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Pull core debug changes from Ingo Molnar: "This contains mostly kernel debugging related updates: - make hung_task detection more configurable to distros - add final bits for x86 UV NMI debugging, with related KGDB changes - update the mailing-list of MAINTAINERS entries I'm involved with" * 'core-urgent-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: hung_task: Display every hung task warning sysctl: Add neg_one as a standard constraint x86/uv/nmi, kgdb/kdb: Fix UV NMI handler when KDB not configured x86/uv/nmi: Fix Sparse warnings kgdb/kdb: Fix no KDB config problem MAINTAINERS: Restore "L: linux-kernel@vger.kernel.org" entries
819 lines
29 KiB
Plaintext
819 lines
29 KiB
Plaintext
Documentation for /proc/sys/kernel/* kernel version 2.2.10
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(c) 1998, 1999, Rik van Riel <riel@nl.linux.org>
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(c) 2009, Shen Feng<shen@cn.fujitsu.com>
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For general info and legal blurb, please look in README.
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==============================================================
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This file contains documentation for the sysctl files in
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/proc/sys/kernel/ and is valid for Linux kernel version 2.2.
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The files in this directory can be used to tune and monitor
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miscellaneous and general things in the operation of the Linux
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kernel. Since some of the files _can_ be used to screw up your
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system, it is advisable to read both documentation and source
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before actually making adjustments.
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Currently, these files might (depending on your configuration)
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show up in /proc/sys/kernel:
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- acct
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- acpi_video_flags
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- auto_msgmni
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- bootloader_type [ X86 only ]
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- bootloader_version [ X86 only ]
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- callhome [ S390 only ]
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- cap_last_cap
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- core_pattern
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- core_pipe_limit
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- core_uses_pid
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- ctrl-alt-del
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- dmesg_restrict
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- domainname
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- hostname
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- hotplug
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- hung_task_panic
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- hung_task_check_count
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- hung_task_timeout_secs
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- hung_task_warnings
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- kexec_load_disabled
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- kptr_restrict
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- kstack_depth_to_print [ X86 only ]
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- l2cr [ PPC only ]
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- modprobe ==> Documentation/debugging-modules.txt
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- modules_disabled
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- msg_next_id [ sysv ipc ]
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- msgmax
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- msgmnb
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- msgmni
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- nmi_watchdog
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- osrelease
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- ostype
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- overflowgid
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- overflowuid
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- panic
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- panic_on_oops
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- panic_on_unrecovered_nmi
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- panic_on_stackoverflow
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- pid_max
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- powersave-nap [ PPC only ]
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- printk
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- printk_delay
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- printk_ratelimit
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- printk_ratelimit_burst
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- randomize_va_space
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- real-root-dev ==> Documentation/initrd.txt
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- reboot-cmd [ SPARC only ]
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- rtsig-max
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- rtsig-nr
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- sem
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- sem_next_id [ sysv ipc ]
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- sg-big-buff [ generic SCSI device (sg) ]
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- shm_next_id [ sysv ipc ]
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- shm_rmid_forced
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- shmall
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- shmmax [ sysv ipc ]
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- shmmni
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- stop-a [ SPARC only ]
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- sysrq ==> Documentation/sysrq.txt
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- tainted
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- threads-max
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- unknown_nmi_panic
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- watchdog_thresh
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- version
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==============================================================
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acct:
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highwater lowwater frequency
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If BSD-style process accounting is enabled these values control
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its behaviour. If free space on filesystem where the log lives
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goes below <lowwater>% accounting suspends. If free space gets
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above <highwater>% accounting resumes. <Frequency> determines
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how often do we check the amount of free space (value is in
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seconds). Default:
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4 2 30
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That is, suspend accounting if there left <= 2% free; resume it
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if we got >=4%; consider information about amount of free space
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valid for 30 seconds.
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==============================================================
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acpi_video_flags:
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flags
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See Doc*/kernel/power/video.txt, it allows mode of video boot to be
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set during run time.
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==============================================================
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auto_msgmni:
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Enables/Disables automatic recomputing of msgmni upon memory add/remove
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or upon ipc namespace creation/removal (see the msgmni description
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above). Echoing "1" into this file enables msgmni automatic recomputing.
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Echoing "0" turns it off. auto_msgmni default value is 1.
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==============================================================
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bootloader_type:
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x86 bootloader identification
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This gives the bootloader type number as indicated by the bootloader,
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shifted left by 4, and OR'd with the low four bits of the bootloader
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version. The reason for this encoding is that this used to match the
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type_of_loader field in the kernel header; the encoding is kept for
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backwards compatibility. That is, if the full bootloader type number
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is 0x15 and the full version number is 0x234, this file will contain
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the value 340 = 0x154.
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See the type_of_loader and ext_loader_type fields in
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Documentation/x86/boot.txt for additional information.
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==============================================================
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bootloader_version:
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x86 bootloader version
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The complete bootloader version number. In the example above, this
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file will contain the value 564 = 0x234.
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See the type_of_loader and ext_loader_ver fields in
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Documentation/x86/boot.txt for additional information.
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==============================================================
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callhome:
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Controls the kernel's callhome behavior in case of a kernel panic.
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The s390 hardware allows an operating system to send a notification
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to a service organization (callhome) in case of an operating system panic.
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When the value in this file is 0 (which is the default behavior)
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nothing happens in case of a kernel panic. If this value is set to "1"
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the complete kernel oops message is send to the IBM customer service
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organization in case the mainframe the Linux operating system is running
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on has a service contract with IBM.
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==============================================================
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cap_last_cap
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Highest valid capability of the running kernel. Exports
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CAP_LAST_CAP from the kernel.
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==============================================================
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core_pattern:
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core_pattern is used to specify a core dumpfile pattern name.
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. max length 128 characters; default value is "core"
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. core_pattern is used as a pattern template for the output filename;
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certain string patterns (beginning with '%') are substituted with
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their actual values.
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. backward compatibility with core_uses_pid:
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If core_pattern does not include "%p" (default does not)
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and core_uses_pid is set, then .PID will be appended to
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the filename.
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. corename format specifiers:
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%<NUL> '%' is dropped
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%% output one '%'
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%p pid
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%P global pid (init PID namespace)
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%u uid
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%g gid
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%d dump mode, matches PR_SET_DUMPABLE and
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/proc/sys/fs/suid_dumpable
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%s signal number
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%t UNIX time of dump
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%h hostname
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%e executable filename (may be shortened)
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%E executable path
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%<OTHER> both are dropped
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. If the first character of the pattern is a '|', the kernel will treat
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the rest of the pattern as a command to run. The core dump will be
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written to the standard input of that program instead of to a file.
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==============================================================
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core_pipe_limit:
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This sysctl is only applicable when core_pattern is configured to pipe
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core files to a user space helper (when the first character of
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core_pattern is a '|', see above). When collecting cores via a pipe
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to an application, it is occasionally useful for the collecting
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application to gather data about the crashing process from its
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/proc/pid directory. In order to do this safely, the kernel must wait
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for the collecting process to exit, so as not to remove the crashing
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processes proc files prematurely. This in turn creates the
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possibility that a misbehaving userspace collecting process can block
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the reaping of a crashed process simply by never exiting. This sysctl
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defends against that. It defines how many concurrent crashing
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processes may be piped to user space applications in parallel. If
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this value is exceeded, then those crashing processes above that value
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are noted via the kernel log and their cores are skipped. 0 is a
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special value, indicating that unlimited processes may be captured in
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parallel, but that no waiting will take place (i.e. the collecting
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process is not guaranteed access to /proc/<crashing pid>/). This
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value defaults to 0.
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==============================================================
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core_uses_pid:
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The default coredump filename is "core". By setting
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core_uses_pid to 1, the coredump filename becomes core.PID.
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If core_pattern does not include "%p" (default does not)
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and core_uses_pid is set, then .PID will be appended to
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the filename.
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==============================================================
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ctrl-alt-del:
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When the value in this file is 0, ctrl-alt-del is trapped and
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sent to the init(1) program to handle a graceful restart.
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When, however, the value is > 0, Linux's reaction to a Vulcan
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Nerve Pinch (tm) will be an immediate reboot, without even
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syncing its dirty buffers.
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Note: when a program (like dosemu) has the keyboard in 'raw'
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mode, the ctrl-alt-del is intercepted by the program before it
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ever reaches the kernel tty layer, and it's up to the program
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to decide what to do with it.
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==============================================================
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dmesg_restrict:
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This toggle indicates whether unprivileged users are prevented
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from using dmesg(8) to view messages from the kernel's log buffer.
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When dmesg_restrict is set to (0) there are no restrictions. When
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dmesg_restrict is set set to (1), users must have CAP_SYSLOG to use
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dmesg(8).
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The kernel config option CONFIG_SECURITY_DMESG_RESTRICT sets the
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default value of dmesg_restrict.
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==============================================================
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domainname & hostname:
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These files can be used to set the NIS/YP domainname and the
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hostname of your box in exactly the same way as the commands
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domainname and hostname, i.e.:
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# echo "darkstar" > /proc/sys/kernel/hostname
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# echo "mydomain" > /proc/sys/kernel/domainname
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has the same effect as
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# hostname "darkstar"
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# domainname "mydomain"
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Note, however, that the classic darkstar.frop.org has the
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hostname "darkstar" and DNS (Internet Domain Name Server)
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domainname "frop.org", not to be confused with the NIS (Network
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Information Service) or YP (Yellow Pages) domainname. These two
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domain names are in general different. For a detailed discussion
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see the hostname(1) man page.
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==============================================================
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hotplug:
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Path for the hotplug policy agent.
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Default value is "/sbin/hotplug".
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==============================================================
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hung_task_panic:
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Controls the kernel's behavior when a hung task is detected.
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This file shows up if CONFIG_DETECT_HUNG_TASK is enabled.
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0: continue operation. This is the default behavior.
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1: panic immediately.
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==============================================================
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hung_task_check_count:
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The upper bound on the number of tasks that are checked.
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This file shows up if CONFIG_DETECT_HUNG_TASK is enabled.
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==============================================================
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hung_task_timeout_secs:
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Check interval. When a task in D state did not get scheduled
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for more than this value report a warning.
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This file shows up if CONFIG_DETECT_HUNG_TASK is enabled.
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0: means infinite timeout - no checking done.
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==============================================================
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hung_task_warning:
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The maximum number of warnings to report. During a check interval
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When this value is reached, no more the warnings will be reported.
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This file shows up if CONFIG_DETECT_HUNG_TASK is enabled.
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-1: report an infinite number of warnings.
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==============================================================
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kexec_load_disabled:
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A toggle indicating if the kexec_load syscall has been disabled. This
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value defaults to 0 (false: kexec_load enabled), but can be set to 1
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(true: kexec_load disabled). Once true, kexec can no longer be used, and
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the toggle cannot be set back to false. This allows a kexec image to be
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loaded before disabling the syscall, allowing a system to set up (and
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later use) an image without it being altered. Generally used together
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with the "modules_disabled" sysctl.
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==============================================================
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kptr_restrict:
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This toggle indicates whether restrictions are placed on
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exposing kernel addresses via /proc and other interfaces.
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When kptr_restrict is set to (0), the default, there are no restrictions.
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When kptr_restrict is set to (1), kernel pointers printed using the %pK
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format specifier will be replaced with 0's unless the user has CAP_SYSLOG
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and effective user and group ids are equal to the real ids. This is
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because %pK checks are done at read() time rather than open() time, so
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if permissions are elevated between the open() and the read() (e.g via
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a setuid binary) then %pK will not leak kernel pointers to unprivileged
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users. Note, this is a temporary solution only. The correct long-term
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solution is to do the permission checks at open() time. Consider removing
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world read permissions from files that use %pK, and using dmesg_restrict
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to protect against uses of %pK in dmesg(8) if leaking kernel pointer
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values to unprivileged users is a concern.
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When kptr_restrict is set to (2), kernel pointers printed using
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%pK will be replaced with 0's regardless of privileges.
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==============================================================
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kstack_depth_to_print: (X86 only)
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Controls the number of words to print when dumping the raw
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kernel stack.
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==============================================================
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l2cr: (PPC only)
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This flag controls the L2 cache of G3 processor boards. If
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0, the cache is disabled. Enabled if nonzero.
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==============================================================
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modules_disabled:
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A toggle value indicating if modules are allowed to be loaded
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in an otherwise modular kernel. This toggle defaults to off
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(0), but can be set true (1). Once true, modules can be
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neither loaded nor unloaded, and the toggle cannot be set back
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to false. Generally used with the "kexec_load_disabled" toggle.
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==============================================================
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msg_next_id, sem_next_id, and shm_next_id:
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These three toggles allows to specify desired id for next allocated IPC
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object: message, semaphore or shared memory respectively.
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By default they are equal to -1, which means generic allocation logic.
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Possible values to set are in range {0..INT_MAX}.
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Notes:
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1) kernel doesn't guarantee, that new object will have desired id. So,
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it's up to userspace, how to handle an object with "wrong" id.
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2) Toggle with non-default value will be set back to -1 by kernel after
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successful IPC object allocation.
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==============================================================
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nmi_watchdog:
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Enables/Disables the NMI watchdog on x86 systems. When the value is
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non-zero the NMI watchdog is enabled and will continuously test all
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online cpus to determine whether or not they are still functioning
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properly. Currently, passing "nmi_watchdog=" parameter at boot time is
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required for this function to work.
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If LAPIC NMI watchdog method is in use (nmi_watchdog=2 kernel
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parameter), the NMI watchdog shares registers with oprofile. By
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disabling the NMI watchdog, oprofile may have more registers to
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utilize.
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==============================================================
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numa_balancing
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Enables/disables automatic page fault based NUMA memory
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balancing. Memory is moved automatically to nodes
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that access it often.
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Enables/disables automatic NUMA memory balancing. On NUMA machines, there
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is a performance penalty if remote memory is accessed by a CPU. When this
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feature is enabled the kernel samples what task thread is accessing memory
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by periodically unmapping pages and later trapping a page fault. At the
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time of the page fault, it is determined if the data being accessed should
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be migrated to a local memory node.
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The unmapping of pages and trapping faults incur additional overhead that
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ideally is offset by improved memory locality but there is no universal
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guarantee. If the target workload is already bound to NUMA nodes then this
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feature should be disabled. Otherwise, if the system overhead from the
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feature is too high then the rate the kernel samples for NUMA hinting
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faults may be controlled by the numa_balancing_scan_period_min_ms,
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numa_balancing_scan_delay_ms, numa_balancing_scan_period_max_ms,
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numa_balancing_scan_size_mb, numa_balancing_settle_count sysctls and
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numa_balancing_migrate_deferred.
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==============================================================
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numa_balancing_scan_period_min_ms, numa_balancing_scan_delay_ms,
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numa_balancing_scan_period_max_ms, numa_balancing_scan_size_mb
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Automatic NUMA balancing scans tasks address space and unmaps pages to
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detect if pages are properly placed or if the data should be migrated to a
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memory node local to where the task is running. Every "scan delay" the task
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scans the next "scan size" number of pages in its address space. When the
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end of the address space is reached the scanner restarts from the beginning.
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In combination, the "scan delay" and "scan size" determine the scan rate.
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When "scan delay" decreases, the scan rate increases. The scan delay and
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hence the scan rate of every task is adaptive and depends on historical
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behaviour. If pages are properly placed then the scan delay increases,
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otherwise the scan delay decreases. The "scan size" is not adaptive but
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the higher the "scan size", the higher the scan rate.
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Higher scan rates incur higher system overhead as page faults must be
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trapped and potentially data must be migrated. However, the higher the scan
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rate, the more quickly a tasks memory is migrated to a local node if the
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workload pattern changes and minimises performance impact due to remote
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memory accesses. These sysctls control the thresholds for scan delays and
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the number of pages scanned.
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numa_balancing_scan_period_min_ms is the minimum time in milliseconds to
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scan a tasks virtual memory. It effectively controls the maximum scanning
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rate for each task.
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numa_balancing_scan_delay_ms is the starting "scan delay" used for a task
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when it initially forks.
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numa_balancing_scan_period_max_ms is the maximum time in milliseconds to
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scan a tasks virtual memory. It effectively controls the minimum scanning
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rate for each task.
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numa_balancing_scan_size_mb is how many megabytes worth of pages are
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scanned for a given scan.
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numa_balancing_migrate_deferred is how many page migrations get skipped
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unconditionally, after a page migration is skipped because a page is shared
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with other tasks. This reduces page migration overhead, and determines
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how much stronger the "move task near its memory" policy scheduler becomes,
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versus the "move memory near its task" memory management policy, for workloads
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with shared memory.
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==============================================================
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osrelease, ostype & version:
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# cat osrelease
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2.1.88
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# cat ostype
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Linux
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# cat version
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#5 Wed Feb 25 21:49:24 MET 1998
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The files osrelease and ostype should be clear enough. Version
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needs a little more clarification however. The '#5' means that
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this is the fifth kernel built from this source base and the
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|
date behind it indicates the time the kernel was built.
|
|
The only way to tune these values is to rebuild the kernel :-)
|
|
|
|
==============================================================
|
|
|
|
overflowgid & overflowuid:
|
|
|
|
if your architecture did not always support 32-bit UIDs (i.e. arm,
|
|
i386, m68k, sh, and sparc32), a fixed UID and GID will be returned to
|
|
applications that use the old 16-bit UID/GID system calls, if the
|
|
actual UID or GID would exceed 65535.
|
|
|
|
These sysctls allow you to change the value of the fixed UID and GID.
|
|
The default is 65534.
|
|
|
|
==============================================================
|
|
|
|
panic:
|
|
|
|
The value in this file represents the number of seconds the kernel
|
|
waits before rebooting on a panic. When you use the software watchdog,
|
|
the recommended setting is 60.
|
|
|
|
==============================================================
|
|
|
|
panic_on_unrecovered_nmi:
|
|
|
|
The default Linux behaviour on an NMI of either memory or unknown is
|
|
to continue operation. For many environments such as scientific
|
|
computing it is preferable that the box is taken out and the error
|
|
dealt with than an uncorrected parity/ECC error get propagated.
|
|
|
|
A small number of systems do generate NMI's for bizarre random reasons
|
|
such as power management so the default is off. That sysctl works like
|
|
the existing panic controls already in that directory.
|
|
|
|
==============================================================
|
|
|
|
panic_on_oops:
|
|
|
|
Controls the kernel's behaviour when an oops or BUG is encountered.
|
|
|
|
0: try to continue operation
|
|
|
|
1: panic immediately. If the `panic' sysctl is also non-zero then the
|
|
machine will be rebooted.
|
|
|
|
==============================================================
|
|
|
|
panic_on_stackoverflow:
|
|
|
|
Controls the kernel's behavior when detecting the overflows of
|
|
kernel, IRQ and exception stacks except a user stack.
|
|
This file shows up if CONFIG_DEBUG_STACKOVERFLOW is enabled.
|
|
|
|
0: try to continue operation.
|
|
|
|
1: panic immediately.
|
|
|
|
==============================================================
|
|
|
|
perf_cpu_time_max_percent:
|
|
|
|
Hints to the kernel how much CPU time it should be allowed to
|
|
use to handle perf sampling events. If the perf subsystem
|
|
is informed that its samples are exceeding this limit, it
|
|
will drop its sampling frequency to attempt to reduce its CPU
|
|
usage.
|
|
|
|
Some perf sampling happens in NMIs. If these samples
|
|
unexpectedly take too long to execute, the NMIs can become
|
|
stacked up next to each other so much that nothing else is
|
|
allowed to execute.
|
|
|
|
0: disable the mechanism. Do not monitor or correct perf's
|
|
sampling rate no matter how CPU time it takes.
|
|
|
|
1-100: attempt to throttle perf's sample rate to this
|
|
percentage of CPU. Note: the kernel calculates an
|
|
"expected" length of each sample event. 100 here means
|
|
100% of that expected length. Even if this is set to
|
|
100, you may still see sample throttling if this
|
|
length is exceeded. Set to 0 if you truly do not care
|
|
how much CPU is consumed.
|
|
|
|
==============================================================
|
|
|
|
|
|
pid_max:
|
|
|
|
PID allocation wrap value. When the kernel's next PID value
|
|
reaches this value, it wraps back to a minimum PID value.
|
|
PIDs of value pid_max or larger are not allocated.
|
|
|
|
==============================================================
|
|
|
|
ns_last_pid:
|
|
|
|
The last pid allocated in the current (the one task using this sysctl
|
|
lives in) pid namespace. When selecting a pid for a next task on fork
|
|
kernel tries to allocate a number starting from this one.
|
|
|
|
==============================================================
|
|
|
|
powersave-nap: (PPC only)
|
|
|
|
If set, Linux-PPC will use the 'nap' mode of powersaving,
|
|
otherwise the 'doze' mode will be used.
|
|
|
|
==============================================================
|
|
|
|
printk:
|
|
|
|
The four values in printk denote: console_loglevel,
|
|
default_message_loglevel, minimum_console_loglevel and
|
|
default_console_loglevel respectively.
|
|
|
|
These values influence printk() behavior when printing or
|
|
logging error messages. See 'man 2 syslog' for more info on
|
|
the different loglevels.
|
|
|
|
- console_loglevel: messages with a higher priority than
|
|
this will be printed to the console
|
|
- default_message_loglevel: messages without an explicit priority
|
|
will be printed with this priority
|
|
- minimum_console_loglevel: minimum (highest) value to which
|
|
console_loglevel can be set
|
|
- default_console_loglevel: default value for console_loglevel
|
|
|
|
==============================================================
|
|
|
|
printk_delay:
|
|
|
|
Delay each printk message in printk_delay milliseconds
|
|
|
|
Value from 0 - 10000 is allowed.
|
|
|
|
==============================================================
|
|
|
|
printk_ratelimit:
|
|
|
|
Some warning messages are rate limited. printk_ratelimit specifies
|
|
the minimum length of time between these messages (in jiffies), by
|
|
default we allow one every 5 seconds.
|
|
|
|
A value of 0 will disable rate limiting.
|
|
|
|
==============================================================
|
|
|
|
printk_ratelimit_burst:
|
|
|
|
While long term we enforce one message per printk_ratelimit
|
|
seconds, we do allow a burst of messages to pass through.
|
|
printk_ratelimit_burst specifies the number of messages we can
|
|
send before ratelimiting kicks in.
|
|
|
|
==============================================================
|
|
|
|
randomize_va_space:
|
|
|
|
This option can be used to select the type of process address
|
|
space randomization that is used in the system, for architectures
|
|
that support this feature.
|
|
|
|
0 - Turn the process address space randomization off. This is the
|
|
default for architectures that do not support this feature anyways,
|
|
and kernels that are booted with the "norandmaps" parameter.
|
|
|
|
1 - Make the addresses of mmap base, stack and VDSO page randomized.
|
|
This, among other things, implies that shared libraries will be
|
|
loaded to random addresses. Also for PIE-linked binaries, the
|
|
location of code start is randomized. This is the default if the
|
|
CONFIG_COMPAT_BRK option is enabled.
|
|
|
|
2 - Additionally enable heap randomization. This is the default if
|
|
CONFIG_COMPAT_BRK is disabled.
|
|
|
|
There are a few legacy applications out there (such as some ancient
|
|
versions of libc.so.5 from 1996) that assume that brk area starts
|
|
just after the end of the code+bss. These applications break when
|
|
start of the brk area is randomized. There are however no known
|
|
non-legacy applications that would be broken this way, so for most
|
|
systems it is safe to choose full randomization.
|
|
|
|
Systems with ancient and/or broken binaries should be configured
|
|
with CONFIG_COMPAT_BRK enabled, which excludes the heap from process
|
|
address space randomization.
|
|
|
|
==============================================================
|
|
|
|
reboot-cmd: (Sparc only)
|
|
|
|
??? This seems to be a way to give an argument to the Sparc
|
|
ROM/Flash boot loader. Maybe to tell it what to do after
|
|
rebooting. ???
|
|
|
|
==============================================================
|
|
|
|
rtsig-max & rtsig-nr:
|
|
|
|
The file rtsig-max can be used to tune the maximum number
|
|
of POSIX realtime (queued) signals that can be outstanding
|
|
in the system.
|
|
|
|
rtsig-nr shows the number of RT signals currently queued.
|
|
|
|
==============================================================
|
|
|
|
sg-big-buff:
|
|
|
|
This file shows the size of the generic SCSI (sg) buffer.
|
|
You can't tune it just yet, but you could change it on
|
|
compile time by editing include/scsi/sg.h and changing
|
|
the value of SG_BIG_BUFF.
|
|
|
|
There shouldn't be any reason to change this value. If
|
|
you can come up with one, you probably know what you
|
|
are doing anyway :)
|
|
|
|
==============================================================
|
|
|
|
shmall:
|
|
|
|
This parameter sets the total amount of shared memory pages that
|
|
can be used system wide. Hence, SHMALL should always be at least
|
|
ceil(shmmax/PAGE_SIZE).
|
|
|
|
If you are not sure what the default PAGE_SIZE is on your Linux
|
|
system, you can run the following command:
|
|
|
|
# getconf PAGE_SIZE
|
|
|
|
==============================================================
|
|
|
|
shmmax:
|
|
|
|
This value can be used to query and set the run time limit
|
|
on the maximum shared memory segment size that can be created.
|
|
Shared memory segments up to 1Gb are now supported in the
|
|
kernel. This value defaults to SHMMAX.
|
|
|
|
==============================================================
|
|
|
|
shm_rmid_forced:
|
|
|
|
Linux lets you set resource limits, including how much memory one
|
|
process can consume, via setrlimit(2). Unfortunately, shared memory
|
|
segments are allowed to exist without association with any process, and
|
|
thus might not be counted against any resource limits. If enabled,
|
|
shared memory segments are automatically destroyed when their attach
|
|
count becomes zero after a detach or a process termination. It will
|
|
also destroy segments that were created, but never attached to, on exit
|
|
from the process. The only use left for IPC_RMID is to immediately
|
|
destroy an unattached segment. Of course, this breaks the way things are
|
|
defined, so some applications might stop working. Note that this
|
|
feature will do you no good unless you also configure your resource
|
|
limits (in particular, RLIMIT_AS and RLIMIT_NPROC). Most systems don't
|
|
need this.
|
|
|
|
Note that if you change this from 0 to 1, already created segments
|
|
without users and with a dead originative process will be destroyed.
|
|
|
|
==============================================================
|
|
|
|
tainted:
|
|
|
|
Non-zero if the kernel has been tainted. Numeric values, which
|
|
can be ORed together:
|
|
|
|
1 - A module with a non-GPL license has been loaded, this
|
|
includes modules with no license.
|
|
Set by modutils >= 2.4.9 and module-init-tools.
|
|
2 - A module was force loaded by insmod -f.
|
|
Set by modutils >= 2.4.9 and module-init-tools.
|
|
4 - Unsafe SMP processors: SMP with CPUs not designed for SMP.
|
|
8 - A module was forcibly unloaded from the system by rmmod -f.
|
|
16 - A hardware machine check error occurred on the system.
|
|
32 - A bad page was discovered on the system.
|
|
64 - The user has asked that the system be marked "tainted". This
|
|
could be because they are running software that directly modifies
|
|
the hardware, or for other reasons.
|
|
128 - The system has died.
|
|
256 - The ACPI DSDT has been overridden with one supplied by the user
|
|
instead of using the one provided by the hardware.
|
|
512 - A kernel warning has occurred.
|
|
1024 - A module from drivers/staging was loaded.
|
|
2048 - The system is working around a severe firmware bug.
|
|
4096 - An out-of-tree module has been loaded.
|
|
|
|
==============================================================
|
|
|
|
unknown_nmi_panic:
|
|
|
|
The value in this file affects behavior of handling NMI. When the
|
|
value is non-zero, unknown NMI is trapped and then panic occurs. At
|
|
that time, kernel debugging information is displayed on console.
|
|
|
|
NMI switch that most IA32 servers have fires unknown NMI up, for
|
|
example. If a system hangs up, try pressing the NMI switch.
|
|
|
|
==============================================================
|
|
|
|
watchdog_thresh:
|
|
|
|
This value can be used to control the frequency of hrtimer and NMI
|
|
events and the soft and hard lockup thresholds. The default threshold
|
|
is 10 seconds.
|
|
|
|
The softlockup threshold is (2 * watchdog_thresh). Setting this
|
|
tunable to zero will disable lockup detection altogether.
|
|
|
|
==============================================================
|