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Ganeti administrator's guide |
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============================ |
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|
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Documents Ganeti version |version| |
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|
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.. contents:: |
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|
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.. highlight:: shell-example |
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|
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Introduction |
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------------ |
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|
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Ganeti is a virtualization cluster management software. You are expected |
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to be a system administrator familiar with your Linux distribution and |
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the Xen or KVM virtualization environments before using it. |
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|
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The various components of Ganeti all have man pages and interactive |
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help. This manual though will help you getting familiar with the system |
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by explaining the most common operations, grouped by related use. |
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|
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After a terminology glossary and a section on the prerequisites needed |
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to use this manual, the rest of this document is divided in sections |
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for the different targets that a command affects: instance, nodes, etc. |
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|
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.. _terminology-label: |
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|
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Ganeti terminology |
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++++++++++++++++++ |
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|
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This section provides a small introduction to Ganeti terminology, which |
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might be useful when reading the rest of the document. |
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|
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Cluster |
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~~~~~~~ |
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|
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A set of machines (nodes) that cooperate to offer a coherent, highly |
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available virtualization service under a single administration domain. |
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|
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Node |
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~~~~ |
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|
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A physical machine which is member of a cluster. Nodes are the basic |
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cluster infrastructure, and they don't need to be fault tolerant in |
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order to achieve high availability for instances. |
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|
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Node can be added and removed (if they host no instances) at will from |
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the cluster. In a HA cluster and only with HA instances, the loss of any |
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single node will not cause disk data loss for any instance; of course, |
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a node crash will cause the crash of its primary instances. |
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|
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A node belonging to a cluster can be in one of the following roles at a |
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given time: |
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|
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- *master* node, which is the node from which the cluster is controlled |
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- *master candidate* node, only nodes in this role have the full cluster |
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configuration and knowledge, and only master candidates can become the |
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master node |
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- *regular* node, which is the state in which most nodes will be on |
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bigger clusters (>20 nodes) |
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- *drained* node, nodes in this state are functioning normally but the |
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cannot receive new instances; the intention is that nodes in this role |
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have some issue and they are being evacuated for hardware repairs |
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- *offline* node, in which there is a record in the cluster |
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configuration about the node, but the daemons on the master node will |
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not talk to this node; any instances declared as having an offline |
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node as either primary or secondary will be flagged as an error in the |
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cluster verify operation |
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|
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Depending on the role, each node will run a set of daemons: |
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|
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- the :command:`ganeti-noded` daemon, which controls the manipulation of |
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this node's hardware resources; it runs on all nodes which are in a |
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cluster |
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- the :command:`ganeti-confd` daemon (Ganeti 2.1+) which runs on all |
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nodes, but is only functional on master candidate nodes; this daemon |
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can be disabled at configuration time if you don't need its |
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functionality |
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- the :command:`ganeti-rapi` daemon which runs on the master node and |
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offers an HTTP-based API for the cluster |
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- the :command:`ganeti-masterd` daemon which runs on the master node and |
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allows control of the cluster |
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|
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Beside the node role, there are other node flags that influence its |
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behaviour: |
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|
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- the *master_capable* flag denotes whether the node can ever become a |
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master candidate; setting this to 'no' means that auto-promotion will |
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never make this node a master candidate; this flag can be useful for a |
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remote node that only runs local instances, and having it become a |
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master is impractical due to networking or other constraints |
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- the *vm_capable* flag denotes whether the node can host instances or |
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not; for example, one might use a non-vm_capable node just as a master |
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candidate, for configuration backups; setting this flag to no |
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disallows placement of instances of this node, deactivates hypervisor |
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and related checks on it (e.g. bridge checks, LVM check, etc.), and |
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removes it from cluster capacity computations |
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|
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|
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Instance |
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~~~~~~~~ |
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|
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A virtual machine which runs on a cluster. It can be a fault tolerant, |
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highly available entity. |
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|
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An instance has various parameters, which are classified in three |
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categories: hypervisor related-parameters (called ``hvparams``), general |
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parameters (called ``beparams``) and per network-card parameters (called |
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``nicparams``). All these parameters can be modified either at instance |
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level or via defaults at cluster level. |
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|
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Disk template |
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~~~~~~~~~~~~~ |
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|
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The are multiple options for the storage provided to an instance; while |
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the instance sees the same virtual drive in all cases, the node-level |
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configuration varies between them. |
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|
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There are five disk templates you can choose from: |
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|
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diskless |
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The instance has no disks. Only used for special purpose operating |
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systems or for testing. |
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|
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file |
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The instance will use plain files as backend for its disks. No |
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redundancy is provided, and this is somewhat more difficult to |
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configure for high performance. Note that for security reasons the |
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file storage directory must be listed under |
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``/etc/ganeti/file-storage-paths``, and that file is not copied |
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automatically to all nodes by Ganeti. The format of that file is a |
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newline-separated list of directories. |
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|
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sharedfile |
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The instance will use plain files as backend, but Ganeti assumes that |
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those files will be available and in sync automatically on all nodes. |
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This allows live migration and failover of instances using this |
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method. As for ``file`` the file storage directory must be listed under |
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``/etc/ganeti/file-storage-paths`` or ganeti will refuse to create |
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instances under it. |
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|
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plain |
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The instance will use LVM devices as backend for its disks. No |
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redundancy is provided. |
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|
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drbd |
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.. note:: This is only valid for multi-node clusters using DRBD 8.0+ |
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|
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A mirror is set between the local node and a remote one, which must be |
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specified with the second value of the --node option. Use this option |
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to obtain a highly available instance that can be failed over to a |
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remote node should the primary one fail. |
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|
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.. note:: Ganeti does not support DRBD stacked devices: |
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DRBD stacked setup is not fully symmetric and as such it is |
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not working with live migration. |
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|
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rbd |
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The instance will use Volumes inside a RADOS cluster as backend for its |
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disks. It will access them using the RADOS block device (RBD). |
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|
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ext |
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The instance will use an external storage provider. See |
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:manpage:`ganeti-extstorage-interface(7)` for how to implement one. |
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|
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|
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IAllocator |
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~~~~~~~~~~ |
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|
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A framework for using external (user-provided) scripts to compute the |
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placement of instances on the cluster nodes. This eliminates the need to |
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manually specify nodes in instance add, instance moves, node evacuate, |
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etc. |
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|
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In order for Ganeti to be able to use these scripts, they must be place |
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in the iallocator directory (usually ``lib/ganeti/iallocators`` under |
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the installation prefix, e.g. ``/usr/local``). |
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|
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“Primary” and “secondary” concepts |
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
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|
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An instance has a primary and depending on the disk configuration, might |
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also have a secondary node. The instance always runs on the primary node |
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and only uses its secondary node for disk replication. |
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|
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Similarly, the term of primary and secondary instances when talking |
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about a node refers to the set of instances having the given node as |
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primary, respectively secondary. |
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|
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Tags |
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~~~~ |
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|
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Tags are short strings that can be attached to either to cluster itself, |
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or to nodes or instances. They are useful as a very simplistic |
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information store for helping with cluster administration, for example |
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by attaching owner information to each instance after it's created:: |
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|
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$ gnt-instance add … %instance1% |
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$ gnt-instance add-tags %instance1% %owner:user2% |
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|
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And then by listing each instance and its tags, this information could |
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be used for contacting the users of each instance. |
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|
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Jobs and OpCodes |
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~~~~~~~~~~~~~~~~ |
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|
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While not directly visible by an end-user, it's useful to know that a |
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basic cluster operation (e.g. starting an instance) is represented |
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internally by Ganeti as an *OpCode* (abbreviation from operation |
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code). These OpCodes are executed as part of a *Job*. The OpCodes in a |
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single Job are processed serially by Ganeti, but different Jobs will be |
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processed (depending on resource availability) in parallel. They will |
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not be executed in the submission order, but depending on resource |
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availability, locks and (starting with Ganeti 2.3) priority. An earlier |
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job may have to wait for a lock while a newer job doesn't need any locks |
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and can be executed right away. Operations requiring a certain order |
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need to be submitted as a single job, or the client must submit one job |
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at a time and wait for it to finish before continuing. |
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|
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For example, shutting down the entire cluster can be done by running the |
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command ``gnt-instance shutdown --all``, which will submit for each |
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instance a separate job containing the “shutdown instance” OpCode. |
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|
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|
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Prerequisites |
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+++++++++++++ |
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|
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You need to have your Ganeti cluster installed and configured before you |
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try any of the commands in this document. Please follow the |
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:doc:`install` for instructions on how to do that. |
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|
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Instance management |
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------------------- |
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|
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Adding an instance |
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++++++++++++++++++ |
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|
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The add operation might seem complex due to the many parameters it |
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accepts, but once you have understood the (few) required parameters and |
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the customisation capabilities you will see it is an easy operation. |
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|
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The add operation requires at minimum five parameters: |
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|
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- the OS for the instance |
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- the disk template |
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- the disk count and size |
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- the node specification or alternatively the iallocator to use |
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- and finally the instance name |
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|
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The OS for the instance must be visible in the output of the command |
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``gnt-os list`` and specifies which guest OS to install on the instance. |
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|
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The disk template specifies what kind of storage to use as backend for |
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the (virtual) disks presented to the instance; note that for instances |
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with multiple virtual disks, they all must be of the same type. |
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|
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The node(s) on which the instance will run can be given either manually, |
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via the ``-n`` option, or computed automatically by Ganeti, if you have |
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installed any iallocator script. |
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|
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With the above parameters in mind, the command is:: |
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|
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$ gnt-instance add \ |
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-n %TARGET_NODE%:%SECONDARY_NODE% \ |
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-o %OS_TYPE% \ |
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-t %DISK_TEMPLATE% -s %DISK_SIZE% \ |
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%INSTANCE_NAME% |
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|
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The instance name must be resolvable (e.g. exist in DNS) and usually |
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points to an address in the same subnet as the cluster itself. |
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|
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The above command has the minimum required options; other options you |
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can give include, among others: |
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|
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- The maximum/minimum memory size (``-B maxmem``, ``-B minmem``) |
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(``-B memory`` can be used to specify only one size) |
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|
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- The number of virtual CPUs (``-B vcpus``) |
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|
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- Arguments for the NICs of the instance; by default, a single-NIC |
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instance is created. The IP and/or bridge of the NIC can be changed |
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via ``--net 0:ip=IP,link=BRIDGE`` |
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|
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See :manpage:`ganeti-instance(8)` for the detailed option list. |
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|
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For example if you want to create an highly available instance, with a |
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single disk of 50GB and the default memory size, having primary node |
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``node1`` and secondary node ``node3``, use the following command:: |
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|
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$ gnt-instance add -n node1:node3 -o debootstrap -t drbd -s 50G \ |
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instance1 |
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|
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There is a also a command for batch instance creation from a |
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specification file, see the ``batch-create`` operation in the |
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gnt-instance manual page. |
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|
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Regular instance operations |
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+++++++++++++++++++++++++++ |
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|
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Removal |
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~~~~~~~ |
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|
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Removing an instance is even easier than creating one. This operation is |
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irreversible and destroys all the contents of your instance. Use with |
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care:: |
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|
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$ gnt-instance remove %INSTANCE_NAME% |
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|
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.. _instance-startup-label: |
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|
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Startup/shutdown |
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~~~~~~~~~~~~~~~~ |
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|
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Instances are automatically started at instance creation time. To |
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manually start one which is currently stopped you can run:: |
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|
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$ gnt-instance startup %INSTANCE_NAME% |
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|
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Ganeti will start an instance with up to its maximum instance memory. If |
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not enough memory is available Ganeti will use all the available memory |
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down to the instance minimum memory. If not even that amount of memory |
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is free Ganeti will refuse to start the instance. |
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|
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Note, that this will not work when an instance is in a permanently |
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stopped state ``offline``. In this case, you will first have to |
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put it back to online mode by running:: |
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|
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$ gnt-instance modify --online %INSTANCE_NAME% |
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|
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The command to stop the running instance is:: |
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|
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$ gnt-instance shutdown %INSTANCE_NAME% |
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|
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If you want to shut the instance down more permanently, so that it |
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does not require dynamically allocated resources (memory and vcpus), |
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after shutting down an instance, execute the following:: |
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|
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$ gnt-instance modify --offline %INSTANCE_NAME% |
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|
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.. warning:: Do not use the Xen or KVM commands directly to stop |
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instances. If you run for example ``xm shutdown`` or ``xm destroy`` |
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on an instance Ganeti will automatically restart it (via |
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the :command:`ganeti-watcher(8)` command which is launched via cron). |
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|
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Querying instances |
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~~~~~~~~~~~~~~~~~~ |
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|
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There are two ways to get information about instances: listing |
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instances, which does a tabular output containing a given set of fields |
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about each instance, and querying detailed information about a set of |
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instances. |
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|
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The command to see all the instances configured and their status is:: |
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|
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$ gnt-instance list |
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|
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The command can return a custom set of information when using the ``-o`` |
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option (as always, check the manpage for a detailed specification). Each |
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instance will be represented on a line, thus making it easy to parse |
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this output via the usual shell utilities (grep, sed, etc.). |
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|
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To get more detailed information about an instance, you can run:: |
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|
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$ gnt-instance info %INSTANCE% |
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|
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which will give a multi-line block of information about the instance, |
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it's hardware resources (especially its disks and their redundancy |
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status), etc. This is harder to parse and is more expensive than the |
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list operation, but returns much more detailed information. |
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|
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Changing an instance's runtime memory |
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+++++++++++++++++++++++++++++++++++++ |
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|
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Ganeti will always make sure an instance has a value between its maximum |
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and its minimum memory available as runtime memory. As of version 2.6 |
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Ganeti will only choose a size different than the maximum size when |
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starting up, failing over, or migrating an instance on a node with less |
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than the maximum memory available. It won't resize other instances in |
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order to free up space for an instance. |
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|
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If you find that you need more memory on a node any instance can be |
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manually resized without downtime, with the command:: |
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|
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$ gnt-instance modify -m %SIZE% %INSTANCE_NAME% |
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|
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The same command can also be used to increase the memory available on an |
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instance, provided that enough free memory is available on its node, and |
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the specified size is not larger than the maximum memory size the |
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instance had when it was first booted (an instance will be unable to see |
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new memory above the maximum that was specified to the hypervisor at its |
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boot time, if it needs to grow further a reboot becomes necessary). |
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|
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Export/Import |
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+++++++++++++ |
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|
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You can create a snapshot of an instance disk and its Ganeti |
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configuration, which then you can backup, or import into another |
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cluster. The way to export an instance is:: |
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|
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$ gnt-backup export -n %TARGET_NODE% %INSTANCE_NAME% |
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|
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|
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The target node can be any node in the cluster with enough space under |
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``/srv/ganeti`` to hold the instance image. Use the ``--noshutdown`` |
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option to snapshot an instance without rebooting it. Note that Ganeti |
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only keeps one snapshot for an instance - any previous snapshot of the |
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same instance existing cluster-wide under ``/srv/ganeti`` will be |
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removed by this operation: if you want to keep them, you need to move |
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them out of the Ganeti exports directory. |
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|
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Importing an instance is similar to creating a new one, but additionally |
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one must specify the location of the snapshot. The command is:: |
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|
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$ gnt-backup import -n %TARGET_NODE% \ |
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--src-node=%NODE% --src-dir=%DIR% %INSTANCE_NAME% |
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|
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By default, parameters will be read from the export information, but you |
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can of course pass them in via the command line - most of the options |
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available for the command :command:`gnt-instance add` are supported here |
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too. |
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|
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Import of foreign instances |
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+++++++++++++++++++++++++++ |
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|
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There is a possibility to import a foreign instance whose disk data is |
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already stored as LVM volumes without going through copying it: the disk |
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adoption mode. |
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|
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For this, ensure that the original, non-managed instance is stopped, |
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then create a Ganeti instance in the usual way, except that instead of |
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passing the disk information you specify the current volumes:: |
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|
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$ gnt-instance add -t plain -n %HOME_NODE% ... \ |
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--disk 0:adopt=%lv_name%[,vg=%vg_name%] %INSTANCE_NAME% |
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|
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This will take over the given logical volumes, rename them to the Ganeti |
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standard (UUID-based), and without installing the OS on them start |
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directly the instance. If you configure the hypervisor similar to the |
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non-managed configuration that the instance had, the transition should |
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be seamless for the instance. For more than one disk, just pass another |
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disk parameter (e.g. ``--disk 1:adopt=...``). |
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|
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Instance kernel selection |
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+++++++++++++++++++++++++ |
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|
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The kernel that instances uses to bootup can come either from the node, |
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or from instances themselves, depending on the setup. |
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|
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Xen-PVM |
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~~~~~~~ |
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|
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With Xen PVM, there are three options. |
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|
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First, you can use a kernel from the node, by setting the hypervisor |
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parameters as such: |
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|
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- ``kernel_path`` to a valid file on the node (and appropriately |
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``initrd_path``) |
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- ``kernel_args`` optionally set to a valid Linux setting (e.g. ``ro``) |
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- ``root_path`` to a valid setting (e.g. ``/dev/xvda1``) |
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- ``bootloader_path`` and ``bootloader_args`` to empty |
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|
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Alternatively, you can delegate the kernel management to instances, and |
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use either ``pvgrub`` or the deprecated ``pygrub``. For this, you must |
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install the kernels and initrds in the instance and create a valid GRUB |
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v1 configuration file. |
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|
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For ``pvgrub`` (new in version 2.4.2), you need to set: |
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|
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- ``kernel_path`` to point to the ``pvgrub`` loader present on the node |
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(e.g. ``/usr/lib/xen/boot/pv-grub-x86_32.gz``) |
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- ``kernel_args`` to the path to the GRUB config file, relative to the |
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instance (e.g. ``(hd0,0)/grub/menu.lst``) |
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- ``root_path`` **must** be empty |
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- ``bootloader_path`` and ``bootloader_args`` to empty |
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|
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While ``pygrub`` is deprecated, here is how you can configure it: |
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|
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- ``bootloader_path`` to the pygrub binary (e.g. ``/usr/bin/pygrub``) |
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- the other settings are not important |
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|
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More information can be found in the Xen wiki pages for `pvgrub |
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<http://wiki.xensource.com/xenwiki/PvGrub>`_ and `pygrub |
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<http://wiki.xensource.com/xenwiki/PyGrub>`_. |
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|
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KVM |
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~~~ |
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|
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For KVM also the kernel can be loaded either way. |
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|
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For loading the kernels from the node, you need to set: |
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|
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- ``kernel_path`` to a valid value |
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- ``initrd_path`` optionally set if you use an initrd |
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- ``kernel_args`` optionally set to a valid value (e.g. ``ro``) |
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|
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If you want instead to have the instance boot from its disk (and execute |
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its bootloader), simply set the ``kernel_path`` parameter to an empty |
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string, and all the others will be ignored. |
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|
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Instance HA features |
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-------------------- |
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|
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.. note:: This section only applies to multi-node clusters |
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|
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.. _instance-change-primary-label: |
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|
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Changing the primary node |
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+++++++++++++++++++++++++ |
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|
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There are three ways to exchange an instance's primary and secondary |
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nodes; the right one to choose depends on how the instance has been |
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created and the status of its current primary node. See |
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:ref:`rest-redundancy-label` for information on changing the secondary |
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node. Note that it's only possible to change the primary node to the |
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secondary and vice-versa; a direct change of the primary node with a |
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third node, while keeping the current secondary is not possible in a |
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single step, only via multiple operations as detailed in |
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:ref:`instance-relocation-label`. |
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|
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Failing over an instance |
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~~~~~~~~~~~~~~~~~~~~~~~~ |
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|
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If an instance is built in highly available mode you can at any time |
524 |
fail it over to its secondary node, even if the primary has somehow |
525 |
failed and it's not up anymore. Doing it is really easy, on the master |
526 |
node you can just run:: |
527 |
|
528 |
$ gnt-instance failover %INSTANCE_NAME% |
529 |
|
530 |
That's it. After the command completes the secondary node is now the |
531 |
primary, and vice-versa. |
532 |
|
533 |
The instance will be started with an amount of memory between its |
534 |
``maxmem`` and its ``minmem`` value, depending on the free memory on its |
535 |
target node, or the operation will fail if that's not possible. See |
536 |
:ref:`instance-startup-label` for details. |
537 |
|
538 |
If the instance's disk template is of type rbd, then you can specify |
539 |
the target node (which can be any node) explicitly, or specify an |
540 |
iallocator plugin. If you omit both, the default iallocator will be |
541 |
used to determine the target node:: |
542 |
|
543 |
$ gnt-instance failover -n %TARGET_NODE% %INSTANCE_NAME% |
544 |
|
545 |
Live migrating an instance |
546 |
~~~~~~~~~~~~~~~~~~~~~~~~~~ |
547 |
|
548 |
If an instance is built in highly available mode, it currently runs and |
549 |
both its nodes are running fine, you can migrate it over to its |
550 |
secondary node, without downtime. On the master node you need to run:: |
551 |
|
552 |
$ gnt-instance migrate %INSTANCE_NAME% |
553 |
|
554 |
The current load on the instance and its memory size will influence how |
555 |
long the migration will take. In any case, for both KVM and Xen |
556 |
hypervisors, the migration will be transparent to the instance. |
557 |
|
558 |
If the destination node has less memory than the instance's current |
559 |
runtime memory, but at least the instance's minimum memory available |
560 |
Ganeti will automatically reduce the instance runtime memory before |
561 |
migrating it, unless the ``--no-runtime-changes`` option is passed, in |
562 |
which case the target node should have at least the instance's current |
563 |
runtime memory free. |
564 |
|
565 |
If the instance's disk template is of type rbd, then you can specify |
566 |
the target node (which can be any node) explicitly, or specify an |
567 |
iallocator plugin. If you omit both, the default iallocator will be |
568 |
used to determine the target node:: |
569 |
|
570 |
$ gnt-instance migrate -n %TARGET_NODE% %INSTANCE_NAME% |
571 |
|
572 |
Moving an instance (offline) |
573 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
574 |
|
575 |
If an instance has not been create as mirrored, then the only way to |
576 |
change its primary node is to execute the move command:: |
577 |
|
578 |
$ gnt-instance move -n %NEW_NODE% %INSTANCE% |
579 |
|
580 |
This has a few prerequisites: |
581 |
|
582 |
- the instance must be stopped |
583 |
- its current primary node must be on-line and healthy |
584 |
- the disks of the instance must not have any errors |
585 |
|
586 |
Since this operation actually copies the data from the old node to the |
587 |
new node, expect it to take proportional to the size of the instance's |
588 |
disks and the speed of both the nodes' I/O system and their networking. |
589 |
|
590 |
Disk operations |
591 |
+++++++++++++++ |
592 |
|
593 |
Disk failures are a common cause of errors in any server |
594 |
deployment. Ganeti offers protection from single-node failure if your |
595 |
instances were created in HA mode, and it also offers ways to restore |
596 |
redundancy after a failure. |
597 |
|
598 |
Preparing for disk operations |
599 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
600 |
|
601 |
It is important to note that for Ganeti to be able to do any disk |
602 |
operation, the Linux machines on top of which Ganeti runs must be |
603 |
consistent; for LVM, this means that the LVM commands must not return |
604 |
failures; it is common that after a complete disk failure, any LVM |
605 |
command aborts with an error similar to:: |
606 |
|
607 |
$ vgs |
608 |
/dev/sdb1: read failed after 0 of 4096 at 0: Input/output error |
609 |
/dev/sdb1: read failed after 0 of 4096 at 750153695232: Input/output error |
610 |
/dev/sdb1: read failed after 0 of 4096 at 0: Input/output error |
611 |
Couldn't find device with uuid 't30jmN-4Rcf-Fr5e-CURS-pawt-z0jU-m1TgeJ'. |
612 |
Couldn't find all physical volumes for volume group xenvg. |
613 |
|
614 |
Before restoring an instance's disks to healthy status, it's needed to |
615 |
fix the volume group used by Ganeti so that we can actually create and |
616 |
manage the logical volumes. This is usually done in a multi-step |
617 |
process: |
618 |
|
619 |
#. first, if the disk is completely gone and LVM commands exit with |
620 |
“Couldn't find device with uuid…” then you need to run the command:: |
621 |
|
622 |
$ vgreduce --removemissing %VOLUME_GROUP% |
623 |
|
624 |
#. after the above command, the LVM commands should be executing |
625 |
normally (warnings are normal, but the commands will not fail |
626 |
completely). |
627 |
|
628 |
#. if the failed disk is still visible in the output of the ``pvs`` |
629 |
command, you need to deactivate it from allocations by running:: |
630 |
|
631 |
$ pvs -x n /dev/%DISK% |
632 |
|
633 |
At this point, the volume group should be consistent and any bad |
634 |
physical volumes should not longer be available for allocation. |
635 |
|
636 |
Note that since version 2.1 Ganeti provides some commands to automate |
637 |
these two operations, see :ref:`storage-units-label`. |
638 |
|
639 |
.. _rest-redundancy-label: |
640 |
|
641 |
Restoring redundancy for DRBD-based instances |
642 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
643 |
|
644 |
A DRBD instance has two nodes, and the storage on one of them has |
645 |
failed. Depending on which node (primary or secondary) has failed, you |
646 |
have three options at hand: |
647 |
|
648 |
- if the storage on the primary node has failed, you need to re-create |
649 |
the disks on it |
650 |
- if the storage on the secondary node has failed, you can either |
651 |
re-create the disks on it or change the secondary and recreate |
652 |
redundancy on the new secondary node |
653 |
|
654 |
Of course, at any point it's possible to force re-creation of disks even |
655 |
though everything is already fine. |
656 |
|
657 |
For all three cases, the ``replace-disks`` operation can be used:: |
658 |
|
659 |
# re-create disks on the primary node |
660 |
$ gnt-instance replace-disks -p %INSTANCE_NAME% |
661 |
# re-create disks on the current secondary |
662 |
$ gnt-instance replace-disks -s %INSTANCE_NAME% |
663 |
# change the secondary node, via manual specification |
664 |
$ gnt-instance replace-disks -n %NODE% %INSTANCE_NAME% |
665 |
# change the secondary node, via an iallocator script |
666 |
$ gnt-instance replace-disks -I %SCRIPT% %INSTANCE_NAME% |
667 |
# since Ganeti 2.1: automatically fix the primary or secondary node |
668 |
$ gnt-instance replace-disks -a %INSTANCE_NAME% |
669 |
|
670 |
Since the process involves copying all data from the working node to the |
671 |
target node, it will take a while, depending on the instance's disk |
672 |
size, node I/O system and network speed. But it is (barring any network |
673 |
interruption) completely transparent for the instance. |
674 |
|
675 |
Re-creating disks for non-redundant instances |
676 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
677 |
|
678 |
.. versionadded:: 2.1 |
679 |
|
680 |
For non-redundant instances, there isn't a copy (except backups) to |
681 |
re-create the disks. But it's possible to at-least re-create empty |
682 |
disks, after which a reinstall can be run, via the ``recreate-disks`` |
683 |
command:: |
684 |
|
685 |
$ gnt-instance recreate-disks %INSTANCE% |
686 |
|
687 |
Note that this will fail if the disks already exists. The instance can |
688 |
be assigned to new nodes automatically by specifying an iallocator |
689 |
through the ``--iallocator`` option. |
690 |
|
691 |
Conversion of an instance's disk type |
692 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
693 |
|
694 |
It is possible to convert between a non-redundant instance of type |
695 |
``plain`` (LVM storage) and redundant ``drbd`` via the ``gnt-instance |
696 |
modify`` command:: |
697 |
|
698 |
# start with a non-redundant instance |
699 |
$ gnt-instance add -t plain ... %INSTANCE% |
700 |
|
701 |
# later convert it to redundant |
702 |
$ gnt-instance stop %INSTANCE% |
703 |
$ gnt-instance modify -t drbd -n %NEW_SECONDARY% %INSTANCE% |
704 |
$ gnt-instance start %INSTANCE% |
705 |
|
706 |
# and convert it back |
707 |
$ gnt-instance stop %INSTANCE% |
708 |
$ gnt-instance modify -t plain %INSTANCE% |
709 |
$ gnt-instance start %INSTANCE% |
710 |
|
711 |
The conversion must be done while the instance is stopped, and |
712 |
converting from plain to drbd template presents a small risk, especially |
713 |
if the instance has multiple disks and/or if one node fails during the |
714 |
conversion procedure). As such, it's recommended (as always) to make |
715 |
sure that downtime for manual recovery is acceptable and that the |
716 |
instance has up-to-date backups. |
717 |
|
718 |
Debugging instances |
719 |
+++++++++++++++++++ |
720 |
|
721 |
Accessing an instance's disks |
722 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
723 |
|
724 |
From an instance's primary node you can have access to its disks. Never |
725 |
ever mount the underlying logical volume manually on a fault tolerant |
726 |
instance, or will break replication and your data will be |
727 |
inconsistent. The correct way to access an instance's disks is to run |
728 |
(on the master node, as usual) the command:: |
729 |
|
730 |
$ gnt-instance activate-disks %INSTANCE% |
731 |
|
732 |
And then, *on the primary node of the instance*, access the device that |
733 |
gets created. For example, you could mount the given disks, then edit |
734 |
files on the filesystem, etc. |
735 |
|
736 |
Note that with partitioned disks (as opposed to whole-disk filesystems), |
737 |
you will need to use a tool like :manpage:`kpartx(8)`:: |
738 |
|
739 |
# on node1 |
740 |
$ gnt-instance activate-disks %instance1% |
741 |
node3:disk/0:… |
742 |
$ ssh node3 |
743 |
# on node 3 |
744 |
$ kpartx -l /dev/… |
745 |
$ kpartx -a /dev/… |
746 |
$ mount /dev/mapper/… /mnt/ |
747 |
# edit files under mnt as desired |
748 |
$ umount /mnt/ |
749 |
$ kpartx -d /dev/… |
750 |
$ exit |
751 |
# back to node 1 |
752 |
|
753 |
After you've finished you can deactivate them with the deactivate-disks |
754 |
command, which works in the same way:: |
755 |
|
756 |
$ gnt-instance deactivate-disks %INSTANCE% |
757 |
|
758 |
Note that if any process started by you is still using the disks, the |
759 |
above command will error out, and you **must** cleanup and ensure that |
760 |
the above command runs successfully before you start the instance, |
761 |
otherwise the instance will suffer corruption. |
762 |
|
763 |
Accessing an instance's console |
764 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
765 |
|
766 |
The command to access a running instance's console is:: |
767 |
|
768 |
$ gnt-instance console %INSTANCE_NAME% |
769 |
|
770 |
Use the console normally and then type ``^]`` when done, to exit. |
771 |
|
772 |
Other instance operations |
773 |
+++++++++++++++++++++++++ |
774 |
|
775 |
Reboot |
776 |
~~~~~~ |
777 |
|
778 |
There is a wrapper command for rebooting instances:: |
779 |
|
780 |
$ gnt-instance reboot %instance2% |
781 |
|
782 |
By default, this does the equivalent of shutting down and then starting |
783 |
the instance, but it accepts parameters to perform a soft-reboot (via |
784 |
the hypervisor), a hard reboot (hypervisor shutdown and then startup) or |
785 |
a full one (the default, which also de-configures and then configures |
786 |
again the disks of the instance). |
787 |
|
788 |
Instance OS definitions debugging |
789 |
+++++++++++++++++++++++++++++++++ |
790 |
|
791 |
Should you have any problems with instance operating systems the command |
792 |
to see a complete status for all your nodes is:: |
793 |
|
794 |
$ gnt-os diagnose |
795 |
|
796 |
.. _instance-relocation-label: |
797 |
|
798 |
Instance relocation |
799 |
~~~~~~~~~~~~~~~~~~~ |
800 |
|
801 |
While it is not possible to move an instance from nodes ``(A, B)`` to |
802 |
nodes ``(C, D)`` in a single move, it is possible to do so in a few |
803 |
steps:: |
804 |
|
805 |
# instance is located on A, B |
806 |
$ gnt-instance replace-disks -n %nodeC% %instance1% |
807 |
# instance has moved from (A, B) to (A, C) |
808 |
# we now flip the primary/secondary nodes |
809 |
$ gnt-instance migrate %instance1% |
810 |
# instance lives on (C, A) |
811 |
# we can then change A to D via: |
812 |
$ gnt-instance replace-disks -n %nodeD% %instance1% |
813 |
|
814 |
Which brings it into the final configuration of ``(C, D)``. Note that we |
815 |
needed to do two replace-disks operation (two copies of the instance |
816 |
disks), because we needed to get rid of both the original nodes (A and |
817 |
B). |
818 |
|
819 |
Node operations |
820 |
--------------- |
821 |
|
822 |
There are much fewer node operations available than for instances, but |
823 |
they are equivalently important for maintaining a healthy cluster. |
824 |
|
825 |
Add/readd |
826 |
+++++++++ |
827 |
|
828 |
It is at any time possible to extend the cluster with one more node, by |
829 |
using the node add operation:: |
830 |
|
831 |
$ gnt-node add %NEW_NODE% |
832 |
|
833 |
If the cluster has a replication network defined, then you need to pass |
834 |
the ``-s REPLICATION_IP`` parameter to this option. |
835 |
|
836 |
A variation of this command can be used to re-configure a node if its |
837 |
Ganeti configuration is broken, for example if it has been reinstalled |
838 |
by mistake:: |
839 |
|
840 |
$ gnt-node add --readd %EXISTING_NODE% |
841 |
|
842 |
This will reinitialise the node as if it's been newly added, but while |
843 |
keeping its existing configuration in the cluster (primary/secondary IP, |
844 |
etc.), in other words you won't need to use ``-s`` here. |
845 |
|
846 |
Changing the node role |
847 |
++++++++++++++++++++++ |
848 |
|
849 |
A node can be in different roles, as explained in the |
850 |
:ref:`terminology-label` section. Promoting a node to the master role is |
851 |
special, while the other roles are handled all via a single command. |
852 |
|
853 |
Failing over the master node |
854 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
855 |
|
856 |
If you want to promote a different node to the master role (for whatever |
857 |
reason), run on any other master-candidate node the command:: |
858 |
|
859 |
$ gnt-cluster master-failover |
860 |
|
861 |
and the node you ran it on is now the new master. In case you try to run |
862 |
this on a non master-candidate node, you will get an error telling you |
863 |
which nodes are valid. |
864 |
|
865 |
Changing between the other roles |
866 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
867 |
|
868 |
The ``gnt-node modify`` command can be used to select a new role:: |
869 |
|
870 |
# change to master candidate |
871 |
$ gnt-node modify -C yes %NODE% |
872 |
# change to drained status |
873 |
$ gnt-node modify -D yes %NODE% |
874 |
# change to offline status |
875 |
$ gnt-node modify -O yes %NODE% |
876 |
# change to regular mode (reset all flags) |
877 |
$ gnt-node modify -O no -D no -C no %NODE% |
878 |
|
879 |
Note that the cluster requires that at any point in time, a certain |
880 |
number of nodes are master candidates, so changing from master candidate |
881 |
to other roles might fail. It is recommended to either force the |
882 |
operation (via the ``--force`` option) or first change the number of |
883 |
master candidates in the cluster - see :ref:`cluster-config-label`. |
884 |
|
885 |
Evacuating nodes |
886 |
++++++++++++++++ |
887 |
|
888 |
There are two steps of moving instances off a node: |
889 |
|
890 |
- moving the primary instances (actually converting them into secondary |
891 |
instances) |
892 |
- moving the secondary instances (including any instances converted in |
893 |
the step above) |
894 |
|
895 |
Primary instance conversion |
896 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
897 |
|
898 |
For this step, you can use either individual instance move |
899 |
commands (as seen in :ref:`instance-change-primary-label`) or the bulk |
900 |
per-node versions; these are:: |
901 |
|
902 |
$ gnt-node migrate %NODE% |
903 |
$ gnt-node evacuate -s %NODE% |
904 |
|
905 |
Note that the instance “move” command doesn't currently have a node |
906 |
equivalent. |
907 |
|
908 |
Both these commands, or the equivalent per-instance command, will make |
909 |
this node the secondary node for the respective instances, whereas their |
910 |
current secondary node will become primary. Note that it is not possible |
911 |
to change in one step the primary node to another node as primary, while |
912 |
keeping the same secondary node. |
913 |
|
914 |
Secondary instance evacuation |
915 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
916 |
|
917 |
For the evacuation of secondary instances, a command called |
918 |
:command:`gnt-node evacuate` is provided and its syntax is:: |
919 |
|
920 |
$ gnt-node evacuate -I %IALLOCATOR_SCRIPT% %NODE% |
921 |
$ gnt-node evacuate -n %DESTINATION_NODE% %NODE% |
922 |
|
923 |
The first version will compute the new secondary for each instance in |
924 |
turn using the given iallocator script, whereas the second one will |
925 |
simply move all instances to DESTINATION_NODE. |
926 |
|
927 |
Removal |
928 |
+++++++ |
929 |
|
930 |
Once a node no longer has any instances (neither primary nor secondary), |
931 |
it's easy to remove it from the cluster:: |
932 |
|
933 |
$ gnt-node remove %NODE_NAME% |
934 |
|
935 |
This will deconfigure the node, stop the ganeti daemons on it and leave |
936 |
it hopefully like before it joined to the cluster. |
937 |
|
938 |
Replication network changes |
939 |
+++++++++++++++++++++++++++ |
940 |
|
941 |
The :command:`gnt-node modify -s` command can be used to change the |
942 |
secondary IP of a node. This operation can only be performed if: |
943 |
|
944 |
- No instance is active on the target node |
945 |
- The new target IP is reachable from the master's secondary IP |
946 |
|
947 |
Also this operation will not allow to change a node from single-homed |
948 |
(same primary and secondary ip) to multi-homed (separate replication |
949 |
network) or vice versa, unless: |
950 |
|
951 |
- The target node is the master node and `--force` is passed. |
952 |
- The target cluster is single-homed and the new primary ip is a change |
953 |
to single homed for a particular node. |
954 |
- The target cluster is multi-homed and the new primary ip is a change |
955 |
to multi homed for a particular node. |
956 |
|
957 |
For example to do a single-homed to multi-homed conversion:: |
958 |
|
959 |
$ gnt-node modify --force -s %SECONDARY_IP% %MASTER_NAME% |
960 |
$ gnt-node modify -s %SECONDARY_IP% %NODE1_NAME% |
961 |
$ gnt-node modify -s %SECONDARY_IP% %NODE2_NAME% |
962 |
$ gnt-node modify -s %SECONDARY_IP% %NODE3_NAME% |
963 |
... |
964 |
|
965 |
The same commands can be used for multi-homed to single-homed except the |
966 |
secondary IPs should be the same as the primaries for each node, for |
967 |
that case. |
968 |
|
969 |
Storage handling |
970 |
++++++++++++++++ |
971 |
|
972 |
When using LVM (either standalone or with DRBD), it can become tedious |
973 |
to debug and fix it in case of errors. Furthermore, even file-based |
974 |
storage can become complicated to handle manually on many hosts. Ganeti |
975 |
provides a couple of commands to help with automation. |
976 |
|
977 |
Logical volumes |
978 |
~~~~~~~~~~~~~~~ |
979 |
|
980 |
This is a command specific to LVM handling. It allows listing the |
981 |
logical volumes on a given node or on all nodes and their association to |
982 |
instances via the ``volumes`` command:: |
983 |
|
984 |
$ gnt-node volumes |
985 |
Node PhysDev VG Name Size Instance |
986 |
node1 /dev/sdb1 xenvg e61fbc97-….disk0 512M instance17 |
987 |
node1 /dev/sdb1 xenvg ebd1a7d1-….disk0 512M instance19 |
988 |
node2 /dev/sdb1 xenvg 0af08a3d-….disk0 512M instance20 |
989 |
node2 /dev/sdb1 xenvg cc012285-….disk0 512M instance16 |
990 |
node2 /dev/sdb1 xenvg f0fac192-….disk0 512M instance18 |
991 |
|
992 |
The above command maps each logical volume to a volume group and |
993 |
underlying physical volume and (possibly) to an instance. |
994 |
|
995 |
.. _storage-units-label: |
996 |
|
997 |
Generalized storage handling |
998 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
999 |
|
1000 |
.. versionadded:: 2.1 |
1001 |
|
1002 |
Starting with Ganeti 2.1, a new storage framework has been implemented |
1003 |
that tries to abstract the handling of the storage type the cluster |
1004 |
uses. |
1005 |
|
1006 |
First is listing the backend storage and their space situation:: |
1007 |
|
1008 |
$ gnt-node list-storage |
1009 |
Node Name Size Used Free |
1010 |
node1 /dev/sda7 673.8G 0M 673.8G |
1011 |
node1 /dev/sdb1 698.6G 1.5G 697.1G |
1012 |
node2 /dev/sda7 673.8G 0M 673.8G |
1013 |
node2 /dev/sdb1 698.6G 1.0G 697.6G |
1014 |
|
1015 |
The default is to list LVM physical volumes. It's also possible to list |
1016 |
the LVM volume groups:: |
1017 |
|
1018 |
$ gnt-node list-storage -t lvm-vg |
1019 |
Node Name Size |
1020 |
node1 xenvg 1.3T |
1021 |
node2 xenvg 1.3T |
1022 |
|
1023 |
Next is repairing storage units, which is currently only implemented for |
1024 |
volume groups and does the equivalent of ``vgreduce --removemissing``:: |
1025 |
|
1026 |
$ gnt-node repair-storage %node2% lvm-vg xenvg |
1027 |
Sun Oct 25 22:21:45 2009 Repairing storage unit 'xenvg' on node2 ... |
1028 |
|
1029 |
Last is the modification of volume properties, which is (again) only |
1030 |
implemented for LVM physical volumes and allows toggling the |
1031 |
``allocatable`` value:: |
1032 |
|
1033 |
$ gnt-node modify-storage --allocatable=no %node2% lvm-pv /dev/%sdb1% |
1034 |
|
1035 |
Use of the storage commands |
1036 |
~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
1037 |
|
1038 |
All these commands are needed when recovering a node from a disk |
1039 |
failure: |
1040 |
|
1041 |
- first, we need to recover from complete LVM failure (due to missing |
1042 |
disk), by running the ``repair-storage`` command |
1043 |
- second, we need to change allocation on any partially-broken disk |
1044 |
(i.e. LVM still sees it, but it has bad blocks) by running |
1045 |
``modify-storage`` |
1046 |
- then we can evacuate the instances as needed |
1047 |
|
1048 |
|
1049 |
Cluster operations |
1050 |
------------------ |
1051 |
|
1052 |
Beside the cluster initialisation command (which is detailed in the |
1053 |
:doc:`install` document) and the master failover command which is |
1054 |
explained under node handling, there are a couple of other cluster |
1055 |
operations available. |
1056 |
|
1057 |
.. _cluster-config-label: |
1058 |
|
1059 |
Standard operations |
1060 |
+++++++++++++++++++ |
1061 |
|
1062 |
One of the few commands that can be run on any node (not only the |
1063 |
master) is the ``getmaster`` command:: |
1064 |
|
1065 |
# on node2 |
1066 |
$ gnt-cluster getmaster |
1067 |
node1.example.com |
1068 |
|
1069 |
It is possible to query and change global cluster parameters via the |
1070 |
``info`` and ``modify`` commands:: |
1071 |
|
1072 |
$ gnt-cluster info |
1073 |
Cluster name: cluster.example.com |
1074 |
Cluster UUID: 07805e6f-f0af-4310-95f1-572862ee939c |
1075 |
Creation time: 2009-09-25 05:04:15 |
1076 |
Modification time: 2009-10-18 22:11:47 |
1077 |
Master node: node1.example.com |
1078 |
Architecture (this node): 64bit (x86_64) |
1079 |
… |
1080 |
Tags: foo |
1081 |
Default hypervisor: xen-pvm |
1082 |
Enabled hypervisors: xen-pvm |
1083 |
Hypervisor parameters: |
1084 |
- xen-pvm: |
1085 |
root_path: /dev/sda1 |
1086 |
… |
1087 |
Cluster parameters: |
1088 |
- candidate pool size: 10 |
1089 |
… |
1090 |
Default instance parameters: |
1091 |
- default: |
1092 |
memory: 128 |
1093 |
… |
1094 |
Default nic parameters: |
1095 |
- default: |
1096 |
link: xen-br0 |
1097 |
… |
1098 |
|
1099 |
There various parameters above can be changed via the ``modify`` |
1100 |
commands as follows: |
1101 |
|
1102 |
- the hypervisor parameters can be changed via ``modify -H |
1103 |
xen-pvm:root_path=…``, and so on for other hypervisors/key/values |
1104 |
- the "default instance parameters" are changeable via ``modify -B |
1105 |
parameter=value…`` syntax |
1106 |
- the cluster parameters are changeable via separate options to the |
1107 |
modify command (e.g. ``--candidate-pool-size``, etc.) |
1108 |
|
1109 |
For detailed option list see the :manpage:`gnt-cluster(8)` man page. |
1110 |
|
1111 |
The cluster version can be obtained via the ``version`` command:: |
1112 |
$ gnt-cluster version |
1113 |
Software version: 2.1.0 |
1114 |
Internode protocol: 20 |
1115 |
Configuration format: 2010000 |
1116 |
OS api version: 15 |
1117 |
Export interface: 0 |
1118 |
|
1119 |
This is not very useful except when debugging Ganeti. |
1120 |
|
1121 |
Global node commands |
1122 |
++++++++++++++++++++ |
1123 |
|
1124 |
There are two commands provided for replicating files to all nodes of a |
1125 |
cluster and for running commands on all the nodes:: |
1126 |
|
1127 |
$ gnt-cluster copyfile %/path/to/file% |
1128 |
$ gnt-cluster command %ls -l /path/to/file% |
1129 |
|
1130 |
These are simple wrappers over scp/ssh and more advanced usage can be |
1131 |
obtained using :manpage:`dsh(1)` and similar commands. But they are |
1132 |
useful to update an OS script from the master node, for example. |
1133 |
|
1134 |
Cluster verification |
1135 |
++++++++++++++++++++ |
1136 |
|
1137 |
There are three commands that relate to global cluster checks. The first |
1138 |
one is ``verify`` which gives an overview on the cluster state, |
1139 |
highlighting any issues. In normal operation, this command should return |
1140 |
no ``ERROR`` messages:: |
1141 |
|
1142 |
$ gnt-cluster verify |
1143 |
Sun Oct 25 23:08:58 2009 * Verifying global settings |
1144 |
Sun Oct 25 23:08:58 2009 * Gathering data (2 nodes) |
1145 |
Sun Oct 25 23:09:00 2009 * Verifying node status |
1146 |
Sun Oct 25 23:09:00 2009 * Verifying instance status |
1147 |
Sun Oct 25 23:09:00 2009 * Verifying orphan volumes |
1148 |
Sun Oct 25 23:09:00 2009 * Verifying remaining instances |
1149 |
Sun Oct 25 23:09:00 2009 * Verifying N+1 Memory redundancy |
1150 |
Sun Oct 25 23:09:00 2009 * Other Notes |
1151 |
Sun Oct 25 23:09:00 2009 - NOTICE: 5 non-redundant instance(s) found. |
1152 |
Sun Oct 25 23:09:00 2009 * Hooks Results |
1153 |
|
1154 |
The second command is ``verify-disks``, which checks that the instance's |
1155 |
disks have the correct status based on the desired instance state |
1156 |
(up/down):: |
1157 |
|
1158 |
$ gnt-cluster verify-disks |
1159 |
|
1160 |
Note that this command will show no output when disks are healthy. |
1161 |
|
1162 |
The last command is used to repair any discrepancies in Ganeti's |
1163 |
recorded disk size and the actual disk size (disk size information is |
1164 |
needed for proper activation and growth of DRBD-based disks):: |
1165 |
|
1166 |
$ gnt-cluster repair-disk-sizes |
1167 |
Sun Oct 25 23:13:16 2009 - INFO: Disk 0 of instance instance1 has mismatched size, correcting: recorded 512, actual 2048 |
1168 |
Sun Oct 25 23:13:17 2009 - WARNING: Invalid result from node node4, ignoring node results |
1169 |
|
1170 |
The above shows one instance having wrong disk size, and a node which |
1171 |
returned invalid data, and thus we ignored all primary instances of that |
1172 |
node. |
1173 |
|
1174 |
Configuration redistribution |
1175 |
++++++++++++++++++++++++++++ |
1176 |
|
1177 |
If the verify command complains about file mismatches between the master |
1178 |
and other nodes, due to some node problems or if you manually modified |
1179 |
configuration files, you can force an push of the master configuration |
1180 |
to all other nodes via the ``redist-conf`` command:: |
1181 |
|
1182 |
$ gnt-cluster redist-conf |
1183 |
|
1184 |
This command will be silent unless there are problems sending updates to |
1185 |
the other nodes. |
1186 |
|
1187 |
|
1188 |
Cluster renaming |
1189 |
++++++++++++++++ |
1190 |
|
1191 |
It is possible to rename a cluster, or to change its IP address, via the |
1192 |
``rename`` command. If only the IP has changed, you need to pass the |
1193 |
current name and Ganeti will realise its IP has changed:: |
1194 |
|
1195 |
$ gnt-cluster rename %cluster.example.com% |
1196 |
This will rename the cluster to 'cluster.example.com'. If |
1197 |
you are connected over the network to the cluster name, the operation |
1198 |
is very dangerous as the IP address will be removed from the node and |
1199 |
the change may not go through. Continue? |
1200 |
y/[n]/?: %y% |
1201 |
Failure: prerequisites not met for this operation: |
1202 |
Neither the name nor the IP address of the cluster has changed |
1203 |
|
1204 |
In the above output, neither value has changed since the cluster |
1205 |
initialisation so the operation is not completed. |
1206 |
|
1207 |
Queue operations |
1208 |
++++++++++++++++ |
1209 |
|
1210 |
The job queue execution in Ganeti 2.0 and higher can be inspected, |
1211 |
suspended and resumed via the ``queue`` command:: |
1212 |
|
1213 |
$ gnt-cluster queue info |
1214 |
The drain flag is unset |
1215 |
$ gnt-cluster queue drain |
1216 |
$ gnt-instance stop %instance1% |
1217 |
Failed to submit job for instance1: Job queue is drained, refusing job |
1218 |
$ gnt-cluster queue info |
1219 |
The drain flag is set |
1220 |
$ gnt-cluster queue undrain |
1221 |
|
1222 |
This is most useful if you have an active cluster and you need to |
1223 |
upgrade the Ganeti software, or simply restart the software on any node: |
1224 |
|
1225 |
#. suspend the queue via ``queue drain`` |
1226 |
#. wait until there are no more running jobs via ``gnt-job list`` |
1227 |
#. restart the master or another node, or upgrade the software |
1228 |
#. resume the queue via ``queue undrain`` |
1229 |
|
1230 |
.. note:: this command only stores a local flag file, and if you |
1231 |
failover the master, it will not have effect on the new master. |
1232 |
|
1233 |
|
1234 |
Watcher control |
1235 |
+++++++++++++++ |
1236 |
|
1237 |
The :manpage:`ganeti-watcher(8)` is a program, usually scheduled via |
1238 |
``cron``, that takes care of cluster maintenance operations (restarting |
1239 |
downed instances, activating down DRBD disks, etc.). However, during |
1240 |
maintenance and troubleshooting, this can get in your way; disabling it |
1241 |
via commenting out the cron job is not so good as this can be |
1242 |
forgotten. Thus there are some commands for automated control of the |
1243 |
watcher: ``pause``, ``info`` and ``continue``:: |
1244 |
|
1245 |
$ gnt-cluster watcher info |
1246 |
The watcher is not paused. |
1247 |
$ gnt-cluster watcher pause %1h% |
1248 |
The watcher is paused until Mon Oct 26 00:30:37 2009. |
1249 |
$ gnt-cluster watcher info |
1250 |
The watcher is paused until Mon Oct 26 00:30:37 2009. |
1251 |
$ ganeti-watcher -d |
1252 |
2009-10-25 23:30:47,984: pid=28867 ganeti-watcher:486 DEBUG Pause has been set, exiting |
1253 |
$ gnt-cluster watcher continue |
1254 |
The watcher is no longer paused. |
1255 |
$ ganeti-watcher -d |
1256 |
2009-10-25 23:31:04,789: pid=28976 ganeti-watcher:345 DEBUG Archived 0 jobs, left 0 |
1257 |
2009-10-25 23:31:05,884: pid=28976 ganeti-watcher:280 DEBUG Got data from cluster, writing instance status file |
1258 |
2009-10-25 23:31:06,061: pid=28976 ganeti-watcher:150 DEBUG Data didn't change, just touching status file |
1259 |
$ gnt-cluster watcher info |
1260 |
The watcher is not paused. |
1261 |
|
1262 |
The exact details of the argument to the ``pause`` command are available |
1263 |
in the manpage. |
1264 |
|
1265 |
.. note:: this command only stores a local flag file, and if you |
1266 |
failover the master, it will not have effect on the new master. |
1267 |
|
1268 |
Node auto-maintenance |
1269 |
+++++++++++++++++++++ |
1270 |
|
1271 |
If the cluster parameter ``maintain_node_health`` is enabled (see the |
1272 |
manpage for :command:`gnt-cluster`, the init and modify subcommands), |
1273 |
then the following will happen automatically: |
1274 |
|
1275 |
- the watcher will shutdown any instances running on offline nodes |
1276 |
- the watcher will deactivate any DRBD devices on offline nodes |
1277 |
|
1278 |
In the future, more actions are planned, so only enable this parameter |
1279 |
if the nodes are completely dedicated to Ganeti; otherwise it might be |
1280 |
possible to lose data due to auto-maintenance actions. |
1281 |
|
1282 |
Removing a cluster entirely |
1283 |
+++++++++++++++++++++++++++ |
1284 |
|
1285 |
The usual method to cleanup a cluster is to run ``gnt-cluster destroy`` |
1286 |
however if the Ganeti installation is broken in any way then this will |
1287 |
not run. |
1288 |
|
1289 |
It is possible in such a case to cleanup manually most if not all traces |
1290 |
of a cluster installation by following these steps on all of the nodes: |
1291 |
|
1292 |
1. Shutdown all instances. This depends on the virtualisation method |
1293 |
used (Xen, KVM, etc.): |
1294 |
|
1295 |
- Xen: run ``xm list`` and ``xm destroy`` on all the non-Domain-0 |
1296 |
instances |
1297 |
- KVM: kill all the KVM processes |
1298 |
- chroot: kill all processes under the chroot mountpoints |
1299 |
|
1300 |
2. If using DRBD, shutdown all DRBD minors (which should by at this time |
1301 |
no-longer in use by instances); on each node, run ``drbdsetup |
1302 |
/dev/drbdN down`` for each active DRBD minor. |
1303 |
|
1304 |
3. If using LVM, cleanup the Ganeti volume group; if only Ganeti created |
1305 |
logical volumes (and you are not sharing the volume group with the |
1306 |
OS, for example), then simply running ``lvremove -f xenvg`` (replace |
1307 |
'xenvg' with your volume group name) should do the required cleanup. |
1308 |
|
1309 |
4. If using file-based storage, remove recursively all files and |
1310 |
directories under your file-storage directory: ``rm -rf |
1311 |
/srv/ganeti/file-storage/*`` replacing the path with the correct path |
1312 |
for your cluster. |
1313 |
|
1314 |
5. Stop the ganeti daemons (``/etc/init.d/ganeti stop``) and kill any |
1315 |
that remain alive (``pgrep ganeti`` and ``pkill ganeti``). |
1316 |
|
1317 |
6. Remove the ganeti state directory (``rm -rf /var/lib/ganeti/*``), |
1318 |
replacing the path with the correct path for your installation. |
1319 |
|
1320 |
7. If using RBD, run ``rbd unmap /dev/rbdN`` to unmap the RBD disks. |
1321 |
Then remove the RBD disk images used by Ganeti, identified by their |
1322 |
UUIDs (``rbd rm uuid.rbd.diskN``). |
1323 |
|
1324 |
On the master node, remove the cluster from the master-netdev (usually |
1325 |
``xen-br0`` for bridged mode, otherwise ``eth0`` or similar), by running |
1326 |
``ip a del $clusterip/32 dev xen-br0`` (use the correct cluster ip and |
1327 |
network device name). |
1328 |
|
1329 |
At this point, the machines are ready for a cluster creation; in case |
1330 |
you want to remove Ganeti completely, you need to also undo some of the |
1331 |
SSH changes and log directories: |
1332 |
|
1333 |
- ``rm -rf /var/log/ganeti /srv/ganeti`` (replace with the correct |
1334 |
paths) |
1335 |
- remove from ``/root/.ssh`` the keys that Ganeti added (check the |
1336 |
``authorized_keys`` and ``id_dsa`` files) |
1337 |
- regenerate the host's SSH keys (check the OpenSSH startup scripts) |
1338 |
- uninstall Ganeti |
1339 |
|
1340 |
Otherwise, if you plan to re-create the cluster, you can just go ahead |
1341 |
and rerun ``gnt-cluster init``. |
1342 |
|
1343 |
Monitoring the cluster |
1344 |
---------------------- |
1345 |
|
1346 |
Starting with Ganeti 2.8, a monitoring daemon is available, providing |
1347 |
information about the status and the performance of the system. |
1348 |
|
1349 |
The monitoring daemon runs on every node, listening on TCP port 1815. Each |
1350 |
instance of the daemon provides information related to the node it is running |
1351 |
on. |
1352 |
|
1353 |
.. include:: monitoring-query-format.rst |
1354 |
|
1355 |
Tags handling |
1356 |
------------- |
1357 |
|
1358 |
The tags handling (addition, removal, listing) is similar for all the |
1359 |
objects that support it (instances, nodes, and the cluster). |
1360 |
|
1361 |
Limitations |
1362 |
+++++++++++ |
1363 |
|
1364 |
Note that the set of characters present in a tag and the maximum tag |
1365 |
length are restricted. Currently the maximum length is 128 characters, |
1366 |
there can be at most 4096 tags per object, and the set of characters is |
1367 |
comprised by alphanumeric characters and additionally ``.+*/:@-``. |
1368 |
|
1369 |
Operations |
1370 |
++++++++++ |
1371 |
|
1372 |
Tags can be added via ``add-tags``:: |
1373 |
|
1374 |
$ gnt-instance add-tags %INSTANCE% %a% %b% %c% |
1375 |
$ gnt-node add-tags %INSTANCE% %a% %b% %c% |
1376 |
$ gnt-cluster add-tags %a% %b% %c% |
1377 |
|
1378 |
|
1379 |
The above commands add three tags to an instance, to a node and to the |
1380 |
cluster. Note that the cluster command only takes tags as arguments, |
1381 |
whereas the node and instance commands first required the node and |
1382 |
instance name. |
1383 |
|
1384 |
Tags can also be added from a file, via the ``--from=FILENAME`` |
1385 |
argument. The file is expected to contain one tag per line. |
1386 |
|
1387 |
Tags can also be remove via a syntax very similar to the add one:: |
1388 |
|
1389 |
$ gnt-instance remove-tags %INSTANCE% %a% %b% %c% |
1390 |
|
1391 |
And listed via:: |
1392 |
|
1393 |
$ gnt-instance list-tags |
1394 |
$ gnt-node list-tags |
1395 |
$ gnt-cluster list-tags |
1396 |
|
1397 |
Global tag search |
1398 |
+++++++++++++++++ |
1399 |
|
1400 |
It is also possible to execute a global search on the all tags defined |
1401 |
in the cluster configuration, via a cluster command:: |
1402 |
|
1403 |
$ gnt-cluster search-tags %REGEXP% |
1404 |
|
1405 |
The parameter expected is a regular expression (see |
1406 |
:manpage:`regex(7)`). This will return all tags that match the search, |
1407 |
together with the object they are defined in (the names being show in a |
1408 |
hierarchical kind of way):: |
1409 |
|
1410 |
$ gnt-cluster search-tags %o% |
1411 |
/cluster foo |
1412 |
/instances/instance1 owner:bar |
1413 |
|
1414 |
Autorepair |
1415 |
---------- |
1416 |
|
1417 |
The tool ``harep`` can be used to automatically fix some problems that are |
1418 |
present in the cluster. |
1419 |
|
1420 |
It is mainly meant to be regularly and automatically executed |
1421 |
as a cron job. This is quite evident by considering that, when executed, it does |
1422 |
not immediately fix all the issues of the instances of the cluster, but it |
1423 |
cycles the instances through a series of states, one at every ``harep`` |
1424 |
execution. Every state performs a step towards the resolution of the problem. |
1425 |
This process goes on until the instance is brought back to the healthy state, |
1426 |
or the tool realizes that it is not able to fix the instance, and |
1427 |
therefore marks it as in failure state. |
1428 |
|
1429 |
Allowing harep to act on the cluster |
1430 |
++++++++++++++++++++++++++++++++++++ |
1431 |
|
1432 |
By default, ``harep`` checks the status of the cluster but it is not allowed to |
1433 |
perform any modification. Modification must be explicitly allowed by an |
1434 |
appropriate use of tags. Tagging can be applied at various levels, and can |
1435 |
enable different kinds of autorepair, as hereafter described. |
1436 |
|
1437 |
All the tags that authorize ``harep`` to perform modifications follow this |
1438 |
syntax:: |
1439 |
|
1440 |
ganeti:watcher:autorepair:<type> |
1441 |
|
1442 |
where ``<type>`` indicates the kind of intervention that can be performed. Every |
1443 |
possible value of ``<type>`` includes at least all the authorization of the |
1444 |
previous one, plus its own. The possible values, in increasing order of |
1445 |
severity, are: |
1446 |
|
1447 |
- ``fix-storage`` allows a disk replacement or another operation that |
1448 |
fixes the instance backend storage without affecting the instance |
1449 |
itself. This can for example recover from a broken drbd secondary, but |
1450 |
risks data loss if something is wrong on the primary but the secondary |
1451 |
was somehow recoverable. |
1452 |
- ``migrate`` allows an instance migration. This can recover from a |
1453 |
drained primary, but can cause an instance crash in some cases (bugs). |
1454 |
- ``failover`` allows instance reboot on the secondary. This can recover |
1455 |
from an offline primary, but the instance will lose its running state. |
1456 |
- ``reinstall`` allows disks to be recreated and an instance to be |
1457 |
reinstalled. This can recover from primary&secondary both being |
1458 |
offline, or from an offline primary in the case of non-redundant |
1459 |
instances. It causes data loss. |
1460 |
|
1461 |
These autorepair tags can be applied to a cluster, a nodegroup or an instance, |
1462 |
and will act where they are applied and to everything in the entities sub-tree |
1463 |
(e.g. a tag applied to a nodegroup will apply to all the instances contained in |
1464 |
that nodegroup, but not to the rest of the cluster). |
1465 |
|
1466 |
If there are multiple ``ganeti:watcher:autorepair:<type>`` tags in an |
1467 |
object (cluster, node group or instance), the least destructive tag |
1468 |
takes precedence. When multiplicity happens across objects, the nearest |
1469 |
tag wins. For example, if in a cluster with two instances, *I1* and |
1470 |
*I2*, *I1* has ``failover``, and the cluster itself has both |
1471 |
``fix-storage`` and ``reinstall``, *I1* will end up with ``failover`` |
1472 |
and *I2* with ``fix-storage``. |
1473 |
|
1474 |
Limiting harep |
1475 |
++++++++++++++ |
1476 |
|
1477 |
Sometimes it is useful to stop harep from performing its task temporarily, |
1478 |
and it is useful to be able to do so without distrupting its configuration, that |
1479 |
is, without removing the authorization tags. In order to do this, suspend tags |
1480 |
are provided. |
1481 |
|
1482 |
Suspend tags can be added to cluster, nodegroup or instances, and act on the |
1483 |
entire entities sub-tree. No operation will be performed by ``harep`` on the |
1484 |
instances protected by a suspend tag. Their syntax is as follows:: |
1485 |
|
1486 |
ganeti:watcher:autorepair:suspend[:<timestamp>] |
1487 |
|
1488 |
If there are multiple suspend tags in an object, the form without timestamp |
1489 |
takes precedence (permanent suspension); or, if all object tags have a |
1490 |
timestamp, the one with the highest timestamp. |
1491 |
|
1492 |
Tags with a timestamp will be automatically removed when the time indicated by |
1493 |
the timestamp is passed. Indefinite suspension tags have to be removed manually. |
1494 |
|
1495 |
Result reporting |
1496 |
++++++++++++++++ |
1497 |
|
1498 |
Harep will report about the result of its actions both through its CLI, and by |
1499 |
adding tags to the instances it operated on. Such tags will follow the syntax |
1500 |
hereby described:: |
1501 |
|
1502 |
ganeti:watcher:autorepair:result:<type>:<id>:<timestamp>:<result>:<jobs> |
1503 |
|
1504 |
If this tag is present a repair of type ``type`` has been performed on |
1505 |
the instance and has been completed by ``timestamp``. The result is |
1506 |
either ``success``, ``failure`` or ``enoperm``, and jobs is a |
1507 |
*+*-separated list of jobs that were executed for this repair. |
1508 |
|
1509 |
An ``enoperm`` result is an error state due to permission problems. It |
1510 |
is returned when the repair cannot proceed because it would require to perform |
1511 |
an operation that is not allowed by the ``ganeti:watcher:autorepair:<type>`` tag |
1512 |
that is defining the instance autorepair permissions. |
1513 |
|
1514 |
NB: if an instance repair ends up in a failure state, it will not be touched |
1515 |
again by ``harep`` until it has been manually fixed by the system administrator |
1516 |
and the ``ganeti:watcher:autorepair:result:failure:*`` tag has been manually |
1517 |
removed. |
1518 |
|
1519 |
Job operations |
1520 |
-------------- |
1521 |
|
1522 |
The various jobs submitted by the instance/node/cluster commands can be |
1523 |
examined, canceled and archived by various invocations of the |
1524 |
``gnt-job`` command. |
1525 |
|
1526 |
First is the job list command:: |
1527 |
|
1528 |
$ gnt-job list |
1529 |
17771 success INSTANCE_QUERY_DATA |
1530 |
17773 success CLUSTER_VERIFY_DISKS |
1531 |
17775 success CLUSTER_REPAIR_DISK_SIZES |
1532 |
17776 error CLUSTER_RENAME(cluster.example.com) |
1533 |
17780 success CLUSTER_REDIST_CONF |
1534 |
17792 success INSTANCE_REBOOT(instance1.example.com) |
1535 |
|
1536 |
More detailed information about a job can be found via the ``info`` |
1537 |
command:: |
1538 |
|
1539 |
$ gnt-job info %17776% |
1540 |
Job ID: 17776 |
1541 |
Status: error |
1542 |
Received: 2009-10-25 23:18:02.180569 |
1543 |
Processing start: 2009-10-25 23:18:02.200335 (delta 0.019766s) |
1544 |
Processing end: 2009-10-25 23:18:02.279743 (delta 0.079408s) |
1545 |
Total processing time: 0.099174 seconds |
1546 |
Opcodes: |
1547 |
OP_CLUSTER_RENAME |
1548 |
Status: error |
1549 |
Processing start: 2009-10-25 23:18:02.200335 |
1550 |
Processing end: 2009-10-25 23:18:02.252282 |
1551 |
Input fields: |
1552 |
name: cluster.example.com |
1553 |
Result: |
1554 |
OpPrereqError |
1555 |
[Neither the name nor the IP address of the cluster has changed] |
1556 |
Execution log: |
1557 |
|
1558 |
During the execution of a job, it's possible to follow the output of a |
1559 |
job, similar to the log that one get from the ``gnt-`` commands, via the |
1560 |
watch command:: |
1561 |
|
1562 |
$ gnt-instance add --submit … %instance1% |
1563 |
JobID: 17818 |
1564 |
$ gnt-job watch %17818% |
1565 |
Output from job 17818 follows |
1566 |
----------------------------- |
1567 |
Mon Oct 26 00:22:48 2009 - INFO: Selected nodes for instance instance1 via iallocator dumb: node1, node2 |
1568 |
Mon Oct 26 00:22:49 2009 * creating instance disks... |
1569 |
Mon Oct 26 00:22:52 2009 adding instance instance1 to cluster config |
1570 |
Mon Oct 26 00:22:52 2009 - INFO: Waiting for instance instance1 to sync disks. |
1571 |
… |
1572 |
Mon Oct 26 00:23:03 2009 creating os for instance instance1 on node node1 |
1573 |
Mon Oct 26 00:23:03 2009 * running the instance OS create scripts... |
1574 |
Mon Oct 26 00:23:13 2009 * starting instance... |
1575 |
$ |
1576 |
|
1577 |
This is useful if you need to follow a job's progress from multiple |
1578 |
terminals. |
1579 |
|
1580 |
A job that has not yet started to run can be canceled:: |
1581 |
|
1582 |
$ gnt-job cancel %17810% |
1583 |
|
1584 |
But not one that has already started execution:: |
1585 |
|
1586 |
$ gnt-job cancel %17805% |
1587 |
Job 17805 is no longer waiting in the queue |
1588 |
|
1589 |
There are two queues for jobs: the *current* and the *archive* |
1590 |
queue. Jobs are initially submitted to the current queue, and they stay |
1591 |
in that queue until they have finished execution (either successfully or |
1592 |
not). At that point, they can be moved into the archive queue using e.g. |
1593 |
``gnt-job autoarchive all``. The ``ganeti-watcher`` script will do this |
1594 |
automatically 6 hours after a job is finished. The ``ganeti-cleaner`` |
1595 |
script will then remove archived the jobs from the archive directory |
1596 |
after three weeks. |
1597 |
|
1598 |
Note that ``gnt-job list`` only shows jobs in the current queue. |
1599 |
Archived jobs can be viewed using ``gnt-job info <id>``. |
1600 |
|
1601 |
Special Ganeti deployments |
1602 |
-------------------------- |
1603 |
|
1604 |
Since Ganeti 2.4, it is possible to extend the Ganeti deployment with |
1605 |
two custom scenarios: Ganeti inside Ganeti and multi-site model. |
1606 |
|
1607 |
Running Ganeti under Ganeti |
1608 |
+++++++++++++++++++++++++++ |
1609 |
|
1610 |
It is sometimes useful to be able to use a Ganeti instance as a Ganeti |
1611 |
node (part of another cluster, usually). One example scenario is two |
1612 |
small clusters, where we want to have an additional master candidate |
1613 |
that holds the cluster configuration and can be used for helping with |
1614 |
the master voting process. |
1615 |
|
1616 |
However, these Ganeti instance should not host instances themselves, and |
1617 |
should not be considered in the normal capacity planning, evacuation |
1618 |
strategies, etc. In order to accomplish this, mark these nodes as |
1619 |
non-``vm_capable``:: |
1620 |
|
1621 |
$ gnt-node modify --vm-capable=no %node3% |
1622 |
|
1623 |
The vm_capable status can be listed as usual via ``gnt-node list``:: |
1624 |
|
1625 |
$ gnt-node list -oname,vm_capable |
1626 |
Node VMCapable |
1627 |
node1 Y |
1628 |
node2 Y |
1629 |
node3 N |
1630 |
|
1631 |
When this flag is set, the cluster will not do any operations that |
1632 |
relate to instances on such nodes, e.g. hypervisor operations, |
1633 |
disk-related operations, etc. Basically they will just keep the ssconf |
1634 |
files, and if master candidates the full configuration. |
1635 |
|
1636 |
Multi-site model |
1637 |
++++++++++++++++ |
1638 |
|
1639 |
If Ganeti is deployed in multi-site model, with each site being a node |
1640 |
group (so that instances are not relocated across the WAN by mistake), |
1641 |
it is conceivable that either the WAN latency is high or that some sites |
1642 |
have a lower reliability than others. In this case, it doesn't make |
1643 |
sense to replicate the job information across all sites (or even outside |
1644 |
of a “central” node group), so it should be possible to restrict which |
1645 |
nodes can become master candidates via the auto-promotion algorithm. |
1646 |
|
1647 |
Ganeti 2.4 introduces for this purpose a new ``master_capable`` flag, |
1648 |
which (when unset) prevents nodes from being marked as master |
1649 |
candidates, either manually or automatically. |
1650 |
|
1651 |
As usual, the node modify operation can change this flag:: |
1652 |
|
1653 |
$ gnt-node modify --auto-promote --master-capable=no %node3% |
1654 |
Fri Jan 7 06:23:07 2011 - INFO: Demoting from master candidate |
1655 |
Fri Jan 7 06:23:08 2011 - INFO: Promoted nodes to master candidate role: node4 |
1656 |
Modified node node3 |
1657 |
- master_capable -> False |
1658 |
- master_candidate -> False |
1659 |
|
1660 |
And the node list operation will list this flag:: |
1661 |
|
1662 |
$ gnt-node list -oname,master_capable %node1% %node2% %node3% |
1663 |
Node MasterCapable |
1664 |
node1 Y |
1665 |
node2 Y |
1666 |
node3 N |
1667 |
|
1668 |
Note that marking a node both not ``vm_capable`` and not |
1669 |
``master_capable`` makes the node practically unusable from Ganeti's |
1670 |
point of view. Hence these two flags should be used probably in |
1671 |
contrast: some nodes will be only master candidates (master_capable but |
1672 |
not vm_capable), and other nodes will only hold instances (vm_capable |
1673 |
but not master_capable). |
1674 |
|
1675 |
|
1676 |
Ganeti tools |
1677 |
------------ |
1678 |
|
1679 |
Beside the usual ``gnt-`` and ``ganeti-`` commands which are provided |
1680 |
and installed in ``$prefix/sbin`` at install time, there are a couple of |
1681 |
other tools installed which are used seldom but can be helpful in some |
1682 |
cases. |
1683 |
|
1684 |
lvmstrap |
1685 |
++++++++ |
1686 |
|
1687 |
The ``lvmstrap`` tool, introduced in :ref:`configure-lvm-label` section, |
1688 |
has two modes of operation: |
1689 |
|
1690 |
- ``diskinfo`` shows the discovered disks on the system and their status |
1691 |
- ``create`` takes all not-in-use disks and creates a volume group out |
1692 |
of them |
1693 |
|
1694 |
.. warning:: The ``create`` argument to this command causes data-loss! |
1695 |
|
1696 |
cfgupgrade |
1697 |
++++++++++ |
1698 |
|
1699 |
The ``cfgupgrade`` tools is used to upgrade between major (and minor) |
1700 |
Ganeti versions, and to roll back. Point-releases are usually |
1701 |
transparent for the admin. |
1702 |
|
1703 |
More information about the upgrade procedure is listed on the wiki at |
1704 |
http://code.google.com/p/ganeti/wiki/UpgradeNotes. |
1705 |
|
1706 |
There is also a script designed to upgrade from Ganeti 1.2 to 2.0, |
1707 |
called ``cfgupgrade12``. |
1708 |
|
1709 |
cfgshell |
1710 |
++++++++ |
1711 |
|
1712 |
.. note:: This command is not actively maintained; make sure you backup |
1713 |
your configuration before using it |
1714 |
|
1715 |
This can be used as an alternative to direct editing of the |
1716 |
main configuration file if Ganeti has a bug and prevents you, for |
1717 |
example, from removing an instance or a node from the configuration |
1718 |
file. |
1719 |
|
1720 |
.. _burnin-label: |
1721 |
|
1722 |
burnin |
1723 |
++++++ |
1724 |
|
1725 |
.. warning:: This command will erase existing instances if given as |
1726 |
arguments! |
1727 |
|
1728 |
This tool is used to exercise either the hardware of machines or |
1729 |
alternatively the Ganeti software. It is safe to run on an existing |
1730 |
cluster **as long as you don't pass it existing instance names**. |
1731 |
|
1732 |
The command will, by default, execute a comprehensive set of operations |
1733 |
against a list of instances, these being: |
1734 |
|
1735 |
- creation |
1736 |
- disk replacement (for redundant instances) |
1737 |
- failover and migration (for redundant instances) |
1738 |
- move (for non-redundant instances) |
1739 |
- disk growth |
1740 |
- add disks, remove disk |
1741 |
- add NICs, remove NICs |
1742 |
- export and then import |
1743 |
- rename |
1744 |
- reboot |
1745 |
- shutdown/startup |
1746 |
- and finally removal of the test instances |
1747 |
|
1748 |
Executing all these operations will test that the hardware performs |
1749 |
well: the creation, disk replace, disk add and disk growth will exercise |
1750 |
the storage and network; the migrate command will test the memory of the |
1751 |
systems. Depending on the passed options, it can also test that the |
1752 |
instance OS definitions are executing properly the rename, import and |
1753 |
export operations. |
1754 |
|
1755 |
sanitize-config |
1756 |
+++++++++++++++ |
1757 |
|
1758 |
This tool takes the Ganeti configuration and outputs a "sanitized" |
1759 |
version, by randomizing or clearing: |
1760 |
|
1761 |
- DRBD secrets and cluster public key (always) |
1762 |
- host names (optional) |
1763 |
- IPs (optional) |
1764 |
- OS names (optional) |
1765 |
- LV names (optional, only useful for very old clusters which still have |
1766 |
instances whose LVs are based on the instance name) |
1767 |
|
1768 |
By default, all optional items are activated except the LV name |
1769 |
randomization. When passing ``--no-randomization``, which disables the |
1770 |
optional items (i.e. just the DRBD secrets and cluster public keys are |
1771 |
randomized), the resulting file can be used as a safety copy of the |
1772 |
cluster config - while not trivial, the layout of the cluster can be |
1773 |
recreated from it and if the instance disks have not been lost it |
1774 |
permits recovery from the loss of all master candidates. |
1775 |
|
1776 |
move-instance |
1777 |
+++++++++++++ |
1778 |
|
1779 |
See :doc:`separate documentation for move-instance <move-instance>`. |
1780 |
|
1781 |
users-setup |
1782 |
+++++++++++ |
1783 |
|
1784 |
Ganeti can either be run entirely as root, or with every daemon running as |
1785 |
its own specific user (if the parameters ``--with-user-prefix`` and/or |
1786 |
``--with-group-prefix`` have been specified at ``./configure``-time). |
1787 |
|
1788 |
In case split users are activated, they are required to exist on the system, |
1789 |
and they need to belong to the proper groups in order for the access |
1790 |
permissions to files and programs to be correct. |
1791 |
|
1792 |
The ``users-setup`` tool, when run, takes care of setting up the proper |
1793 |
users and groups. |
1794 |
|
1795 |
When invoked without parameters, the tool runs in interactive mode, showing the |
1796 |
list of actions it will perform and asking for confirmation before proceeding. |
1797 |
|
1798 |
Providing the ``--yes-do-it`` parameter to the tool prevents the confirmation |
1799 |
from being asked, and the users and groups will be created immediately. |
1800 |
|
1801 |
.. TODO: document cluster-merge tool |
1802 |
|
1803 |
|
1804 |
Other Ganeti projects |
1805 |
--------------------- |
1806 |
|
1807 |
Below is a list (which might not be up-to-date) of additional projects |
1808 |
that can be useful in a Ganeti deployment. They can be downloaded from |
1809 |
the project site (http://code.google.com/p/ganeti/) and the repositories |
1810 |
are also on the project git site (http://git.ganeti.org). |
1811 |
|
1812 |
NBMA tools |
1813 |
++++++++++ |
1814 |
|
1815 |
The ``ganeti-nbma`` software is designed to allow instances to live on a |
1816 |
separate, virtual network from the nodes, and in an environment where |
1817 |
nodes are not guaranteed to be able to reach each other via multicasting |
1818 |
or broadcasting. For more information see the README in the source |
1819 |
archive. |
1820 |
|
1821 |
ganeti-htools |
1822 |
+++++++++++++ |
1823 |
|
1824 |
Before Ganeti version 2.5, this was a standalone project; since that |
1825 |
version it is integrated into the Ganeti codebase (see |
1826 |
:doc:`install-quick` for instructions on how to enable it). If you run |
1827 |
an older Ganeti version, you will have to download and build it |
1828 |
separately. |
1829 |
|
1830 |
For more information and installation instructions, see the README file |
1831 |
in the source archive. |
1832 |
|
1833 |
.. vim: set textwidth=72 : |
1834 |
.. Local Variables: |
1835 |
.. mode: rst |
1836 |
.. fill-column: 72 |
1837 |
.. End: |