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https://github.com/sheepdog/sheepdog

Distributed Storage System for QEMU
https://github.com/sheepdog/sheepdog

blockdevice c distributed-storage iscsi iscsi-target qemu qemu-kvm software-defined-storage storage virtualization vmm

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Distributed Storage System for QEMU

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README 

        
Sheepdog: Distributed Storage System for KVM

============================================



Overview

--------

Sheepdog is a distributed storage system for QEMU. It provides

highly available block level storage volumes to virtual machines. 

Sheepdog supports advanced volume management features such as snapshot,

cloning, and thin provisioning.



Sheepdog is an Open Source software, released under the terms of the

GNU General Public License version 2. 



For the latest information about Sheepdog, please visit our website at:



   http://sheepdog.github.io/sheepdog/



And (recommend for new comers) wiki at:

   https://github.com/sheepdog/sheepdog/wiki/



Requirements

------------

* Three or more x86-64 machines

* Corosync cluster engine



Install

-------

Please read the INSTALL file distributed with this package for detailed

instructions on installing or compiling from source.



Usage

-----



* Cluster Management Backends



   Sheepdog uses a cluster management backend to manage membership and broadcast

   messages to the cluster nodes.



   For now, sheepdog can use local driver (for development on a single box),

   corosync (the default), zookeeper and Accord.



* Local Driver



   This driver just makes use of UNIX IPC mechanism to manage the membership

   on a single box, where we start multiple 'sheep' processes to simulate the

   cluster. It is very easy and fast setup and especially useful to test

   functionality without involving any other software.



   To set up a 3 node cluster using local driver in one liner bash:



      $ mkdir /path/to/store

      $ for i in 0 1 2; do sheep -c local /path/to/store/$i -z $i -p 700$i;done



* Configure corosync.



   Nearly every modern Linux distribution has x86_64 corosync binaries pre-built

   available via their repositories. We recommend you use these packages if they

   are available on your distribution.



   For debian package based systems:



      $ sudo aptitude install corosync libcorosync-dev



   For RPM package based systems:



      $ sudo yum install corosynclib-devel



   Reference our wiki, the corosync(8) and corosync.conf(5) man page for further

   details.



* Setup Sheepdog

   1. Launch sheepdog on each machines of the cluster.



      $ sheep /store_dir



      Notes:

        /store_dir is a directory to store objects. The directory must

        be on the filesystem with an xattr support. In case of ext3, you

        need to add 'user_xattr' to the mount options.



        $ sudo mount -o remount,user_xattr /store_device



   2. Make fs



      $ dog cluster format --copies=3



      --copies specifies the number of default data redundancy. In this case,

      the replicated data is stored on three machines.



   3. Check cluster state



      Following list shows that Sheepdog is running on 32 nodes.



      $ dog node list

        Idx	Node id (FNV-1a) - Host:Port

      ------------------------------------------------

        0	0308164db75cff7e - 10.68.13.15:7000

      * 1	03104d8b4315c8e4 - 10.68.13.1:7000

        2	0ab18c565bc14aea - 10.68.13.3:7000

        3	0c0d27f0ac395f5d - 10.68.13.16:7000

        4	127ee4802991f308 - 10.68.13.13:7000

        5	135ff2beab2a9809 - 10.68.14.5:7000

        6	17bd6240eab65870 - 10.68.14.4:7000

        7	1cf35757cbf47d7b - 10.68.13.10:7000

        8	1df9580b8960a992 - 10.68.13.11:7000

        9	29307d3fa5a04f78 - 10.68.14.12:7000

        10	29dcb3474e31d4f3 - 10.68.14.15:7000

        11	29e089c98dd2a144 - 10.68.14.16:7000

        12	2a118b7e2738f479 - 10.68.13.4:7000

        13	3d6aea26ba79d75f - 10.68.13.6:7000

        14	42f9444ead801767 - 10.68.14.11:7000

        15	562c6f38283d09fe - 10.68.14.2:7000

        16	5dd5e540cca1556a - 10.68.14.6:7000

        17	6c12a5d10f10e291 - 10.68.14.13:7000

        18	6dae1d955ca72d96 - 10.68.13.7:7000

        19	711db0f5fa40b412 - 10.68.14.14:7000

        20	7c6b95212ee7c085 - 10.68.14.9:7000

        21	7d010c31bf11df73 - 10.68.13.2:7000

        22	82c43e908b1f3f01 - 10.68.13.12:7000

        23	931d2de0aaf61cf5 - 10.68.13.8:7000

        24	961d9d391e6021e7 - 10.68.13.14:7000

        25	9a3ef6fa1081026c - 10.68.13.9:7000

        26	b0b3d300fed8bc26 - 10.68.14.10:7000

        27	b0f08fb98c8f5edc - 10.68.14.8:7000

        28	b9cc316dc5aba880 - 10.68.13.5:7000

        29	d9eda1ec29c2eeeb - 10.68.14.7:7000

        30	e53cebb2617c86fd - 10.68.14.1:7000

        31	ea46913c4999ccdf - 10.68.14.3:7000



* Create a virtual machine image

   1. Create a 256 GB virtual machine image of Alice.



      $ qemu-img create sheepdog:Alice 256G



   2. You can also convert from existing KVM images to Sheepdog ones.



      $ qemu-img convert ~/amd64.raw sheepdog:Bob



   3. See Sheepdog images by the following command.



      $ dog vdi list

        name        id    size    used  shared    creation time  object id

      --------------------------------------------------------------------

        Bob          0  2.0 GB  1.6 GB  0.0 MB 2010-03-23 16:16      80000

        Alice        0  256 GB  0.0 MB  0.0 MB 2010-03-23 16:16      40000



* Boot the virtual machine

   1. Boot the virtual machine.



      $ qemu-system-x86_64 -hda sheepdog:Alice



   2. Following command checks used images.



      $ dog vm list

      Name            |Vdi size |Allocated| Shared  | Status

      ----------------+---------+---------+---------+------------

      Bob             |   2.0 GB|   1.6 GB|   0.0 MB| running on xx.xx.xx.xx

      Alice           |   256 GB|   0.0 MB|   0.0 MB| not running



* Snapshot

   1. Snapshot



      $ qemu-img snapshot -c name sheepdog:Alice



      -c flag is meaningless currently



   2. After getting snapshot, a new virtual machine images are added as a not-

      current image.



      $ dog vdi list

        name        id    size    used  shared    creation time  object id

      --------------------------------------------------------------------

        Bob          0  2.0 GB  1.6 GB  0.0 MB 2010-03-23 16:16      80000

        Alice        0  256 GB  0.0 MB  0.0 MB 2010-03-23 16:21      c0000

      s Alice        1  256 GB  0.0 MB  0.0 MB 2010-03-23 16:16      40000



   3. You can boot from the snapshot image by spcifing tag id



      $ qemu-system-x86_64 -hda sheepdog:Alice:1



* Cloning from the snapshot

   1. Create a Charlie image as a clone of Alice's image.



      $ qemu-img create -b sheepdog:Alice:1 sheepdog:Charlie



   2. Charlie's image is added to the virtual machine list.



      $ dog vdi list

        name        id    size    used  shared    creation time  object id

      --------------------------------------------------------------------

        Bob          0  2.0 GB  1.6 GB  0.0 MB 2010-03-23 16:16      80000

        Alice        0  256 GB  0.0 MB  0.0 MB 2010-03-23 16:21      c0000

      s Alice        1  256 GB  0.0 MB  0.0 MB 2010-03-23 16:16      40000

        Charlie      0  256 GB  0.0 MB  0.0 MB 2010-03-23 16:23     100000



Test Environment

----------------

    - Debian squeeze amd64

    - Debian lenny amd64



===============================================================================

Copyright (C) 2009-2011, Nippon Telegraph and Telephone Corporation.



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