattern is recommended. Specifically:
+
+1. Use a `sysctl.d/` drop-in to register your handler with the kernel. Make
+ sure to include the `%c` specifier in the pattern (which reflects the
+ crashing process' `RLIMIT_CORE`) and act on it: limit the stored coredump
+ file to the specified limit.
+
+2. Do not do heavy processing directly in the coredump handler. Instead,
+ quickly pass off the kernel's coredump file descriptor to an
+ auxiliary service running as service under the service manager, so that it
+ can be done under supervision, sandboxing and resource management.
+
+Note that at any given time only a single handler can be enabled, i.e. the
+`kernel.core_pattern` sysctl cannot reference multiple executables.
+
+## Packaging
+
+It might make sense to split `systemd-coredump` into a separate distribution
+package. If doing so, make sure that `/usr/lib/sysctl.d/50-coredump.conf` and
+the associated service and socket units are also added to the split off package.
+
+Note that in a scenario where `systemd-coredump` is split out and not
+installed, coredumping is turned off during the entire runtime of the system —
+unless an alternative handler is installed, or behaviour is manually reverted
+to legacy style handling (see below).
+
+## Restoring Legacy Coredump Handling
+
+The default policy of the kernel to write coredumps into the current working
+directory of the crashing process is considered highly problematic by many,
+including by the systemd maintainers. Nonetheless, if users locally want to
+return to this behaviour, two changes must be made (followed by a reboot):
+
+```console
+$ mkdir -p /etc/sysctl.d
+$ cat >/etc/sysctl.d/50-coredump.conf <<EOF
+# Party like it's 1995!
+kernel.core_pattern=core
+EOF
+```
+
+and
+
+```console
+$ mkdir -p /etc/systemd/system.conf.d
+$ cat >/etc/systemd/system.conf.d/50-coredump.conf <<EOF
+[Manager]
+DefaultLimitCORE=0:infinity
+EOF
+```