Difference between revisions of "Kdump"
m (Correct a typo)
(Note about maxcpus=1 kernel parameter.)
|Line 65:||Line 65:|
Then enable the service :
Then enable the service :
Revision as of 22:26, 11 June 2014
|Summary help replacing me|
|Covers how to setup kdump.|
Kdump is a standard Linux mechanism to dump machine memory content on kernel crash. Kdump is based on Kexec. Kdump utilizes two kernels: system kernel and dump capture kernel. System kernel is a normal kernel that is booted with special kdump-specific flags. We need to tell the system kernel to reserve some amount of physical memory where dump-capture kernel will be loaded. We need to load the dump capture kernel in advance because at the moment crash happens there is no way to read any data from disk because kernel is broken.
Once kernel crash happens the kernel crash handler uses Kexec mechanism to boot dump capture kernel. Please note that memory with system kernel is untouched and accessible from dump capture kernel as seen at the moment of crash. Once dump capture kernel is booted user can use /dev/vmcore file to get access to memory of crashed system kernel. The dump can be saved to disk or copied over network to some other machine for further investigation.
In real production environments system and dump capture kernel will be different - system kernel needs a lot of features and compiled with a many kernel flags/drivers. While dump capture kernel goal is to be minimalistic and take as small amount of memory as possible, e.g. dump capture kernel can be compiled without network support if we store memory dump to disk only. But in this article we will simplify things and use the same kernel both as system and dump capture one. It means we will load the same kernel code twice - one as normal system kernel, another one to reserved memory area.
System/dump capture kernel requires some configuration flags that are not set by default. Please consult Kernel Compilation article for more information about compiling custom kernel in Arch. Here we will emphasize on Kdump specific configuration.
To create a kernel you need to edit kernel config (or config.x86_64) file and enable following configuration options:
CONFIG_DEBUG_INFO=y CONFIG_CRASH_DUMP=y CONFIG_PROC_VMCORE=y
Also change package base name to something like linux-kdump to distinguish the kernel from the default Arch one. Compile kernel package and install it. Save ./src/linux-X.Y/vmlinux uncompressed system kernel binary - it contains debug symbols and you will need them later when analyzing crash.
In case if you have separate kernel for system and dump capture then it is recommended to consult Kdump documentation. It has several recommendations how to make dump capture kernel smaller.
Setup kdump kernel
First you need to reserve memory for dump capture kernel. Edit you bootloader config file and add crashkernel=64M boot option to the system kernel you just installed. For example Syslinux boot entry would look like:
LABEL arch-kdump MENU LABEL Arch Linux Kdump LINUX ../vmlinuz-linux-kdump APPEND root=/dev/sda1 crashkernel=64M INITRD ../initramfs-linux-kdump.img
64M of memory should be enough to hadle crash dumps on machines with up to 12G of RAM. Some systems require more reserved memory. In case if dump capture kernel unable not load try to increase the memory to 256M or even to 512M, but note that this memory is unavailable to system kernel.
Reboot into your system kernel. To make sure that the kernel is booted with correct options please check /proc/cmdline file.
Next you need to tell Kexec that you want to use your dump capture kernel. Specify your kernel, initramfs file, device for root fs and other parameters if needed.
# kexec -p [/boot/vmlinuz-linux-kdump] --initrd=[/boot/initramfs-linux-kdump.img] --append="root=[root-device] single irqpoll maxcpus=1 reset_devices"
It loads the kernel into reserved area. Without -p flag kexec would boot the kernel right away, but in presence of the flag kernel will be loaded into reserved memory but boot postponed until crash.
Instead of runnig kexec manually you might want to setup Systemd service that will run kexec on boot:
[Unit] Description=Load dump capture kernel After=local-fs.target [Service] ExecStart=/usr/bin/kexec -p [/boot/vmlinuz-linux-kdump] --initrd=[/boot/initramfs-linux-kdump.img] --append="root=[root-device] single irqpoll maxcpus=1 reset_devices" Type=oneshot [Install] WantedBy=multi-user.target
Then enable the service :
# systemctl enable kdump
To check whether the crash kernel is already loaded please run following command:
$ cat /sys/kernel/kexec_crash_loaded
Testing crashIf you want to test crash then you can use sysrq for this.
# echo c > /proc/sysrq-trigger
Once crash happens kexec will load your dump capture kernel.
Dump crashed kernel
Once booted into dump capture kernel you can read
/dev/vmcore file. It is recommended to dump core to a file and analyze it later.
# cp /proc/vmcore /root/crash.dump
or optionally you can copy the crash to other machine. Once dump is saved you should reboot machine into normal system kernel.
Analyzing core dump
You can use either gdb tool or special gdb extension called crash that can be found in AUR. Run crash as
$ crash vmlinux path/crash.dump
Where vmlinux previously saved kernel binary with debug symbols.
Follow man crash or http://people.redhat.com/~anderson/crash_whitepaper/ for more information about debugging practices.
- https://www.kernel.org/doc/Documentation/kdump/kdump.txt - Official kdump documentation
- http://www.dedoimedo.com/computers/www.dedoimedo.com-crash-book.pdf - The crash book