forked from pool/libvirt
8806eb20b1
ca697e90-CVE-2013-1962.patch bnc#820397 - Fix iohelper usage with streams opened for read a2214c52-iohelper.patch - Cope with missing swap cgroup controls f493d83f-cgroup-swap-control.patch bnc#819976 - Fix cgroup handling when setting VCPU BW 0471637d-cgroups-vcpu-bw.patch rhb#963592 - Escape a leading '.' with '_' in the cgroup names 0ced83dc-cgroup-escape-dot.patch - Add missing documentation on new cgroup layout 486a86eb-cgroups-docs.patch - Another fix related to systems with no cgroups c2cf5f1c-no-cgroups-fix.patch bnc#819963 OBS-URL: https://build.opensuse.org/package/show/Virtualization/libvirt?expand=0&rev=264
318 lines
11 KiB
Diff
318 lines
11 KiB
Diff
commit 486a86eb184c008c5957fb68c63f163289f3344b
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Author: Daniel P. Berrange <berrange@redhat.com>
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Date: Fri May 3 16:58:26 2013 +0100
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Add docs about cgroups layout and usage
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Describe the new cgroups layout, how to customize placement
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of guests and what virsh commands are used to access the
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parameters.
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Signed-off-by: Daniel P. Berrange <berrange@redhat.com>
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Index: libvirt-1.0.5/docs/cgroups.html.in
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===================================================================
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--- /dev/null
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+++ libvirt-1.0.5/docs/cgroups.html.in
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@@ -0,0 +1,285 @@
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+<?xml version="1.0" encoding="UTF-8"?>
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+<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
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+<html xmlns="http://www.w3.org/1999/xhtml">
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+ <body>
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+ <h1>Control Groups Resource Management</h1>
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+
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+ <ul id="toc"></ul>
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+
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+ <p>
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+ The QEMU and LXC drivers make use of the Linux "Control Groups" facility
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+ for applying resource management to their virtual machines and containers.
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+ </p>
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+
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+ <h2><a name="requiredControllers">Required controllers</a></h2>
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+
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+ <p>
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+ The control groups filesystem supports multiple "controllers". By default
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+ the init system (such as systemd) should mount all controllers compiled
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+ into the kernel at <code>/sys/fs/cgroup/$CONTROLLER-NAME</code>. Libvirt
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+ will never attempt to mount any controllers itself, merely detect where
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+ they are mounted.
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+ </p>
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+
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+ <p>
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+ The QEMU driver is capable of using the <code>cpuset</code>,
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+ <code>cpu</code>, <code>memory</code>, <code>blkio</code> and
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+ <code>devices</code> controllers. None of them are compulsory.
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+ If any controller is not mounted, the resource management APIs
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+ which use it will cease to operate. It is possible to explicitly
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+ turn off use of a controller, even when mounted, via the
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+ <code>/etc/libvirt/qemu.conf</code> configuration file.
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+ </p>
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+
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+ <p>
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+ The LXC driver is capable of using the <code>cpuset</code>,
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+ <code>cpu</code>, <code>cpuset</code>, <code>freezer</code>,
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+ <code>memory</code>, <code>blkio</code> and <code>devices</code>
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+ controllers. The <code>cpuset</code>, <code>devices</code>
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+ and <code>memory</code> controllers are compulsory. Without
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+ them mounted, no containers can be started. If any of the
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+ other controllers are not mounted, the resource management APIs
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+ which use them will cease to operate.
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+ </p>
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+
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+ <h2><a name="currentLayout">Current cgroups layout</a></h2>
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+
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+ <p>
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+ As of libvirt 1.0.5 or later, the cgroups layout created by libvirt has been
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+ simplified, in order to facilitate the setup of resource control policies by
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+ administrators / management applications. The layout is based on the concepts of
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+ "partitions" and "consumers". Each virtual machine or container is a consumer,
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+ and has a corresponding cgroup named <code>$VMNAME.libvirt-{qemu,lxc}</code>.
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+ Each consumer is associated with exactly one partition, which also have a
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+ corresponding cgroup usually named <code>$PARTNAME.partition</code>. The
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+ exceptions to this naming rule are the three top level default partitions,
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+ named <code>/system</code> (for system services), <code>/user</code> (for
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+ user login sessions) and <code>/machine</code> (for virtual machines and
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+ containers). By default every consumer will of course be associated with
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+ the <code>/machine</code> partition. This leads to a hierarchy that looks
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+ like
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+ </p>
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+
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+ <pre>
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+$ROOT
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+ |
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+ +- system
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+ | |
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+ | +- libvirtd.service
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+ |
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+ +- machine
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+ |
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+ +- vm1.libvirt-qemu
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+ | |
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+ | +- emulator
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+ | +- vcpu0
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+ | +- vcpu1
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+ |
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+ +- vm2.libvirt-qemu
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+ | |
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+ | +- emulator
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+ | +- vcpu0
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+ | +- vcpu1
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+ |
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+ +- vm3.libvirt-qemu
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+ | |
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+ | +- emulator
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+ | +- vcpu0
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+ | +- vcpu1
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+ |
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+ +- container1.libvirt-lxc
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+ |
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+ +- container2.libvirt-lxc
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+ |
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+ +- container3.libvirt-lxc
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+ </pre>
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+
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+ <p>
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+ The default cgroups layout ensures that, when there is contention for
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+ CPU time, it is shared equally between system services, user sessions
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+ and virtual machines / containers. This prevents virtual machines from
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+ locking the administrator out of the host, or impacting execution of
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+ system services. Conversely, when there is no contention from
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+ system services / user sessions, it is possible for virtual machines
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+ to fully utilize the host CPUs.
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+ </p>
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+
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+ <h2><a name="customPartiton">Using custom partitions</a></h2>
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+
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+ <p>
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+ If there is a need to apply resource constraints to groups of
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+ virtual machines or containers, then the single default
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+ partition <code>/machine</code> may not be sufficiently
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+ flexible. The administrator may wish to sub-divide the
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+ default partition, for example into "testing" and "production"
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+ partitions, and then assign each guest to a specific
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+ sub-partition. This is achieved via a small element addition
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+ to the guest domain XML config, just below the main <code>domain</code>
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+ element
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+ </p>
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+
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+ <pre>
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+ ...
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+ <resource>
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+ <partition>/machine/production</partition>
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+ </resource>
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+ ...
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+ </pre>
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+
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+ <p>
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+ Libvirt will not auto-create the cgroups directory to back
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+ this partition. In the future, libvirt / virsh will provide
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+ APIs / commands to create custom partitions, but currently
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+ this is left as an exercise for the administrator. For
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+ example, given the XML config above, the admin would need
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+ to create a cgroup named '/machine/production.partition'
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+ </p>
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+
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+ <pre>
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+# cd /sys/fs/cgroup
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+# for i in blkio cpu,cpuacct cpuset devices freezer memory net_cls perf_event
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+ do
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+ mkdir $i/machine/production.partition
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+ done
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+# for i in cpuset.cpus cpuset.mems
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+ do
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+ cat cpuset/machine/$i > cpuset/machine/production.partition/$i
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+ done
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+</pre>
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+
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+ <p>
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+ <strong>Note:</strong> the cgroups directory created as a ".partition"
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+ suffix, but the XML config does not require this suffix.
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+ </p>
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+
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+ <p>
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+ <strong>Note:</strong> the ability to place guests in custom
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+ partitions is only available with libvirt >= 1.0.5, using
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+ the new cgroup layout. The legacy cgroups layout described
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+ later did not support customization per guest.
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+ </p>
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+
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+ <h2><a name="resourceAPIs">Resource management APIs/commands</a></h2>
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+
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+ <p>
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+ Since libvirt aims to provide an API which is portable across
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+ hypervisors, the concept of cgroups is not exposed directly
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+ in the API or XML configuration. It is considered to be an
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+ internal implementation detail. Instead libvirt provides a
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+ set of APIs for applying resource controls, which are then
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+ mapped to corresponding cgroup tunables
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+ </p>
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+
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+ <h3>Scheduler tuning</h3>
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+
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+ <p>
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+ Parameters from the "cpu" controller are exposed via the
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+ <code>schedinfo</code> command in virsh.
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+ </p>
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+
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+ <pre>
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+# virsh schedinfo demo
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+Scheduler : posix
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+cpu_shares : 1024
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+vcpu_period : 100000
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+vcpu_quota : -1
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+emulator_period: 100000
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+emulator_quota : -1</pre>
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+
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+
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+ <h3>Block I/O tuning</h3>
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+
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+ <p>
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+ Parameters from the "blkio" controller are exposed via the
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+ <code>bkliotune</code> command in virsh.
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+ </p>
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+
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+
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+ <pre>
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+# virsh blkiotune demo
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+weight : 500
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+device_weight : </pre>
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+
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+ <h3>Memory tuning</h3>
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+
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+ <p>
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+ Parameters from the "memory" controller are exposed via the
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+ <code>memtune</code> command in virsh.
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+ </p>
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+
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+ <pre>
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+# virsh memtune demo
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+hard_limit : 580192
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+soft_limit : unlimited
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+swap_hard_limit: unlimited
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+ </pre>
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+
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+ <h3>Network tuning</h3>
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+
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+ <p>
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+ The <code>net_cls</code> is not currently used. Instead traffic
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+ filter policies are set directly against individual virtual
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+ network interfaces.
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+ </p>
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+
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+ <h2><a name="legacyLayout">Legacy cgroups layout</a></h2>
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+
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+ <p>
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+ Prior to libvirt 1.0.5, the cgroups layout created by libvirt was different
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+ from that described above, and did not allow for administrator customization.
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+ Libvirt used a fixed, 3-level hierarchy <code>libvirt/{qemu,lxc}/$VMNAME</code>
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+ which was rooted at the point in the hierarchy where libvirtd itself was
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+ located. So if libvirtd was placed at <code>/system/libvirtd.service</code>
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+ by systemd, the groups for each virtual machine / container would be located
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+ at <code>/system/libvirtd.service/libvirt/{qemu,lxc}/$VMNAME</code>. In addition
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+ to this, the QEMU drivers further child groups for each vCPU thread and the
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+ emulator thread(s). This leads to a hierarchy that looked like
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+ </p>
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+
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+
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+ <pre>
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+$ROOT
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+ |
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+ +- system
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+ |
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+ +- libvirtd.service
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+ |
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+ +- libvirt
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+ |
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+ +- qemu
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+ | |
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+ | +- vm1
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+ | | |
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+ | | +- emulator
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+ | | +- vcpu0
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+ | | +- vcpu1
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+ | |
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+ | +- vm2
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+ | | |
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+ | | +- emulator
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+ | | +- vcpu0
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+ | | +- vcpu1
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+ | |
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+ | +- vm3
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+ | |
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+ | +- emulator
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+ | +- vcpu0
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+ | +- vcpu1
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+ |
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+ +- lxc
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+ |
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+ +- container1
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+ |
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+ +- container2
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+ |
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+ +- container3
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+ </pre>
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+
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+ <p>
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+ Although current releases are much improved, historically the use of deep
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+ hierarchies has had a significant negative impact on the kernel scalability.
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+ The legacy libvirt cgroups layout highlighted these problems, to the detriment
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+ of the performance of virtual machines and containers.
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+ </p>
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+ </body>
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+</html>
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Index: libvirt-1.0.5/docs/sitemap.html.in
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===================================================================
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--- libvirt-1.0.5.orig/docs/sitemap.html.in
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+++ libvirt-1.0.5/docs/sitemap.html.in
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@@ -87,6 +87,10 @@
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<span>Ensuring exclusive guest access to disks</span>
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</li>
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<li>
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+ <a href="cgroups.html">CGroups</a>
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+ <span>Control groups integration</span>
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+ </li>
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+ <li>
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<a href="hooks.html">Hooks</a>
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<span>Hooks for system specific management</span>
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</li>
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