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Phone: 888 733 4281
Fax: +1 919 754 3701
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To see the contents of the filemy_next_bestselling_novel
in your current working directory, enter thecat my_next_bestselling_novel
command at the shell prompt and press Enter to execute the command.
Press Enter to execute the command.Press Ctrl+Alt+F2 to switch to the first virtual terminal. Press Ctrl+Alt+F1 to return to your X-Windows session.
mono-spaced bold
. For example:
File-related classes includefilesystem
for file systems,file
for files, anddir
for directories. Each class has its own associated set of permissions.
Choose Mouse Preferences. In the Buttons tab, click the Left-handed mouse check box and click to switch the primary mouse button from the left to the right (making the mouse suitable for use in the left hand).→ → from the main menu bar to launchTo insert a special character into a gedit file, choose → → from the main menu bar. Next, choose → from the Character Map menu bar, type the name of the character in the Search field and click . The character you sought will be highlighted in the Character Table. Double-click this highlighted character to place it in the Text to copy field and then click the button. Now switch back to your document and choose → from the gedit menu bar.
Mono-spaced Bold Italic
or Proportional Bold Italic
To connect to a remote machine using ssh, typessh
at a shell prompt. If the remote machine isusername
@domain.name
example.com
and your username on that machine is john, typessh john@example.com
.Themount -o remount
command remounts the named file system. For example, to remount thefile-system
/home
file system, the command ismount -o remount /home
.To see the version of a currently installed package, use therpm -q
command. It will return a result as follows:package
.
package-version-release
Publican is a DocBook publishing system.
mono-spaced roman
and presented thus:
books Desktop documentation drafts mss photos stuff svn books_tests Desktop1 downloads images notes scripts svgs
mono-spaced roman
but add syntax highlighting as follows:
package org.jboss.book.jca.ex1; import javax.naming.InitialContext; public class ExClient { public static void main(String args[]) throws Exception { InitialContext iniCtx = new InitialContext(); Object ref = iniCtx.lookup("EchoBean"); EchoHome home = (EchoHome) ref; Echo echo = home.create(); System.out.println("Created Echo"); System.out.println("Echo.echo('Hello') = " + echo.echo("Hello")); } }
cgconfig
(“control group config ”)
service can be configured to start up at boot time and reestablish your
predefined cgroups, thus making them persistent across reboots.
init
process, which is executed by the kernel at boot time and starts other
processes (which may in turn start child processes of their own).
Because all processes descend from a single parent, the Linux process
model is a single hierarchy, or tree.
init
inherits the environment (such as the PATH variable)[1] and certain other attributes (such as open file descriptors) of its parent process.
blkio
— this subsystem sets limits
on input/output access to and from block devices such as physical drives
(disk, solid state, USB, etc.).
cpu
— this subsystem uses the scheduler to provide cgroup tasks access to the CPU.
cpuacct
— this subsystem generates automatic reports on CPU resources used by tasks in a cgroup.
cpuset
— this subsystem assigns individual CPUs (on a multicore system) and memory nodes to tasks in a cgroup.
devices
— this subsystem allows or denies access to devices by tasks in a cgroup.
freezer
— this subsystem suspends or resumes tasks in a cgroup.
memory
— this subsystem sets limits
on memory use by tasks in a cgroup, and generates automatic reports on
memory resources used by those tasks.
net_cls
— this subsystem tags network packets with a class identifier (classid) that allows the Linux traffic controller (tc
) to identify packets originating from a particular cgroup task.
ns
— the namespace subsystem
cpu
) can be attached to at most one hierarchy.
cpu
subsystem can never be attached to two different hierarchies.
cpu
and memory
subsystems (or any number of subsystems) can be attached to a single
hierarchy, as long as each one is not attached to any other hierarchy.
cpu
and memory
subsystems are attached to a hierarchy named cpu_and_mem
, and the net_cls
subsystem is attached to a hierarchy named net
, then a running httpd
process could be a member of any one cgroup in cpu_and_mem
, and any one cgroup in net
.
cpu_and_mem
that the http
process is a member of might restrict its CPU time to half of that
allotted to other processes, and limit its memory usage to a maximum of 1024
MB. Additionally, the cgroup in net
that it is a member of might limit its transmission rate to 30
megabytes per second.
httpd
task that is a member of the cgroup named half_cpu_1gb_max
in the cpu_and_mem
hierarchy, and a member of the cgroup trans_rate_30
in the net
hierarchy. When that httpd
process forks itself, its child process automatically becomes a member of the half_cpu_1gb_max
cgroup, and the trans_rate_30
cgroup. It inherits the exact same cgroups its parent task belongs to.
~]# yum install libcgroup
chkconfig
, it reads the control group configuration file — /etc/cgconfig.conf
.
Control groups are therefore recreated from session to session and
become persistent. Depending on the contents of the configuration file, cgconfig can create hierarchies, mount necessary file systems, create control groups, and set subsystem parameters for each group.
cgconfig.conf
file installed with the libcgroup package creates and mounts an individual hierarchy for each subsystem, and attaches the subsystems to these hierarchies.
service cgconfig stop
), it unmounts all the hierarchies that it mounted.
cgconfig.conf
file contains two major types of entry — mount and group. Mount entries create and mount hierarchies as virtual filesystems, and attach subsystems to those hierarchies. For example:
mount { cpuset = /cgroup/cpuset; }
cpuset
subsystem, the equivalent of the shell commands:
mkdir /cgroup/cpuset
mount -t cgroup -o cpuset cpuset /cgroup/cpuset
group daemons/sql { perm { task { uid = root; gid = sqladmin; } admin { uid = root; gid = root; } } cpuset { cpuset.cpus = 0-3; } }
sqladmin
group to add tasks to the control group and the root
user to modify subsystem parameters. When combined with the example of
the mount entry above, the equivalent shell commands are:
mkdir -p /cgroup/cpu/daemons/sql
chown root:root /cgroup/cpu/daemons/sql/*
chown root:sqladmin /cgroup/cpu/daemons/sql/tasks
echo 0-3 > /cgroup/cpu/daemons/sql/cpuset.cpus
/etc/cgconfig.conf
. The #
symbols at the start of each line comment that line out and make it invisible to the cgconfig service.
mount
section of the /etc/cgconfig.conf
file as root. Entries in the mount
section have the following format:
subsystem
= /cgroup/hierarchy
;
cpu_and_mem
and attaches the cpu
, cpuset
, cpuacct
, and memory
subsystems to it.
mount { cpuset = /cgroup/cpu_and_mem; cpu = /cgroup/cpu_and_mem; cpuacct = /cgroup/cpu_and_mem; memory = /cgroup/cpu_and_mem; }
~]# mkdir /cgroup/name
~]# mkdir /cgroup/cpu_and_mem
mount
command to mount the hierarchy and simultaneously attach one or more subsystems. For example:
mount -t cgroup -o subsystems
name
/cgroup/name
subsystems
is a comma-separated list of subsystems and name
is the name of the hierarchy. Brief descriptions of all available subsystems are listed in Available Subsystems in Red Hat Enterprise Linux, and Chapter 3, Subsystems and Tunable Parameters provides a detailed reference.
/cgroup/cpu_and_mem
already exists, which will serve as the mount point for the hierarchy that we create. We will attach the cpu
, cpuset
and memory
subsystems to a hierarchy we name cpu_and_mem
, and mount
the cpu_and_mem
hierarchy on /cgroup/cpu_and_mem
:
~]# mount -t cgroup -o cpu,cpuset,memory cpu_and_mem /cgroup/cpu_and_mem
lssubsys
[3] command:
~]# lssubsys -am
cpu,cpuset,memory /cgroup/cpu_and_mem
net_cls
ns
cpu
cpuacct
devices
freezer
blkio
cpu
, cpuset
and memory
subsystems are attached to a hierarchy mounted on /cgroup/cpu_and_mem
, and
net_cls
, ns
, cpu
, cpuacct
, devices
, freezer
and blkio
subsystems are as yet unattached to any hierarchy, as illustrated by the lack of a corresponding mount point.
mount
section of the /etc/cgconfig.conf
file as root, using the same syntax described in Section 2.2, “Creating a Hierarchy and Attaching Subsystems”. When cgconfig next starts, it will reorganize the subsystems according to the hierarchies that you specify.
mount
command, together with the remount
option.
lssubsys
command shows cpu
, cpuset
, and memory
subsystems attached to the cpu_and_mem
hierarchy:
~]# lssubsys -am
cpu,cpuset,memory /cgroup/cpu_and_mem
net_cls
ns
cpu
cpuacct
devices
freezer
blkio
cpu_and_mem
hierarchy, using the remount
option, and including cpuacct
in the list of subsystems:
~]# mount -t cgroup -o remount,cpu,cpuset,cpuacct,memory cpu_and_mem /cgroup/cpu_and_mem
lssubsys
command now shows cpuacct
attached to the cpu_and_mem
hierarchy:
~]# lssubsys -am
cpu,cpuacct,cpuset,memory /cgroup/cpu_and_mem
net_cls
ns
devices
freezer
blkio
cpuacct
subsystem, simply remount and omit it:
~]# mount -t cgroup -o remount,cpu,cpuset,memory cpu_and_mem /cgroup/cpu_and_mem
umount
command:
~]# umount /cgroup/name
~]# umount /cgroup/cpu_and_mem
cgclear
command which can deactivate a hierarchy even when it is not empty — refer to Section 2.11, “Unloading Groups”.
cgcreate
command to create cgroups. The syntax for cgcreate
is: cgcreate -t
uid
:gid
-a
uid
:gid
-g subsystems
:path
, where:
-t
(optional) — specifies a user (by user ID, uid) and a group (by group ID, gid) to own the tasks
pseudofile for this control group. This user can add tasks to the control group.
-a
(optional) — specifies a user (by user ID, uid) and a group (by group ID, gid) to own all pseudofiles other than tasks
for this control group. This user can modify the access that the tasks in this control group have to system resources.
-g
— specifies the hierarchy in which the cgroup should be created, as a comma-separated list of the subsystems
associated with those hierarchies. If the subsystems in this list are
in different hierarchies, the group is created in each of these
hierarchies. The list of hierarchies is followed by a colon and the path
to the child group relative to the hierarchy. Do not include the hierarchy mount point in the path.
/cgroup/cpu_and_mem/lab1/
is called just lab1
— its path is already uniquely determined because there is at most one
hierarchy for a given subsystem. Note also that the group is controlled
by all the subsystems that exist in the hierarchies in which the cgroup
is created, even though these subsystems have not been specified in the cgcreate
command — refer to Example 2.3, “cgcreate usage”.
cpu
and memory
subsystems are mounted together in the cpu_and_mem
hierarchy, and the net_cls
controller is mounted in a separate hierarchy called net
. We now run:
cgcreate -g cpu,net_cls:/test-subgroup
cgcreate
command creates two groups named test-subgroup
, one in the cpu_and_mem
hierarchy and one in the net
hierarchy. The test-subgroup
group in the cpu_and_mem
hierarchy is controlled by the memory
subsystem, even though we did not specify it in the cgcreate
command.
mkdir
command:
mkdir /cgroup/hierarchy
/name
/child_name
mkdir /cgroup/cpuset/lab1/group1
cgdelete
, which has a syntax similar to that of cgcreate
. Run: cgdelete subsystems
:path
, where:
subsystems
is a comma-separated list of subsystems.
path
is the path to the cgroup relative to the root of the hierarchy.
cgdelete cpu,net_cls:/test-subgroup
cgdelete
can also recursively remove all subgroups with the option -r
.
cgset
command from a user account with permission to modify the relevant control group. For example, if /cgroup/cpuset/group1
exists, specify the CPUs to which this group has access with the following command:
cgset -r cpuset.cpus=0-1 group1
cgset
is: cgset -r
parameter
=value
path_to_cgroup
, where:
parameter
is the parameter to be set, which corresponds to the file in the directory of the given cgroup
value
is the value for the parameter
path_to_cgroup
is the path to the control group relative to the root of the hierarchy. For example, to set the parameter of the root group, run:
$
cgset -r cpuset.cpus=1 /
.
is relative to the root group (that is, the root group itself) you could also run:
$
cgset -r cpuset.cpus=1 .
/
is the preferred syntax.
group1
, which is a subgroup of the root group, run:
$
cgset -r cpuset.cpus=1 group1
cpuset.cpus=1 group1/
) is optional.
cgset
might depend on values set higher in a particular hierarchy. For example, if group1
is limited to use only CPU 0 on a system, you cannot set group1/subgroup1
to use CPUs 0 and 1, or to use only CPU 1.
cgset
to copy the parameters of one cgroup into another, existing cgroup. For example:
cgset --copy-from group1/ group2/
cgset
is: cgset --copy-from
path_to_source_cgroup
path_to_target_cgroup
, where:
path_to_source_cgroup
is the path to the control group whose parameters are to be copied, relative to the root group of the hierarchy
path_to_target_cgroup
is the path to the destination control group, relative to the root group of the hierarchy
echo
command. For example, this command inserts the value 0-1
into the cpuset.cpus
pseudofile of the control group group1
:
echo 0-1 > /cgroup/cpuset/group1/cpuset.cpus
cgclassify
command:
cgclassify -g cpu,memory:group1 1701
cgclassify
is: cgclassify -g
subsystems
:path_to_cgroup
pidlist
, where:
subsystems
is a comma-separated list of subsystems, or *
to launch the process in the hierarchies associated with all available
subsystems. Note that if control groups of the same name exist in
multiple hierarchies, the -g
option moves
the processes in each of those groups. Ensure that the cgroup exists
within each of the hierarchies whose subsystems you specify here.
path_to_cgroup
is the path to the control group within its hierarchies
pidlist
is a space-separated list of process identifier (PIDs)
--sticky
option before the pid
to keep any child processes in the same control group. If you do not set this option and the cgred daemon is running, child processes will be allocated to control groups based on the settings found in /etc/cgrules.conf
. The process itself, however, will remain in the control group in which you started it.
cgclassify
, you can move several processes simultaneously. For example, this command moves the processes with PIDs 1701
and 1138
into control group group1/
:
cgclassify -g cpu,memory:group1 1701 1138
tasks
file of the control group. For example, to move a process with the PID 1701
into a control group at /cgroup/lab1/group1/
:
echo 1701 > /cgroup/lab1/group1/tasks
/etc/cgrules.conf
file. Entries in the /etc/cgrules.conf
file can take one of the two forms:
user
hierarchies
control_group
user
:command
hierarchies
control_group
maria devices /usergroup/staff
maria
access the devices subsystem according to the parameters specified in the /usergroup/staff
control group. To associate particular commands with particular control groups, add the command
parameter, as follows:
maria:ftp devices /usergroup/staff/ftp
maria
uses the ftp
command, the process is automatically moved to the /usergroup/staff/ftp
control group in the hierarchy that contains the devices
subsystem. Note, however, that the daemon moves the process to the
control group only after the appropriate condition is fulfilled.
Therefore, the ftp
process might run for a
short time in the wrong group. Furthermore, if the process quickly
spawns children while in the wrong group, these children might not be
moved.
/etc/cgrules.conf
file can include the following extra notation:
@
— when prefixed to user
, indicates a group instead of an individual user. For example, @admins
are all users in the admins
group.
*
— represents "all". For example, *
in the subsystem
field represents all subsystems.
%
— represents an item the same as the item in the line above. For example:
@adminstaff devices /admingroup @labstaff % %
cpuset
controller, cpuset.cpus
and cpuset.mems
must be defined.
cgexec
command. For example, this command launches the lynx web browser within the group1
control group, subject to the limitations imposed on that group by the cpu
subsystem:
cgexec -g cpu:group1 lynx http://www.redhat.com
cgexec
is: cgexec -g
subsystems
:path_to_cgroup
command
arguements
, where:
subsystems
is a comma-separated list of subsystems, or *
to launch the process in the hierarchies associated with all available subsystems. Note that, as with cgset
described in Section 2.7, “Setting Parameters”, if control groups of the same name exist in multiple hierarchies, the -g
option creates processes in each of those groups. Ensure that the
cgroup exists within each of the hierarchies whose subsystems you
specify here.
path_to_cgroup
is the path to the control group relative to the hierarchy.
command
is the command to run
arguements
are any arguements for the command
--sticky
option before the command
to keep any child processes in the same control group. If you do not set this option and the cgred daemon is running, child processes will be allocated to control groups based on the settings found in /etc/cgrules.conf
. The process itself, however, will remain in the control group in which you started it.
echo $$ > /cgroup/lab1/group1/tasks
lynx
group1
control group. Therefore, an even better way would be:
sh -c "echo \$$ > /cgroup/lab1/group1/tasks && lynx"
/etc/sysconfig/servicename
file
daemon()
function from /etc/init.d/functions
to start the service
/etc/sysconfig
directory to include an entry in the form CGROUP_DAEMON="subsystem
:control_group
"
where subsystem
is a subsystem associated with a particular hierarchy, and control_group
is a control group in that hierarchy. For example:
CGROUP_DAEMON="cpuset:daemons/sql"
ps -O cgroup
cat /proc/PID
/cgroup
cat /proc/cgroups
lssubsys -m subsystems
subsystems
is a list of the subsystems in which you are interested.
/cgroup
. Assuming this is the case on your system, list or browse the contents of that directory to obtain a list of hierarchies. If tree is installed on your system, run it to obtain an overview of all hierarchies and the control groups within them:
tree /cgroup
lscgroup
controller
:path
. For example:
lscgroup cpuset:adminusers
adminusers
control group in the hierarchy to which the cpuset
subsystem is attached.
cgget -r parameter
list_of_cgroups
parameter
is a pseudofile that contains values for a subsystem, and list_of_cgroups
is a list of control groups separated with spaces. For example:
cgget -r cpuset.cpus -r memory.limit_in_bytes lab1 lab2
cpuset.cpus
and memory.limit_in_bytes
for control groups lab1
and lab2
.
cgget -g cpuset /
cgclear
command destroys all
control groups in all hierarchies. If you do not have these hierarchies
stored in a configuration file, you will not be able to readily
reconstruct them.
cgclear
command.
man 1 cgclassify
— the cgclassify
command is used to move running tasks to one or more cgroups.
man 1 cgclear
— the cgclear
command is used to delete all cgroups in a hierarchy.
man 5 cgconfig.conf
— cgroups are defined in the cgconfig.conf
file.
man 8 cgconfigparser
— the cgconfigparser
command parses the cgconfig.conf
file and mounts hierarchies.
man 1 cgcreate
— the cgcreate
command creates new cgroups in hierarchies.
man 1 cgdelete
— the cgdelete
command removes specified cgroups.
man 1 cgexec
— the cgexec
command runs tasks in specified cgroups.
man 1 cgget
— the cgget
command displays cgroup parameters.
man 5 cgred.conf
— cgred.conf
is the configuration file for the cgred
service.
man 5 cgrules.conf
— cgrules.conf
contains the rules used for determining when tasks belong to certain cgroups.
man 8 cgrulesengd
— the cgrulesengd
service distributes tasks to cgroups.
man 1 cgset
— the cgset
command sets parameters for a cgroup.
man 1 lscgroup
— the lscgroup
command lists the cgroups in a hierarchy.
man 1 lssubsys
— the lssubsys
command lists the hierarchies containing the specified subsystems.
[3]
The lssubsys
command is one of the utiilties provided by the libcgroup package. You must install libcgroup to use it: refer to Chapter 2, Using Control Groups if you are unable to run lssubsys
.
cgroups.txt
in the kernel documentation, installed on your system at /usr/share/doc/kernel-doc-kernel-version
/Documentation/cgroups/
. The latest version of the cgroups documentation is also available on line at http://www.kernel.org/doc/Documentation/cgroups/cgroups.txt.
Note, however, that the features in the latest documentation might not
match those available in the kernel installed on your system.
cpuset.cpus
is a pseudofile that specifies which CPUs a control group is permitted to access. If /cgroup/cpuset/webserver
is a control group for the web server that runs on a system, and we run the following command:
~]# echo 0,2 > /cgroup/cpuset/webserver/cpuset.cpus
0,2
is written to the cpuset.cpus
pseudofile and therefore limits any tasks whose PIDs are listed in /cgroup/cpuset/webserver/tasks
to use only CPU 0 and CPU 2 on the system.
blkio
subsystem controls and
monitors access to I/O on block devices by tasks in control groups.
Writing values to some of these pseudofiles limits access or bandwidth,
and reading values from some of these pseudofiles provides information
on I/O operations.
100
to 1000
. This value is overriden for specific devices by the blkio.weight_device
parameter.For example, to assign a default weight of 500
to a control group for access to block devices, run:
echo 500 > blkio.weight
100
to 1000
. The value of this parameter overrides the value of blkio.weight
for the devices specified. Values take the format major
:minor
weight
, where major
and minor
are device types and node numbers specified in Linux Allocated Devices, otherwise known as the Linux Devices List and available from http://www.kernel.org/doc/Documentation/devices.txt. For example, to assign a weight of 500
to a control group for access to /dev/sda
, run:
echo 8:0 500 > blkio.weight_device
8:0
represents /dev/sda
.
major
, minor
, and time
. Major
and minor
are device types and node numbers specified in Linux Allocated Devices, and time
is the length of time in milliseconds (ms).
major
, minor
, and sectors
. Major
and minor
are device types and node numbers specified in Linux Allocated Devices, and sectors
is the number of disk sectors.
major
, minor
, operation
, and bytes
. Major
and minor
are device types and node numbers specified in Linux Allocated Devices, operation
represents the type of operation (read
, write
, sync
, or async
) and bytes
is the number of bytes transferred.
major
, minor
, operation
, and bytes
. Major
and minor
are device types and node numbers specified in Linux Allocated Devices, operation
represents the type of operation (read
, write
, sync
, or async
) and number
represents the number of operations.
major
, minor
, operation
, and bytes
. Major
and minor
are device types and node numbers specified in Linux Allocated Devices, operation
represents the type of operation (read
, write
, sync
, or async
) and time
is the length of time in nanoseconds (ns). The time is reported in
nanoseconds rather than a larger unit so that this report is meaningful
even for solid-state devices.
blkio.group_wait_time
.
queue_depth
>
1, the time reported only includes the time until the request is
dispatched to the device, not any time spent waiting for service while
the device re-orders requests.
major
, minor
, operation
, and bytes
. Major
and minor
are device types and node numbers specified in Linux Allocated Devices, operation
represents the type of operation (read
, write
, sync
, or async
) and time
is the length of time in nanoseconds (ns). The time is reported in
nanoseconds rather than a larger unit so that this report is meaningful
even for solid-state devices.
number
and operation
. Number
is the number of requests, and operation
represents the type of operation (read
, write
, sync
, or async
).
number
and operation
. Number
is the number of requests, and operation
represents the type of operation (read
, write
, sync
, or async
).
CONFIG_DEBUG_BLK_CGROUP=y
is set on the system.
CONFIG_DEBUG_BLK_CGROUP=y
is set on the system.
CONFIG_DEBUG_BLK_CGROUP=y
is set on the system.
CONFIG_DEBUG_BLK_CGROUP=y
is set on the system.
major
, minor
, and number
. Major
and minor
are device types and node numbers specified in Linux Allocated Devices, and number
is the number of requests the group was dequeued. Note that this report is available only if CONFIG_DEBUG_BLK_CGROUP=y
is set on the system.
cpu
subsystem schedules CPU
access to control groups. Access to CPU resources can be scheduled
according to the following parameters, each one in a separate pseudofile within the control group virtual file system:
cpu.shares
set to 1
will receive equal CPU time, but tasks in a control group that has cpu.shares
set to 2
receive twice the CPU time of tasks in a control group where cpu.shares
is set to 1
.
cpu.rt_runtime_us
to 4000000
and cpu.rt_period_us
to 5000000
.
cpu.rt_runtime_us
to 4000000
and cpu.rt_period_us
to 5000000
.
cpuacct
subsystem generates
automatic reports on CPU resources used by the tasks in a control group,
including tasks in child groups. Three reports are available:
USER_HZ
on the system) consumed by tasks in this control group and its children in both user mode and system (kernel) mode.
cpuset
subsystem assigns
individual CPUs and memory nodes to control groups. Each cpuset can be
specified according to the following parameters, each one in a separate pseudofile within the control group virtual file system:
-
") to represent ranges. For example,
0-2,16
-
") to represent ranges. For example,
0-2,16
0
or 1
) that specifies whether a page in memory should migrate to a new node if the values in cpuset.mems
change. By default, memory migration is disabled (0
)
and pages stay on the node to which they were originally allocated,
even if this node is no longer one of the nodes now specified in cpuset.mems
. If enabled (1
), the system will migrate pages to memory nodes within the new parameters specified by cpuset.mems
, maintaining their relative placement if possible — for example, pages on the second node on the list originally specified by cpuset.mems
will be allocated to the second node on the list now specified by cpuset.mems
, if this place is available.
0
or 1
)
that specifies whether cpusets other than this one and its parents and
children can share the CPUs specified for this cpuset. By default (0
), CPUs are not allocated exclusively to one cpuset.
0
or 1
) that specifies whether other cpusets can share the memory nodes specified for this cpuset. By default (0
), memory nodes are not allocated exclusively to one cpuset. Reserving memory nodes for the exclusive use of a cpuset (1
) is functionally the same as enabling a memory hardwall with cpuset.mem_hardwall
.
0
or 1
)
that specifies whether kernel allocations of memory page and buffer
data should be restricted to the memory nodes specified for this cpuset.
By default (0
), page and buffer data is shared across processes belonging to multiple users. With a hardwall enabled (1
), each tasks's user allocation can be kept separate.
cpuset.memory_pressure_enabled
is enabled, otherwise, the pseudofile contains the value 0
.
0
or 1
) that specifies whether the system should compute the memory pressure created by the processes in this control group. Computed values are output to cpuset.memory_pressure
and represent the rate at which processes attempt to free in-use
memory, reported as an integer value of attempts to reclaim memory per
second, multiplied by 1000.
0
or 1
)
that specifies whether file system buffers should be spread evenly
across the memory nodes allocated to this cpuset. By default (0
),
no attempt is made to spread memory pages for these buffers evenly, and
buffers are placed on the same node on which the process that created
them is running.
0
or 1
)
that specifies whether kernel slab caches for file input/output
operations should be spread evenly across the cpuset. By default (0
),
no attempt is made to spread kernel slab caches evenly, and slab caches
are placed on the same node on which the process that created them is
running.
0
or 1
) that specifies whether the kernel will balance loads across the CPUs in this cpuset. By default (1
), the kernel balances loads by moving processes from overloaded CPUs to less heavily used CPUs.
-1
and a
small positive value, which represents the width of the range of CPUs
across which the kernel should attempt to balance loads. This value is
meaningless if cpuset.sched_load_balance
is disabled.
Value | Effect |
---|---|
-1 | Use the system default value for load balancing |
0 | Do not perform immediate load balancing; balance loads only periodically |
1 | Immediately balance loads across threads on the same core |
2 | Immediately balance loads across cores in the same package |
3 | Immediately balance loads across CPUs on the same node or blade |
4 | Immediately balance loads across several CPUs on architectures with non-uniform memory access (NUMA) |
5 | Immediately balance loads across all CPUs on architectures with NUMA |
devices
subsystem allows or denies access to devices by tasks in a control group.
devices
subsystem is considered to be a Technology Preview in Red Hat Enterprise Linux 6.
type
, major
, minor
, and access
. The values used in the type
, major
, and minor
fields correspond to device types and node numbers specified in Linux Allocated Devices, otherwise known as the Linux Devices List and available from http://www.kernel.org/doc/Documentation/devices.txt.
type
can have one of the following three values:
a
— applies to all devices, both character devices and block devices
b
— specifies a block device
c
— specifies a character device
major
and minor
are device node numbers specified by Linux Allocated Devices. The major and minor numbers are separated by a colon. For example, 8
is the major number that specifies SCSI disk drives, and the minor number 1
specifies the first partition on the first SCSI disk drive; therefore 8:1
fully specifies this partition, corresponding to a file system location of /dev/sda1
.
*
can stand for all major or all minor device nodes, for example 9:*
(all RAID devices) or *:*
(all devices).
access
is a sequence of one or more of the following letters:
r
— allows tasks to read from the specified device
w
— allows tasks to write to the specified device
m
— allows tasks to create device files that do not yet exist
access
is specified as r
, tasks can only read from the specified device, but when access
is specified as rw
, tasks can read from and write to the device.
devices.allow
.
freezer
subsystem suspends or resumes tasks in a control group.
freezer.state
has three possible values:
FROZEN
— tasks in the control group are suspended.
FREEZING
— the system is in the process of suspending tasks in the control group.
THAWED
— tasks in the control group have resumed.
FROZEN
and THAWED
values can be written to freezer.state
, FREEZING
cannot be written, only read.
memory
subsystem generates
automatic reports on memory resources used by the tasks in a control
group, and sets limits on memory use by those tasks:
Statistic | Description |
---|---|
cache
|
page cache, including tmpfs (shmem ), in bytes
|
rss
|
anonymous and swap cache, not including tmpfs (shmem ), in bytes
|
mapped_file
|
size of memory-mapped mapped files, including tmpfs (shmem ), in bytes
|
pgpgin
| number of pages paged into memory |
pgpgout
| number of pages paged out of memory |
swap
| swap usage, in bytes |
active_anon
|
anonymous and swap cache on active least-recently-used (LRU) list, including tmpfs (shmem ), in bytes
|
inactive_anon
|
anonymous and swap cache on inactive LRU list, including tmpfs (shmem ), in bytes
|
active_file
| file-backed memory on active LRU list, in bytes |
inactive_file
| file-backed memory on inactive LRU list, in bytes |
unevictable
| memory that cannot be reclaimed, in bytes |
hierarchical_memory_limit
|
memory limit for the hierarchy that contains the memory cgroup, in bytes
|
hierarchical_memsw_limit
|
memory plus swap limit for the hierarchy that contains the memory cgroup, in bytes
|
hierarchical_memory_limit
and hierarchical_memsw_limit
has a counterpart prefixed total_
that reports not only on the control group, but on all its children as well. For example, swap
reports the swap usage by a control group and total_swap
reports the total swap usage by the control group and all its child groups.
memory.stat
, note how the various statistics inter-relate:
active_anon
+ inactive_anon
= anonymous memory + file cache for tmpfs
+ swap cache
active_anon
+ inactive_anon
≠ rss
, because rss
does not include tmpfs
.
active_file
+ inactive_file
= cache - size of tmpfs
k
or K
for kilobytes, m
or M
for Megabytes, and g
or G
for Gigabytes.
memory.limit_in_bytes
to limit the root control group; you can only apply values to groups lower in the hierarchy.
-1
to memory.limit_in_bytes
to remove any existing limits.
k
or K
for kilobytes, m
or M
for Megabytes, and g
or G
for Gigabytes.
memory.memsw.limit_in_bytes
to limit the root control group; you can only apply values to groups lower in the hierarchy.
-1
to memory.memsw.limit_in_bytes
to remove any existing limits.
memory.limit_in_bytes
.
memory.memsw.limit_in_bytes
.
0
, empties memory of all
pages used by tasks in this control group. This interface can only be
used when the control group has no tasks. If memory cannot be freed, it
is moved to a parent control group if possible. Use memory.force_empty
before removing a control group to avoid moving out-of-use page caches to its parent control group.
/proc/sys/vm/swappiness
for the system as a whole. The default value is 60
. Values lower than 60
decrease the kernel's tendency to swap out process memory, values greater than 60
increase the kernel's tendency to swap out process memory, and values greater than 100
permit the kernel to swap out pages that are part of the address space of the processes in this control group.
0
does not
prevent process memory being swapped out; swap out might still happen
when there is a shortage of system memory because the global virtual
memory management logic does not read the cgroup value. To lock pages
completely, use mlock()
instead of cgroups.
/proc/sys/vm/swappiness
.
0
or 1
) that specifies whether memory usage should be accounted for throughout a hierarchy of control groups. If enabled (1
), the memory controller reclaims memory from the children of and process that exceeds its memory limit. By default (0
), the controller does not reclaim memory from a task's children.
net_cls
subsystem tags network packets with a class identifier (classid) that allows the Linux traffic controller (tc)
to identify packets originating from a particular control group. The
traffic controller can be configured to assign different priorities to
packets from different control groups.
net_cls.classid
contains a single value in hexadecimal format that indicates a traffic control handle. For example, 0x100001
represents the handle conventionally written as 10:1
in the format used by iproute2.
0xAAAA
BBBB
, where AAAA
is the major number in hexadecimal and BBBB
is the minor number in hexadecimal. You can omit any leading zeroes; 0x10001
is the same as 0x00010001
, and represents 1:1
.
net_cls
adds to network packets.
ns
subsystem provides a way to group processes into separate namespaces.
Within a particular namespace, processes can interact with each other
but are isolated from processes running in other namespaces. These
separate namespaces are sometimes referred to as containers when used for operating-system-level virtualization.
/usr/share/doc/kernel-doc-<kernel_version>
/Documentation/cgroups/
directory.
blkio
subsystem — blkio-controller.txt
cpuacct
subsystem — cpuacct.txt
cpuset
subsystem — cpusets.txt
devices
subsystem — devices.txt
freezer
subsystem — freezer-subsystem.txt
memory
subsystem — memory.txt
Liber Liber 2023 -
Authors
abati
- abba
- abbate
- accademia_degli_intronati
- accati
- accetto
- acerbi
- adami
- agabiti
- agamennone
- aganoor
- agaraff
- agostini
- agraives
- agresti
- agrippa
- alamanni
- albergati_capacelli
- albert
- albertazzi
- albertelli
- alberti
- alberti_leandro
- alberti_tommaso
- albini
- albinoni
- albori_della_vita_italiana
- alcott
- aleardi
- alfa
- alfieri
- algarotti
- ali
- alighieri
- alighieri_jacopo
- allen
- aloysius
- amabile
- amalteo
- amari
- amati
- ambrogini
- amidei
- amodeo
- andersen
- anderson
- andrea_da_barberino
- andreis
- angiolieri
- angiolini
- anile
- anonimo
- antiquarie_prospettiche_romane
- antoccia
- antona_traversi
- antonelli
- appelius
- apuleius
- aragona
- arbib
- archinti
- arenskij
- aretino
- ariosto
- aristoteles
- armaroli
- aroldi
- arouet
- arrhenius
- arrieta
- arrighi
- arrigoni
- arsinov
- artom
- artusi
- atlante
- auber
- audran
- auto_da_fe_in_bologna
- avancini
- azeglio
- bacci
- baccini
- bacci_peleo
- bach
- bachi
- bachi_riccardo
- bachofen
- bach_carl_philipp_emanuel
- bach_johann_bernhard
- bach_johann_ludwig
- bach_wilhelm_friedemann
- bacigalupo
- badia_y_leblich
- baffo
- bakunin
- balakirev
- balbo
- balbo_italo
- baldacci
- balsamo
- balzac
- balzani
- banchieri
- bandello
- bandi
- baratono
- baratono_adelchi
- barbagallo
- barbaranelli
- barbarani
- barbarich
- barberini
- barbiera
- barbieri
- barbieri_francisco
- barbusse
- barella
- bargiacchi
- baricelli
- barla
- barni
- barrie
- barrili
- bartok
- bartoli
- bartoli_daniello
- barzini
- basile
- bassano
- bassano_anthony
- bastianelli
- baudelaire
- baunard
- bazzero
- bazzoni
- becattini
- beccari
- beccaria
- beccaria_antonella
- beckford
- beethoven
- belgioioso
- belgiojoso
- bellacchi
- bellani
- belli
- bellini
- belloc_lowndes
- bellone
- belo
- beltrame
- beltramelli
- bembo
- benaglio
- benamozegh
- benco
- benco_delia
- benedetti
- benelli
- beolco
- berchet
- berchet_guglielmo
- berg
- berlioz
- bernard
- bernardino_da_siena
- berneri
- berneri_camillo
- berneri_maria_luisa
- berni
- bersezio
- bertacchi
- bertacchi_cosimo
- bertelli
- berti
- bertinetti
- bertini
- bertola
- bertoni
- bertoni_brenno
- bertoni_luigi
- berwald
- besana
- bestiario_moralizzato
- betteloni
- betti
- bettinelli
- bettoni
- bevilacqua
- beyle
- bhagavad_gita
- biagi
- bianchi
- bianchi_giovini
- bianco
- bianconi
- bianconi_giovanni_lodovico
- bibbia
- bibbiena
- biber
- biffoli
- binazzi
- bini
- biografie_e_ritratti_d_illustri_siciliani
- bisciola
- bisi
- bizet
- bizzarri
- bizzozero
- blackwood
- blake
- blanch
- blanchard
- blaserna
- boccaccio
- boccalini
- boccardi
- boccardo
- boccherini
- bocchi
- bodrero
- boerio
- boghen_conegliani
- boiardo
- boieldieu
- boine
- boito
- boito_a
- bolza
- bon
- bonacini
- bonaparte
- bonarelli
- bonatelli
- bonaventura
- bonaventura_enzo
- bond
- bonfadini
- bonghi
- bonizzi
- bonola
- bonomo
- bonvesin_de_la_riva
- bordenave
- borgese
- borgese_giuseppe
- borghi
- borghi_armando
- borodin
- borri
- bortolotti
- boschetti_alberti
- boscovich
- bosio
- bossi
- botta
- bottazzi
- bottero
- bouchardy
- bourcet
- bourdet
- bouvier
- bovio
- bovio_libero
- bozzano
- bozzini
- bracco
- brahms
- brancaccio
- brera
- bresadola
- breton
- brocchi
- brofferio
- broglio
- bronte
- bronzino
- bruch
- bruckner
- bruna
- brunelli
- brunetti
- bruni
- bruni_giuseppe
- bruno
- brusoni
- bufardeci
- buia
- buonaiuti
- buonarroti
- buonarroti_il_giovane
- buoninsegni
- buozzi
- burchiello
- burckhardt
- burke
- burnaby
- burroughs
- burzio
- buschi
- busetto
- busoni
- butti
- buxtehude
- buzzanca
- byrne
- byron
- caccianiga
- cacciatore
- caccini
- cafiero
- cagna
- cagni
- cajkovskij
- calandra
- calcagno
- caldarella
- calestani
- calvo
- calza
- camillo
- camis
- cammarano
- camoes
- campana
- campanella
- campolonghi
- campra
- canestrini
- canestrini_alessandro
- canina
- cannabich
- cannizzaro
- cantalupo
- cantoni
- cantoni_giovanni
- canto_gregoriano
- cantu
- capasso
- capefigue
- capella
- capocci
- capparoni
- capponi
- capranica
- caprile
- capuana
- carabellese
- caracciolo
- caracciolo_enrichetta
- carafa_capecelatro
- carcano
- cardano
- cardile
- carducci
- carlyle
- carmina_burana
- carnevali
- carocci
- carpenter
- carrera
- carroll
- carubia
- casadei
- casanova
- casas
- cassini
- castelli
- castelli_david
- castelnuovo
- castelvetro
- casti
- castiglione
- castiglioni
- catalani
- caterina_da_siena
- cather
- cattaneo
- cava
- cavalcanti
- cavallotti
- cavara
- caversazzi
- caviglia
- cefali
- celesia
- cellini
- celoria
- cena
- cenni
- cennini
- cerlone
- cernysevskij
- cerro
- cervantes
- cervesato
- cesarotti
- cesi
- chabrier
- chanson_de_roland
- chapi
- charpentier
- chaucer
- chausson
- chelli
- cherubini
- cherubini_eugenio
- chesterton
- cheyney
- chiabrera
- chiara
- chiarelli
- chiaretti
- chiarini
- chiesa
- chigi
- chiocchetti
- chiosso
- chiurlo
- chopin
- christiansen
- chueca
- ciaceri
- ciamician
- ciampoli
- cian
- ciano
- cicero
- cicogna
- cielo
- cifra
- cimarosa
- cinelli
- cipriani
- cittadella
- claps
- clarke
- clementi
- club_alpino_italiano
- cocchi
- codemo
- coffa_caruso
- coglitore
- colagrossi
- colajanni
- coleridge
- collenuccio
- colletta
- collins
- collodi
- colombe
- colombo_fernando
- colombo_michele
- colonna
- colonna_vittoria
- colorni
- columba
- cominelli
- compagni
- compagnia_del_mantellaccio
- comparetti
- confucius
- contessa_lara
- conti
- coperario
- coppi
- corano
- corbino
- cordelia
- corelli
- coresio
- corio
- cornaro
- cornelius
- cornoldi
- corradini
- cortesi
- cosmi
- cossa
- costa
- costa_andrea
- coster
- couperin
- crawford
- crawford_morris
- cremonese
- crispi
- croce
- crocella
- croce_benedetto
- croce_enrico
- cronica_vita_di_cola_di_rienzo
- cucca
- cummins
- cuneo
- cuoco
- cuomo
- curiel
- curti
- curti_pier_ambrogio
- cusani
- cyrano_de_bergerac
- dadone
- dall_ongaro
- dalmasso
- dandrieu
- danti
- darwin
- darwin_erasmus
- daudet
- dauli
- da_ponte
- da_porto
- da_verona
- debay
- debenedetti
- debussy
- deledda
- delibes
- delius
- della_casa
- della_chiesa
- della_porta
- della_seta
- della_valle
- della_valle_pietro
- delpino
- del_lungo
- del_lungo_carlo
- dering
- desanctis
- descalzo
- descartes
- descuret
- despres
- devienne
- dewey
- de_amicis
- de_angelis
- de_astis
- de_blasio
- de_boni
- de_bosis
- de_cesare
- de_cleyre
- de_filippi
- de_foe
- de_franchi
- de_gamerra
- de_giovanni
- de_gubernatis
- de_marchi
- de_maria
- de_orestis
- de_paoli
- de_pellegrini
- de_pretto
- de_quincey
- de_roberto
- de_rubris
- de_ruggiero
- de_sanctis
- de_vries
- diabelli
- diamante
- dickens
- diderot
- difensore_degli_ebrei
- dini
- dito
- dittersdorf
- di_blasi
- di_genio
- di_giacomo
- di_giovanni
- di_giovanni_alessio
- di_grazia
- di_monaco
- di_san_giusto
- dolce
- domenichi
- donati
- donaver
- doni
- donizetti
- dorso
- dossi
- dostoevskij
- douhet
- doyle
- draeseke
- driesch
- drigo
- drosso
- ducati
- dukas
- dumas
- dunant
- duparc
- durante
- du_mage
- dvorak
- d_albert
- d_ambra
- d_ancona
- d_andrea
- d_annunzio
- d_arzo
- d_emilio
- d_india
- eco
- economisti_del_cinque_e_seicento
- eisner
- electronic_frontier_foundation
- elgar
- elia
- emanuelli
- emerson
- emiliani_giudici
- emma
- emmanuel
- engels
- enriques
- epictetus
- epicurus
- erasmus_roterodamus
- eredia
- ermacora
- errante
- errera
- euclides
- fabbri
- fabiani
- fabula_de_etc
- faldella
- fanciullacci
- fanciulli
- fanfani
- fantazzini
- fantoni
- farga
- fargion
- farina
- farinelli
- farnaby
- faure
- favaro
- fazello
- federici
- fernandez_caballero
- fernandez_guardia
- ferrabosco_il_giovane
- ferrari
- ferrari_carlotta
- ferrari_giuseppe
- ferrari_giuseppe_1720
- ferrari_paolo
- ferrari_pietro
- ferrari_pio_vittorio
- ferrari_severino
- ferrer
- ferrero
- ferretti
- ferri
- ferrieri
- ferri_dina
- ferri_giustino
- ferroni
- ferruggia
- feuerbach
- fiacchi
- fibich
- figner
- figuier
- filicaia
- filippi
- fillak
- filopanti
- finella
- fioravanti
- fioretti_di_san_francesco
- fiore_di_leggende_cantari_antichi_etc
- fiorini
- firenzuola
- flammarion
- flaubert
- fletcher
- flies
- florenzi
- florio
- flotow
- fogazzaro
- folengo
- folgore
- fontana
- fontanarosa
- fontane
- fontefrancesco
- fontenelle
- formichi
- fornaciari
- forteguerri
- fortis
- foscolo
- fraccacreta
- fracchia
- france
- francesco_d_assisi
- franchetti
- franck
- franco
- frari
- freud
- frezzi
- frugoni
- fucini
- fugassa
- funck_brentano
- gabetti
- gabrieli
- gabrieli_giovanni
- galassi
- galiani
- galilei
- gallaccini
- galleani
- galleria_palatina
- gallina
- gallo
- galuppi
- gamberi
- gandhi
- ganot
- gargiulo
- garibaldi
- garrone
- gatti
- gautier
- geminiani
- gentile
- gentile_iginio
- gerard
- geremicca
- gerli
- german
- gershwin
- gervasoni
- gherardi
- ghersi
- ghislanzoni
- ghisleri
- giaccani
- giacometti
- giacosa
- giamboni
- gianelli
- giannone
- gibbon
- gibellini
- gide
- gigli
- giglioli
- gille
- gilles
- ginzburg
- gioberti
- giolitti
- giordana
- giordano
- giornale_per_i_bambini
- giostra_delle_virtu_e_dei_vizi
- giovannetti
- giovannitti
- giovio
- giraud
- giraudoux
- giretti
- giribaldi
- giuseppe_da_forio
- giusta_idea
- giusti
- glazunov
- glinka
- gluck
- gobetti
- goethe
- gogol
- goldoni
- goldsmith
- golgi
- goll
- gomes
- gonin
- gori
- gori_pietro_1854_1930
- gorkij
- gossec
- gothein
- gounod
- gozzano
- gozzi
- gozzi_gasparo
- graf
- gramsci
- granados
- grande
- grandi
- grassi
- grasso
- grave
- gray
- graziani
- gregorovius
- gretry
- grieg
- grimaldi
- grimm_jakob
- grippa
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