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CGCONFIG.CONF(5) CGCONFIG.CONF(5)
NAME
cgconfig.conf - libcgroup configuration file
DESCRIPTION
cgconfig.conf is the configuration file used by libcgroup to define control groups, their parameters and also mount
points. The file consists of mount and group sections. These sections can be in arbitrary order. Any line starting
with '#' is considered as comment line and is ignored.
mount section has the form:
mount {
<controller> = <path>;
...
}
controller
Name of kernel subsystem. List of subsystems supported by kernel can be found in /proc/cgroups file. Libcgroup
merges all subsystems mounted to the same directory (see Example 1) and the directory is mounted only once.
path The directory path, where group hierarchy associated to given controller, shall be mounted. The directory is cre-
ated automatically on cgconfig service startup if it does not exist and is deleted on service shutdown.
group section has the form:
group <name> {
[permissions]
<controller> {
<param name> = <param value>;
...
}
...
}
name Name of the control group. It can contain only characters, which are allowed for directory names. The groups form
a tree, i.e. a control group can contain zero or more subgroups. Subgroups can be specified using '/' delimiter.
The root control group is always created automatically in all hierarchies and it is the base of the group hierar-
chy. It can be explicitly specified in cgconfig.conf file by using '.' as group name. This can be used e.g. to set
its permissions, as shown in Example 5.
When the parent control group of a subgroup is not specified, then it is created automatically.
permissions
Permissions of the given control group on mounted filesystem. root has always permission to do anything with the
control group. Permissions have the following syntax:
perm {
task {
uid = <task user>;
gid = <task group>;
}
admin {
uid = <admin name>;
gid = <admin group>;
}
}
task user/group Name of the user and the group, which owns tasks file of the control group. I.e. this user and
members of this group has write access to the file.
admin user/group Name of the user and the group, which owns the rest of control group's files. These users are
allowed to set subsystem parameters and create subgroups.
Permissions are related only to enclosing control group and are not inherited by subgroups. If there is no perm
section in control group definition, root:root is owner of all files.
controller
Name of the kernel subsystem. The section can be empty, default kernel parameters will be used in this case. By
specifying controller the control group and all its parents are controlled by the specific subsystem. One control
group can be controlled by multiple subsystems, even if the subsystems are mounted to different directories. Each
control group must be controlled by at least one subsystem, so libcgroup knows, in which hierarchies the control
group should be created.
The parameters of given controller can be modified in following section enclosed in brackets.
param name
Name of the file to set. Each controller can have zero or more parameters.
param value
Value, which should be written to the file when the control group is created.
EXAMPLES
Example 1
The configuration file:
mount {
cpu = /mnt/cgroups/cpu;
cpuacct = /mnt/cgroups/cpu;
}
creates the hierarchy controlled by two subsystems, with no groups inside. It corresponds to following operations:
mkdir /mnt/cgroups/cpu
mount -t cgroup -o cpu,cpuacct cpu /mnt/cgroups/cpu
Example 2
The configuration file:
mount {
cpu = /mnt/cgroups/cpu;
cpuacct = /mnt/cgroups/cpu;
}
group daemons/www {
perm {
task {
uid = root;
gid = webmaster;
}
admin {
uid = root;
gid = root;
}
}
cpu {
cpu.shares = 1000;
}
}
group daemons/ftp {
perm {
task {
uid = root;
gid = ftpmaster;
}
admin {
uid = root;
gid = root;
}
}
cpu {
cpu.shares = 500;
}
}
creates the hierarchy controlled by two subsystems with one group and two subgroups inside, setting one parameter. It
corresponds to following operations:
mkdir /mnt/cgroups/cpu
mount -t cgroup -o cpu,cpuacct cpu /mnt/cgroups/cpu
mkdir /mnt/cgroups/cpu/daemons
mkdir /mnt/cgroups/cpu/daemons/www
chown root:root /mnt/cgroups/cpu/daemons/www/*
chown root:webmaster /mnt/cgroups/cpu/daemons/www/tasks
echo 1000 > /mnt/cgroups/cpu/daemons/www/cpu.shares
mkdir /mnt/cgroups/cpu/daemons/ftp
chown root:root /mnt/cgroups/cpu/daemons/ftp/*
chown root:ftpmaster /mnt/cgroups/cpu/daemons/ftp/tasks
echo 500 > /mnt/cgroups/cpu/daemons/ftp/cpu.shares
The daemons group is created automatically when its first subgroup is created. All its parameters have the default value
and only root can access group's files.
Since both cpuacct and cpu subsystems are mounted to the same directory, all groups are implicitly controlled also by
cpuacct subsystem, even if there is no cpuacct section in any of the groups.
Example 3
The configuration file:
mount {
cpu = /mnt/cgroups/cpu;
cpuacct = /mnt/cgroups/cpuacct;
}
group daemons {
cpuacct{
}
cpu {
}
}
creates two hierarchies and one common group in both of them. It corresponds to following operations:
mkdir /mnt/cgroups/cpu
mkdir /mnt/cgroups/cpuacct
mount -t cgroup -o cpu cpu /mnt/cgroups/cpu
mount -t cgroup -o cpuacct cpuacct /mnt/cgroups/cpuacct
mkdir /mnt/cgroups/cpu/daemons
mkdir /mnt/cgroups/cpuacct/daemons
In fact there are two groups created. One in cpuacct hierarchy, the second in cpu hierarchy. These two groups have noth-
ing in common and can contain different subgroups and different tasks.
Example 4
The configuration file:
mount {
cpu = /mnt/cgroups/cpu;
cpuacct = /mnt/cgroups/cpuacct;
}
group daemons {
cpuacct{
}
}
group daemons/www {
cpu {
cpu.shares = 1000;
}
}
group daemons/ftp {
cpu {
cpu.shares = 500;
}
}
creates two hierarchies with few groups inside. One of groups is created in both hierarchies.
It corresponds to following operations:
mkdir /mnt/cgroups/cpu
mkdir /mnt/cgroups/cpuacct
mount -t cgroup -o cpu cpu /mnt/cgroups/cpu
mount -t cgroup -o cpuacct cpuacct /mnt/cgroups/cpuacct
mkdir /mnt/cgroups/cpuacct/daemons
mkdir /mnt/cgroups/cpu/daemons
mkdir /mnt/cgroups/cpu/daemons/www
mkdir /mnt/cgroups/cpu/daemons/ftp
Group daemons is created in both hierarchies. In cpuacct hierarchy the group is explicitly mentioned in the configuration
file. In cpu hierarchy is the group created implicitly when www is created there. These two groups have nothing in com-
mon, for example they do not share processes and subgroups. Groups www and ftp are created only in cpu hierarchy and are
not controlled by cpuacct subsystem.
Example 5
The configuration file:
mount {
cpu = /mnt/cgroups/cpu;
cpuacct = /mnt/cgroups/cpu;
}
group . {
perm {
task {
uid = root;
gid = operator;
}
admin {
uid = root;
gid = operator;
}
}
cpu {
}
}
group daemons {
perm {
task {
uid = root;
gid = daemonmaster;
}
admin {
uid = root;
gid = operator;
}
}
cpu {
}
}
creates the hierarchy controlled by two subsystems with one group with some special permissions. It corresponds to fol-
lowing operations:
mkdir /mnt/cgroups/cpu
mount -t cgroup -o cpu,cpuacct cpu /mnt/cgroups/cpu
chown root:operator /mnt/cgroups/cpu/*
chown root:operator /mnt/cgroups/cpu/tasks
mkdir /mnt/cgroups/cpu/daemons
chown root:operator /mnt/cgroups/cpu/daemons/*
chown root:daemonmaster /mnt/cgroups/cpu/daemons/tasks
Users, which are members of the operator group are allowed to administer the control groups, i.e. create new control
groups and can move processes between these groups without having root privileges.
Members of daemonmaster group can move processes to daemons control group, but they can not move the process out of the
group. Only operator or root can do that.
RECOMMENDATIONS
Keep hierarchies separated
Having multiple hierarchies is perfectly valid and can be useful in various scenarios. To keeps things clean, do not cre-
ate one group in multiple hierarchies. Examples 3 and 4 shows, how unreadable and confusing it can be, especially when
reading somebody others configuration file.
Explicit is better than implicit
libcgroup can implicitly create groups which are needed for creation of configured subgroups. This may be useful and save
some typing in simple scenarios. When it comes to multiple hierarchies, it's better to explicitly specify all groups and
all controllers related to them.
FILES
/etc/cgconfig.conf
default libcgroup configuration file
SEE ALSO
To be defined...
BUGS
Parameter values can be only single string without spaces. Parsing of quoted strings is not implemented.
CGCONFIG.CONF(5)
