2-Node Red Hat KVM Cluster Tutorial - Archive: Difference between revisions

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{{howto_header}}
{{howto_header}}


{{note|1=This is the second edition of the original [[Red Hat Cluster Service 2 Tutorial]]. This version is updated to use the Red Hat Cluster Suite, Stable version 3. It replaces [[Xen]] in favour of [[KVM]] to stay in-line with [[Red Hat]]'s supported configuration. It also uses [[corosync]], replacing [[openais]], as the core cluster communication stack.}}
{{warning|1=This tutorial is officially deprecated. It has been replaced with [[AN!Cluster Tutorial 2]]. Please do not follow this tutorial any more.}}


This paper has one goal;
This paper has one goal;
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** It completes the changes, annouces the changes over CPG and releases the lock.
** It completes the changes, annouces the changes over CPG and releases the lock.


Messages can only be sent to the members of the CPG while the node has a totem tokem from corosync.
Messages can only be sent to the members of the CPG while the node has a totem token from corosync.


== Concept; Fencing ==
== Concept; Fencing ==


{{warning|1=DO NOT BUILD A CLUSTER WITHOUT PROPER, WORKING AND TESTED FENCING.}}
{{warning|1=DO NOT BUILD A CLUSTER WITHOUT PROPER, WORKING AND TESTED FENCING.}}
[[Image:fence_meme.jpg|right|300px|thumb|Laugh, but this is a weekly conversation.]]


Fencing is a '''absolutely critical''' part of clustering. Without '''fully''' working fence devices, '''''your cluster will fail'''''.
Fencing is a '''absolutely critical''' part of clustering. Without '''fully''' working fence devices, '''''your cluster will fail'''''.
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{{note|1=<span class="code">qdisk</span> does not work reliably on a DRBD resource, so we will not be using it in this tutorial.}}
{{note|1=<span class="code">qdisk</span> does not work reliably on a DRBD resource, so we will not be using it in this tutorial.}}


A Quorum disk, known as a <span class="code">qdisk</span> is small partition on [[SAN]] storage used to enhance quorum. It generally carries enough votes to allow even a single node to take quorum during a cluster partition. It does this by using configured heuristics, that is custom tests, to decided which which node or partition is best suited for providing clustered services during a cluster reconfiguration. These heuristics can be simple, like testing which partition has access to a given router, or they can be as complex as the administrator wishes using custom scripts.
A Quorum disk, known as a <span class="code">qdisk</span> is small partition on [[SAN]] storage used to enhance quorum. It generally carries enough votes to allow even a single node to take quorum during a cluster partition. It does this by using configured heuristics, that is custom tests, to decided which node or partition is best suited for providing clustered services during a cluster reconfiguration. These heuristics can be simple, like testing which partition has access to a given router, or they can be as complex as the administrator wishes using custom scripts.


Though we won't be using it here, it is well worth knowing about when you move to a cluster with [[SAN]] storage.
Though we won't be using it here, it is well worth knowing about when you move to a cluster with [[SAN]] storage.
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* The GFS2-formatted [[LV]] is mounted on <span class="code">/shared</span> on both nodes.
* The GFS2-formatted [[LV]] is mounted on <span class="code">/shared</span> on both nodes.
* Each [[VM]] gets its own [[LV]].
* Each [[VM]] gets its own [[LV]].
* All three DRBD resources sync over the [[Storage Network]], which uses the bonded <span class="code">bond1</span> (backed be <span class="code">eth1</span> and <span class="code">eth4</span>).
* All three DRBD resources sync over the [[Storage Network]], which uses the bonded <span class="code">bond1</span> (backed by <span class="code">eth1</span> and <span class="code">eth4</span>).


Don't worry if this seems illogical at this stage. The main thing to look at are the <span class="code">drbdX</span> devices and how they each tie back to a corresponding <span class="code">sdaY</span> device on either node.
Don't worry if this seems illogical at this stage. The main thing to look at are the <span class="code">drbdX</span> devices and how they each tie back to a corresponding <span class="code">sdaY</span> device on either node.
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|    [_an01-vg0_]                              |  |              |  |                              [_an01-vg0_]    |
|    [_an01-vg0_]                              |  |              |  |                              [_an01-vg0_]    |
|      |  ________________________    _____  |  |              |  | .......    ________________________  |      |
|      |  ________________________    _____  |  |              |  | .......    ________________________  |      |
|      +--[_/dev/an01-vg0/vm0001_1_]---[_vm1_] |  |              |  | :.vm1.:---[_/dev/an02-vg0/vm0001_1_]--+      |
|      +--[_/dev/an01-vg0/vm0001_1_]---[_vm1_] |  |              |  | :.vm1.:---[_/dev/an01-vg0/vm0001_1_]--+      |
|      |  ________________________    _____  |  |              |  | .......    ________________________  |      |
|      |  ________________________    _____  |  |              |  | .......    ________________________  |      |
|      \--[_/dev/an01-vg0/vm0002_1_]---[_vm2_] |  |              |  | :.vm2.:---[_/dev/an02-vg0/vm0002_1_]--/      |
|      \--[_/dev/an01-vg0/vm0002_1_]---[_vm2_] |  |              |  | :.vm2.:---[_/dev/an01-vg0/vm0002_1_]--/      |
|            _______________    ____________  |  |              |  |  ____________    _______________            |
|            _______________    ____________  |  |              |  |  ____________    _______________            |
|        /--[_Clustered_LVM_]--[_/dev/drbd0_]--/  |              |  \--[_/dev/drbd0_]--[_Clustered_LVM_]--\        |
|        /--[_Clustered_LVM_]--[_/dev/drbd0_]--/  |              |  \--[_/dev/drbd0_]--[_Clustered_LVM_]--\        |
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* [http://docs.redhat.com/docs/en-US/Red_Hat_Enterprise_Linux/6/html-single/Cluster_Administration/index.html#s1-iptables_firewall-CA RHEL 6 Cluster Configuration, Firewall Setup]
* [http://docs.redhat.com/docs/en-US/Red_Hat_Enterprise_Linux/6/html-single/Cluster_Administration/index.html#s1-iptables_firewall-CA RHEL 6 Cluster Configuration, Firewall Setup]
* [http://docs.redhat.com/docs/en-US/Red_Hat_Enterprise_Linux/6/html-single/Cluster_Administration/index.html#s1-iptables_firewall-CA Linbit's DRBD, Firewall Configuration]
* [http://www.drbd.org/users-guide-8.3/s-prepare-network.html Linbit's DRBD, Firewall Configuration]


{|class="wikitable sortable"
{|class="wikitable sortable"
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{{note|1=As of [[EL6]].2, you can now use [[unicast]] for totem communication instead of multicast. This is '''not''' advised, and should only be used for clusters of two or three nodes on networks where unresolvable [[multicast]] issues exist. If using [[gfs2]], as we do here, using unicast for totem is strongly discouraged.}}
{{note|1=As of [[EL6]].2, you can now use [[unicast]] for totem communication instead of multicast. This is '''not''' advised, and should only be used for clusters of two or three nodes on networks where unresolvable [[multicast]] issues exist. If using [[gfs2]], as we do here, using unicast for totem is strongly discouraged.}}


As mentioned above, we will disable <span class="code">selinux</span> and <span class="code">iptables</span>. This is to simplify the learning process and both should be enable pre-production.
As mentioned above, we will disable <span class="code">selinux</span> and <span class="code">iptables</span>. This is to simplify the learning process and both should be enabled pre-production.


To disable the firewall (not that I disable both <span class="code">iptables</span> and <span class="code">ip6tables</span>):
To disable the firewall (note that I disable both <span class="code">iptables</span> and <span class="code">ip6tables</span>):


<source lang="bash">
<source lang="bash">
Line 550: Line 552:


<source lang="text">
<source lang="text">
                                                          ______________                                                         
                                                              ______________                                                         
                                                          [___Internet___]                                                         
                                                            [___Internet___]                                                         
   _____________________________________________________         |         _____________________________________________________  
   _____________________________________________________             |             _____________________________________________________  
  | [ an-node01 ]                                      |         |         |                                      [ an-node02 ] |
  | [ an-node01 ]                                      |           |           |                                      [ an-node02 ] |
  |                      ____________    ______________|     ____|____     |______________    ____________                      |
  |                      ____________    ______________|       ____|____       |______________    ____________                      |
  |                      |    vbr2    |--| bond2        |   | [ IFN ] |   |        bond2 |--|  vbr2    |                      |
  |                      |    vbr2    |--| bond2        |       | [ IFN ] |       |        bond2 |--|  vbr2    |                      |
  |  _________________  | 10.255.0.1 |  | ______      |   _|_________|_   |      ______ |  | 10.255.0.2 |  ................... |
  |  _________________  | 10.255.0.1 |  | ______      |     _|_________|_     |      ______ |  | 10.255.0.2 |  ................... |
  | | [ vm0001-dev ]  |  |____________|  || eth2 =--\  | |  Switch 1  | |  /--= eth2 ||  |____________|  :  [ vm0001-dev ] : |
  | | [ vm0001-dev ]  |  |____________|  || eth2 =--\  |     |  Switch 1  |     |  /--= eth2 ||  |____________|  :  [ vm0001-dev ] : |
  | | [ Dev Server ]  |    | | : :      ||_____|    \--=--|_____________|--=--/    |_____||      | | : :    :  [ Dev Server ] : |
  | | [ Dev Server ]  |    | | : :      ||_____|    \--=-----|_____________|-----=--/    |_____||      | | : :    :  [ Dev Server ] : |
  | |          ______|    | | : :      | ______    /--=--|   Switch 2  |--=--\    ______ |      | | : :    :.......          : |
  | |          ______|    | | : :      | ______    /--=-----|   Switch 2  |-----=--\    ______ |      | | : :    :.......          : |
  | |          | eth0 =----/ | : :      || eth5 =--/  | |_____________| |  \--= eth5 ||      | | : :----= eth0 :          : |
  | |          | eth0 =----/ | : :      || eth5 =--/  |     |_____________|     |  \--= eth5 ||      | | : :----= eth0 :          : |
  | |          |_____||      | : :      ||_____|      |                   |      |_____||      | | :      ::.....:          : |
  | |          |_____||      | : :      ||_____|      |                         |      |_____||      | | :      ::.....:          : |
  | |      10.254.0.1 |      | : :      |______________|                   |______________|      | | :      :                : |
  | |      10.254.0.1 |      | : :      |______________|                         |______________|      | | :      :                : |
  | |_________________|      | : :        ______________|                   |______________        | | :      :.................: |
  | |_________________|      | : :        ______________|                         |______________        | | :      :.................: |
  |                          | : :      | bond1        |     _________     |        bond1 |      | | :                          |
  |                          | : :      | bond1        |       _________       |        bond1 |      | | :                          |
  |  _________________      | : :      |  10.10.0.1  |   | [ SN  ] |   | 10.10.0.2    |      | | :      ................... |
  |  _________________      | : :      |  10.10.0.1  |       | [ SN  ] |       | 10.10.0.2    |      | | :      ................... |
  | | [ vm0002-web ]  |      | : :      | ______      |   _|_________|_   |      ______ |      | | :      :  [ vm0002-web ] : |
  | | [ vm0002-web ]  |      | : :      | ______      |     _|_________|_     |      ______ |      | | :      :  [ vm0002-web ] : |
  | | [ Web Server ]  |      | : :      || eth1 =--\  | |  Switch 1  | |  /--= eth1 ||      | | :      :  [ Web Server ] : |
  | | [ Web Server ]  |      | : :      || eth1 =--\  |     |  Switch 1  |     |  /--= eth1 ||      | | :      :  [ Web Server ] : |
  | |          ______|      | : :      ||_____|    \--=--|_____________|--=--/    |_____||      | | :      :.......          : |
  | |          ______|      | : :      ||_____|    \--=-----|_____________|-----=--/    |_____||      | | :      :.......          : |
  | |          | eth0 =------/ : :      | ______    /--=--|  Switch 2  |--=--\    ______ |      | | :------= eth0 :          : |
  | |          | eth0 =------/ : :      | ______    /--=-----|  Switch 2  |-----=--\    ______ |      | | :------= eth0 :          : |
  | |          |_____||        : :      || eth4 =--/  | |_____________| |  \--= eth4 ||      | |        ::.....:          : |
  | |          |_____||        : :      || eth4 =--/  |     |_____________|     |  \--= eth4 ||      | |        ::.....:          : |
  | |      10.254.0.2 |        : :      ||_____|      |                   |      |_____||      | |        :                : |
  | |      10.254.0.2 |        : :      ||_____|      |                         |      |_____||      | |        :                : |
  | |_________________|        : :      |______________|                   |______________|      | |        :.................: |
  | |_________________|        : :      |______________|                         |______________|      | |        :.................: |
  |                            : :        ______________|                   |______________        | |                            |
  |                            : :        ______________|                         |______________        | |                            |
  | ...................        : :      | bond0        |     _________     |        bond0 |      | |        _________________  |
  | ...................        : :      | bond0        |       _________       |        bond0 |      | |        _________________  |
  | : [ vm0003-db  ]  :        : :      |  10.20.0.1  |   | [ BCN ] |   | 10.20.0.2    |      | |        |  [ vm0003-db  ] | |
  | : [ vm0003-db  ]  :        : :      |  10.20.0.1  |       | [ BCN ] |       | 10.20.0.2    |      | |        |  [ vm0003-db  ] | |
  | : [ DB Server  ]  :        : :      | ______      |   _|_________|_   |      ______ |      | |        |  [ DB Server  ] | |
  | : [ DB Server  ]  :        : :      | ______      |     _|_________|_     |      ______ |      | |        |  [ DB Server  ] | |
  | :          .......:        : :      || eth0 =--\  |  |  Switch 1  |  |  /--= eth0 ||      | |        |______          | |
  | :          .......:        : :      || eth0 =--\  |  /--|  Switch 1  |--\ |  /--= eth0 ||      | |        |______          | |
  | :          : eth0 =--------: :      ||_____|    \--=--|_____________|--=--/    |_____||      | \--------= eth0 |          | |
  | :          : eth0 =--------: :      ||_____|    \--=--+--|_____________|--+--=--/    |_____||      | \--------= eth0 |          | |
  | :          :.....::          :      | ______    /--=--|  Switch 2  |--=--\    ______ |      |          ||_____|          | |
  | :          :.....::          :      | ______    /--=--+--|  Switch 2  |--+--=--\    ______ |      |          ||_____|          | |
  | :                :          :      || eth3 =--/  |  |_____________|  |  \--= eth3 ||      |          | 10.254.0.3      | |
  | :                :          :      || eth3 =--/  |  |_____________|  |  \--= eth3 ||      |          | 10.254.0.3      | |
  | :.................:          :      ||_____|      |   | |    | |    |      |_____||      |          |_________________| |
  | :.................:          :      ||_____|      | |    |       |    | |      |_____||      |          |_________________| |
  |                              :      |______________|   | |    | |    |______________|      |                              |
  |                              :      |______________| |     |      |    | |______________|      |                              |
  | ...................          :                      |   | |    | |    |                      |          _________________  |
  | ...................          :                      | |    |       |    | |                      |          _________________  |
  | : [ vm0004-win ]  :          :                      |   | |    | |    |                      |          |  [ vm0004-win ] | |
  | : [ vm0004-win ]  :          :                      | |    |       |    | |                      |          |  [ vm0004-win ] | |
  | : [ MS Server  ]  :          :                      |   | |    | |    |                      |          |  [ MS Server  ] | |
  | : [ MS Server  ]  :          :                      | |    |       |    | |                      |          |  [ MS Server  ] | |
  | :          .......:          :                      |   | |    | |   |                      |          |______          | |
  | :          .......:          :                      | |    |       |     |  |                      |          |______          | |
  | :          : NIC0 =----------:                      |   | |    | |    |                      \----------= NIC0 |          | |
  | :          : NIC0 =----------:                      | |     |      |    | |                      \----------= NIC0 |          | |
  | :          :.....::                          ______|   | |    | |    |______                          ||_____|          | |
  | :          :.....::                          ______| |    |       |    | |______                          ||_____|          | |
  | :                :                  _____  | IPMI =----/ |    | \----= IPMI |  _____                  | 10.254.0.4      | |
  | :                :                  _____  | IPMI =--/     |      |    \--= IPMI |  _____                  | 10.254.0.4      | |
  | :.................:                [_BMC_]--|_____||     |     |     ||_____|--[_BMC_]                |_________________| |
  | :.................:                [_BMC_]--|_____||       |       |       ||_____|--[_BMC_]                |_________________| |
  |_____________________________________________________|     |     |     |_____________________________________________________|
  |                                                     |       |       |       |                                                     |
                                      || ||               ___|_  _|___              || ||                                    
|                                 ______ ______      |       |       |       |       ______ ______                                |
                                      || ||             | PDU | | PDU |             || ||                                    
|                                | PSU1 | PSU2 |      |        |      |        |      | PSU2 | PSU1 |                               |
                                       || ||             | | | |             || ||                                       
|________________________________|______|______|______|       |       |       |______|______|______|________________________________|
                                       || ||             |_____| |_____|             || ||                                       
                                       || ||               ____|_    _|____                || ||                                     
                                       || ||               || ||   || ||               || ||                                       
                                      || ||              | PDU1 |   | PDU2 |               || ||                                       
                                       || \\==[ Power 1 ]==// ||   || \\==[ Power 1 ]==// ||                                       
                                       || ||               |______|   |______|               || ||                                       
                                       \\=====[ Power 2 ]=====||===//                     ||                                       
                                       || ||                 || ||     || ||                 || ||                                       
                                                              \\==========[ Power 2 ]=====//                                       
                                       || \\===[ Power 1 ]===// ||     || \\===[ Power 1 ]===// ||                                       
                                       \\======[ Power 2 ]======||=====//                       ||                                       
                                                                \\=============[ Power 2 ]======//                                       
</source>
</source>


The cluster will use three separate Class B networks;
The cluster will use three separate <span class="code">/16</span> (<span class="code">255.255.0.0</span>) networks;


{{note|1=There are situations where it is not possible to add additional network cards, blades being a prime example. In these cases it will be up to the admin to decide how to proceed. If there is sufficient bandwidth, you can merge all networks, but it is advised in such cases to isolate IFN traffic from the SN/BCN traffic using [[VLAN]]s.}}
{{note|1=There are situations where it is not possible to add additional network cards, blades being a prime example. In these cases it will be up to the admin to decide how to proceed. If there is sufficient bandwidth, you can merge all networks, but it is advised in such cases to isolate IFN traffic from the SN/BCN traffic using [[VLAN]]s.}}
Line 699: Line 703:
  ____________________                             
  ____________________                             
| [ an-node01 ]      |                           
| [ an-node01 ]      |                           
|        ___________|     _______               
|        ___________|           _______               
|        |    ______|     | bond0 |             
|        |    ______|           | bond0 |             
|        | O  | eth0 =-----=---.---=------------{
|        | O  | eth0 =-----------=---.---=------{
|        | n  |_____||  /--=--/    |             
|        | n  |_____||  /--------=--/    |             
|        | b        |  | |_______| _______   
|        | b        |  |       |_______|            
|        | o  ______|  |           | bond1 | 
|        | o  ______|  |         _______       
|        | a  | eth1 =--|------------=---.---=--{
|        | a  | eth1 =--|--\    | bond1 |     
|        | r  |_____||  |  /---------=--/    |  
|        | r  |_____||  |  \----=--.----=------{
|        | d        |  |  |         |_______|  
|        | d        |  |  /-----=--/    |      
|        |___________|  |  |                   
|        |___________|  |  |     |_______|      
|        ___________|  |  |      _______         
|        ___________|  |  |      _______         
|        |    ______|  |  |    | bond2 |       
|        |    ______|  |  |    | bond2 |       
Line 872: Line 876:
NETMASK="255.255.0.0"
NETMASK="255.255.0.0"
GATEWAY="10.255.255.254"
GATEWAY="10.255.255.254"
DNS1="78.46.37.135"
DNS1="8.8.8.8"
DNS2="192.139.81.117"
DNS2="8.8.4.4"
DEFROUTE="yes"
DEFROUTE="yes"
</source>
</source>
Line 1,048: Line 1,052:


# an-node01
# an-node01
10.20.0.1 an-node01 an-node01.bcn an-node01.alteeve.com
10.20.0.1 an-node01 an-node01.bcn an-node01.alteeve.ca
10.20.1.1 an-node01.ipmi
10.20.1.1 an-node01.ipmi
10.10.0.1 an-node01.sn
10.10.0.1 an-node01.sn
10.255.0.1 an-node01.ifn
10.255.0.1 an-node01.ifn


# an-node01
# an-node02
10.20.0.2 an-node02 an-node02.bcn an-node02.alteeve.com
10.20.0.2 an-node02 an-node02.bcn an-node02.alteeve.ca
10.20.1.2 an-node02.ipmi
10.20.1.2 an-node02.ipmi
10.10.0.2 an-node02.sn
10.10.0.2 an-node02.sn
Line 1,060: Line 1,064:


# Fence devices
# Fence devices
10.20.2.1      pdu1 pdu1.alteeve.com
10.20.2.1      pdu1 pdu1.alteeve.ca
10.20.2.2      pdu2 pdu2.alteeve.com
10.20.2.2      pdu2 pdu2.alteeve.ca


# VPN interfaces, if used.
# VPN interfaces, if used.
Line 1,094: Line 1,098:
Your public key has been saved in /root/.ssh/id_rsa.pub.
Your public key has been saved in /root/.ssh/id_rsa.pub.
The key fingerprint is:
The key fingerprint is:
4a:52:a1:c7:60:d5:e8:6d:c4:75:20:dd:62:2b:86:c5 root@an-node01.alteeve.com
4a:52:a1:c7:60:d5:e8:6d:c4:75:20:dd:62:2b:86:c5 root@an-node01.alteeve.ca
The key's randomart image is:
The key's randomart image is:
+--[ RSA 2047]----+
+--[ RSA 2047]----+
Line 1,168: Line 1,172:
YK9Y4eT4IYMXiYZ8+eQfzHyMaNxvUcI1Z8heMn/CEnrA67ja7Czi/ljYnw0I3MXy9d2ANYjY
YK9Y4eT4IYMXiYZ8+eQfzHyMaNxvUcI1Z8heMn/CEnrA67ja7Czi/ljYnw0I3MXy9d2ANYjY
ahBLF2+ok19NS9tkFHDlcZTh0gTQ4vV5fksgdJjsWl5l/aLjnSRfx2pQrMl3w8U7JBpr0PWJ
ahBLF2+ok19NS9tkFHDlcZTh0gTQ4vV5fksgdJjsWl5l/aLjnSRfx2pQrMl3w8U7JBpr0PWJ
PIuzd4q47+KBI1A9 root@an-node01.alteeve.com
PIuzd4q47+KBI1A9 root@an-node01.alteeve.ca
</source>
</source>


Line 1,240: Line 1,244:
<source lang="bash">
<source lang="bash">
ssh root@an-node01 && \
ssh root@an-node01 && \
ssh root@an-node01.alteeve.com && \
ssh root@an-node01.alteeve.ca && \
ssh root@an-node01.bcn && \
ssh root@an-node01.bcn && \
ssh root@an-node01.sn && \
ssh root@an-node01.sn && \
ssh root@an-node01.ifn && \
ssh root@an-node01.ifn && \
ssh root@an-node02 && \
ssh root@an-node02 && \
ssh root@an-node02.alteeve.com && \
ssh root@an-node02.alteeve.ca && \
ssh root@an-node02.bcn && \
ssh root@an-node02.bcn && \
ssh root@an-node02.sn && \
ssh root@an-node02.sn && \
Line 1,270: Line 1,274:


<source lang="text">
<source lang="text">
The authenticity of host 'an-node01.alteeve.com (10.20.0.1)' can't be established.
The authenticity of host 'an-node01.alteeve.ca (10.20.0.1)' can't be established.
RSA key fingerprint is e6:cb:50:41:88:26:c3:a5:aa:85:80:89:02:6f:ae:5e.
RSA key fingerprint is e6:cb:50:41:88:26:c3:a5:aa:85:80:89:02:6f:ae:5e.
Are you sure you want to continue connecting (yes/no)? yes
Are you sure you want to continue connecting (yes/no)? yes
</source>
</source>
<source lang="text">
<source lang="text">
Warning: Permanently added 'an-node01.alteeve.com' (RSA) to the list of known hosts.
Warning: Permanently added 'an-node01.alteeve.ca' (RSA) to the list of known hosts.
Last login: Sun Dec 11 04:50:24 2011 from an-node01
Last login: Sun Dec 11 04:50:24 2011 from an-node01
[root@an-node01 ~]#  
[root@an-node01 ~]#  
Line 1,284: Line 1,288:
<source lang="text">
<source lang="text">
logout
logout
Connection to an-node01.alteeve.com closed.
Connection to an-node01.alteeve.ca closed.
</source>
</source>


Line 1,358: Line 1,362:


<source lang="text">
<source lang="text">
The authenticity of host 'an-node02.alteeve.com (10.20.0.2)' can't be established.
The authenticity of host 'an-node02.alteeve.ca (10.20.0.2)' can't be established.
RSA key fingerprint is 04:08:37:43:6b:5c:a0:b0:f5:27:a7:46:d4:77:a3:34.
RSA key fingerprint is 04:08:37:43:6b:5c:a0:b0:f5:27:a7:46:d4:77:a3:34.
Are you sure you want to continue connecting (yes/no)? yes
Are you sure you want to continue connecting (yes/no)? yes
</source>
</source>
<source lang="text">
<source lang="text">
Warning: Permanently added 'an-node02.alteeve.com' (RSA) to the list of known hosts.
Warning: Permanently added 'an-node02.alteeve.ca' (RSA) to the list of known hosts.
Last login: Sun Dec 11 05:54:44 2011 from an-node01
Last login: Sun Dec 11 05:54:44 2011 from an-node01
[root@an-node02 ~]#  
[root@an-node02 ~]#  
Line 1,372: Line 1,376:
<source lang="text">
<source lang="text">
logout
logout
Connection to an-node02.alteeve.com closed.
Connection to an-node02.alteeve.ca closed.
</source>
</source>


Line 1,466: Line 1,470:


<source lang="bash">
<source lang="bash">
yum install cman corosync rgmanager ricci gfs2-utils ntp libvirt lvm2-cluster \
yum install cman corosync rgmanager ricci gfs2-utils ntp \
            qemu-kvm qemu-kvm-tools virt-install virt-viewer syslinux wget gpm rsync
            libvirt lvm2-cluster qemu-kvm qemu-kvm-tools \
            virt-install virt-viewer syslinux wget gpm \
            rsync
</source>
</source>


=== Disable the 'qemu' Bridge ===
=== Disable the 'qemu' Bridge ===


By default, <span class="code">[[libvirtd]]</span> creates a bridge called <span class="code">virbr0</span> designed to connect virtual machines to the first <span class="code">eth0</span> interface. Our system will not need this, so we will remove it now. This bridge is configured in the <span class="code">/etc/libvirt/qemu/networks/default.xml</span> file.  
By default, <span class="code">[[libvirtd]]</span> creates a bridge called <span class="code">virbr0</span> designed to connect virtual machines to the first <span class="code">eth0</span> interface. Our system will not need this, so we will remove it now.


So to remove this bridge, simply delete the contents of the file.  
If <span class="code">libvirtd</span> has started, skip to the next step. If you haven't started <span class="code">libvirtd</span> yet, you can manually disable the bridge by blanking out the config file.


<source lang="bash">
<source lang="bash">
Line 1,480: Line 1,486:
</source>
</source>


If <span class="code">libvirtd</span> has started, then you will also need to stop the bridge, delete it and then stop <span class="code">iptables</span> to make sure any rules created for the bridge are flushed.
If <span class="code">libvirtd</span> has started, then you will need to first stop the bridge.
 
<source lang="bash">
virsh net-destroy default
</source>
<source lang="text">
Network default destroyed
</source>
 
To disable and remove it, run the following;


<source lang="bash">
<source lang="bash">
ifconfig virbr0 down
virsh net-autostart default --disable
brctl delbr virbr0
</source>
/etc/init.d/iptables stop
<source lang="text">
Network default unmarked as autostarted
</source>
<source lang="bash">
virsh net-undefine default
</source>
<source lang="text">
Network default has been undefined
</source>
</source>


Line 1,499: Line 1,521:
</source>
</source>
<source lang="text">
<source lang="text">
# Specify the key identifier to use with the ntpq utility.
# Enable writing of statistics records.
#controlkey 8
#statistics clockstats cryptostats loopstats peerstats
server tick.redhat.com
server tick.redhat.com
restrict tick.redhat.com mask 255.255.255.255 nomodify notrap noquery
restrict tick.redhat.com mask 255.255.255.255 nomodify notrap noquery
Line 1,588: Line 1,610:
<cman expected_votes="1" two_node="1" />
<cman expected_votes="1" two_node="1" />
<clusternodes>
<clusternodes>
<clusternode name="an-node01.alteeve.com" nodeid="1" />
<clusternode name="an-node01.alteeve.ca" nodeid="1" />
<clusternode name="an-node02.alteeve.com" nodeid="2" />
<clusternode name="an-node02.alteeve.ca" nodeid="2" />
</clusternodes>
</clusternodes>
</cluster>
</cluster>
Line 1,598: Line 1,620:
The first is the <span class="code">[[RHCS_v3_cluster.conf#clusternode.27s_name_attribute|name]]=""</span> attribute. The value '''should''' match the fully qualified domain name, which you can check by running <span class="code">uname -n</span> on each node. This isn't strictly required, mind you, but for simplicity's sake, this is the name we will use.
The first is the <span class="code">[[RHCS_v3_cluster.conf#clusternode.27s_name_attribute|name]]=""</span> attribute. The value '''should''' match the fully qualified domain name, which you can check by running <span class="code">uname -n</span> on each node. This isn't strictly required, mind you, but for simplicity's sake, this is the name we will use.


The cluster decides which network to use for cluster communication by resolving the <span class="code">name="..."</span> value. It will take the returned [[IP]] address and try to match it to one of the IPs on the system. Once it finds a match, that becomes the network the cluster will use. In our case, <span class="code">an-node01.alteeve.com</span> resolves to <span class="code">10.20.0.1</span>, which is used by <span class="code">bond0</span>.
The cluster decides which network to use for cluster communication by resolving the <span class="code">name="..."</span> value. It will take the returned [[IP]] address and try to match it to one of the IPs on the system. Once it finds a match, that becomes the network the cluster will use. In our case, <span class="code">an-node01.alteeve.ca</span> resolves to <span class="code">10.20.0.1</span>, which is used by <span class="code">bond0</span>.


If you have <span class="code">syslinux</span> installed, you can check this out yourself using the following command;
If you have <span class="code">syslinux</span> installed, you can check this out yourself using the following command;
Line 1,630: Line 1,652:
         <cman expected_votes="1" two_node="1" />
         <cman expected_votes="1" two_node="1" />
         <clusternodes>
         <clusternodes>
                 <clusternode name="an-node01.alteeve.com" nodeid="1" />
                 <clusternode name="an-node01.alteeve.ca" nodeid="1" />
                 <clusternode name="an-node02.alteeve.com" nodeid="2" />
                 <clusternode name="an-node02.alteeve.ca" nodeid="2" />
         </clusternodes>
         </clusternodes>
         <fencedevices>
         <fencedevices>
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
         </fencedevices>
         </fencedevices>
</cluster>
</cluster>
</source>
</source>


Every fence device used in your cluster will have its own <span class="code">[[RHCS_v3_cluster.conf#Tag.3B_fencedevice|fencedevice]]</span> tag. If you are using [[IPMI]], this means you will have a <span class="code">fencedevice</span> entry for each node, as each physical IPMI [[BMC]] is a unique fence device. On the other hand, fence devices that support multiple nodes, like switched PDUs, will have just one entry. In our case, we're using both types, so we have three fences devices; The two IPMI BMCs plus the switched PDU.
In our cluster, each fence device used will have its own <span class="code">[[RHCS_v3_cluster.conf#Tag.3B_fencedevice|fencedevice]]</span> tag. If you are using [[IPMI]], this means you will have a <span class="code">fencedevice</span> entry for each node, as each physical IPMI [[BMC]] is a unique fence device. On the other hand, fence devices that support multiple nodes, like switched PDUs, will have just one entry. In our case, we're using both types, so we have three fences devices; The two IPMI BMCs plus the switched PDU.


All <span class="code">fencedevice</span> tags share two basic attributes; <span class="code">[[RHCS_v3_cluster.conf#fencedevice.27s_name_attribute|name]]=""</span> and <span class="code">[[RHCS_v3_cluster.conf#fencedevice.27s_agent_attribute|agent]]=""</span>.  
All <span class="code">fencedevice</span> tags share two basic attributes; <span class="code">[[RHCS_v3_cluster.conf#fencedevice.27s_name_attribute|name]]=""</span> and <span class="code">[[RHCS_v3_cluster.conf#fencedevice.27s_agent_attribute|agent]]=""</span>.  
Line 1,655: Line 1,677:
* <span class="code">man fence_apc_snmp</span> - APC-brand switched PDU using [[SNMP]].
* <span class="code">man fence_apc_snmp</span> - APC-brand switched PDU using [[SNMP]].


The example above is what this tutorial will use.  
The example above is what this tutorial will use.


=== Using the Fence Devices ===
=== Using the Fence Devices ===
Line 1,671: Line 1,693:
         <cman expected_votes="1" two_node="1" />
         <cman expected_votes="1" two_node="1" />
         <clusternodes>
         <clusternodes>
                 <clusternode name="an-node01.alteeve.com" nodeid="1">
                 <clusternode name="an-node01.alteeve.ca" nodeid="1">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 1,681: Line 1,703:
                         </fence>
                         </fence>
                 </clusternode>
                 </clusternode>
                 <clusternode name="an-node02.alteeve.com" nodeid="2">
                 <clusternode name="an-node02.alteeve.ca" nodeid="2">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 1,695: Line 1,717:
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
         </fencedevices>
         </fencedevices>
</cluster>
</cluster>
Line 1,753: Line 1,775:


<source lang="text">
<source lang="text">
ipaddr=pdu2.alteeve.com
ipaddr=pdu2.alteeve.ca
port=2
port=2
action=reboot
action=reboot
Line 1,762: Line 1,784:


==== Example <fencedevice...> Tag For IPMI ====
==== Example <fencedevice...> Tag For IPMI ====
{{warning|1=When using [[IPMI]] for fencing, it is very important that you disable [[ACPI]]. If <span class="code">acpid</span> is running when an IPMI-based fence is called against it, it will begin a graceful shutdown. This means that it will stay running for another four seconds. This is more than enough time for it to initiate a shutdown of the peer, resulting in both nodes powering down if the network is interrupted.}}
As stated above, it is critical to disable the <span class="code">acpid</span> daemon from running with the server.
<source lang="bash">
chkconfig acpid off
/etc/init.d/acpid stop
</source>
{{warning|1=After this tutorial was completed, a new <span class="code"><device ... /></span> attribute called <span class="code">delay="..."</span> was added. This is a very useful attribute that allows you to tell <span class="code">fenced</span> "hey, if you need to fence node X, pause for Y seconds before doing so". By setting this on only one node, you can effectively ensure that when both nodes try to fence each other at the same time, the one with the <span class="code">delay="Y"</span> set will always win.}}


Here we will show what [[IPMI]] <span class="code"><fencedevice...></span> tags look like.
Here we will show what [[IPMI]] <span class="code"><fencedevice...></span> tags look like.
Line 1,767: Line 1,800:
<source lang="xml">
<source lang="xml">
...
...
<clusternode name="an-node01.alteeve.com" nodeid="1">
<clusternode name="an-node01.alteeve.ca" nodeid="1">
<fence>
<fence>
<method name="ipmi">
<method name="ipmi">
Line 1,774: Line 1,807:
</fence>
</fence>
</clusternode>
</clusternode>
<clusternode name="an-node02.alteeve.com" nodeid="2">
<clusternode name="an-node02.alteeve.ca" nodeid="2">
<fence>
<fence>
<method name="ipmi">
<method name="ipmi">
Line 1,801: Line 1,834:
<source lang="xml">
<source lang="xml">
...
...
<clusternode name="an-node01.alteeve.com" nodeid="1">
<clusternode name="an-node01.alteeve.ca" nodeid="1">
<fence>
<fence>
<method name="ilo">
<method name="ilo">
Line 1,808: Line 1,841:
</fence>
</fence>
</clusternode>
</clusternode>
<clusternode name="an-node02.alteeve.com" nodeid="2">
<clusternode name="an-node02.alteeve.ca" nodeid="2">
<fence>
<fence>
<method name="ilo">
<method name="ilo">
Line 1,828: Line 1,861:


{{note|1=Like [[IPMI]], [[iLO]] does not have ports. This is because each [[iLO]] BMC supports just its host system.}}
{{note|1=Like [[IPMI]], [[iLO]] does not have ports. This is because each [[iLO]] BMC supports just its host system.}}
{{note|1=A reader kindly reported that iLO3 does not work with the <span class="code">fence_ilo</span> agent. The recommendation is to now use <span class="code">fence_ipmilan</span> with the following options; <span class="code"><fencedevice agent="fence_ipmilan" ipaddr="an-node01.ilo" lanplus="1" login="Administrator" name="ilo_an01" passwd="secret" power_wait="4"/></span>.}}


==== Example <fencedevice...> Tag For Dell's DRAC ====
==== Example <fencedevice...> Tag For Dell's DRAC ====
Line 1,837: Line 1,872:
<source lang="xml">
<source lang="xml">
...
...
<clusternode name="an-node01.alteeve.com" nodeid="1">
<clusternode name="an-node01.alteeve.ca" nodeid="1">
<fence>
<fence>
<method name="drac">
<method name="drac">
Line 1,844: Line 1,879:
</fence>
</fence>
</clusternode>
</clusternode>
<clusternode name="an-node02.alteeve.com" nodeid="2">
<clusternode name="an-node02.alteeve.ca" nodeid="2">
<fence>
<fence>
<method name="ilo">
<method name="ilo">
Line 1,875: Line 1,910:
<source lang="xml">
<source lang="xml">
...
...
<clusternode name="an-node01.alteeve.com" nodeid="1">
<clusternode name="an-node01.alteeve.ca" nodeid="1">
<fence>
<fence>
<method name="pdu2">
<method name="pdu2">
Line 1,883: Line 1,918:
</fence>
</fence>
</clusternode>
</clusternode>
<clusternode name="an-node02.alteeve.com" nodeid="2">
<clusternode name="an-node02.alteeve.ca" nodeid="2">
<fence>
<fence>
<method name="pdu2">
<method name="pdu2">
Line 1,893: Line 1,928:
...
...
<fencedevices>
<fencedevices>
  <fencedevice agent="fence_apc_snmp" ipaddr="pdu1.alteeve.com" name="pdu1" />
  <fencedevice agent="fence_apc_snmp" ipaddr="pdu1.alteeve.ca" name="pdu1" />
<fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2" />
<fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
</fencedevices>
</fencedevices>
</source>
</source>
Line 1,913: Line 1,948:
         <cman expected_votes="1" two_node="1" />
         <cman expected_votes="1" two_node="1" />
         <clusternodes>
         <clusternodes>
                 <clusternode name="an-node01.alteeve.com" nodeid="1">
                 <clusternode name="an-node01.alteeve.ca" nodeid="1">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 1,923: Line 1,958:
                         </fence>
                         </fence>
                 </clusternode>
                 </clusternode>
                 <clusternode name="an-node02.alteeve.com" nodeid="2">
                 <clusternode name="an-node02.alteeve.ca" nodeid="2">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 1,937: Line 1,972:
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
         </fencedevices>
         </fencedevices>
         <fence_daemon post_join_delay="30" />
         <fence_daemon post_join_delay="30" />
Line 1,954: Line 1,989:
         <cman expected_votes="1" two_node="1" />
         <cman expected_votes="1" two_node="1" />
         <clusternodes>
         <clusternodes>
                 <clusternode name="an-node01.alteeve.com" nodeid="1">
                 <clusternode name="an-node01.alteeve.ca" nodeid="1">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 1,964: Line 1,999:
                         </fence>
                         </fence>
                 </clusternode>
                 </clusternode>
                 <clusternode name="an-node02.alteeve.com" nodeid="2">
                 <clusternode name="an-node02.alteeve.ca" nodeid="2">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 1,978: Line 2,013:
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
         </fencedevices>
         </fencedevices>
         <fence_daemon post_join_delay="30" />
         <fence_daemon post_join_delay="30" />
Line 2,063: Line 2,098:
</source>
</source>
<source lang="text">
<source lang="text">
modclusterd    0:off 1:off 2:off 3:off 4:off 5:off 6:off
modclusterd    0:off 1:off 2:on 3:on 4:on 5:on 6:off
</source>
</source>


Line 2,155: Line 2,190:
Dec 13 12:08:51 an-node01 gfs_controld[3565]: gfs_controld 3.0.12.1 started
Dec 13 12:08:51 an-node01 gfs_controld[3565]: gfs_controld 3.0.12.1 started
</source>
</source>
{{note|1=If you see messages like <span class="code">rsyslogd-2177: imuxsock begins to drop messages from pid 29288 due to rate-limiting</span>, this is caused by new default configuration in <span class="code">[[rsyslogd]]</span>. To disable rate limiting, please follow the instructions in [[#Disabling rsyslog Rate Limiting|Disabling rsyslog Rate Limiting]] below.}}


Now to confirm that the cluster is operating properly, run <span class="code">cman_tool status</span>;
Now to confirm that the cluster is operating properly, run <span class="code">cman_tool status</span>;
Line 2,177: Line 2,214:
Flags: 2node  
Flags: 2node  
Ports Bound: 0   
Ports Bound: 0   
Node name: an-node01.alteeve.com
Node name: an-node01.alteeve.ca
Node ID: 1
Node ID: 1
Multicast addresses: 239.192.95.81  
Multicast addresses: 239.192.95.81  
Line 2,195: Line 2,232:
cluster.cman.expected_votes=1
cluster.cman.expected_votes=1
cluster.cman.two_node=1
cluster.cman.two_node=1
cluster.cman.nodename=an-node01.alteeve.com
cluster.cman.nodename=an-node01.alteeve.ca
cluster.cman.cluster_id=24561
cluster.cman.cluster_id=24561
cluster.clusternodes.clusternode.name=an-node01.alteeve.com
cluster.clusternodes.clusternode.name=an-node01.alteeve.ca
cluster.clusternodes.clusternode.nodeid=1
cluster.clusternodes.clusternode.nodeid=1
cluster.clusternodes.clusternode.fence.method.name=ipmi
cluster.clusternodes.clusternode.fence.method.name=ipmi
Line 2,206: Line 2,243:
cluster.clusternodes.clusternode.fence.method.device.port=1
cluster.clusternodes.clusternode.fence.method.device.port=1
cluster.clusternodes.clusternode.fence.method.device.action=reboot
cluster.clusternodes.clusternode.fence.method.device.action=reboot
cluster.clusternodes.clusternode.name=an-node02.alteeve.com
cluster.clusternodes.clusternode.name=an-node02.alteeve.ca
cluster.clusternodes.clusternode.nodeid=2
cluster.clusternodes.clusternode.nodeid=2
cluster.clusternodes.clusternode.fence.method.name=ipmi
cluster.clusternodes.clusternode.fence.method.name=ipmi
Line 2,226: Line 2,263:
cluster.fencedevices.fencedevice.passwd=secret
cluster.fencedevices.fencedevice.passwd=secret
cluster.fencedevices.fencedevice.agent=fence_apc_snmp
cluster.fencedevices.fencedevice.agent=fence_apc_snmp
cluster.fencedevices.fencedevice.ipaddr=pdu2.alteeve.com
cluster.fencedevices.fencedevice.ipaddr=pdu2.alteeve.ca
cluster.fencedevices.fencedevice.name=pdu2
cluster.fencedevices.fencedevice.name=pdu2
cluster.fence_daemon.post_join_delay=30
cluster.fence_daemon.post_join_delay=30
Line 2,477: Line 2,514:
|<span style="color: green;">Yes</span> / <span style="color: red;">No</span>
|<span style="color: green;">Yes</span> / <span style="color: red;">No</span>
|-
|-
|<span class="code">fence_apc_snmp -a pdu2.alteeve.com -n 1 -o off</span>
|<span class="code">fence_apc_snmp -a pdu2.alteeve.ca -n 1 -o off</span>
|<span class="code">an-node01</span>
|<span class="code">an-node01</span>
|<span style="color: green;">Yes</span> / <span style="color: red;">No</span>
|<span style="color: green;">Yes</span> / <span style="color: red;">No</span>
Line 2,485: Line 2,522:
|<span style="color: green;">Yes</span> / <span style="color: red;">No</span>
|<span style="color: green;">Yes</span> / <span style="color: red;">No</span>
|-
|-
|<span class="code">fence_apc_snmp -a pdu2.alteeve.com -n 2 -o off</span>
|<span class="code">fence_apc_snmp -a pdu2.alteeve.ca -n 2 -o off</span>
|<span class="code">an-node02</span>
|<span class="code">an-node02</span>
|<span style="color: green;">Yes</span> / <span style="color: red;">No</span>
|<span style="color: green;">Yes</span> / <span style="color: red;">No</span>
Line 2,513: Line 2,550:
Dec 13 12:42:41 an-node02 corosync[2758]:  [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:42:41 an-node02 corosync[2758]:  [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:42:41 an-node02 kernel: dlm: closing connection to node 1
Dec 13 12:42:41 an-node02 kernel: dlm: closing connection to node 1
Dec 13 12:42:41 an-node02 fenced[2817]: fencing node an-node01.alteeve.com
Dec 13 12:42:41 an-node02 fenced[2817]: fencing node an-node01.alteeve.ca
Dec 13 12:42:56 an-node02 fenced[2817]: fence an-node01.alteeve.com success
Dec 13 12:42:56 an-node02 fenced[2817]: fence an-node01.alteeve.ca success
</source>
</source>


Line 2,534: Line 2,571:


<source lang="bash">
<source lang="bash">
fence_apc_snmp -a pdu2.alteeve.com -n 1 -o off
fence_apc_snmp -a pdu2.alteeve.ca -n 1 -o off
</source>
</source>
<source lang="text">
<source lang="text">
Line 2,549: Line 2,586:
Dec 13 12:45:48 an-node02 corosync[2758]:  [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:45:48 an-node02 corosync[2758]:  [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:45:48 an-node02 kernel: dlm: closing connection to node 1
Dec 13 12:45:48 an-node02 kernel: dlm: closing connection to node 1
Dec 13 12:45:48 an-node02 fenced[2817]: fencing node an-node01.alteeve.com
Dec 13 12:45:48 an-node02 fenced[2817]: fencing node an-node01.alteeve.ca
Dec 13 12:46:08 an-node02 fenced[2817]: fence an-node01.alteeve.com dev 0.0 agent fence_ipmilan result: error from agent
Dec 13 12:46:08 an-node02 fenced[2817]: fence an-node01.alteeve.ca dev 0.0 agent fence_ipmilan result: error from agent
Dec 13 12:46:08 an-node02 fenced[2817]: fence an-node01.alteeve.com success
Dec 13 12:46:08 an-node02 fenced[2817]: fence an-node01.alteeve.ca success
</source>
</source>


Line 2,583: Line 2,620:
Dec 13 12:52:36 an-node01 corosync[3445]:  [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:52:36 an-node01 corosync[3445]:  [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:52:36 an-node01 kernel: dlm: closing connection to node 2
Dec 13 12:52:36 an-node01 kernel: dlm: closing connection to node 2
Dec 13 12:52:36 an-node01 fenced[3501]: fencing node an-node02.alteeve.com
Dec 13 12:52:36 an-node01 fenced[3501]: fencing node an-node02.alteeve.ca
Dec 13 12:52:51 an-node01 fenced[3501]: fence an-node02.alteeve.com success
Dec 13 12:52:51 an-node01 fenced[3501]: fence an-node02.alteeve.ca success
</source>
</source>


Line 2,594: Line 2,631:


<source lang="bash">
<source lang="bash">
fence_apc_snmp -a pdu2.alteeve.com -n 2 -o off
fence_apc_snmp -a pdu2.alteeve.ca -n 2 -o off
</source>
</source>
<source lang="text">
<source lang="text">
Line 2,609: Line 2,646:
Dec 13 12:56:00 an-node01 kernel: dlm: closing connection to node 2
Dec 13 12:56:00 an-node01 kernel: dlm: closing connection to node 2
Dec 13 12:56:00 an-node01 corosync[3445]:  [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:56:00 an-node01 corosync[3445]:  [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:56:00 an-node01 fenced[3501]: fencing node an-node02.alteeve.com
Dec 13 12:56:00 an-node01 fenced[3501]: fencing node an-node02.alteeve.ca
Dec 13 12:56:20 an-node01 fenced[3501]: fence an-node02.alteeve.com dev 0.0 agent fence_ipmilan result: error from agent
Dec 13 12:56:20 an-node01 fenced[3501]: fence an-node02.alteeve.ca dev 0.0 agent fence_ipmilan result: error from agent
Dec 13 12:56:20 an-node01 fenced[3501]: fence an-node02.alteeve.com success
Dec 13 12:56:20 an-node01 fenced[3501]: fence an-node02.alteeve.ca success
</source>
</source>


Line 2,877: Line 2,914:
Flags: 2node  
Flags: 2node  
Ports Bound: 0   
Ports Bound: 0   
Node name: an-node01.alteeve.com
Node name: an-node01.alteeve.ca
Node ID: 1
Node ID: 1
Multicast addresses: 239.192.95.81  
Multicast addresses: 239.192.95.81  
Line 3,115: Line 3,152:
# Download, compile and install DRBD
# Download, compile and install DRBD
yum install flex gcc make kernel-devel
yum install flex gcc make kernel-devel
wget -c http://oss.linbit.com/drbd/8.3/drbd-8.3.12.tar.gz
wget -c http://oss.linbit.com/drbd/8.3/drbd-8.3.15.tar.gz
tar -xvzf drbd-8.3.12.tar.gz
tar -xvzf drbd-8.3.15.tar.gz
cd drbd-8.3.12
cd drbd-8.3.15
./configure \
./configure \
   --prefix=/usr \
   --prefix=/usr \
Line 3,144: Line 3,181:
<source lang="bash">
<source lang="bash">
# Obliterate peer - fence via cman
# Obliterate peer - fence via cman
wget -c https://alteeve.com/files/an-cluster/sbin/obliterate-peer.sh -O /sbin/obliterate-peer.sh
wget -c https://alteeve.ca/files/an-cluster/sbin/obliterate-peer.sh -O /sbin/obliterate-peer.sh
chmod a+x /sbin/obliterate-peer.sh
chmod a+x /sbin/obliterate-peer.sh
ls -lah /sbin/obliterate-peer.sh
ls -lah /sbin/obliterate-peer.sh
Line 3,169: Line 3,206:
wget -c https://raw.github.com/digimer/rhcs_fence/master/rhcs_fence  
wget -c https://raw.github.com/digimer/rhcs_fence/master/rhcs_fence  
chmod 755 rhcs_fence
chmod 755 rhcs_fence
mv rhcs_fence /usr/sbin/
mv rhcs_fence /sbin/
ls -lah /usr/sbin/rhcs_fence  
ls -lah /sbin/rhcs_fence  
</source>
</source>
<source lang="text">
<source lang="text">
Line 3,660: Line 3,697:


# This is the `uname -n` of the first node
# This is the `uname -n` of the first node
on an-node01.alteeve.com {
on an-node01.alteeve.ca {
# The 'address' has to be the IP, not a hostname. This is the
# The 'address' has to be the IP, not a hostname. This is the
# node's SN (bond1) IP. The port number must be unique amoung
# node's SN (bond1) IP. The port number must be unique amoung
Line 3,670: Line 3,707:
}
}
# Now the same information again for the second node.
# Now the same information again for the second node.
on an-node02.alteeve.com {
on an-node02.alteeve.ca {
address 10.10.0.2:7788;
address 10.10.0.2:7788;
disk /dev/sda5;
disk /dev/sda5;
Line 3,693: Line 3,730:


# This is the `uname -n` of the first node
# This is the `uname -n` of the first node
on an-node01.alteeve.com {
on an-node01.alteeve.ca {
# The 'address' has to be the IP, not a hostname. This is the
# The 'address' has to be the IP, not a hostname. This is the
# node's SN (bond1) IP. The port number must be unique amoung
# node's SN (bond1) IP. The port number must be unique amoung
Line 3,703: Line 3,740:
}
}
# Now the same information again for the second node.
# Now the same information again for the second node.
on an-node02.alteeve.com {
on an-node02.alteeve.ca {
address 10.10.0.2:7789;
address 10.10.0.2:7789;
disk /dev/sda6;
disk /dev/sda6;
Line 3,726: Line 3,763:


# This is the `uname -n` of the first node
# This is the `uname -n` of the first node
on an-node01.alteeve.com {
on an-node01.alteeve.ca {
# The 'address' has to be the IP, not a hostname. This is the
# The 'address' has to be the IP, not a hostname. This is the
# node's SN (bond1) IP. The port number must be unique amoung
# node's SN (bond1) IP. The port number must be unique amoung
Line 3,736: Line 3,773:
}
}
# Now the same information again for the second node.
# Now the same information again for the second node.
on an-node02.alteeve.com {
on an-node02.alteeve.ca {
address 10.10.0.2:7790;
address 10.10.0.2:7790;
disk /dev/sda7;
disk /dev/sda7;
Line 3,774: Line 3,811:
}
}


# resource r0 on an-node01.alteeve.com: not ignored, not stacked
# resource r0 on an-node01.alteeve.ca: not ignored, not stacked
resource r0 {
resource r0 {
     on an-node01.alteeve.com {
     on an-node01.alteeve.ca {
         device          /dev/drbd0 minor 0;
         device          /dev/drbd0 minor 0;
         disk            /dev/sda5;
         disk            /dev/sda5;
Line 3,782: Line 3,819:
         meta-disk        internal;
         meta-disk        internal;
     }
     }
     on an-node02.alteeve.com {
     on an-node02.alteeve.ca {
         device          /dev/drbd0 minor 0;
         device          /dev/drbd0 minor 0;
         disk            /dev/sda5;
         disk            /dev/sda5;
Line 3,790: Line 3,827:
}
}


# resource r1 on an-node01.alteeve.com: not ignored, not stacked
# resource r1 on an-node01.alteeve.ca: not ignored, not stacked
resource r1 {
resource r1 {
     on an-node01.alteeve.com {
     on an-node01.alteeve.ca {
         device          /dev/drbd1 minor 1;
         device          /dev/drbd1 minor 1;
         disk            /dev/sda6;
         disk            /dev/sda6;
Line 3,798: Line 3,835:
         meta-disk        internal;
         meta-disk        internal;
     }
     }
     on an-node02.alteeve.com {
     on an-node02.alteeve.ca {
         device          /dev/drbd1 minor 1;
         device          /dev/drbd1 minor 1;
         disk            /dev/sda6;
         disk            /dev/sda6;
Line 3,806: Line 3,843:
}
}


# resource r2 on an-node01.alteeve.com: not ignored, not stacked
# resource r2 on an-node01.alteeve.ca: not ignored, not stacked
resource r2 {
resource r2 {
     on an-node01.alteeve.com {
     on an-node01.alteeve.ca {
         device          /dev/drbd2 minor 2;
         device          /dev/drbd2 minor 2;
         disk            /dev/sda7;
         disk            /dev/sda7;
Line 3,814: Line 3,851:
         meta-disk        internal;
         meta-disk        internal;
     }
     }
     on an-node02.alteeve.com {
     on an-node02.alteeve.ca {
         device          /dev/drbd2 minor 2;
         device          /dev/drbd2 minor 2;
         disk            /dev/sda7;
         disk            /dev/sda7;
Line 4,123: Line 4,160:
Flags: 2node  
Flags: 2node  
Ports Bound: 0   
Ports Bound: 0   
Node name: an-node01.alteeve.com
Node name: an-node01.alteeve.ca
Node ID: 1
Node ID: 1
Multicast addresses: 239.192.95.81  
Multicast addresses: 239.192.95.81  
Line 4,420: Line 4,457:
</source>
</source>


This next step uses some command-line voodoo. It takes the output from <span class="code">gfs2_edit -p sb /dev/shared-vg0/shared</span>, <span class="code">grep</span>'s out the [[UUID]] line for the new GFS2 partition, parses out of that the UUID itself, converts it to lower-case and, finally, spits out a string that can be used in <span class="code">/etc/fstab</span>. We'll run it twice; The first time to confirm that the output is what we expect and the second time to append it to <span class="code">/etc/fstab</span>.
This next step uses some command-line voodoo. It takes the output from <span class="code">gfs2_tool sb /dev/shared-vg0/shared uuid</span>, parses out the [[UUID]], converts it to lower-case and spits out a string that can be used in <span class="code">/etc/fstab</span>. We'll run it twice; The first time to confirm that the output is what we expect and the second time to append it to <span class="code">/etc/fstab</span>.


The <span class="code">gfs2</span> daemon can only work on GFS2 partitions that have been defined in <span class="code">/etc/fstab</span>, so this is a required step on both nodes.
The <span class="code">gfs2</span> daemon can only work on GFS2 partitions that have been defined in <span class="code">/etc/fstab</span>, so this is a required step on both nodes.
Line 4,427: Line 4,464:


<source lang="bash">
<source lang="bash">
echo `gfs2_edit -p sb /dev/shared-vg0/shared | grep sb_uuid | sed -e "s/.*sb_uuid  *\(.*\)/UUID=\L\1\E \/shared\t\tgfs2\tdefaults,noatime,nodiratime\t0 0/"`
echo `gfs2_tool sb /dev/shared-vg0/shared uuid | awk '/uuid =/ { print $4; }' | sed -e "s/\(.*\)/UUID=\L\1\E \/shared\t\tgfs2\tdefaults,noatime,nodiratime\t0 0/"`
</source>
</source>
<source lang="text">
<source lang="text">
Line 4,436: Line 4,473:


<source lang="bash">
<source lang="bash">
echo `gfs2_edit -p sb /dev/shared-vg0/shared | grep sb_uuid | sed -e "s/.*sb_uuid  *\(.*\)/UUID=\L\1\E \/shared\t\tgfs2\tdefaults,noatime,nodiratime\t0 0/"` >> /etc/fstab
echo `gfs2_tool sb /dev/shared-vg0/shared uuid | awk '/uuid =/ { print $4; }' | sed -e "s/\(.*\)/UUID=\L\1\E \/shared\t\tgfs2\tdefaults,noatime,nodiratime\t0 0/"` >> /etc/fstab
/etc/init.d/gfs2 status
/etc/init.d/gfs2 status
</source>
</source>
Line 4,565: Line 4,602:
         <cman expected_votes="1" two_node="1" />
         <cman expected_votes="1" two_node="1" />
         <clusternodes>
         <clusternodes>
                 <clusternode name="an-node01.alteeve.com" nodeid="1">
                 <clusternode name="an-node01.alteeve.ca" nodeid="1">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 4,575: Line 4,612:
                         </fence>
                         </fence>
                 </clusternode>
                 </clusternode>
                 <clusternode name="an-node02.alteeve.com" nodeid="2">
                 <clusternode name="an-node02.alteeve.ca" nodeid="2">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 4,589: Line 4,626:
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
         </fencedevices>
         </fencedevices>
         <fence_daemon post_join_delay="30" />
         <fence_daemon post_join_delay="30" />
         <totem rrp_mode="none" secauth="off"/>
         <totem rrp_mode="none" secauth="off"/>
         <rm log_level="5">
         <rm>
                 <resources>
                 <resources>
                         <script file="/etc/init.d/drbd" name="drbd"/>
                         <script file="/etc/init.d/drbd" name="drbd"/>
Line 4,609: Line 4,646:


<source lang="xml">
<source lang="xml">
<rm log_level="5">
<rm>
<resources>
<resources>
<script file="/etc/init.d/drbd" name="drbd"/>
<script file="/etc/init.d/drbd" name="drbd"/>
Line 4,618: Line 4,655:
</rm>
</rm>
</source>
</source>
The new <span class="code"><rm log_level="5">...</rm></span> element tells the cluster that this is the section for <span class="code">rgmanager</span> and that we're setting the <span class="code">log_level</span> to <span class="code">5</span>. This <span class="code">log_level</span> is slightly less verbose that the default. Specifically, by default, there is an entry in <span class="code">/var/log/messages</span> every time each resource is checked. This quickly adds a lot of questionably useful information to [[syslog]]. By changing this, we will still see all important messages, but these resource check messages are suppressed. If you are ever curious about whether or not <span class="code">rgmanager</span> is, in fact, checking the services than either remove <span class="code">log_level="5"</span> or change it to <span class="code">6</span> or higher.


The <span class="code"><resources>...</resources></span> element contains our four <span class="code"><script .../></span> resources. This is a particular type of resource which specifically handles that starting and stopping of <span class="code">[[init.d]]</span> style scripts. That is, the script must exit with [[LSB]] compliant codes. They must also properly react to being called with the sole argument of <span class="code">start</span>, <span class="code">stop</span> and <span class="code">status</span>.
The <span class="code"><resources>...</resources></span> element contains our four <span class="code"><script .../></span> resources. This is a particular type of resource which specifically handles that starting and stopping of <span class="code">[[init.d]]</span> style scripts. That is, the script must exit with [[LSB]] compliant codes. They must also properly react to being called with the sole argument of <span class="code">start</span>, <span class="code">stop</span> and <span class="code">status</span>.
Line 4,661: Line 4,696:
         <cman expected_votes="1" two_node="1" />
         <cman expected_votes="1" two_node="1" />
         <clusternodes>
         <clusternodes>
                 <clusternode name="an-node01.alteeve.com" nodeid="1">
                 <clusternode name="an-node01.alteeve.ca" nodeid="1">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 4,671: Line 4,706:
                         </fence>
                         </fence>
                 </clusternode>
                 </clusternode>
                 <clusternode name="an-node02.alteeve.com" nodeid="2">
                 <clusternode name="an-node02.alteeve.ca" nodeid="2">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 4,685: Line 4,720:
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
         </fencedevices>
         </fencedevices>
         <fence_daemon post_join_delay="30" />
         <fence_daemon post_join_delay="30" />
         <totem rrp_mode="none" secauth="off"/>
         <totem rrp_mode="none" secauth="off"/>
         <rm log_level="5">
         <rm>
                 <resources>
                 <resources>
                         <script file="/etc/init.d/drbd" name="drbd"/>
                         <script file="/etc/init.d/drbd" name="drbd"/>
Line 4,698: Line 4,733:
                 <failoverdomains>
                 <failoverdomains>
                         <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                         <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                                 <failoverdomainnode name="an-node01.alteeve.com"/>
                                 <failoverdomainnode name="an-node01.alteeve.ca"/>
                         </failoverdomain>
                         </failoverdomain>
                         <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                         <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                                 <failoverdomainnode name="an-node02.alteeve.com"/>
                                 <failoverdomainnode name="an-node02.alteeve.ca"/>
                         </failoverdomain>
                         </failoverdomain>
                 </failoverdomains>
                 </failoverdomains>
Line 4,713: Line 4,748:
                 <failoverdomains>
                 <failoverdomains>
                         <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                         <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                                 <failoverdomainnode name="an-node01.alteeve.com"/>
                                 <failoverdomainnode name="an-node01.alteeve.ca"/>
                         </failoverdomain>
                         </failoverdomain>
                         <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                         <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                                 <failoverdomainnode name="an-node02.alteeve.com"/>
                                 <failoverdomainnode name="an-node02.alteeve.ca"/>
                         </failoverdomain>
                         </failoverdomain>
                 </failoverdomains>
                 </failoverdomains>
Line 4,753: Line 4,788:
         <cman expected_votes="1" two_node="1" />
         <cman expected_votes="1" two_node="1" />
         <clusternodes>
         <clusternodes>
                 <clusternode name="an-node01.alteeve.com" nodeid="1">
                 <clusternode name="an-node01.alteeve.ca" nodeid="1">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 4,763: Line 4,798:
                         </fence>
                         </fence>
                 </clusternode>
                 </clusternode>
                 <clusternode name="an-node02.alteeve.com" nodeid="2">
                 <clusternode name="an-node02.alteeve.ca" nodeid="2">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 4,777: Line 4,812:
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2" />
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
         </fencedevices>
         </fencedevices>
         <fence_daemon post_join_delay="30" />
         <fence_daemon post_join_delay="30" />
         <totem rrp_mode="none" secauth="off"/>
         <totem rrp_mode="none" secauth="off"/>
         <rm log_level="5">
         <rm>
                 <resources>
                 <resources>
                         <script file="/etc/init.d/drbd" name="drbd"/>
                         <script file="/etc/init.d/drbd" name="drbd"/>
Line 4,790: Line 4,825:
                 <failoverdomains>
                 <failoverdomains>
                         <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                         <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                                 <failoverdomainnode name="an-node01.alteeve.com"/>
                                 <failoverdomainnode name="an-node01.alteeve.ca"/>
                         </failoverdomain>
                         </failoverdomain>
                         <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                         <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                                 <failoverdomainnode name="an-node02.alteeve.com"/>
                                 <failoverdomainnode name="an-node02.alteeve.ca"/>
                         </failoverdomain>
                         </failoverdomain>
                 </failoverdomains>
                 </failoverdomains>
Line 4,886: Line 4,921:
</source>
</source>
<source lang="text">
<source lang="text">
You have not authenticated to the ricci daemon on an-node01.alteeve.com
You have not authenticated to the ricci daemon on an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Line 4,892: Line 4,927:
</source>
</source>
<source lang="text">
<source lang="text">
You have not authenticated to the ricci daemon on an-node02.alteeve.com
You have not authenticated to the ricci daemon on an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Line 4,931: Line 4,966:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local
  an-node01.alteeve.ca                       1 Online, Local
  an-node02.alteeve.com                       2 Online
  an-node02.alteeve.ca                       2 Online
</source>
</source>


Line 4,969: Line 5,004:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
</source>
</source>


What we see are two section; The top section shows the cluster members and the lower part covers the managed resources.  
What we see are two section; The top section shows the cluster members and the lower part covers the managed resources.  


We can see that both members, <span class="code">an-node01.alteeve.com</span> and <span class="code">an-node02.alteeve.com</span> are <span class="code">Online</span>, meaning that <span class="code">cman</span> is running and that they've joined the cluster. It also shows us that both members are running <span class="code">rgmanager</span>. You will always see <span class="code">Local</span> beside the name of the node you ran the actual <span class="code">clustat</span> command from.
We can see that both members, <span class="code">an-node01.alteeve.ca</span> and <span class="code">an-node02.alteeve.ca</span> are <span class="code">Online</span>, meaning that <span class="code">cman</span> is running and that they've joined the cluster. It also shows us that both members are running <span class="code">rgmanager</span>. You will always see <span class="code">Local</span> beside the name of the node you ran the actual <span class="code">clustat</span> command from.


Under the services, you can see the two new services we created with the <span class="code">service:</span> prefix. We can see that each service is <span class="code">started</span>, meaning that all four of the resources are up and running properly and which node each service is running on.
Under the services, you can see the two new services we created with the <span class="code">service:</span> prefix. We can see that each service is <span class="code">started</span>, meaning that all four of the resources are up and running properly and which node each service is running on.
Line 5,060: Line 5,095:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
</source>
</source>


Line 5,091: Line 5,126:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          (an-node01.alteeve.com)        disabled       
  service:storage_an01          (an-node01.alteeve.ca)        disabled       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
</source>
</source>


Line 5,135: Line 5,170:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          (an-node01.alteeve.com)        disabled       
  service:storage_an01          (an-node01.alteeve.ca)        disabled       
  service:storage_an02          (an-node02.alteeve.com)        disabled       
  service:storage_an02          (an-node02.alteeve.ca)        disabled       
</source>
</source>


Line 5,163: Line 5,198:


<source lang="bash">
<source lang="bash">
clusvcadm -e storage_an01 -m an-node01.alteeve.com
clusvcadm -e storage_an01 -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Member an-node01.alteeve.com trying to enable service:storage_an01...Success
Member an-node01.alteeve.ca trying to enable service:storage_an01...Success
service:storage_an01 is now running on an-node01.alteeve.com
service:storage_an01 is now running on an-node01.alteeve.ca
</source>
</source>


Line 5,173: Line 5,208:


<source lang="bash">
<source lang="bash">
clusvcadm -e storage_an02 -m an-node02.alteeve.com
clusvcadm -e storage_an02 -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Member an-node02.alteeve.com trying to enable service:storage_an02...Success
Member an-node02.alteeve.ca trying to enable service:storage_an02...Success
service:storage_an02 is now running on an-node02.alteeve.com
service:storage_an02 is now running on an-node02.alteeve.ca
</source>
</source>


Line 5,191: Line 5,226:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
</source>
</source>


Line 6,085: Line 6,120:
* [http://alt.fedoraproject.org/pub/alt/virtio-win/latest/images/bin/ virtio Drivers for Windows]
* [http://alt.fedoraproject.org/pub/alt/virtio-win/latest/images/bin/ virtio Drivers for Windows]


{{note|1=The <span class="code">vfd</span> no longer seems to exist upstream and I've not found a way to get windows to use the latest (<span class="code">virtio-win-0.1-22.iso</span> image. As such, I've uploaded of the virtual floppy disk image from version 1.1.16. If you have any insight into the proper use of the latest virtio image, please [mailto:digimer@alteeve.ca let me know].}}
{{note|1=The <span class="code">vfd</span> no longer seems to exist upstream. As of Sep. 30, 2012, the [http://alt.fedoraproject.org/pub/alt/virtio-win/latest/images/bin/ latest available version] is <span class="code">virtio-win-0.1-30.iso</span>, which is an [[ISO]] (cd-rom) image. To use it, replace the line;
* Local copy of [https://alteeve.com/files/virtio-win-1.1.16.vfd virtio-win-1.1.16.vfd].
 
<span class="code">--disk path=/shared/files/virtio-win-1.1.16.vfd,device=floppy \</span>
 
with;
 
<span class="code">--disk path=/shared/files/virtio-win-0.1-30.iso,device=cdrom \</span>}}
 
For those wishing to use the floppy image:
* Local copy of [https://alteeve.ca/files/virtio-win-1.1.16.vfd virtio-win-1.1.16.vfd].


==== Creating vm0004-ms's virt-install Call ====
==== Creating vm0004-ms's virt-install Call ====
Line 6,375: Line 6,418:
                         ...
                         ...
                         <failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
                         <failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
                                 <failoverdomainnode name="an-node01.alteeve.com" priority="1"/>
                                 <failoverdomainnode name="an-node01.alteeve.ca" priority="1"/>
                                 <failoverdomainnode name="an-node02.alteeve.com" priority="2"/>
                                 <failoverdomainnode name="an-node02.alteeve.ca" priority="2"/>
                         </failoverdomain>
                         </failoverdomain>
                         <failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
                         <failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
                                 <failoverdomainnode name="an-node01.alteeve.com" priority="2"/>
                                 <failoverdomainnode name="an-node01.alteeve.ca" priority="2"/>
                                 <failoverdomainnode name="an-node02.alteeve.com" priority="1"/>
                                 <failoverdomainnode name="an-node02.alteeve.ca" priority="1"/>
                         </failoverdomain>
                         </failoverdomain>
                 </failoverdomains>
                 </failoverdomains>
Line 6,396: Line 6,439:
         <cman expected_votes="1" two_node="1"/>
         <cman expected_votes="1" two_node="1"/>
         <clusternodes>
         <clusternodes>
                 <clusternode name="an-node01.alteeve.com" nodeid="1">
                 <clusternode name="an-node01.alteeve.ca" nodeid="1">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 6,406: Line 6,449:
                         </fence>
                         </fence>
                 </clusternode>
                 </clusternode>
                 <clusternode name="an-node02.alteeve.com" nodeid="2">
                 <clusternode name="an-node02.alteeve.ca" nodeid="2">
                         <fence>
                         <fence>
                                 <method name="ipmi">
                                 <method name="ipmi">
Line 6,420: Line 6,463:
                 <fencedevice agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" name="ipmi_an01" passwd="secret"/>
                 <fencedevice agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" name="ipmi_an01" passwd="secret"/>
                 <fencedevice agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" name="ipmi_an02" passwd="secret"/>
                 <fencedevice agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" name="ipmi_an02" passwd="secret"/>
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2"/>
                 <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2"/>
         </fencedevices>
         </fencedevices>
         <fence_daemon post_join_delay="30"/>
         <fence_daemon post_join_delay="30"/>
         <totem rrp_mode="none" secauth="off"/>
         <totem rrp_mode="none" secauth="off"/>
         <rm log_level="5">
         <rm>
                 <resources>
                 <resources>
                         <script file="/etc/init.d/drbd" name="drbd"/>
                         <script file="/etc/init.d/drbd" name="drbd"/>
Line 6,433: Line 6,476:
                 <failoverdomains>
                 <failoverdomains>
                         <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                         <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                                 <failoverdomainnode name="an-node01.alteeve.com"/>
                                 <failoverdomainnode name="an-node01.alteeve.ca"/>
                         </failoverdomain>
                         </failoverdomain>
                         <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                         <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                                 <failoverdomainnode name="an-node02.alteeve.com"/>
                                 <failoverdomainnode name="an-node02.alteeve.ca"/>
                         </failoverdomain>
                         </failoverdomain>
                         <failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
                         <failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
                                 <failoverdomainnode name="an-node01.alteeve.com" priority="1"/>
                                 <failoverdomainnode name="an-node01.alteeve.ca" priority="1"/>
                                 <failoverdomainnode name="an-node02.alteeve.com" priority="2"/>
                                 <failoverdomainnode name="an-node02.alteeve.ca" priority="2"/>
                         </failoverdomain>
                         </failoverdomain>
                         <failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
                         <failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
                                 <failoverdomainnode name="an-node01.alteeve.com" priority="2"/>
                                 <failoverdomainnode name="an-node01.alteeve.ca" priority="2"/>
                                 <failoverdomainnode name="an-node02.alteeve.com" priority="1"/>
                                 <failoverdomainnode name="an-node02.alteeve.ca" priority="1"/>
                         </failoverdomain>
                         </failoverdomain>
                 </failoverdomains>
                 </failoverdomains>
Line 6,493: Line 6,536:


<source lang="xml">
<source lang="xml">
         <rm log_level="5">
         <rm>
                 ...
                 ...
                 <vm name="vm0001-dev" domain="primary_an01" path="/shared/definitions/" autostart="0"
                 <vm name="vm0001-dev" domain="primary_an01" path="/shared/definitions/" autostart="0"
Line 6,530: Line 6,573:
<cman expected_votes="1" two_node="1"/>
<cman expected_votes="1" two_node="1"/>
<clusternodes>
<clusternodes>
<clusternode name="an-node01.alteeve.com" nodeid="1">
<clusternode name="an-node01.alteeve.ca" nodeid="1">
<fence>
<fence>
<method name="ipmi">
<method name="ipmi">
Line 6,540: Line 6,583:
</fence>
</fence>
</clusternode>
</clusternode>
<clusternode name="an-node02.alteeve.com" nodeid="2">
<clusternode name="an-node02.alteeve.ca" nodeid="2">
<fence>
<fence>
<method name="ipmi">
<method name="ipmi">
Line 6,554: Line 6,597:
<fencedevice agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" name="ipmi_an01" passwd="secret"/>
<fencedevice agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" name="ipmi_an01" passwd="secret"/>
<fencedevice agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" name="ipmi_an02" passwd="secret"/>
<fencedevice agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" name="ipmi_an02" passwd="secret"/>
<fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.com" name="pdu2"/>
<fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2"/>
</fencedevices>
</fencedevices>
<fence_daemon post_join_delay="30"/>
<fence_daemon post_join_delay="30"/>
<totem rrp_mode="none" secauth="off"/>
<totem rrp_mode="none" secauth="off"/>
<rm log_level="5">
<rm>
<resources>
<resources>
<script file="/etc/init.d/drbd" name="drbd"/>
<script file="/etc/init.d/drbd" name="drbd"/>
Line 6,567: Line 6,610:
<failoverdomains>
<failoverdomains>
<failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
<failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
<failoverdomainnode name="an-node01.alteeve.com"/>
<failoverdomainnode name="an-node01.alteeve.ca"/>
</failoverdomain>
</failoverdomain>
<failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
<failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
<failoverdomainnode name="an-node02.alteeve.com"/>
<failoverdomainnode name="an-node02.alteeve.ca"/>
</failoverdomain>
</failoverdomain>
<failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
<failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
<failoverdomainnode name="an-node01.alteeve.com" priority="1"/>
<failoverdomainnode name="an-node01.alteeve.ca" priority="1"/>
<failoverdomainnode name="an-node02.alteeve.com" priority="2"/>
<failoverdomainnode name="an-node02.alteeve.ca" priority="2"/>
</failoverdomain>
</failoverdomain>
<failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
<failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
<failoverdomainnode name="an-node01.alteeve.com" priority="2"/>
<failoverdomainnode name="an-node01.alteeve.ca" priority="2"/>
<failoverdomainnode name="an-node02.alteeve.com" priority="1"/>
<failoverdomainnode name="an-node02.alteeve.ca" priority="1"/>
</failoverdomain>
</failoverdomain>
</failoverdomains>
</failoverdomains>
Line 6,633: Line 6,676:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
</source>
</source>
<source lang="bash">
<source lang="bash">
Line 6,664: Line 6,707:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
</source>
</source>
<source lang="bash">
<source lang="bash">
Line 6,723: Line 6,766:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  (none)                        disabled       
  vm:vm0001-dev                  (none)                        disabled       
  vm:vm0002-web                  (none)                        disabled       
  vm:vm0002-web                  (none)                        disabled       
Line 6,741: Line 6,784:


<source lang="bash">
<source lang="bash">
clusvcadm -e vm:vm0001-dev -m an-node01.alteeve.com
clusvcadm -e vm:vm0001-dev -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
vm:vm0001-dev is now running on an-node01.alteeve.com
vm:vm0001-dev is now running on an-node01.alteeve.ca
</source>
</source>


Line 6,758: Line 6,801:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  (none)                        disabled       
  vm:vm0002-web                  (none)                        disabled       
  vm:vm0003-db                  (none)                        disabled       
  vm:vm0003-db                  (none)                        disabled       
Line 6,774: Line 6,817:


<source lang="bash">
<source lang="bash">
clusvcadm -e vm:vm0002-web -m an-node01.alteeve.com
clusvcadm -e vm:vm0002-web -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
vm:vm0002-web is now running on an-node01.alteeve.com
vm:vm0002-web is now running on an-node01.alteeve.ca
</source>
</source>
<source lang="bash">
<source lang="bash">
clusvcadm -e vm:vm0003-db -m an-node02.alteeve.com
clusvcadm -e vm:vm0003-db -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
vm:vm0003-db is now running on an-node02.alteeve.com
vm:vm0003-db is now running on an-node02.alteeve.ca
</source>
</source>
<source lang="bash">
<source lang="bash">
clusvcadm -e vm:vm0004-ms -m an-node02.alteeve.com
clusvcadm -e vm:vm0004-ms -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
vm:vm0004-ms is now running on an-node02.alteeve.com
vm:vm0004-ms is now running on an-node02.alteeve.ca
</source>
</source>


Line 6,803: Line 6,846:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 6,893: Line 6,936:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 6,910: Line 6,953:
On <span class="code">vm0001-dev</span>;
On <span class="code">vm0001-dev</span>;


[[Image:vm0001-dev_ping_live-migration-test_01.png|thumb|700px|center|Running <span class="code">ping alteeve.com</span> on <span class="code">vm0001-dev</span> prior to live migration.]]
[[Image:vm0001-dev_ping_live-migration-test_01.png|thumb|700px|center|Running <span class="code">ping alteeve.ca</span> on <span class="code">vm0001-dev</span> prior to live migration.]]


Now back on <span class="code">an-node01</span>, let's migrate <span class="code">vm0001-dev</span> over to <span class="code">an-node02</span>. This will take a little while as the VM's [[RAM]] gets copied across the [[BCN]].
Now back on <span class="code">an-node01</span>, let's migrate <span class="code">vm0001-dev</span> over to <span class="code">an-node02</span>. This will take a little while as the VM's [[RAM]] gets copied across the [[BCN]].


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0001-dev -m an-node02.alteeve.com
clusvcadm -M vm:vm0001-dev -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0001-dev to an-node02.alteeve.com...Success
Trying to migrate vm:vm0001-dev to an-node02.alteeve.ca...Success
</source>
</source>


Line 6,934: Line 6,977:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node02.alteeve.com         started       
  vm:vm0001-dev                  an-node02.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 6,954: Line 6,997:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0002-web -m an-node02.alteeve.com
clusvcadm -M vm:vm0002-web -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0002-web to an-node02.alteeve.com...Success
Trying to migrate vm:vm0002-web to an-node02.alteeve.ca...Success
</source>
</source>


Line 6,971: Line 7,014:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node02.alteeve.com         started       
  vm:vm0001-dev                  an-node02.alteeve.ca         started       
  vm:vm0002-web                  an-node02.alteeve.com         started       
  vm:vm0002-web                  an-node02.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 7,001: Line 7,044:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node02.alteeve.com         started       
  vm:vm0001-dev                  an-node02.alteeve.ca         started       
  vm:vm0002-web                  an-node02.alteeve.com         started       
  vm:vm0002-web                  an-node02.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 7,051: Line 7,094:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Offline
  an-node01.alteeve.ca                       1 Offline
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          (an-node01.alteeve.com)        stopped       
  service:storage_an01          (an-node01.alteeve.ca)        stopped       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node02.alteeve.com         started       
  vm:vm0001-dev                  an-node02.alteeve.ca         started       
  vm:vm0002-web                  an-node02.alteeve.com         started       
  vm:vm0002-web                  an-node02.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 7,103: Line 7,146:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node02.alteeve.com         started       
  vm:vm0001-dev                  an-node02.alteeve.ca         started       
  vm:vm0002-web                  an-node02.alteeve.com         started       
  vm:vm0002-web                  an-node02.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 7,135: Line 7,178:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.com
clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0001-dev to an-node01.alteeve.com...Success
Trying to migrate vm:vm0001-dev to an-node01.alteeve.ca...Success
</source>
</source>
<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0002-web -m an-node01.alteeve.com
clusvcadm -M vm:vm0002-web -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0002-web to an-node01.alteeve.com...Success
Trying to migrate vm:vm0002-web to an-node01.alteeve.ca...Success
</source>
</source>


Line 7,158: Line 7,201:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 7,186: Line 7,229:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 7,202: Line 7,245:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0003-db -m an-node01.alteeve.com
clusvcadm -M vm:vm0003-db -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0003-db to an-node01.alteeve.com...Success
Trying to migrate vm:vm0003-db to an-node01.alteeve.ca...Success
</source>
</source>
<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0004-ms -m an-node01.alteeve.com
clusvcadm -M vm:vm0004-ms -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0004-ms to an-node01.alteeve.com...Success
Trying to migrate vm:vm0004-ms to an-node01.alteeve.ca...Success
</source>
</source>


Line 7,225: Line 7,268:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node01.alteeve.com         started       
  vm:vm0003-db                  an-node01.alteeve.ca         started       
  vm:vm0004-ms                  an-node01.alteeve.com         started       
  vm:vm0004-ms                  an-node01.alteeve.ca         started       
</source>
</source>


Line 7,253: Line 7,296:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node01.alteeve.com         started       
  vm:vm0003-db                  an-node01.alteeve.ca         started       
  vm:vm0004-ms                  an-node01.alteeve.com         started       
  vm:vm0004-ms                  an-node01.alteeve.ca         started       
</source>
</source>


Line 7,305: Line 7,348:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Offline
  an-node02.alteeve.ca                       2 Offline


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          (an-node02.alteeve.com)        stopped
  service:storage_an02          (an-node02.alteeve.ca)        stopped
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node01.alteeve.com         started
  vm:vm0003-db                  an-node01.alteeve.ca         started
  vm:vm0004-ms                  an-node01.alteeve.com         started
  vm:vm0004-ms                  an-node01.alteeve.ca         started
</source>
</source>


Line 7,355: Line 7,398:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node01.alteeve.com         started       
  vm:vm0003-db                  an-node01.alteeve.ca         started       
  vm:vm0004-ms                  an-node01.alteeve.com         started       
  vm:vm0004-ms                  an-node01.alteeve.ca         started       
</source>
</source>


Line 7,387: Line 7,430:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0003-db -m an-node02.alteeve.com
clusvcadm -M vm:vm0003-db -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0003-db to an-node02.alteeve.com...Success
Trying to migrate vm:vm0003-db to an-node02.alteeve.ca...Success
</source>
</source>
<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.com
clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0004-ms to an-node02.alteeve.com...Success
Trying to migrate vm:vm0004-ms to an-node02.alteeve.ca...Success
</source>
</source>


Line 7,410: Line 7,453:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 7,451: Line 7,494:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,591: Line 7,634:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,638: Line 7,681:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node02.alteeve.com         started
  vm:vm0001-dev                  an-node02.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,656: Line 7,699:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.com
clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0001-dev to an-node01.alteeve.com...Success
Trying to migrate vm:vm0001-dev to an-node01.alteeve.ca...Success
</source>
</source>


Line 7,673: Line 7,716:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,703: Line 7,746:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,755: Line 7,798:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,807: Line 7,850:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,854: Line 7,897:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node02.alteeve.com         started
  vm:vm0002-web                  an-node02.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,870: Line 7,913:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0002-web -m an-node01.alteeve.com
clusvcadm -M vm:vm0002-web -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0002-web to an-node01.alteeve.com...Success
Trying to migrate vm:vm0002-web to an-node01.alteeve.ca...Success
</source>
</source>
<source lang="bash">
<source lang="bash">
Line 7,884: Line 7,927:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,914: Line 7,957:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 7,964: Line 8,007:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,014: Line 8,057:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,061: Line 8,104:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node01.alteeve.com         started
  vm:vm0003-db                  an-node01.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,077: Line 8,120:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0003-db -m an-node02.alteeve.com
clusvcadm -M vm:vm0003-db -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0003-db to an-node02.alteeve.com...Success
Trying to migrate vm:vm0003-db to an-node02.alteeve.ca...Success
</source>
</source>
<source lang="bash">
<source lang="bash">
Line 8,091: Line 8,134:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,123: Line 8,166:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,174: Line 8,217:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,225: Line 8,268:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,273: Line 8,316:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node01.alteeve.com         started
  vm:vm0004-ms                  an-node01.alteeve.ca         started
</source>
</source>


Line 8,289: Line 8,332:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.com
clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0004-ms to an-node02.alteeve.com...Success
Trying to migrate vm:vm0004-ms to an-node02.alteeve.ca...Success
</source>
</source>
<source lang="bash">
<source lang="bash">
Line 8,303: Line 8,346:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,350: Line 8,393:
Jan  1 21:26:00 an-node02 kernel: block drbd1: receiver (re)started
Jan  1 21:26:00 an-node02 kernel: block drbd1: receiver (re)started
Jan  1 21:26:00 an-node02 kernel: block drbd1: conn( Unconnected -> WFConnection )  
Jan  1 21:26:00 an-node02 kernel: block drbd1: conn( Unconnected -> WFConnection )  
Jan  1 21:26:00 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.com
Jan  1 21:26:00 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
Jan  1 21:26:01 an-node02 kernel: block drbd2: PingAck did not arrive in time.
Jan  1 21:26:01 an-node02 kernel: block drbd2: PingAck did not arrive in time.
Jan  1 21:26:01 an-node02 kernel: block drbd2: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 )  
Jan  1 21:26:01 an-node02 kernel: block drbd2: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 )  
Line 8,362: Line 8,405:
Jan  1 21:26:01 an-node02 kernel: block drbd2: receiver (re)started
Jan  1 21:26:01 an-node02 kernel: block drbd2: receiver (re)started
Jan  1 21:26:01 an-node02 kernel: block drbd2: conn( Unconnected -> WFConnection )  
Jan  1 21:26:01 an-node02 kernel: block drbd2: conn( Unconnected -> WFConnection )  
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.com
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 21:26:03 an-node02 kernel: block drbd0: PingAck did not arrive in time.
Jan  1 21:26:03 an-node02 kernel: block drbd0: PingAck did not arrive in time.
Line 8,375: Line 8,418:
Jan  1 21:26:03 an-node02 kernel: block drbd0: receiver (re)started
Jan  1 21:26:03 an-node02 kernel: block drbd0: receiver (re)started
Jan  1 21:26:03 an-node02 kernel: block drbd0: conn( Unconnected -> WFConnection )  
Jan  1 21:26:03 an-node02 kernel: block drbd0: conn( Unconnected -> WFConnection )  
Jan  1 21:26:03 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.com
Jan  1 21:26:03 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
Jan  1 21:26:03 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 21:26:03 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 21:26:09 an-node02 corosync[1963]:  [TOTEM ] A processor failed, forming new configuration.
Jan  1 21:26:09 an-node02 corosync[1963]:  [TOTEM ] A processor failed, forming new configuration.
Line 8,383: Line 8,426:
Jan  1 21:26:11 an-node02 corosync[1963]:  [CPG  ] chosen downlist: sender r(0) ip(10.20.0.2) ; members(old:2 left:1)
Jan  1 21:26:11 an-node02 corosync[1963]:  [CPG  ] chosen downlist: sender r(0) ip(10.20.0.2) ; members(old:2 left:1)
Jan  1 21:26:11 an-node02 corosync[1963]:  [MAIN  ] Completed service synchronization, ready to provide service.
Jan  1 21:26:11 an-node02 corosync[1963]:  [MAIN  ] Completed service synchronization, ready to provide service.
Jan  1 21:26:11 an-node02 fenced[2022]: fencing node an-node01.alteeve.com
Jan  1 21:26:11 an-node02 fenced[2022]: fencing node an-node01.alteeve.ca
Jan  1 21:26:11 an-node02 kernel: GFS2: fsid=an-cluster-A:shared.0: jid=1: Trying to acquire journal lock...
Jan  1 21:26:11 an-node02 kernel: GFS2: fsid=an-cluster-A:shared.0: jid=1: Trying to acquire journal lock...
Jan  1 21:26:14 an-node02 fence_node[15572]: fence an-node01.alteeve.com success
Jan  1 21:26:14 an-node02 fence_node[15572]: fence an-node01.alteeve.ca success
Jan  1 21:26:14 an-node02 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1 exit code 7 (0x700)
Jan  1 21:26:14 an-node02 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1 exit code 7 (0x700)
Jan  1 21:26:14 an-node02 kernel: block drbd1: fence-peer helper returned 7 (peer was stonithed)
Jan  1 21:26:14 an-node02 kernel: block drbd1: fence-peer helper returned 7 (peer was stonithed)
Line 8,391: Line 8,434:
Jan  1 21:26:14 an-node02 kernel: block drbd1: new current UUID 6355AAB258658E8F:4642D156D54731A1:5F8A6B05E2FCCE19:165E9B466805EC81
Jan  1 21:26:14 an-node02 kernel: block drbd1: new current UUID 6355AAB258658E8F:4642D156D54731A1:5F8A6B05E2FCCE19:165E9B466805EC81
Jan  1 21:26:14 an-node02 kernel: block drbd1: susp( 1 -> 0 )  
Jan  1 21:26:14 an-node02 kernel: block drbd1: susp( 1 -> 0 )  
Jan  1 21:26:15 an-node02 fenced[2022]: fence an-node01.alteeve.com success
Jan  1 21:26:15 an-node02 fenced[2022]: fence an-node01.alteeve.ca success
Jan  1 21:26:15 an-node02 fence_node[15672]: fence an-node01.alteeve.com success
Jan  1 21:26:15 an-node02 fence_node[15672]: fence an-node01.alteeve.ca success
Jan  1 21:26:15 an-node02 kernel: block drbd0: helper command: /sbin/drbdadm fence-peer minor-0 exit code 7 (0x700)
Jan  1 21:26:15 an-node02 kernel: block drbd0: helper command: /sbin/drbdadm fence-peer minor-0 exit code 7 (0x700)
Jan  1 21:26:15 an-node02 kernel: block drbd0: fence-peer helper returned 7 (peer was stonithed)
Jan  1 21:26:15 an-node02 kernel: block drbd0: fence-peer helper returned 7 (peer was stonithed)
Line 8,398: Line 8,441:
Jan  1 21:26:15 an-node02 kernel: block drbd0: new current UUID C1F5EF16EE80E6C1:1B503B46E6650575:234E9A10EE04FDE7:7DBC4288E230DC9B
Jan  1 21:26:15 an-node02 kernel: block drbd0: new current UUID C1F5EF16EE80E6C1:1B503B46E6650575:234E9A10EE04FDE7:7DBC4288E230DC9B
Jan  1 21:26:15 an-node02 kernel: block drbd0: susp( 1 -> 0 )  
Jan  1 21:26:15 an-node02 kernel: block drbd0: susp( 1 -> 0 )  
Jan  1 21:26:15 an-node02 fence_node[15627]: fence an-node01.alteeve.com success
Jan  1 21:26:15 an-node02 fence_node[15627]: fence an-node01.alteeve.ca success
Jan  1 21:26:15 an-node02 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2 exit code 7 (0x700)
Jan  1 21:26:15 an-node02 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2 exit code 7 (0x700)
Jan  1 21:26:15 an-node02 kernel: block drbd2: fence-peer helper returned 7 (peer was stonithed)
Jan  1 21:26:15 an-node02 kernel: block drbd2: fence-peer helper returned 7 (peer was stonithed)
Line 8,407: Line 8,450:
Jan  1 21:26:16 an-node02 kernel: GFS2: fsid=an-cluster-A:shared.0: jid=1: Done
Jan  1 21:26:16 an-node02 kernel: GFS2: fsid=an-cluster-A:shared.0: jid=1: Done
Jan  1 21:26:16 an-node02 rgmanager[2514]: Marking service:storage_an01 as stopped: Restricted domain unavailable
Jan  1 21:26:16 an-node02 rgmanager[2514]: Marking service:storage_an01 as stopped: Restricted domain unavailable
Jan  1 21:26:16 an-node02 rgmanager[2514]: Taking over service vm:vm0001-dev from down member an-node01.alteeve.com
Jan  1 21:26:16 an-node02 rgmanager[2514]: Taking over service vm:vm0001-dev from down member an-node01.alteeve.ca
Jan  1 21:26:16 an-node02 rgmanager[2514]: Taking over service vm:vm0002-web from down member an-node01.alteeve.com
Jan  1 21:26:16 an-node02 rgmanager[2514]: Taking over service vm:vm0002-web from down member an-node01.alteeve.ca
Jan  1 21:26:17 an-node02 kernel: device vnet2 entered promiscuous mode
Jan  1 21:26:17 an-node02 kernel: device vnet2 entered promiscuous mode
Jan  1 21:26:17 an-node02 kernel: vbr2: port 4(vnet2) entering learning state
Jan  1 21:26:17 an-node02 kernel: vbr2: port 4(vnet2) entering learning state
Line 8,434: Line 8,477:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node02.alteeve.com         started
  vm:vm0001-dev                  an-node02.alteeve.ca         started
  vm:vm0002-web                  an-node02.alteeve.com         started
  vm:vm0002-web                  an-node02.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,460: Line 8,503:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node02.alteeve.com         started       
  vm:vm0001-dev                  an-node02.alteeve.ca         started       
  vm:vm0002-web                  an-node02.alteeve.com         started       
  vm:vm0002-web                  an-node02.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 8,494: Line 8,537:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.com
clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0001-dev to an-node01.alteeve.com...Success
Trying to migrate vm:vm0001-dev to an-node01.alteeve.ca...Success
</source>
</source>
<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0002-web -m an-node01.alteeve.com
clusvcadm -M vm:vm0002-web -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0002-web to an-node01.alteeve.com...Success
Trying to migrate vm:vm0002-web to an-node01.alteeve.ca...Success
</source>
</source>


Line 8,517: Line 8,560:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,546: Line 8,589:
Jan  1 21:26:00 an-node02 kernel: block drbd1: receiver (re)started
Jan  1 21:26:00 an-node02 kernel: block drbd1: receiver (re)started
Jan  1 21:26:00 an-node02 kernel: block drbd1: conn( Unconnected -> WFConnection )  
Jan  1 21:26:00 an-node02 kernel: block drbd1: conn( Unconnected -> WFConnection )  
Jan  1 21:26:00 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.com
Jan  1 21:26:00 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
</source>
</source>


Line 8,552: Line 8,595:


<source lang="text">
<source lang="text">
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.com
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
</source>
</source>
Line 8,559: Line 8,602:


<source lang="text">
<source lang="text">
Jan  1 21:26:15 an-node02 fenced[2022]: fence an-node01.alteeve.com success
Jan  1 21:26:15 an-node02 fenced[2022]: fence an-node01.alteeve.ca success
</source>
</source>


Line 8,579: Line 8,622:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,612: Line 8,655:
Jan  1 22:56:15 an-node01 kernel: block drbd1: receiver (re)started
Jan  1 22:56:15 an-node01 kernel: block drbd1: receiver (re)started
Jan  1 22:56:15 an-node01 kernel: block drbd1: conn( Unconnected -> WFConnection )  
Jan  1 22:56:15 an-node01 kernel: block drbd1: conn( Unconnected -> WFConnection )  
Jan  1 22:56:15 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.com
Jan  1 22:56:15 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.ca
Jan  1 22:56:19 an-node01 kernel: block drbd0: PingAck did not arrive in time.
Jan  1 22:56:19 an-node01 kernel: block drbd0: PingAck did not arrive in time.
Jan  1 22:56:19 an-node01 kernel: block drbd0: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 )  
Jan  1 22:56:19 an-node01 kernel: block drbd0: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 )  
Line 8,624: Line 8,667:
Jan  1 22:56:19 an-node01 kernel: block drbd0: receiver (re)started
Jan  1 22:56:19 an-node01 kernel: block drbd0: receiver (re)started
Jan  1 22:56:19 an-node01 kernel: block drbd0: conn( Unconnected -> WFConnection )  
Jan  1 22:56:19 an-node01 kernel: block drbd0: conn( Unconnected -> WFConnection )  
Jan  1 22:56:19 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.com
Jan  1 22:56:19 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.ca
Jan  1 22:56:19 an-node01 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 22:56:19 an-node01 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 22:56:21 an-node01 kernel: block drbd2: PingAck did not arrive in time.
Jan  1 22:56:21 an-node01 kernel: block drbd2: PingAck did not arrive in time.
Line 8,637: Line 8,680:
Jan  1 22:56:21 an-node01 kernel: block drbd2: conn( Unconnected -> WFConnection )  
Jan  1 22:56:21 an-node01 kernel: block drbd2: conn( Unconnected -> WFConnection )  
Jan  1 22:56:21 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2
Jan  1 22:56:21 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2
Jan  1 22:56:21 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.com
Jan  1 22:56:21 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.ca
Jan  1 22:56:21 an-node01 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 22:56:21 an-node01 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 22:56:22 an-node01 corosync[1958]:  [TOTEM ] A processor failed, forming new configuration.
Jan  1 22:56:22 an-node01 corosync[1958]:  [TOTEM ] A processor failed, forming new configuration.
Line 8,645: Line 8,688:
Jan  1 22:56:24 an-node01 corosync[1958]:  [CPG  ] chosen downlist: sender r(0) ip(10.20.0.1) ; members(old:2 left:1)
Jan  1 22:56:24 an-node01 corosync[1958]:  [CPG  ] chosen downlist: sender r(0) ip(10.20.0.1) ; members(old:2 left:1)
Jan  1 22:56:24 an-node01 corosync[1958]:  [MAIN  ] Completed service synchronization, ready to provide service.
Jan  1 22:56:24 an-node01 corosync[1958]:  [MAIN  ] Completed service synchronization, ready to provide service.
Jan  1 22:56:24 an-node01 fenced[2014]: fencing node an-node02.alteeve.com
Jan  1 22:56:24 an-node01 fenced[2014]: fencing node an-node02.alteeve.ca
Jan  1 22:56:24 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Trying to acquire journal lock...
Jan  1 22:56:24 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Trying to acquire journal lock...
Jan  1 22:56:28 an-node01 fenced[2014]: fence an-node02.alteeve.com success
Jan  1 22:56:28 an-node01 fenced[2014]: fence an-node02.alteeve.ca success
Jan  1 22:56:29 an-node01 fence_node[638]: fence an-node02.alteeve.com success
Jan  1 22:56:29 an-node01 fence_node[638]: fence an-node02.alteeve.ca success
Jan  1 22:56:29 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd2: fence-peer helper returned 7 (peer was stonithed)
Jan  1 22:56:29 an-node01 kernel: block drbd2: fence-peer helper returned 7 (peer was stonithed)
Line 8,654: Line 8,697:
Jan  1 22:56:29 an-node01 kernel: block drbd2: new current UUID 207F7C9279067EC1:3EEB0F756A6A289F:FD92DAC355F53A93:FD91DAC355F53A93
Jan  1 22:56:29 an-node01 kernel: block drbd2: new current UUID 207F7C9279067EC1:3EEB0F756A6A289F:FD92DAC355F53A93:FD91DAC355F53A93
Jan  1 22:56:29 an-node01 kernel: block drbd2: susp( 1 -> 0 )  
Jan  1 22:56:29 an-node01 kernel: block drbd2: susp( 1 -> 0 )  
Jan  1 22:56:29 an-node01 fence_node[518]: fence an-node02.alteeve.com success
Jan  1 22:56:29 an-node01 fence_node[518]: fence an-node02.alteeve.ca success
Jan  1 22:56:29 an-node01 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd1: fence-peer helper returned 7 (peer was stonithed)
Jan  1 22:56:29 an-node01 kernel: block drbd1: fence-peer helper returned 7 (peer was stonithed)
Line 8,661: Line 8,704:
Jan  1 22:56:29 an-node01 kernel: block drbd1: susp( 1 -> 0 )  
Jan  1 22:56:29 an-node01 kernel: block drbd1: susp( 1 -> 0 )  
Jan  1 22:56:29 an-node01 rgmanager[2507]: Marking service:storage_an02 as stopped: Restricted domain unavailable
Jan  1 22:56:29 an-node01 rgmanager[2507]: Marking service:storage_an02 as stopped: Restricted domain unavailable
Jan  1 22:56:29 an-node01 fence_node[583]: fence an-node02.alteeve.com success
Jan  1 22:56:29 an-node01 fence_node[583]: fence an-node02.alteeve.ca success
Jan  1 22:56:29 an-node01 kernel: block drbd0: helper command: /sbin/drbdadm fence-peer minor-0 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd0: helper command: /sbin/drbdadm fence-peer minor-0 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd0: fence-peer helper returned 7 (peer was stonithed)
Jan  1 22:56:29 an-node01 kernel: block drbd0: fence-peer helper returned 7 (peer was stonithed)
Line 8,669: Line 8,712:
Jan  1 22:56:29 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Looking at journal...
Jan  1 22:56:29 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Looking at journal...
Jan  1 22:56:30 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Done
Jan  1 22:56:30 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Done
Jan  1 22:56:30 an-node01 rgmanager[2507]: Taking over service vm:vm0003-db from down member an-node02.alteeve.com
Jan  1 22:56:30 an-node01 rgmanager[2507]: Taking over service vm:vm0003-db from down member an-node02.alteeve.ca
Jan  1 22:56:30 an-node01 rgmanager[2507]: Taking over service vm:vm0004-ms from down member an-node02.alteeve.com
Jan  1 22:56:30 an-node01 rgmanager[2507]: Taking over service vm:vm0004-ms from down member an-node02.alteeve.ca
Jan  1 22:56:30 an-node01 kernel: device vnet2 entered promiscuous mode
Jan  1 22:56:30 an-node01 kernel: device vnet2 entered promiscuous mode
Jan  1 22:56:30 an-node01 kernel: vbr2: port 4(vnet2) entering learning state
Jan  1 22:56:30 an-node01 kernel: vbr2: port 4(vnet2) entering learning state
Line 8,695: Line 8,738:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Offline
  an-node02.alteeve.ca                       2 Offline


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          (an-node02.alteeve.com)        stopped
  service:storage_an02          (an-node02.alteeve.ca)        stopped
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node01.alteeve.com         started
  vm:vm0003-db                  an-node01.alteeve.ca         started
  vm:vm0004-ms                  an-node01.alteeve.com         started
  vm:vm0004-ms                  an-node01.alteeve.ca         started
</source>
</source>


Line 8,721: Line 8,764:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node01.alteeve.com         started
  vm:vm0003-db                  an-node01.alteeve.ca         started
  vm:vm0004-ms                  an-node01.alteeve.com         started
  vm:vm0004-ms                  an-node01.alteeve.ca         started
</source>
</source>


Line 8,774: Line 8,817:


<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0003-db -m an-node02.alteeve.com
clusvcadm -M vm:vm0003-db -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0003-db to an-node02.alteeve.com...Success
Trying to migrate vm:vm0003-db to an-node02.alteeve.ca...Success
</source>
</source>
<source lang="bash">
<source lang="bash">
clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.com
clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
Trying to migrate vm:vm0004-ms to an-node02.alteeve.com...Success
Trying to migrate vm:vm0004-ms to an-node02.alteeve.ca...Success
</source>
</source>


Line 8,797: Line 8,840:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,831: Line 8,874:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  an-node01.alteeve.com         started
  vm:vm0001-dev                  an-node01.alteeve.ca         started
  vm:vm0002-web                  an-node01.alteeve.com         started
  vm:vm0002-web                  an-node01.alteeve.ca         started
  vm:vm0003-db                  an-node02.alteeve.com         started
  vm:vm0003-db                  an-node02.alteeve.ca         started
  vm:vm0004-ms                  an-node02.alteeve.com         started
  vm:vm0004-ms                  an-node02.alteeve.ca         started
</source>
</source>


Line 8,887: Line 8,930:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State
  Service Name                  Owner (Last)                  State
  ------- ----                  ----- ------                  -----
  ------- ----                  ----- ------                  -----
  service:storage_an01          an-node01.alteeve.com         started
  service:storage_an01          an-node01.alteeve.ca         started
  service:storage_an02          an-node02.alteeve.com         started
  service:storage_an02          an-node02.alteeve.ca         started
  vm:vm0001-dev                  (an-node01.alteeve.com)        disabled
  vm:vm0001-dev                  (an-node01.alteeve.ca)        disabled
  vm:vm0002-web                  (an-node01.alteeve.com)        disabled
  vm:vm0002-web                  (an-node01.alteeve.ca)        disabled
  vm:vm0003-db                  (an-node02.alteeve.com)        disabled
  vm:vm0003-db                  (an-node02.alteeve.ca)        disabled
  vm:vm0004-ms                  (an-node02.alteeve.com)        disabled
  vm:vm0004-ms                  (an-node02.alteeve.ca)        disabled
</source>
</source>


Line 8,966: Line 9,009:
</source>
</source>
<source lang="text">
<source lang="text">
Broadcast message from root@an-node01.alteeve.com
Broadcast message from root@an-node01.alteeve.ca
(/dev/pts/0) at 23:22 ...
(/dev/pts/0) at 23:22 ...


Line 9,005: Line 9,048:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, Local, rgmanager
  an-node01.alteeve.ca                       1 Online, Local, rgmanager
  an-node02.alteeve.com                       2 Online, rgmanager
  an-node02.alteeve.ca                       2 Online, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  (none)                        disabled       
  vm:vm0001-dev                  (none)                        disabled       
  vm:vm0002-web                  (none)                        disabled       
  vm:vm0002-web                  (none)                        disabled       
Line 9,037: Line 9,080:


<source lang="bash">
<source lang="bash">
clusvcadm -e vm:vm0001-dev -m an-node01.alteeve.com
clusvcadm -e vm:vm0001-dev -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
vm:vm0001-dev is now running on an-node01.alteeve.com
vm:vm0001-dev is now running on an-node01.alteeve.ca
</source>
</source>


<source lang="bash">
<source lang="bash">
clusvcadm -e vm:vm0002-web -m an-node01.alteeve.com
clusvcadm -e vm:vm0002-web -m an-node01.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
vm:vm0002-web is now running on an-node01.alteeve.com
vm:vm0002-web is now running on an-node01.alteeve.ca
</source>
</source>


<source lang="bash">
<source lang="bash">
clusvcadm -e vm:vm0003-db -m an-node02.alteeve.com
clusvcadm -e vm:vm0003-db -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
vm:vm0003-db is now running on an-node02.alteeve.com
vm:vm0003-db is now running on an-node02.alteeve.ca
</source>
</source>


<source lang="bash">
<source lang="bash">
clusvcadm -e vm:vm0004-ms -m an-node02.alteeve.com
clusvcadm -e vm:vm0004-ms -m an-node02.alteeve.ca
</source>
</source>
<source lang="text">
<source lang="text">
vm:vm0004-ms is now running on an-node02.alteeve.com
vm:vm0004-ms is now running on an-node02.alteeve.ca
</source>
</source>


Line 9,075: Line 9,118:
  Member Name                            ID  Status
  Member Name                            ID  Status
  ------ ----                            ---- ------
  ------ ----                            ---- ------
  an-node01.alteeve.com                       1 Online, rgmanager
  an-node01.alteeve.ca                       1 Online, rgmanager
  an-node02.alteeve.com                       2 Online, Local, rgmanager
  an-node02.alteeve.ca                       2 Online, Local, rgmanager


  Service Name                  Owner (Last)                  State         
  Service Name                  Owner (Last)                  State         
  ------- ----                  ----- ------                  -----         
  ------- ----                  ----- ------                  -----         
  service:storage_an01          an-node01.alteeve.com         started       
  service:storage_an01          an-node01.alteeve.ca         started       
  service:storage_an02          an-node02.alteeve.com         started       
  service:storage_an02          an-node02.alteeve.ca         started       
  vm:vm0001-dev                  an-node01.alteeve.com         started       
  vm:vm0001-dev                  an-node01.alteeve.ca         started       
  vm:vm0002-web                  an-node01.alteeve.com         started       
  vm:vm0002-web                  an-node01.alteeve.ca         started       
  vm:vm0003-db                  an-node02.alteeve.com         started       
  vm:vm0003-db                  an-node02.alteeve.ca         started       
  vm:vm0004-ms                  an-node02.alteeve.com         started       
  vm:vm0004-ms                  an-node02.alteeve.ca         started       
</source>
</source>


Line 9,100: Line 9,143:
= Troubleshooting =
= Troubleshooting =


Here we will cover, in no particular order, some common clustering problems and their fixes.
The troubleshooting section seems to have pushed Media Wiki beyond it's single-article length limit. For this reason, it has been moved to it's own page.
 
== [vm] error: internal error Attempt to migrate guest to the same host {uuid} ==
 
{{note|1=<s>See [https://bugzilla.redhat.com/show_bug.cgi?id=770626 rhbz#770626]. Work-around below.</s> This seems to now be resolved! Setting <span class="code">host_uuid</span> is enough to work around this issue.}}
 
This message will appear in the source node's syslog when trying to migrate a VM. Here is an example set of error messages.
 
<source lang="text">
Dec 27 22:00:46 an-node01 rgmanager[2492]: Migrating vm:vm0001-dev to an-node02.alteeve.com
Dec 27 22:00:46 an-node01 rgmanager[22331]: [vm] Migrate vm0001-dev to an-node02.alteeve.com failed:
Dec 27 22:00:46 an-node01 rgmanager[22353]: [vm] error: internal error Attempt to migrate guest to the same host 00020003-0004-0005-0006-000700080009
Dec 27 22:00:46 an-node01 rgmanager[2492]: migrate on vm "vm0001-dev" returned 150 (unspecified)
Dec 27 22:00:46 an-node01 rgmanager[2492]: Migration of vm:vm0001-dev to an-node02.alteeve.com failed; return code 150
</source>
 
For reasons as yet unknown, both nodes have the same [[UUID]]. You can verify this by running <span class="code">virsh sysinfo | grep uuid</span> on both nodes.


First node;
* [[2-Node Red Hat KVM Cluster Tutorial - Troubleshooting]]


<source lang="bash">
== Disabling rsyslog Rate Limiting ==
virsh sysinfo | grep uuid
</source>
<source lang="xml">
    <entry name='uuid'>03000200-0400-0500-0006-000700080009</entry>
</source>
 
First node;
 
<source lang="bash">
virsh sysinfo | grep uuid
</source>
<source lang="xml">
    <entry name='uuid'>03000200-0400-0500-0006-000700080009</entry>
</source>
 
This UUID comes from the mainboard, and you can confirm this with the following command (note to change the string in <span class="code">grep</span> to a portion of your UUID);
 
<source lang="bash">
dmidecode -s system-uuid
</source>
<source lang="text">
03000200-0400-0500-0006-000700080009
</source>
 
Alternatively;
 
<source lang="bash">
dmidecode |grep 000700080009 -B 7 -A 4
</source>
<source lang="text">
Handle 0x0001, DMI type 1, 27 bytes
System Information
Manufacturer: empty
Product Name: empty
Version: empty
Serial Number: empty
UUID: 03000200-0400-0500-0006-000700080009
Wake-up Type: Power Switch
SKU Number: To be filled by O.E.M.
Family: To be filled by O.E.M.
</source>
 
This is the result of a lazy vendor re-using UUIDs across mainboards.
 
The fix is to specify a unique UUID in <span class="code">/etc/libvirt/libvirtd.conf</span> using its <span class="code">host_uuid</span> variable. We'll generate new, unique UUIDs for each node using the <span class="code">uuidgen</span> command. Be sure to use two new UUIDs for each node!
 
On the first node;
 
<source lang="bash">
cp /etc/libvirt/libvirtd.conf /etc/libvirt/libvirtd.conf.orig
uuidgen
</source>
<source lang="bash">
31873b9e-1069-42ce-b950-137ae5eaa3d1
</source>
 
Change the UUID;
 
<source lang="bash">
vim /etc/libvirt/libvirtd.conf
</source>
<source lang="bash">
host_uuid = "31873b9e-1069-42ce-b950-137ae5eaa3d1"
</source>
 
Here's the <span class="code">diff</span>;
 
<source lang="bash">
diff -u /etc/libvirt/libvirtd.conf.orig /etc/libvirt/libvirtd.conf
</source>
<source lang="diff">
--- /etc/libvirt/libvirtd.conf.orig 2011-12-27 22:29:01.243394880 -0500
+++ /etc/libvirt/libvirtd.conf 2011-12-27 22:33:44.309799253 -0500
@@ -365,4 +365,4 @@
# NB This default all-zeros UUID will not work. Replace
# it with the output of the 'uuidgen' command and then
# uncomment this entry
-#host_uuid = "00000000-0000-0000-0000-000000000000"
+host_uuid = "31873b9e-1069-42ce-b950-137ae5eaa3d1"
</source>
 
Make the same change, with a new and unique UUID, on the second node.
 
<source lang="bash">
cp /etc/libvirt/libvirtd.conf /etc/libvirt/libvirtd.conf.orig
uuidgen
</source>
<source lang="bash">
90b8d280-c9ff-4e0e-867e-6d4f7d915995
</source>
 
Change the UUID;
 
<source lang="bash">
vim /etc/libvirt/libvirtd.conf
</source>
<source lang="bash">
host_uuid = "90b8d280-c9ff-4e0e-867e-6d4f7d915995"
</source>
 
Here's the <span class="code">diff</span>;
 
<source lang="bash">
diff -u /etc/libvirt/libvirtd.conf.orig /etc/libvirt/libvirtd.conf
</source>
<source lang="diff">
--- /etc/libvirt/libvirtd.conf.orig 2011-12-27 22:35:45.975389858 -0500
+++ /etc/libvirt/libvirtd.conf 2011-12-27 22:36:28.325518880 -0500
@@ -365,4 +365,4 @@
# NB This default all-zeros UUID will not work. Replace
# it with the output of the 'uuidgen' command and then
# uncomment this entry
-#host_uuid = "00000000-0000-0000-0000-000000000000"
+host_uuid = "90b8d280-c9ff-4e0e-867e-6d4f7d915995"
</source>
 
Now to reload the configuration, we need to restart <span class="code">libvirtd</span> (a reload is not enough).
 
{{warning|1=Be sure to stop all VMs on the node before proceeding!}}
 
<source lang="bash">
/etc/init.d/libvirtd restart
</source>
<source lang="text">
Stopping libvirtd daemon:                                  [  OK  ]
Starting libvirtd daemon:                                  [  OK  ]
</source>
 
<source lang="bash">
virsh sysinfo | grep uuid
</source>
 
This should show the new UUID. If it doesn't though, please apply the work-around below.
 
=== Setting host_uuid Didn't Work, What Now? ===
 
{{warning|1=This work-around is not supported in any way supported by Red Hat or any other vendor. This work-around is provided as-is until <span class="code">libvirt</span> is fixed. - '''Dec. 28, 2011'''}}
 
The problem is that <span class="code">libvirt</span> doesn't use <span class="code">libvirtd.conf</span>'s <span class="code">host_uuid</span> if it sees the system UUID as being valid (not all <span class="code">0</span> or all <span class="code">f</span>).
 
The work-around is to create a wrapper script for <span class="code">dmidecode</span> that intercepts <span class="code">dmidecode -q -t 0,1,4,17</span>, reads the <span class="code">libvirtd.conf</span> and, if <span class="code">host_uuid</span> is set, substitute UUID returned by <span class="code">dmidecode</span> with the one set by <span class="code">host_uuid</span>.
 
{{note|1=You can look at the source of the wrapper script [http://pastebin.com/dwXkUnPT on pastebin.org].}}
 
To apply the work-around;
 
Check that the current <span class="code">dmidecode</span> returns the bad UUID;
 
<source lang="bash">
dmidecode -q -t 0,1,4,17 | grep UUID
</source>
<source lang="text">
UUID: 03000200-0400-0500-0006-000700080009
</source>
 
Now we're going to rename <span class="code">dmidecode</span> as <span class="code">dmidecode.orig</span>, then download the wrapper script.
 
<source lang="bash">
mv /usr/sbin/dmidecode /usr/sbin/dmidecode.orig
wget -c https://alteeve.com/files/dmidecode -O /usr/sbin/dmidecode
</source>
<source lang="text">
--2011-12-28 13:44:27--  https://alteeve.com/files/dmidecode
Resolving alteeve.com... 192.139.81.121
Connecting to alteeve.com|192.139.81.121|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 1159 (1.1K) [text/plain]
Saving to: “/usr/sbin/dmidecode”
 
100%[======================================>] 1,159      --.-K/s  in 0s     
 
2011-12-28 13:44:28 (15.3 MB/s) - “/usr/sbin/dmidecode” saved [1159/1159]
</source>
<source lang="bash">
chmod 755 /usr/sbin/dmidecode
ls -lah /usr/sbin/dmidecode
</source>
<source lang="text">
-rwxr-xr-x 1 root root 1.2K Dec 28 13:26 /usr/sbin/dmidecode
</source>
 
Now re-run the <span class="code">dmidecode</span> call and see that the new UUID is used.
 
<source lang="bash">
dmidecode -q -t 0,1,4,17 | grep UUID
</source>
<source lang="text">
UUID: 31873b9e-1069-42ce-b950-137ae5eaa3d1
</source>
 
This matches what was set in <span class="code">/etc/libvirt/libvirtd.conf</span>;
 
<source lang="bash">
grep host_uuid /etc/libvirt/libvirtd.conf
</source>
<source lang="text">
host_uuid = "31873b9e-1069-42ce-b950-137ae5eaa3d1"
</source>
 
Now restart <span class="code">libvirtd</span> and check <span class="code">virsh sysinfo</span> to confirm that <span class="code">libvirtd</span> now returns the proper UUID.
 
<source lang="bash">
/etc/init.d/libvirtd restart
</source>
<source lang="text">
Stopping libvirtd daemon:                                  [  OK  ]
Starting libvirtd daemon:                                  [  OK  ]
</source>
<source lang="bash">
virsh sysinfo | grep uuid
</source>
<source lang="xml">
    <entry name='uuid'>31873b9e-1069-42ce-b950-137ae5eaa3d1</entry>
</source>
 
Done!
 
As soon as <span class="code">libvirtd</span> is fixed, this section will be re-written.
 
== [vm] error: Cannot recv data: Host key verification failed.#015: Connection reset by peer ==
 
This can show up when you try to live migrate a VM but your <span class="code">/root/.ssh/known_hosts</span> file has not been populated. Effectively, the cluster was prompted to accept the finger-print of the target node, was unable to answer and so then closed the connection.
 
The syslog entry will look something like this;
 
<source lang="text">
Dec 27 21:58:00 an-node02 rgmanager[2439]: Migrating vm:vm0003-db to an-node01.alteeve.com
Dec 27 21:58:01 an-node02 rgmanager[18951]: [vm] Migrate vm0003-db to an-node01.alteeve.com failed:
Dec 27 21:58:01 an-node02 rgmanager[18973]: [vm] error: Cannot recv data: Host key verification failed.#015: Connection reset by peer
Dec 27 21:58:01 an-node02 rgmanager[2439]: migrate on vm "vm0003-db" returned 150 (unspecified)
Dec 27 21:58:01 an-node02 rgmanager[2439]: Migration of vm:vm0003-db to an-node01.alteeve.com failed; return code 150
</source>
 
To fix the problem, please return to [[2-Node_Red_Hat_KVM_Cluster_Tutorial#Populating_And_Pushing_.7E.2F.ssh.2Fknown_hosts|Populating And Pushing ~/ssh/known_hosts]].
 
== error: unknown OS type hvm ==
 
This can be caused by hardware virtualization support being disabled in your [[BIOS]].
 
To check whether you have hardware virtualization support enabled, run;
 
<source lang="bash">
egrep '(vmx|svm)' --color=always /proc/cpuinfo
</source>
 
On [[Intel]] machines, you should see this;
 
<source lang="bash">
flags : ... vmx ...
</source>
 
On [[AMD]] machines, you should see this;
 
<source lang="bash">
flags : ... svm ...
</source>
 
The above will have the <span class="code">xvm</span> or <span class="code">svm</span> highlighted and the <span class="code">flags</span> line will be quite long. You will also see an entry for every CPU core (or hyperthreaded pseudo-core).
 
If you don't see a match to either <span class="code">xvm</span> or <span class="code">svm</span>, please consult your motherboard's manual for information on enabling hardware virtualization.
 
== My VM Just Vanished! ==
 
{{warning|1=If <span class="code">virsh</span> tries to start a virtual machine but a referenced device or media is missing, it will react by completely undefining the virtual machine!}}
 
If you ever suddenly find that a virtual machine has vanished, it is probably because something the VM wanted to use couldn't be found. This can be as trivial as deleting an ISO that a VM had been defined to mount on boot.
 
Let's look at the example where an ISO was deleted, as this is a common issue.
 
Copy your last backup of the XML definition file for the effected VM and then edit it to remove the <span class="code"><nowiki><source file='...'/></nowiki></span> lines for the removed media. For example, change:
 
<source lang="xml">
    <disk type='file' device='floppy'>
      <driver name='qemu' type='raw' cache='none' io='threads'/>
      <source file='/shared/files/virtio-win-1.1.16.vfd'/>
      <target dev='fda' bus='fdc'/>
      <alias name='fdc0-0-0'/>
      <address type='drive' controller='0' bus='0' unit='0'/>
    </disk>
    <disk type='file' device='cdrom'>
      <driver name='qemu' type='raw' io='threads'/>
      <source file='/shared/files/Windows_Server_2008_R2_64Bit_SP1.iso'/>
      <target dev='hdc' bus='ide'/>
      <readonly/>
      <alias name='ide0-1-0'/>
      <address type='drive' controller='0' bus='1' unit='0'/>
    </disk>
</source>
 
To:
 
<source lang="xml">
    <disk type='file' device='floppy'>
      <driver name='qemu' type='raw' cache='none' io='threads'/>
      <target dev='fda' bus='fdc'/>
      <alias name='fdc0-0-0'/>
      <address type='drive' controller='0' bus='0' unit='0'/>
    </disk>
    <disk type='file' device='cdrom'>
      <driver name='qemu' type='raw' io='threads'/>
      <target dev='hdc' bus='ide'/>
      <readonly/>
      <alias name='ide0-1-0'/>
      <address type='drive' controller='0' bus='1' unit='0'/>
    </disk>
</source>
 
Then redefine the VM and you can safely restart it again.
 
<source lang="bash">
virsh define /shared/definitions/vm0002-ms.xml
</source>


You should be back in business at this point.
Please see;


* [[2-Node Red Hat KVM Cluster Tutorial - Troubleshooting# Disabling rsyslog Rate Limiting|Disabling rsyslog Rate Limiting]]


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Latest revision as of 18:22, 5 January 2014

 AN!Wiki :: How To :: 2-Node Red Hat KVM Cluster Tutorial - Archive

Warning: This tutorial is officially deprecated. It has been replaced with AN!Cluster Tutorial 2. Please do not follow this tutorial any more.

This paper has one goal;

  • Creating a 2-node, high-availability cluster hosting KVM virtual machines using RHCS "stable 3" with DRBD and clustered LVM for synchronizing storage data. This is an updated version of the earlier Red Hat Cluster Service 2 Tutorial Tutorial. You will find much in common with that tutorial if you've previously followed that document. Please don't skip large sections though. There are some differences that are subtle but important.

Grab a coffee, put on some nice music and settle in for some geekly fun.

The Task Ahead

Before we start, let's take a few minutes to discuss clustering and its complexities.

Technologies We Will Use

  • Red Hat Enterprise Linux 6 (EL6); You can use a derivative like CentOS v6.
  • Red Hat Cluster Services "Stable" version 3. This describes the following core components:
    • Corosync; Provides cluster communications using the totem protocol.
    • Cluster Manager (cman); Manages the starting, stopping and managing of the cluster.
    • Resource Manager (rgmanager); Manages cluster resources and services. Handles service recovery during failures.
    • Clustered Logical Volume Manager (clvm); Cluster-aware (disk) volume manager. Backs GFS2 filesystems and KVM virtual machines.
    • Global File Systems version 2 (gfs2); Cluster-aware, concurrently mountable file system.
  • Distributed Redundant Block Device (DRBD); Keeps shared data synchronized across cluster nodes.
  • KVM; Hypervisor that controls and supports virtual machines.

A Note on Hardware

In this tutorial, I will make reference to specific hardware components and devices. I do this to share what devices and equipment I use, but I do not endorse any of the products named in this tutorial. I am in no way affiliated with any hardware vendor not do I receive any compensation or gifts from any company.

A Note on Patience

When someone wants to become a pilot, they can't jump into a plane and try to take off. It's not that flying is inherently hard, but it requires a foundation of understanding. Clustering is the same in this regard; there are many different pieces that have to work together just to get off the ground.

You must have patience.

Like a pilot on their first flight, seeing a cluster come to life is a fantastic experience. Don't rush it! Do your homework and you'll be on your way before you know it.

Coming back to earth:

Many technologies can be learned by creating a very simple base and then building on it. The classic "Hello, World!" script created when first learning a programming language is an example of this. Unfortunately, there is no real analogue to this in clustering. Even the most basic cluster requires several pieces be in place and working together. If you try to rush by ignoring pieces you think are not important, you will almost certainly waste time. A good example is setting aside fencing, thinking that your test cluster's data isn't important. The cluster software has no concept of "test". It treats everything as critical all the time and will shut down if anything goes wrong.

Take your time, work through these steps, and you will have the foundation cluster sooner than you realize. Clustering is fun because it is a challenge.

Prerequisites

It is assumed that you are familiar with Linux systems administration, specifically Red Hat Enterprise Linux and its derivatives. You will need to have somewhat advanced networking experience as well. You should be comfortable working in a terminal (directly or over ssh). Familiarity with XML will help, but is not terribly required as its use here is pretty self-evident.

If you feel a little out of depth at times, don't hesitate to set this tutorial aside. Browse over to the components you feel the need to study more, then return and continue on. Finally, and perhaps most importantly, you must have patience! If you have a manager asking you to "go live" with a cluster in a month, tell him or her that it simply won't happen. If you rush, you will skip important points and you will fail.

Patience is vastly more important than any pre-existing skill.

Focus and Goal

There is a different cluster for every problem. Generally speaking though, there are two main problems that clusters try to resolve; Performance and High Availability. Performance clusters are generally tailored to the application requiring the performance increase. There are some general tools for performance clustering, like Red Hat's LVS (Linux Virtual Server) for load-balancing common applications like the Apache web-server.

This tutorial will focus on High Availability clustering, often shortened to simply HA and not to be confused with the Linux-HA "heartbeat" cluster suite, which we will not be using here. The cluster will provide a shared file systems and will provide for the high availability on KVM-based virtual servers. The goal will be to have the virtual servers live-migrate during planned node outages and automatically restart on a surviving node when the original host node fails.

Below is a very brief overview:

High Availability clusters like ours have two main parts; Cluster management and resource management.

The cluster itself is responsible for maintaining the cluster nodes in a group. This group is part of a "Closed Process Group", or CPG. When a node fails, the cluster manager must detect the failure, reliably eject the node from the cluster using fencing and then reform the CPG. Each time the cluster changes, or "re-forms", the resource manager is called. The resource manager checks to see how the cluster changed, consults its configuration and determines what to do, if anything.

The details of all this will be discussed in detail a little later on. For now, it's sufficient to have in mind these two major roles and understand that they are somewhat independent entities.

Platform

This tutorial was written using RHEL version 6.2, x86_64 architecture. The KVM hypervisor will not run on i686. No testing was done on other EL6 derivatives. That said, there is no reason to believe that this tutorial will not apply to any variant of EL6. As much as possible, the language will be distro-agnostic.

A Word On Complexity

Introducing the Fabimer Principle:

Clustering is not inherently hard, but it is inherently complex. Consider:

  • Any given program has N bugs.
    • RHCS uses; cman, corosync, dlm, fenced, rgmanager, and many more smaller apps.
    • We will be adding DRBD, GFS2, clvmd, libvirtd and KVM.
    • Right there, we have N^10 possible bugs. We'll call this A.
  • A cluster has Y nodes.
    • In our case, 2 nodes, each with 3 networks across 6 interfaces bonded into pairs.
    • The network infrastructure (Switches, routers, etc). We will be using two managed switches, adding another layer of complexity.
    • This gives us another Y^(2*(3*2))+2, the +2 for managed switches. We'll call this B.
  • Let's add the human factor. Let's say that a person needs roughly 5 years of cluster experience to be considered an proficient. For each year less than this, add a Z "oops" factor, (5-Z)^2. We'll call this C.
  • So, finally, add up the complexity, using this tutorial's layout, 0-years of experience and managed switches.
    • (N^10) * (Y^(2*(3*2))+2) * ((5-0)^2) == (A * B * C) == an-unknown-but-big-number.

This isn't meant to scare you away, but it is meant to be a sobering statement. Obviously, those numbers are somewhat artificial, but the point remains.

Any one piece is easy to understand, thus, clustering is inherently easy. However, given the large number of variables, you must really understand all the pieces and how they work together. DO NOT think that you will have this mastered and working in a month. Certainly don't try to sell clusters as a service without a lot of internal testing.

Clustering is kind of like chess. The rules are pretty straight forward, but the complexity can take some time to master.

Overview of Components

When looking at a cluster, there is a tendency to want to dive right into the configuration file. That is not very useful in clustering.

  • When you look at the configuration file, it is quite short.

Clustering isn't like most applications or technologies. Most of us learn by taking something such as a configuration file, and tweaking it to see what happens. I tried that with clustering and learned only what it was like to bang my head against the wall.

  • Understanding the parts and how they work together is critical.

You will find that the discussion on the components of clustering, and how those components and concepts interact, will be much longer than the initial configuration. It is true that we could talk very briefly about the actual syntax, but it would be a disservice. Please don't rush through the next section, or worse, skip it and go right to the configuration. You will waste far more time than you will save.

  • Clustering is easy, but it has a complex web of inter-connectivity. You must grasp this network if you want to be an effective cluster administrator!

Component; cman

The cman portion of the the cluster is the cluster manager. In the 3.0 series used in EL6, cman acts mainly as a quorum provider. That is, is adds up the votes from the cluster members and decides if there is a simple majority. If there is, the cluster is "quorate" and is allowed to provide cluster services. Newer versions of the Red Hat Cluster Suite found in Fedora will use a new quorum provider and cman will be removed entirely.

Until it is removed, the cman service will be used to start and stop all of the daemons needed to make the cluster operate.

Component; corosync

Corosync is the heart of the cluster. Almost all other cluster compnents operate though this.

In Red Hat clusters, corosync is configured via the central cluster.conf file. It can be configured directly in corosync.conf, but given that we will be building an RHCS cluster, we will only use cluster.conf. That said, almost all corosync.conf options are available in cluster.conf. This is important to note as you will see references to both configuration files when searching the Internet.

Corosync sends messages using multicast messaging by default. Recently, unicast support has been added, but due to network latency, it is only recommended for use with small clusters of two to four nodes. We will be using multicast in this tutorial.

A Little History

There were significant changes between RHCS the old version 2 and version 3 available on EL6, which we are using.

In the RHCS version 2, there was a component called openais which provided totem. The OpenAIS project was designed to be the heart of the cluster and was based around the Service Availability Forum's Application Interface Specification. AIS is an open API designed to provide inter-operable high availability services.

In 2008, it was decided that the AIS specification was overkill for most clustered applications being developed in the open source community. At that point, OpenAIS was split in to two projects: Corosync and OpenAIS. The former, Corosync, provides totem, cluster membership, messaging, and basic APIs for use by clustered applications, while the OpenAIS project became an optional add-on to corosync for users who want the full AIS API.

You will see a lot of references to OpenAIS while searching the web for information on clustering. Understanding its evolution will hopefully help you avoid confusion.

Concept; quorum

Quorum is defined as the minimum set of hosts required in order to provide clustered services and is used to prevent split-brain situations.

The quorum algorithm used by the RHCS cluster is called "simple majority quorum", which means that more than half of the hosts must be online and communicating in order to provide service. While simple majority quorum is a very common quorum algorithm, other quorum algorithms exist (grid quorum, YKD Dyanamic Linear Voting, etc.).

The idea behind quorum is that, when a cluster splits into two or more partitions, which ever group of machines has quorum can safely start clustered services knowing that no other lost nodes will try to do the same.

Take this scenario;

  • You have a cluster of four nodes, each with one vote.
    • The cluster's expected_votes is 4. A clear majority, in this case, is 3 because (4/2)+1, rounded down, is 3.
    • Now imagine that there is a failure in the network equipment and one of the nodes disconnects from the rest of the cluster.
    • You now have two partitions; One partition contains three machines and the other partition has one.
    • The three machines will have quorum, and the other machine will lose quorum.
    • The partition with quorum will reconfigure and continue to provide cluster services.
    • The partition without quorum will withdraw from the cluster and shut down all cluster services.

When the cluster reconfigures and the partition wins quorum, it will fence the node(s) in the partition without quorum. Once the fencing has been confirmed successful, the partition with quorum will begin accessing clustered resources, like shared filesystems.

This also helps explain why an even 50% is not enough to have quorum, a common question for people new to clustering. Using the above scenario, imagine if the split were 2 and 2 nodes. Because either can't be sure what the other would do, neither can safely proceed. If we allowed an even 50% to have quorum, both partition might try to take over the clustered services and disaster would soon follow.

There is one, and only one except to this rule.

In the case of a two node cluster, as we will be building here, any failure results in a 50/50 split. If we enforced quorum in a two-node cluster, there would never be high availability because and failure would cause both nodes to withdraw. The risk with this exception is that we now place the entire safety of the cluster on fencing, a concept we will cover in a second. Fencing is a second line of defense and something we are loath to rely on alone.

Even in a two-node cluster though, proper quorum can be maintained by using a quorum disk, called a qdisk. Unfortunately, qdisk on a DRBD resource comes with its own problems, so we will not be able to use it here.

Concept; Virtual Synchrony

Many cluster operations, like distributed locking and so on, have to occur in the same order across all nodes. This concept is called "virtual synchrony".

This is provided by corosync using "closed process groups", CPG. A closed process group is simply a private group of processes in a cluster. Within this closed group, all messages between members are ordered. Delivery, however, is not guaranteed. If a member misses messages, it is up to the member's application to decide what action to take.

Let's look at two scenarios showing how locks are handled using CPG;

  • The cluster starts up cleanly with two members.
  • Both members are able to start service:foo.
  • Both want to start it, but need a lock from DLM to do so.
    • The an-node01 member has its totem token, and sends its request for the lock.
    • DLM issues a lock for that service to an-node01.
    • The an-node02 member requests a lock for the same service.
    • DLM rejects the lock request.
  • The an-node01 member successfully starts service:foo and announces this to the CPG members.
  • The an-node02 sees that service:foo is now running on an-node01 and no longer tries to start the service.
  • The two members want to write to a common area of the /shared GFS2 partition.
    • The an-node02 sends a request for a DLM lock against the FS, gets it.
    • The an-node01 sends a request for the same lock, but DLM sees that a lock is pending and rejects the request.
    • The an-node02 member finishes altering the file system, announces the changed over CPG and releases the lock.
    • The an-node01 member updates its view of the filesystem, requests a lock, receives it and proceeds to update the filesystems.
    • It completes the changes, annouces the changes over CPG and releases the lock.

Messages can only be sent to the members of the CPG while the node has a totem token from corosync.

Concept; Fencing

Warning: DO NOT BUILD A CLUSTER WITHOUT PROPER, WORKING AND TESTED FENCING.
Laugh, but this is a weekly conversation.

Fencing is a absolutely critical part of clustering. Without fully working fence devices, your cluster will fail.

Sorry, I promise that this will be the only time that I speak so strongly. Fencing really is critical, and explaining the need for fencing is nearly a weekly event.

So then, let's discuss fencing.

When a node stops responding, an internal timeout and counter start ticking away. During this time, no DLM locks are allowed to be issued. Anything using DLM, including rgmanager, clvmd and gfs2, are effectively hung. The hung node is detected using a totem token timeout. That is, if a token is not received from a node within a period of time, it is considered lost and a new token is sent. After a certain number of lost tokens, the cluster declares the node dead. The remaining nodes reconfigure into a new cluster and, if they have quorum (or if quorum is ignored), a fence call against the silent node is made.

The fence daemon will look at the cluster configuration and get the fence devices configured for the dead node. Then, one at a time and in the order that they appear in the configuration, the fence daemon will call those fence devices, via their fence agents, passing to the fence agent any configured arguments like username, password, port number and so on. If the first fence agent returns a failure, the next fence agent will be called. If the second fails, the third will be called, then the forth and so on. Once the last (or perhaps only) fence device fails, the fence daemon will retry again, starting back at the start of the list. It will do this indefinitely until one of the fence devices succeeds.

Here's the flow, in point form:

  • The totem token moves around the cluster members. As each member gets the token, it sends sequenced messages to the CPG members.
  • The token is passed from one node to the next, in order and continuously during normal operation.
  • Suddenly, one node stops responding.
    • A timeout starts (~238ms by default), and each time the timeout is hit, and error counter increments and a replacement token is created.
    • The silent node responds before the failure counter reaches the limit.
      • The failure counter is reset to 0
      • The cluster operates normally again.
  • Again, one node stops responding.
    • Again, the timeout begins. As each totem token times out, a new packet is sent and the error count increments.
    • The error counts exceed the limit (4 errors is the default); Roughly one second has passed (238ms * 4 plus some overhead).
    • The node is declared dead.
    • The cluster checks which members it still has, and if that provides enough votes for quorum.
      • If there are too few votes for quorum, the cluster software freezes and the node(s) withdraw from the cluster.
      • If there are enough votes for quorum, the silent node is declared dead.
        • corosync calls fenced, telling it to fence the node.
        • The fenced daemon notifies DLM and locks are blocked.
        • Which fence device(s) to use, that is, what fence_agent to call and what arguments to pass, is gathered.
        • For each configured fence device:
          • The agent is called and fenced waits for the fence_agent to exit.
          • The fence_agent's exit code is examined. If it's a success, recovery starts. If it failed, the next configured fence agent is called.
        • If all (or the only) configured fence fails, fenced will start over.
        • fenced will wait and loop forever until a fence agent succeeds. During this time, the cluster is effectively hung.
      • Once a fence_agent succeeds, fenced notifies DLM and lost locks are recovered.
        • GFS2 partitions recover using their journal.
        • Lost cluster resources are recovered as per rgmanager's configuration (including file system recovery as needed).
  • Normal cluster operation is restored, minus the lost node.

This skipped a few key things, but the general flow of logic should be there.

This is why fencing is so important. Without a properly configured and tested fence device or devices, the cluster will never successfully fence and the cluster will remain hung until a human can intervene.

Component; totem

The totem protocol defines message passing within the cluster and it is used by corosync. A token is passed around all the nodes in the cluster, and nodes can only send messages while they have the token. A node will keep its messages in memory until it gets the token back with no "not ack" messages. This way, if a node missed a message, it can request it be resent when it gets its token. If a node isn't up, it will simply miss the messages.

The totem protocol supports something called 'rrp', Redundant Ring Protocol. Through rrp, you can add a second backup ring on a separate network to take over in the event of a failure in the first ring. In RHCS, these rings are known as "ring 0" and "ring 1". The RRP is being re-introduced in RHCS version 3. Its use is experimental and should only be used with plenty of testing.

Component; rgmanager

When the cluster membership changes, corosync tells the rgmanager that it needs to recheck its services. It will examine what changed and then will start, stop, migrate or recover cluster resources as needed.

Within rgmanager, one or more resources are brought together as a service. This service is then optionally assigned to a failover domain, an subset of nodes that can have preferential ordering.

The rgmanager daemon runs separately from the cluster manager, cman. This means that, to fully start the cluster, we need to start both cman and then rgmanager.

Component; qdisk

Note: qdisk does not work reliably on a DRBD resource, so we will not be using it in this tutorial.

A Quorum disk, known as a qdisk is small partition on SAN storage used to enhance quorum. It generally carries enough votes to allow even a single node to take quorum during a cluster partition. It does this by using configured heuristics, that is custom tests, to decided which node or partition is best suited for providing clustered services during a cluster reconfiguration. These heuristics can be simple, like testing which partition has access to a given router, or they can be as complex as the administrator wishes using custom scripts.

Though we won't be using it here, it is well worth knowing about when you move to a cluster with SAN storage.

Component; DRBD

DRBD; Distributed Replicating Block Device, is a technology that takes raw storage from two or more nodes and keeps their data synchronized in real time. It is sometimes described as "RAID 1 over Cluster Nodes", and that is conceptually accurate. In this tutorial's cluster, DRBD will be used to provide that back-end storage as a cost-effective alternative to a traditional SAN device.

To help visualize DRBD's use and role, Take a look at how we will implement our cluster's storage.

This shows;

  • Each node having four physical disks tied together in a RAID Level 5 array and presented to the Node's OS as a single drive which is found at /dev/sda.
  • Each node's OS uses three primary partitions for /boot, <swap> and /.
  • Three extended partitions are created;
    • /dev/sda5 backs a small partition used as a GFS2-formatted shared mount point.
    • /dev/sda6 backs the VMs designed to run primarily on an-node01.
    • /dev/sda7 backs the VMs designed to run primarily on an-node02.
  • All three extended partitions are combined using DRBD to create three DRBD resources;
    • /dev/drbd0 is backed by /dev/sda5.
    • /dev/drbd1 is backed by /dev/sda6.
    • /dev/drbd2 is backed by /dev/sda7.
  • All three DRBD resources are managed by clustered LVM.
  • The GFS2-formatted LV is mounted on /shared on both nodes.
  • Each VM gets its own LV.
  • All three DRBD resources sync over the Storage Network, which uses the bonded bond1 (backed by eth1 and eth4).

Don't worry if this seems illogical at this stage. The main thing to look at are the drbdX devices and how they each tie back to a corresponding sdaY device on either node.

 _________________________________________________                 _________________________________________________ 
| [ an-node01 ]                                   |               |                                   [ an-node02 ] |
|  ________       __________                      |               |                      __________       ________  |
| [_disk_1_]--+--[_/dev/sda_]                     |               |                     [_/dev/sda_]--+--[_disk_1_] |
|  ________   |    |   ___________    _______     |               |     _______    ___________   |    |   ________  |
| [_disk_2_]--+    +--[_/dev/sda1_]--[_/boot_]    |               |    [_/boot_]--[_/dev/sda1_]--+    +--[_disk_2_] |
|  ________   |    |   ___________    ________    |               |    ________    ___________   |    |   ________  |
| [_disk_3_]--+    +--[_/dev/sda2_]--[_<swap>_]   |               |   [_<swap>_]--[_/dev/sda2_]--+    +--[_disk_3_] |
|  ________   |    |   ___________    ___         |               |         ___    ___________   |    |   ________  |
| [_disk_4_]--/    +--[_/dev/sda3_]--[_/_]        |               |        [_/_]--[_/dev/sda3_]--+    \--[_disk_4_] |
|                  |   ___________                |               |                ___________   |                  |
|                  +--[_/dev/sda5_]------------\  |               |  /------------[_/dev/sda5_]--+                  |
|                  |   ___________             |  |               |  |             ___________   |                  |
|                  +--[_/dev/sda6_]----------\ |  |               |  | /----------[_/dev/sda6_]--+                  |
|                  |   ___________           | |  |               |  | |           ___________   |                  |
|                  \--[_/dev/sda7_]--------\ | |  |               |  | | /--------[_/dev/sda7_]--/                  |
|        _______________    ____________   | | |  |               |  | | |   ____________    _______________        |
|    /--[_Clustered_LVM_]--[_/dev/drbd2_]--/ | |  |               |  | | \--[_/dev/drbd2_]--[_Clustered_LVM_]--\    |
|   _|__                     |   _______     | |  |               |  | |      |   _______                    __|_   |
|  [_PV_]                    \--{_bond1_}    | |  |               |  | |      \--{_bond1_}                  [_PV_]  |
|   _|________                               | |  |               |  | |                               ________|_   |
|  [_an02-vg0_]                              | |  |               |  | |                              [_an02-vg0_]  |
|    |   ________________________    ....... | |  |               |  | |  _____     ________________________   |    |
|    +--[_/dev/an02-vg0/vm0003_1_]---:.vm3.: | |  |               |  | | [_vm3_]---[_/dev/an02-vg0/vm0003_1_]--+    |
|    |   ________________________    ....... | |  |               |  | |  _____     ________________________   |    |
|    \--[_/dev/an02-vg0/vm0004_1_]---:.vm4.: | |  |               |  | | [_vm4_]---[_/dev/an02-vg0/vm0004_1_]--/    |
|          _______________    ____________   | |  |               |  | |   ____________    _______________          |
|      /--[_Clustered_LVM_]--[_/dev/drbd1_]--/ |  |               |  | \--[_/dev/drbd1_]--[_Clustered_LVM_]--\      |
|     _|__                     |   _______     |  |               |  |      |   _______                    __|_     |
|    [_PV_]                    \--{_bond1_}    |  |               |  |      \--{_bond1_}                  [_PV_]    |
|     _|________                               |  |               |  |                               ________|_     |
|    [_an01-vg0_]                              |  |               |  |                              [_an01-vg0_]    |
|      |   ________________________     _____  |  |               |  | .......    ________________________   |      |
|      +--[_/dev/an01-vg0/vm0001_1_]---[_vm1_] |  |               |  | :.vm1.:---[_/dev/an01-vg0/vm0001_1_]--+      |
|      |   ________________________     _____  |  |               |  | .......    ________________________   |      |
|      \--[_/dev/an01-vg0/vm0002_1_]---[_vm2_] |  |               |  | :.vm2.:---[_/dev/an01-vg0/vm0002_1_]--/      |
|            _______________    ____________   |  |               |  |   ____________    _______________            |
|        /--[_Clustered_LVM_]--[_/dev/drbd0_]--/  |               |  \--[_/dev/drbd0_]--[_Clustered_LVM_]--\        |
|       _|__                     |   _______      |               |       |   _______                    __|_       |
|      [_PV_]                    \--{_bond1_}     |               |       \--{_bond1_}                  [_PV_]      |
|       _|__________                              |               |                              __________|_       |
|      [_shared-vg0_]                             |               |                             [_shared-vg0_]      |
|       _|_________________________               |               |               _________________________|_       |
|      [_/dev/shared-vg0/lv_shared_]              |               |              [_/dev/shared-vg0/lv_shared_]      |
|        |   ______    _________                  |               |                  _________    ______   |        |
|        \--[_GFS2_]--[_/shared_]                 |               |                 [_/shared_]--[_GFS2_]--/        |
|                                          _______|   _________   |_______                                          |
|                                         | bond1 =--| Storage |--= bond1 |                                         |
|                                         |______||  | Network |  ||______|                                         |
|_________________________________________________|  |_________|  |_________________________________________________|
.

Component; Clustered LVM

With DRBD providing the raw storage for the cluster, we must next consider partitions. This is where Clustered LVM, known as CLVM, comes into play.

CLVM is ideal in that by using DLM, the distributed lock manager. It won't allow access to cluster members outside of corosync's closed process group, which, in turn, requires quorum.

It is ideal because it can take one or more raw devices, known as "physical volumes", or simple as PVs, and combine their raw space into one or more "volume groups", known as VGs. These volume groups then act just like a typical hard drive and can be "partitioned" into one or more "logical volumes", known as LVs. These LVs are where KVM's virtual machine guests will exist and where we will create our GFS2 clustered file system.

LVM is particularly attractive because of how flexible it is. We can easily add new physical volumes later, and then grow an existing volume group to use the new space. This new space can then be given to existing logical volumes, or entirely new logical volumes can be created. This can all be done while the cluster is online offering an upgrade path with no down time.

Component; GFS2

With DRBD providing the clusters raw storage space, and Clustered LVM providing the logical partitions, we can now look at the clustered file system. This is the role of the Global File System version 2, known simply as GFS2.

It works much like standard filesystem, with user-land tools like mkfs.gfs2, fsck.gfs2 and so on. The major difference is that it and clvmd use the cluster's distributed locking mechanism provided by the dlm_controld daemon. Once formatted, the GFS2-formatted partition can be mounted and used by any node in the cluster's closed process group. All nodes can then safely read from and write to the data on the partition simultaneously.

Note: GFS2 is only supported when run on top of Clustered LVM LVs. This is because, in certain error states, gfs2_controld will call dmsetup to disconnect the GFS2 partition from its storage in certain failure states.

Component; DLM

One of the major roles of a cluster is to provide distributed locking for clustered storage and resource management.

Whenever a resource, GFS2 filesystem or clustered LVM LV needs a lock, it sends a request to dlm_controld which runs in userspace. This communicates with DLM in kernel. If the lockspace does not yet exist, DLM will create it and then give the lock to the requester. Should a subsequant lock request come in for the same lockspace, it will be rejected. Once the application using the lock is finished with it, it will release the lock. After this, another node may request and receive a lock for the lockspace.

If a node fails, fenced will alert dlm_controld that a fence is pending and new lock requests will block. After a successful fence, fenced will alert DLM that the node is gone and any locks the victim node held are released. At this time, other nodes may request a lock on the lockspaces the lost node held and can perform recovery, like replaying a GFS2 filesystem journal, prior to resuming normal operation.

Note that DLM locks are not used for actually locking the file system. That job is still handled by plock() calls (POSIX locks).

Component; KVM

Two of the most popular open-source virtualization platforms available in the Linux world today and Xen and KVM. The former is maintained by Citrix and the other by Redhat. It would be difficult to say which is "better", as they're both very good. Xen can be argued to be more mature where KVM is the "official" solution supported by Red Hat in EL6.

We will be using the KVM hypervisor within which our highly-available virtual machine guests will reside. It is a type-1 hypervisor, which means that the host operating system runs directly on the bare hardware. Contrasted against Xen, which is a type-2 hypervisor where even the installed OS is itself just another virtual machine.

Node Installation

This section is going to be intentionally vague, as I don't want to influence too heavily what hardware you buy or how you install your operating systems. However, we need a baseline, a minimum system requirement of sorts. Also, I will refer fairly frequently to my setup, so I will share with you the details of what I bought. Please don't take this as an endorsement though... Every cluster will have its own needs, and you should plan and purchase for your particular needs.

In my case, my goal was to have a low-power consumption setup and I knew that I would never put my cluster into production as it's strictly a research and design cluster. As such, I can afford to be quite modest.

Minimum Requirements

This will cover two sections;

  • Node Minimum requirements
  • Infrastructure requirements

The nodes are the two separate servers that will, together, form the base of our cluster. The infrastructure covers the networking and the switched power bars called a PDUs.

Node Requirements

General;

As these nodes will host virtual machines, then will need sufficient RAM and provide virtualization-enabled CPUs. Most, though not all, modern processors support hardware virtualization extensions. Finally, you need to have sufficient network bandwidth across two independent links to support the maximum burst storage traffic plus enough headroom to ensure that cluster traffic is never interrupted.

Network;

This tutorial will use three independent networks, each using two physical interfaces in a bonded configuration. These will route through two separate managed switches for high-availability networking. Each network will be dedicated to a given traffic type. This requires six interfaces and, with a separate IPMI interface, consumes a staggering seven ports per node.

Understanding that this may not be feasible, you can drop this to just two connections in a single bonded interface. If you decide to do this, you will need to configure QoS to ensure that totem multicast traffic gets highest priority as a delay of less than one second can cause the cluster to break. You also need to test sustained, heavy disk traffic to ensure that it doesn't cause problems. In particular, run storage tests from a virtual machine and then live-migrate that machine to create a "worst case" network load. If that succeeds, you are probably safe. All of this is outside of this tutorial's scope though.

Power;

In production, you will want to use servers which have redundant power supplies and ensure that either side of the power connects to two separate power sources.

Out-of-Band Management;

As we will discuss later, the ideal method of fencing a node is to use IPMI or one of the vendor-specific variants like HP's iLO, Dell's DRAC or IBM's RSA. This allows another node in the cluster to force the host node to power off, regardless of the state of the operating system. Critically, it can confirm to the caller once the node has been shut down, which allows for the cluster to safely and confidently recover lost services.

The two nodes used to create this tutorial have the following hardware (again, these will never see production use, so I could afford to go low);

Infrastructure Requirements

Network;

You will need two separate switches in order to provide High Availability. These do not need to be stacked or even managed, but you do need to consider their actual capabilities and disregard the stated capacity. What I mean by this, in essence, is that not all gigabit equipment is equal. You will need to calculate how much bandwidth (in raw data throughput and as packets-per-second) and confirm that the switch can sustain that load. Most switches will rate these two values as their switching fabric capacity, so be sure to look closely at the specifications.

Another thing to consider is whether you wish to run at an MTU higher that 1500 bytes per packet. This is generally referred to in specification sheets as "jumbo frame" support. However, many lesser companies will advertise support for jumbo frames, but they only support up to 4 KiB. Most professional networks looking to implement large MTU sizes aim for 9 KiB frame sizes, so be sure to look at the actual size of the largest supported jumbo frame before purchasing network equipment.

Power;

As we will discuss later, we need a backup fence device. This will be implemented using a specific brand and model of switched power distribution unit, called a PDU which is effectively a power bar whose outlets can be independently turned on and off over the network. This tutorial uses an [ APC AP7900] PDU, but many others are available. Should you choose to use another make or model, you must first ensure that it has a supported fence agent. Ensuring this is an exercise for the reader.

In production environments, it is ideal to have each PDU backed by its own UPS, and each UPS connected to a separate mains electrical circuit. This way, the failure of a given PDU, UPS or mains circuit will not cause an interruption to the cluster. Do be sure to plan your power infrastructure to supply enough power to drive the entire cluster at full load in a failed state. That is, more plainly, don't divide the total load in two when planning your infrastructure. You must always plan for a failed state!

Hardware used in this tutorial are;

Two Notes;

  1. The D-Link switch I use is being phased out and is being replaced by the DGS-3120-24TC models. The DGS-3120 models are much improved over the DGS-3100 series and can be safely used in stacked configuration (thus enabling the use of VLAN LAGs). The DGS-3100 would interrupt traffic when a switch in the stack recovered, which would partition the cluster. This forced me to unstack the switches in this tutorial.
  2. Given my budget, I could not afford to purchase redundant power supplies for use in this tutorial. As such, my test cluster has the power as a single point of failure. For learning, this is fine, but it is strongly ill-advised in production. I do show an example configuration of redundant PSU use spread across separate PDUs from a production cluster.

Pre-Installation Planning

Before you assemble your servers, it is highly advised to first record the MAC addresses of the NICs. I always write a little file called <node>-nics.txt matched to the device name I plan to set it to.

vim ~/an-node01-nics.txt
eth0	00:E0:81:C7:EC:49	# Back-Channel Network - Link 1
eth1	00:E0:81:C7:EC:48	# Storage Network - Link 1
eth2	00:E0:81:C7:EC:47	# Internet-Facing Network - Link 1
eth3	00:1B:21:9D:59:FC	# Back-Channel Network - Link 2
eth4	00:1B:21:BF:70:02	# Storage Network - Link 2
eth5	00:1B:21:BF:6F:FE	# Back-Channel Network - Link 2

How, or even if you record this is entirely up to you.

OS Installation

Warning: EL6.1 shipped with a version of corosync that had a token retransmit bug. On slower systems, there would be a form of race condition which would cause totem tokens the be retransmitted and cause significant performance problems. This has been resolved in EL6.2 so please be sure to upgrade.

Beyond being based on RHEL 6, there are no requirements for how the operating system is installed. This tutorial is written using "minimal" installs, and as such, installation instructions will be provided that will install all needed packages if they aren't already installed on your nodes.

A few notes about the installation used for this tutorial;

Obviously, this significantly reduces the security of your nodes. For learning, which is the goal here, this helps keep a focus on the clustering and simplifies debugging when things go wrong. In production clusters though, these steps are ill advised. It is strongly suggested that you enable first the firewall, then when that is working, enabling selinux. Leaving selinux for last is intentional, as it generally takes the most work to get right.

Network Security

When building production clusters, you will want to consider two options with regard to network security.

First, the interfaces connected to an untrusted network, like the Internet, should not have an IP address, though the interfaces themselves will need to be up so that virtual machines can route through them to the outside world. Alternatively, anything inbound from the virtual machines or inbound from the untrusted network should be DROPed by the firewall.

Second, if you can not run the cluster communications or storage traffic on dedicated network connections over isolated subnets, you will need to configure the firewall to block everything except the ports needed by storage and cluster traffic. The default ports are below.

Component Protocol Port Note
dlm TCP 21064
drbd TCP 7788+ Each DRBD resource will use an additional port, generally counting up (ie: r0 will use 7788, r1 will use 7789, r2 will use 7790 and so on).
luci TCP 8084 Optional web-based configuration tool, not used in this tutorial.
modclusterd TCP 16851
ricci TCP 11111 Each DRBD resource will use an additional port, generally counting up (ie: r1 will use 7790, r2 will use 7791 and so on).
totem UDP/multicast 5404, 5405 Uses a multicast group for cluster communications
Note: As of EL6.2, you can now use unicast for totem communication instead of multicast. This is not advised, and should only be used for clusters of two or three nodes on networks where unresolvable multicast issues exist. If using gfs2, as we do here, using unicast for totem is strongly discouraged.

As mentioned above, we will disable selinux and iptables. This is to simplify the learning process and both should be enabled pre-production.

To disable the firewall (note that I disable both iptables and ip6tables):

chkconfig iptables off
chkconfig ip6tables off
/etc/init.d/iptables stop
/etc/init.d/ip6tables stop

To disable selinux:

cp /etc/selinux/config /etc/selinux/config.orig
vim /etc/selinux/config
diff -u /etc/selinux/config.orig /etc/selinux/config
--- /etc/selinux/config.orig	2012-06-15 18:13:12.416646749 -0400
+++ /etc/selinux/config	2012-06-15 18:09:46.920938956 -0400
@@ -4,7 +4,7 @@
 #     enforcing - SELinux security policy is enforced.
 #     permissive - SELinux prints warnings instead of enforcing.
 #     disabled - No SELinux policy is loaded.
-SELINUX=enforcing
+SELINUX=disabled
 # SELINUXTYPE= can take one of these two values:
 #     targeted - Targeted processes are protected,
 #     mls - Multi Level Security protection.

You must reboot for the selinux changes to take effect.

Network

Before we begin, let's take a look at a block diagram of what we're going to build. This will help when trying to see what we'll be talking about.

                                                              ______________                                                         
                                                             [___Internet___]                                                        
  _____________________________________________________             |             _____________________________________________________ 
 | [ an-node01 ]                                       |            |            |                                       [ an-node02 ] |
 |                       ____________    ______________|        ____|____        |______________    ____________                       |
 |                      |    vbr2    |--| bond2        |       | [ IFN ] |       |        bond2 |--|   vbr2     |                      |
 |  _________________   | 10.255.0.1 |  | ______       |      _|_________|_      |       ______ |  | 10.255.0.2 |  ................... |
 | | [ vm0001-dev ]  |  |____________|  || eth2 =--\   |     |   Switch 1  |     |   /--= eth2 ||  |____________|  :  [ vm0001-dev ] : |
 | | [ Dev Server ]  |    | | : :       ||_____|    \--=-----|_____________|-----=--/    |_____||       | | : :    :  [ Dev Server ] : |
 | |           ______|    | | : :       | ______    /--=-----|   Switch 2  |-----=--\    ______ |       | | : :    :.......          : |
 | |          | eth0 =----/ | : :       || eth5 =--/   |     |_____________|     |   \--= eth5 ||       | | : :----= eth0 :          : |
 | |          |_____||      | : :       ||_____|       |                         |       |_____||       | | :      ::.....:          : |
 | |      10.254.0.1 |      | : :       |______________|                         |______________|       | | :      :                 : |
 | |_________________|      | : :        ______________|                         |______________        | | :      :.................: |
 |                          | : :       | bond1        |        _________        |        bond1 |       | | :                          |
 |  _________________       | : :       |   10.10.0.1  |       | [ SN  ] |       | 10.10.0.2    |       | | :      ................... |
 | | [ vm0002-web ]  |      | : :       | ______       |      _|_________|_      |       ______ |       | | :      :  [ vm0002-web ] : |
 | | [ Web Server ]  |      | : :       || eth1 =--\   |     |   Switch 1  |     |   /--= eth1 ||       | | :      :  [ Web Server ] : |
 | |           ______|      | : :       ||_____|    \--=-----|_____________|-----=--/    |_____||       | | :      :.......          : |
 | |          | eth0 =------/ : :       | ______    /--=-----|   Switch 2  |-----=--\    ______ |       | | :------= eth0 :          : |
 | |          |_____||        : :       || eth4 =--/   |     |_____________|     |   \--= eth4 ||       | |        ::.....:          : |
 | |      10.254.0.2 |        : :       ||_____|       |                         |       |_____||       | |        :                 : |
 | |_________________|        : :       |______________|                         |______________|       | |        :.................: |
 |                            : :        ______________|                         |______________        | |                            |
 | ...................        : :       | bond0        |        _________        |        bond0 |       | |         _________________  |
 | : [ vm0003-db  ]  :        : :       |   10.20.0.1  |       | [ BCN ] |       | 10.20.0.2    |       | |        |  [ vm0003-db  ] | |
 | : [ DB Server  ]  :        : :       | ______       |      _|_________|_      |       ______ |       | |        |  [ DB Server  ] | |
 | :          .......:        : :       || eth0 =--\   |  /--|   Switch 1  |--\  |   /--= eth0 ||       | |        |______           | |
 | :          : eth0 =--------: :       ||_____|    \--=--+--|_____________|--+--=--/    |_____||       | \--------= eth0 |          | |
 | :          :.....::          :       | ______    /--=--+--|   Switch 2  |--+--=--\    ______ |       |          ||_____|          | |
 | :                 :          :       || eth3 =--/   |  |  |_____________|  |  |   \--= eth3 ||       |          | 10.254.0.3      | |
 | :.................:          :       ||_____|       |  |     |       |     |  |       |_____||       |          |_________________| |
 |                              :       |______________|  |     |       |     |  |______________|       |                              |
 | ...................          :                      |  |     |       |     |  |                      |           _________________  |
 | : [ vm0004-win ]  :          :                      |  |     |       |     |  |                      |          |  [ vm0004-win ] | |
 | : [ MS Server  ]  :          :                      |  |     |       |     |  |                      |          |  [ MS Server  ] | |
 | :          .......:          :                      |  |     |       |     |  |                      |          |______           | |
 | :          : NIC0 =----------:                      |  |     |       |     |  |                      \----------= NIC0 |          | |
 | :          :.....::                           ______|  |     |       |     |  |______                           ||_____|          | |
 | :                 :                  _____   | IPMI =--/     |       |     \--= IPMI |   _____                  | 10.254.0.4      | |
 | :.................:                 [_BMC_]--|_____||        |       |        ||_____|--[_BMC_]                 |_________________| |
 |                                                     |        |       |        |                                                     |
 |                                 ______ ______       |        |       |        |       ______ ______                                 |
 |                                | PSU1 | PSU2 |      |        |       |        |      | PSU2 | PSU1 |                                |
 |________________________________|______|______|______|        |       |        |______|______|______|________________________________|
                                       || ||                ____|_     _|____                || ||                                      
                                       || ||               | PDU1 |   | PDU2 |               || ||                                      
                                       || ||               |______|   |______|               || ||                                      
                                       || ||                 || ||     || ||                 || ||                                      
                                       || \\===[ Power 1 ]===// ||     || \\===[ Power 1 ]===// ||                                      
                                       \\======[ Power 2 ]======||=====//                       ||                                      
                                                                \\=============[ Power 2 ]======//

The cluster will use three separate /16 (255.255.0.0) networks;

Note: There are situations where it is not possible to add additional network cards, blades being a prime example. In these cases it will be up to the admin to decide how to proceed. If there is sufficient bandwidth, you can merge all networks, but it is advised in such cases to isolate IFN traffic from the SN/BCN traffic using VLANs.
Purpose Subnet Notes
Internet-Facing Network (IFN) 10.255.0.0/16
  • Each node will use 10.255.0.x where x matches the node ID.
  • Virtual Machines in the cluster that need to be connected to the Internet will use 192.168.1.0/24. These IPs are intentionally separate from the two nodes' IFN bridge's IPs. If you are particularly concerned about security, you can drop the bridges' IPs once the cluster is build and add a firewall rule to reject all traffic from the VMs.
Storage Network (SN) 10.10.0.0/16
  • Each node will use 10.10.0.x where x matches the node ID.
Back-Channel Network (BCN) 10.20.0.0/16
  • Each node will use 10.20.0.x where x matches the node ID.
  • Node-specific IPMI or other out-of-band management devices will use 10.20.1.x where x matches the node ID.
  • Multi-port fence devices, switches and similar will use 10.20.2.z where z is a simple sequence.

Miscellaneous equipment in the cluster, like managed switches, will use 10.20.3.z where z is a simple sequence.

Optional OpenVPN Network 10.30.0.0/16 * For clients behind firewalls, I like to create a VPN server for the cluster nodes to log into when support is needed. This way, the client retains control over when remote access is available simply by starting and stopping the openvpn daemon. This will not be discussed any further in this tutorial.

We will be using six interfaces, bonded into three pairs of two NICs in Active/Passive (mode 1) configuration. Each link of each bond will be on alternate, unstacked switches. This configuration is the only configuration supported by Red Hat in clusters. We will also configure affinity by specifying interfaces eth0, eth1 and eth2 as primary for the bond0, bond1 and bond2 interfaces, respectively. This way, when everything is working fine, all traffic is routed through the same switch for maximum performance.

Note: Only the bonded interface used by corosync must be in Active/Passive configuration (bond0 in this tutorial). If you want to experiment with other bonding modes for bond1 or bond2, please feel free to do so. That is outside the scope of this tutorial, however.

If you can not install six interfaces in your server, then four interfaces will do with the SN and BCN networks merged.

Warning: If you wish to merge the SN and BCN onto one interface, test to ensure that the storage traffic will not block cluster communication. Test by forming your cluster and then pushing your storage to maximum read and write performance for an extended period of time (minimum of several seconds). If the cluster partitions, you will need to do some advanced quality-of-service or other network configuration to ensure reliable delivery of cluster network traffic.

In this tutorial, we will use two D-Link DGS-3120-24TC/SI, stacked, using three VLANs to isolate the three networks.

  • BCN will have VLAN ID of 1, which is the default VLAN.
  • SN will have VLAN ID number 100.
  • IFN will have VLAN ID number 101.
Note: Switch configuration details.

The actual mapping of interfaces to bonds to networks will be:

Subnet Cable Colour VLAN ID Link 1 Link 2 Bond IP
BCN Blue 1 eth0 eth3 bond0 10.20.0.x
SN Green 100 eth1 eth4 bond1 10.10.0.x
IFN Black 101 eth2 eth5 bond2 10.255.0.x

Setting Up the Network

Warning: The following steps can easily get confusing, given how many files we need to edit. Losing access to your server's network is a very real possibility! Do not continue without direct access to your servers! If you have out-of-band access via iKVM, console redirection or similar, be sure to test that it is working before proceeding.

Planning The Use of Physical Interfaces

In production clusters, I generally intentionally get three separate dual-port controllers (two on-board interfaces plus two separate dual-port PCIe cards). I then ensure that no bond uses two interfaces on the same physical board. Thus, should a card or its bus interface fail, none of the bonds will fail completely.

Lets take a look at an example layout;

 ____________________                            
| [ an-node01 ]      |                           
|         ___________|            _______              
|        |     ______|           | bond0 |             
|        | O  | eth0 =-----------=---.---=------{
|        | n  |_____||  /--------=--/    |             
|        | b         |  |        |_______|             
|        | o   ______|  |         _______        
|        | a  | eth1 =--|--\     | bond1 |      
|        | r  |_____||  |   \----=--.----=------{
|        | d         |  |  /-----=--/    |       
|        |___________|  |  |     |_______|       
|         ___________|  |  |      _______        
|        |     ______|  |  |     | bond2 |       
|        | P  | eth2 =--|--|-----=---.---=------{
|        | C  |_____||  |  |  /--=--/    |       
|        | I         |  |  |  |  |_______|       
|        | e   ______|  |  |  |                  
|        |    | eth3 =--/  |  |                  
|        | 1  |_____||     |  |                  
|        |___________|     |  |                  
|         ___________|     |  |                  
|        |     ______|     |  |                  
|        | P  | eth4 =-----/  |                  
|        | C  |_____||        |                  
|        | I         |        |                  
|        | e   ______|        |                  
|        |    | eth5 =--------/                  
|        | 2  |_____||                           
|        |___________|                           
|____________________|

Consider the possible failure scenarios;

  • The on-board controllers fail;
    • bond0 falls back onto eth3 on the PCIe 1 controller.
    • bond1 falls back onto eth4 on the PCIe 2 controller.
    • bond2 is unaffected.
  • The PCIe #1 controller fails
    • bond0 remains on eth0 interface but losses its redundancy as eth3 is down.
    • bond1 is unaffected.
    • bond2 falls back onto eth5 on the PCIe 2 controller.
  • The PCIe #2 controller fails
    • bond0 is unaffected.
    • bond1 remains on eth1 interface but losses its redundancy as eth4 is down.
    • bond2 remains on eth2 interface but losses its redundancy as eth5 is down.

In all three failure scenarios, no network interruption occurs making for the most robust configuration possible.

Managed and Stacking Switch Notes

Note: If you have two stacked switches, be extra careful to test them to ensure that traffic will not block when a switch is lost or is recovering!

There are two things you need to be wary of with managed switches.

  • Don't stack them unless you can confirm that there will be no interruption in traffic flow on the surviving switch when the lost switch disappears or recovers. It may seem like it makes sense to stack them and create Link Aggregation Groups, but this can cause problems. When in doubt, don't stack the switches.
  • Disable Spanning Tree Protocol on all ports used by the cluster. Otherwise, when a lost switch is recovered, STP negotiation will cause traffic to stop on the ports for upwards of thirty seconds. This is more than enough time to partition a cluster.

If you use three VLANs across two unstacked switches, be sure to use a dedicate uplink for each VLAN. You may need to enable STP of these uplinks to avoid switch loops if the VLANs themselves are not enough. The reason for doing this is to ensure that cluster communications always have a clear path for traffic. If you had only one uplink between the two switches, and you found yourself in a situation where a node's BCN and SN faulted through the backup switch, the storage traffic could saturate the uplink and cause intolerable latency for the BCN traffic, leading to cluster partitioning.

Connecting Fence Devices

As we will see soon, each node can be fenced either by calling its IPMI interface or by calling the PDU and cutting the node's power. Each of these methods are inherently single points of failure as each has only one network connection. To work around this concern, we will connect all IPMI interfaces to one switch and the PDUs to the secondary switch. This way, should a switch fail, only one of the two fence devices will fail and fencing in general will still be possible via the alternate fence device.

Generally speaking, I like to connect the IPMI interfaces to the primary switch and the PDUs to the backup switch.

Making Sure We Know Our Interfaces

When you installed the operating system, the network interfaces names are somewhat randomly assigned to the physical network interfaces. It more than likely that you will want to re-order.

Before you start moving interface names around, you will want to consider which physical interfaces you will want to use on which networks. At the end of the day, the names themselves have no meaning. At the very least though, make them consistent across nodes.

Some things to consider, in order of importance:

  • If you have a shared interface for your out-of-band management interface, like IPMI or iLO, you will want that interface to be on the Back-Channel Network.
  • For redundancy, you want to spread out which interfaces are paired up. In my case, I have three interfaces on my mainboard and three additional add-in cards. I will pair each onboard interface with an add-in interface. In my case, my IPMI interface physically piggy-backs on one of the onboard interfaces so this interface will need to be part of the BCN bond.
  • Your interfaces with the lowest latency should be used for the back-channel network.
  • Your two fastest interfaces should be used for your storage network.
  • The remaining two slowest interfaces should be used for the Internet-Facing Network bond.

In my case, all six interfaces are identical, so there is little to consider. The left-most interface on my system has IPMI, so its paired network interface will be eth0. I simply work my way left, incrementing as I go. What you do will be whatever makes most sense to you.

There is a separate, short tutorial on re-ordering network interface;

Once you have the physical interfaces named the way you like, proceed to the next step.

Planning Our Network

To setup our network, we will need to edit the ifcfg-ethX, ifcfg-bondX and ifcfg-vbr2 scripts. The last one will create a bridge, like a virtual network switch, which will be used to route network connections between the virtual machines and the outside world, via the IFN. You will note that the bridge will have the IP addresses, not the bonded interface bond2. It will instead be slaved to the vbr2 bridge.

We're going to be editing a lot of files. It's best to lay out what we'll be doing in a chart. So our setup will be:

Node BCN IP and Device SN IP and Device IFN IP and Device
an-node01 10.20.0.1 on bond0 10.10.0.1 on bond1 10.255.0.1 on vbr2 (bond2 slaved)
an-node02 10.20.0.2 on bond0 10.10.0.2 on bond1 10.255.0.2 on vbr2 (bond2 slaved)

Switch Network Daemons

The new NetworkManager daemon is much more flexible and is perfect for machines like laptops which move around networks a lot. However, it does this by making a lot of decisions for you and changing the network as it sees fit. As good as this is for laptops and the like, it's not appropriate for servers. We will want to use the traditional network service.

yum remove NetworkManager

Now enable network to start with the system.

chkconfig network on
chkconfig --list network
network        	0:off	1:off	2:on	3:on	4:on	5:on	6:off

Creating Some Network Configuration Files

Warning: Bridge configuration files must have a file name which will sort after the interface and bridge files. The actual device name can be whatever you want though. If the system tries to start a bridge before its slaved interface is up, it will fail. I personally like to use the name vbrX for "virtual machine bridge". You can use whatever makes sense to you, with the above concern in mind.

Start by touching the configuration files we will need.

touch /etc/sysconfig/network-scripts/ifcfg-bond{0,1,2}
touch /etc/sysconfig/network-scripts/ifcfg-vbr2

Now make a backup of your configuration files, in case something goes wrong and you want to start over.

mkdir /root/backups/
rsync -av /etc/sysconfig/network-scripts/ifcfg-eth* /root/backups/
sending incremental file list
ifcfg-eth0
ifcfg-eth1
ifcfg-eth2
ifcfg-eth3
ifcfg-eth4
ifcfg-eth5

sent 1467 bytes  received 126 bytes  3186.00 bytes/sec
total size is 1119  speedup is 0.70

Configuring The Bridge

We'll start in reverse order, crafting the bridge's script first.

an-node01 IFN Bridge:

vim /etc/sysconfig/network-scripts/ifcfg-vbr2
# Internet-Facing Network - Bridge
DEVICE="vbr2"
TYPE="Bridge"
BOOTPROTO="static"
IPADDR="10.255.0.1"
NETMASK="255.255.0.0"
GATEWAY="10.255.255.254"
DNS1="8.8.8.8"
DNS2="8.8.4.4"
DEFROUTE="yes"

Creating the Bonded Interfaces

Next up, we'll can create the three bonding configuration files. This is where two physical network interfaces are tied together to work like a single, highly available network interface. You can think of a bonded interface as being akin to RAID level 1; A new virtual device is created out of two real devices.

We're going to see a long line called "BONDING_OPTS". Let's look at the meaning of these options before we look at the configuration;

  • mode=1 sets the bonding mode to active-backup.
  • The miimon=100 tells the bonding driver to check if the network cable has been unplugged or plugged in every 100 milliseconds.
  • The use_carrier=1 tells the driver to use the driver to maintain the link state. Some drivers don't support that. If you run into trouble, try changing this to 0.
  • The updelay=120000 tells the driver to delay switching back to the primary interface for 120,000 milliseconds (2 minutes). This is designed to give the switch connected to the primary interface time to finish booting. Setting this too low may cause the bonding driver to switch back before the network switch is ready to actually move data. Some switches will not provide a link until it is fully booted, so please experiment.
  • The downdelay=0 tells the driver not to wait before changing the state of an interface when the link goes down. That is, when the driver detects a fault, it will switch to the backup interface immediately.

an-node01 BCN Bond:

vim /etc/sysconfig/network-scripts/ifcfg-bond0
# Back-Channel Network - Bond
DEVICE="bond0"
BOOTPROTO="static"
NM_CONTROLLED="no"
ONBOOT="yes"
BONDING_OPTS="mode=1 miimon=100 use_carrier=1 updelay=120000 downdelay=0 primary=eth0"
IPADDR="10.20.0.1"
NETMASK="255.255.0.0"

an-node01 SN Bond:

vim /etc/sysconfig/network-scripts/ifcfg-bond1
# Storage Network - Bond
DEVICE="bond1"
BOOTPROTO="static"
NM_CONTROLLED="no"
ONBOOT="yes"
BONDING_OPTS="mode=1 miimon=100 use_carrier=1 updelay=120000 downdelay=0 primary=eth1"
IPADDR="10.10.0.1"
NETMASK="255.255.0.0"

an-node01 IFN Bond:

vim /etc/sysconfig/network-scripts/ifcfg-bond2
# Internet-Facing Network - Bond
DEVICE="bond2"
BRIDGE="vbr2"
BOOTPROTO="none"
NM_CONTROLLED="no"
ONBOOT="yes"
BONDING_OPTS="mode=1 miimon=100 use_carrier=1 updelay=120000 downdelay=0 primary=eth2"

Alter The Interface Configurations

With the bridge and bonds in place, we can now alter the interface configurations.

Which two interfaces you use in a given bond is entirely up to you. I've found it easiest to keep straight when I match the bondX to the primary interface's ethX number.

an-node01's eth0, the BCN bond0, Link 1:

vim /etc/sysconfig/network-scripts/ifcfg-eth0
# Back-Channel Network - Link 1
HWADDR="00:E0:81:C7:EC:49"
DEVICE="eth0"
NM_CONTROLLED="no"
ONBOOT="yes"
BOOTPROTO="none"
MASTER="bond0"
SLAVE="yes"

an-node01's eth1, the SN bond1, Link 1:

vim /etc/sysconfig/network-scripts/ifcfg-eth1
# Storage Network - Link 1
HWADDR="00:E0:81:C7:EC:48"
DEVICE="eth1"
NM_CONTROLLED="no"
ONBOOT="yes"
BOOTPROTO="none"
MASTER="bond1"
SLAVE="yes"

an-node01's eth2, the IFN bond2, Link 1:

vim /etc/sysconfig/network-scripts/ifcfg-eth2
# Internet-Facing Network - Link 1
HWADDR="00:E0:81:C7:EC:47"
DEVICE="eth2"
NM_CONTROLLED="no"
ONBOOT="yes"
BOOTPROTO="none"
MASTER="bond2"
SLAVE="yes"

an-node01's eth3, the BCN bond0, Link 2:

vim /etc/sysconfig/network-scripts/ifcfg-eth3
# Back-Channel Network - Link 2
HWADDR="00:1B:21:9D:59:FC"
DEVICE="eth3"
NM_CONTROLLED="no"
ONBOOT="yes"
BOOTPROTO="none"
MASTER="bond0"
SLAVE="yes"

an-node01's eth4, the SN bond1, Link 2:

vim /etc/sysconfig/network-scripts/ifcfg-eth4
# Storage Network - Link 2
HWADDR="00:1B:21:BF:70:02"
DEVICE="eth4"
NM_CONTROLLED="no"
ONBOOT="yes"
BOOTPROTO="none"
MASTER="bond1"
SLAVE="yes"

an-node01's eth5, the IFN bond2, Link 2:

vim /etc/sysconfig/network-scripts/ifcfg-eth5
# Internet-Facing Network - Link 2
HWADDR="00:1B:21:BF:6F:FE"
DEVICE="eth5"
NM_CONTROLLED="no"
ONBOOT="yes"
BOOTPROTO="none"
MASTER="bond2"
SLAVE="yes"

Loading The New Network Configuration

Simple restart the network service.

/etc/init.d/network restart

Updating /etc/hosts

On both nodes, update the /etc/hosts file to reflect your network configuration. Remember to add entries for your IPMI, switched PDUs and other devices.

vim /etc/hosts
127.0.0.1   localhost localhost.localdomain localhost4 localhost4.localdomain4
::1         localhost localhost.localdomain localhost6 localhost6.localdomain6

# an-node01
10.20.0.1	an-node01 an-node01.bcn an-node01.alteeve.ca
10.20.1.1	an-node01.ipmi
10.10.0.1	an-node01.sn
10.255.0.1	an-node01.ifn

# an-node02
10.20.0.2	an-node02 an-node02.bcn an-node02.alteeve.ca
10.20.1.2	an-node02.ipmi
10.10.0.2	an-node02.sn
10.255.0.2	an-node02.ifn

# Fence devices
10.20.2.1       pdu1 pdu1.alteeve.ca
10.20.2.2       pdu2 pdu2.alteeve.ca

# VPN interfaces, if used.
10.30.0.1	an-node01.vpn
10.30.0.2	an-node02.vpn
Warning: Remember, which ever switch you have the IPMI interfaces connected to, be sure to connect the PDU into the opposite switch! If both fence types are on one switch, then that switch becomes a single point of failure!
Note: I like to run an OpenVPN server and set up my remote clusters and customers as clients on this VPN to enable rapid, secure remote access when the client's firewall blocks inbound connections. This offers the client the option of disabling the openvpn client daemon until they wish to enable access. This tends to be easier for the client to manage as opposed to manipulating the firewall on demand. This will be the only mention of the VPN in this tutorial, but explains the last entries in the file above.

Setting up SSH

Setting up SSH shared keys will allow your nodes to pass files between one another and execute commands remotely without needing to enter a password. This will be needed later when we want to enable applications like libvirtd and its tools, like virt-manager.

SSH is, on its own, a very big topic. If you are not familiar with SSH, please take some time to learn about it before proceeding. A great first step is the Wikipedia entry on SSH, as well as the SSH man page; man ssh.

SSH can be a bit confusing keeping connections straight in you head. When you connect to a remote machine, you start the connection on your machine as the user you are logged in as. This is the source user. When you call the remote machine, you tell the machine what user you want to log in as. This is the remote user.

You will need to create an SSH key for each source user on each node, and then you will need to copy the newly generated public key to each remote machine's user directory that you want to connect to. In this example, we want to connect to either node, from either node, as the root user. So we will create a key for each node's root user and then copy the generated public key to the other node's root user's directory.

For each user, on each machine you want to connect from, run:

# The '2047' is just to screw with brute-forces a bit. :)
ssh-keygen -t rsa -N "" -b 2047 -f ~/.ssh/id_rsa
Generating public/private rsa key pair.
Created directory '/root/.ssh'.
Your identification has been saved in /root/.ssh/id_rsa.
Your public key has been saved in /root/.ssh/id_rsa.pub.
The key fingerprint is:
4a:52:a1:c7:60:d5:e8:6d:c4:75:20:dd:62:2b:86:c5 root@an-node01.alteeve.ca
The key's randomart image is:
+--[ RSA 2047]----+
|    o.o=.ooo.    |
|   . +..E.+..    |
|    ..+= . o     |
|     oo = .      |
|    . .oS.       |
|     o .         |
|      .          |
|                 |
|                 |
+-----------------+

This will create two files: the private key called ~/.ssh/id_rsa and the public key called ~/.ssh/id_rsa.pub. The private must never be group or world readable! That is, it should be set to mode 0600.

If you look closely when you created the ssh key, the node's fingerprint is show (4a:52:a1:c7:60:d5:e8:6d:c4:75:20:dd:62:2b:86:c5 for an-node01 above). Make a note of the fingerprint for each machine, and then compare it to the one presented to you when you ssh to a machine for the first time. If you are presented with a fingerprint that doesn't match, you could be facing a "man in the middle" attack.

To look up a fingerprint in the future, you can run the following;

ssh-keygen -l -f ~/.ssh/id_rsa
2047 4a:52:a1:c7:60:d5:e8:6d:c4:75:20:dd:62:2b:86:c5 /root/.ssh/id_rsa.pub (RSA)

The two newly generated files should look like;

Private key:

cat ~/.ssh/id_rsa
-----BEGIN RSA PRIVATE KEY-----
MIIEnwIBAAKCAQBs+CsWeKegqmtneZcLDvHV4QT1n+ajj98gkmjoLcIFW5g/VFRL
pSMMkwkQBgGDkmKPvYFa5OolL6qBQSAN1NpP8zET+1lZr4OFg/TZTuA8QnhNeh6V
mU2hSoyJfEkKJ6TVYg4s1rsbbTZPLdCDe9CMn/iI824WUu2wA8RwhF2WTqqTrWTW
4h8tYK9Y4eT4IYMXiYZ8+eQfzHyMaNxvUcI1Z8heMn/CEnrA67ja7Czi/ljYnw0I
3MXy9d2ANYjYahBLF2+ok19NS9tkFHDlcZTh0gTQ4vV5fksgdJjsWl5l/aLjnSRf
x2pQrMl3w8U7JBpr0PWJPIuzd4q47+KBI1A9AgEjAoIBADTtkUVtzcMQ8lbUqHMV
4y1eqqMwaLXYKowp2y7xp2GwJWCWrJnFPOjZs/HXCAy00Ml5TXVKnZ0IhgRENCP5
q92wos8w8OJrMUDZsXDdKxX0ZlGEdUFZFxPTwJqM0wTuryXQiorOsqbr5y3Fy62T
6PPYq+q/YVtM2dkmZrpO66DGcTkBA8tq8tTU3TdqZEVfmCzM9DIGz2hprvky+yDU
Pa296CP7+lHFty34K6j/WxD49+aKrdxXxdLbH/3Wfq7a9fu/FuYObPRtXoYRJNGP
ZEzfVoNwVdc3vETuzZPDoidkc4jomA4vM4cTS1EvwEWVHfaSdIE0wF16N1FlDgNA
hKsCgYEA9Xp5vGoPRer3hTSglGrPOTTkGEhXiE/JDMZ7w4fk2lXo+Q7HqxetrS6l
hMxY+x2W0FBfKwJqBuhVv4Y5MPLbC2JazwYDoP85g6RWH72ebsqdYwYvSx808iDs
C8HArWv8RtQ/K1pRVkq0GPhTdc22sYE9aKa5Hc6nd0SEmq+hLoUCgYBxo9c3M28h
jDpxwTkYszMfpIb++tCSrcBw8guqdqjhW6yH9kXva3NjfuzpOisb7cFN6dcSqjaC
HEZjpBWPUGLOPMnL1/mSsTErusgyh2+x8WjRjuqBJrh7CDN8gejMiski5nALQpxt
s6PKI5WHVqPQ395+549LQnoaCROyf4TUWQKBgFQp/doy/ewWC7ikVFAkntHI/b8u
vuzoJ6yb0qlwa7iSe8MbAwaldo8IrcchfZfs40AbjlfjkhD/M1ebu9ZEot9U6+81
QxKgpgE/qH/pPaJUGLQ8ooAn9OVNHbrjWADx0tZ0p/GbTxZFf5OIVyETVJShVuIN
RshkHCjkSrixPpObAoGAPbC2qPAJINcYaaNoI1n3Lm9B+CHBrrYYAsyJ/XOdgabL
X8A0l+nfjciPPMfOQlx+4ScrnGsHpbeT7PKsnkGUuRmvYAeHe4TC69psrbc8om0b
pPXPwnQbAPXSzo+qQybE9bBLc9O0AQm/UHm3kpy/VCHB7R6ePsxQ6Y/mHxIGR2MC
gYEAhW7evwpxUMcW+BV84xIIt7cW2K/mu8nOb2qajFTej+WgvHNT+h4vgs4ZrTkH
rHyUiN/tzTCxBnkoh1w9FmCdnAdr/+br56Zq8oEXzBUUALqeW0xnB0zpTc6Hn0xq
iU0P5cM1sgyCWv83MgeGegcpxt54K5bqUjPKjaUpLNqbtiA=
-----END RSA PRIVATE KEY-----

Public key (single line, but wrapped here to make it more readable):

cat ~/.ssh/id_rsa.pub
ssh-rsa AAAAB3NzaC1yc2EAAAABIwAAAQBs+CsWeKegqmtneZcLDvHV4QT1n+ajj98gkmjo
LcIFW5g/VFRLpSMMkwkQBgGDkmKPvYFa5OolL6qBQSAN1NpP8zET+1lZr4OFg/TZTuA8QnhN
eh6VmU2hSoyJfEkKJ6TVYg4s1rsbbTZPLdCDe9CMn/iI824WUu2wA8RwhF2WTqqTrWTW4h8t
YK9Y4eT4IYMXiYZ8+eQfzHyMaNxvUcI1Z8heMn/CEnrA67ja7Czi/ljYnw0I3MXy9d2ANYjY
ahBLF2+ok19NS9tkFHDlcZTh0gTQ4vV5fksgdJjsWl5l/aLjnSRfx2pQrMl3w8U7JBpr0PWJ
PIuzd4q47+KBI1A9 root@an-node01.alteeve.ca
Note: Generate the key on an-node02 before proceeding.

In order to enable password-less login, we need to create a file called ~/.ssh/authorized_keys and put both nodes' public key in it. To seed the ~/.ssh/authorized_keys file, we'll simply copy the ~/.ssh/id_rsa.pub file. After that, we will append an-node02's public key into it over ssh. Once both keys are in it, we'll push it over to an-node02. If you want to add your workstation's key as well, this is the best time to do so.

From an-node01, type:

rsync -av ~/.ssh/id_rsa.pub ~/.ssh/authorized_keys
sending incremental file list
id_rsa.pub

sent 482 bytes  received 31 bytes  1026.00 bytes/sec
total size is 404  speedup is 0.79

Now we'll grab the public key from an-node02 over SSH and append it to the new authorized_keys file.

I noted when I created an-node02's ssh key that its fingerprint was 04:08:37:43:6b:5c:a0:b0:f5:27:a7:46:d4:77:a3:34. This matches the one presented to me in the next step, so I trust that I am talking to the right machine.

ssh root@an-node02 "cat ~/.ssh/id_rsa.pub" >> ~/.ssh/authorized_keys
The authenticity of host 'an-node02 (10.20.0.2)' can't be established.
RSA key fingerprint is 04:08:37:43:6b:5c:a0:b0:f5:27:a7:46:d4:77:a3:34.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node02,10.20.0.2' (RSA) to the list of known hosts.
root@an-node02's password:
Note: If you want to add your workstation's key, do so here.

Now push the local copy of authorized_keys with both keys over to an-node02.

rsync -av ~/.ssh/authorized_keys root@an-node02:/root/.ssh/
root@an-node02's password: 
sending incremental file list
authorized_keys

sent 1704 bytes  received 31 bytes  694.00 bytes/sec
total size is 1621  speedup is 0.93

Now log into the remote machine. This time, the connection should succeed without having entered a password!

ssh root@an-node02
Last login: Sat Dec 10 16:06:21 2011 from 10.20.255.254

Perfect! Once you can log into both nodes, from either node, without a password you will be finished.

Populating And Pushing ~/.ssh/known_hosts

Various applications will connect to the other node using different methods and networks. Each connection, when first established, will prompt for you to confirm that you trust the authentication, as we saw above. Many programs can't handle this prompt and will simply fail to connect. So to get around this, lets ssh into both nodes using all host names. This will populate a file called ~/.ssh/known_hosts. Once you do this on one node, you can simply copy the known_hosts to the other nodes and user's ~/.ssh/ directories.

I simply paste this into a terminal, answering yes and then immediately exit from the ssh session. This is a bit tedious, I admit, but it only needs to be done one time for all nodes. Take the time to check the fingerprints as they are displayed to you. It is a bad habit to blindly type yes.

Alter this to suit your host names.

ssh root@an-node01 && \
ssh root@an-node01.alteeve.ca && \
ssh root@an-node01.bcn && \
ssh root@an-node01.sn && \
ssh root@an-node01.ifn && \
ssh root@an-node02 && \
ssh root@an-node02.alteeve.ca && \
ssh root@an-node02.bcn && \
ssh root@an-node02.sn && \
ssh root@an-node02.ifn
The authenticity of host 'an-node01 (10.20.0.1)' can't be established.
RSA key fingerprint is e6:cb:50:41:88:26:c3:a5:aa:85:80:89:02:6f:ae:5e.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node01,10.20.0.1' (RSA) to the list of known hosts.
Last login: Sun Dec 11 04:45:50 2011 from 10.20.255.254
[root@an-node01 ~]#
exit
logout
Connection to an-node01 closed.
The authenticity of host 'an-node01.alteeve.ca (10.20.0.1)' can't be established.
RSA key fingerprint is e6:cb:50:41:88:26:c3:a5:aa:85:80:89:02:6f:ae:5e.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node01.alteeve.ca' (RSA) to the list of known hosts.
Last login: Sun Dec 11 04:50:24 2011 from an-node01
[root@an-node01 ~]#
exit
logout
Connection to an-node01.alteeve.ca closed.
The authenticity of host 'an-node01.bcn (10.20.0.1)' can't be established.
RSA key fingerprint is e6:cb:50:41:88:26:c3:a5:aa:85:80:89:02:6f:ae:5e.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node01.bcn' (RSA) to the list of known hosts.
Last login: Sun Dec 11 04:51:14 2011 from an-node01
[root@an-node01 ~]#
exit
logout
Connection to an-node01.bcn closed.
The authenticity of host 'an-node01.sn (10.10.0.1)' can't be established.
RSA key fingerprint is e6:cb:50:41:88:26:c3:a5:aa:85:80:89:02:6f:ae:5e.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node01.sn,10.10.0.1' (RSA) to the list of known hosts.
Last login: Sun Dec 11 04:53:23 2011 from an-node01
[root@an-node01 ~]#
exit
logout
Connection to an-node01.sn closed.
The authenticity of host 'an-node01.ifn (10.255.0.1)' can't be established.
RSA key fingerprint is e6:cb:50:41:88:26:c3:a5:aa:85:80:89:02:6f:ae:5e.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node01.ifn,10.255.0.1' (RSA) to the list of known hosts.
Last login: Sun Dec 11 04:54:30 2011 from an-node01.sn
[root@an-node01 ~]#
exit
logout
Connection to an-node01.ifn closed.

This is the connection to an-node02, which we established earlier when we pushed the authorized_keys, so this time we're not asked to verify the key.

Last login: Sun Dec 11 05:44:40 2011 from 10.20.255.254
[root@an-node02 ~]#
exit
logout
Connection to an-node02 closed.

Now we'll be asked to verify keys again, as only the base an-node02 hostname had been recorded earlier.

The authenticity of host 'an-node02.alteeve.ca (10.20.0.2)' can't be established.
RSA key fingerprint is 04:08:37:43:6b:5c:a0:b0:f5:27:a7:46:d4:77:a3:34.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node02.alteeve.ca' (RSA) to the list of known hosts.
Last login: Sun Dec 11 05:54:44 2011 from an-node01
[root@an-node02 ~]#
exit
logout
Connection to an-node02.alteeve.ca closed.
The authenticity of host 'an-node02.bcn (10.20.0.2)' can't be established.
RSA key fingerprint is 04:08:37:43:6b:5c:a0:b0:f5:27:a7:46:d4:77:a3:34.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node02.bcn' (RSA) to the list of known hosts.
Last login: Sun Dec 11 06:05:58 2011 from an-node01
[root@an-node02 ~]#
exit
logout
Connection to an-node02.bcn closed.
The authenticity of host 'an-node02.sn (10.10.0.2)' can't be established.
RSA key fingerprint is 04:08:37:43:6b:5c:a0:b0:f5:27:a7:46:d4:77:a3:34.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node02.sn,10.10.0.2' (RSA) to the list of known hosts.
Last login: Sun Dec 11 06:07:20 2011 from an-node01
exit
logout
Connection to an-node02.sn closed.
The authenticity of host 'an-node02.ifn (10.255.0.2)' can't be established.
RSA key fingerprint is 04:08:37:43:6b:5c:a0:b0:f5:27:a7:46:d4:77:a3:34.
Are you sure you want to continue connecting (yes/no)? yes
Warning: Permanently added 'an-node02.ifn,10.255.0.2' (RSA) to the list of known hosts.
Last login: Sun Dec 11 06:08:11 2011 from an-node01.sn
[root@an-node02 ~]#
exit
logout
Connection to an-node02.ifn closed.

Finally done!

Now we can simply copy the ~/.ssh/known_hosts file to the other node.

rsync -av root@an-node01:/root/.ssh/known_hosts ~/.ssh/
receiving incremental file list

sent 11 bytes  received 41 bytes  104.00 bytes/sec
total size is 4413  speedup is 84.87

Now we can connect via SSH to either node, from either node, using any of the networks and we will not be prompted to enter a password or to verify SSH fingerprints any more.

Configuring The Cluster Foundation

We need to configure the cluster in two stages. This is because we have something of a chicken-and-egg problem.

  • We need clustered storage for our virtual machines.
  • Our clustered storage needs the cluster for fencing.

Conveniently, clustering has two logical parts;

  • Cluster communication and membership.
  • Cluster resource management.

The first, communication and membership, covers which nodes are part of the cluster and ejecting faulty nodes from the cluster, among other tasks. The second part, resource management, is provided by a second tool called rgmanager. It's this second part that we will set aside for later.

Installing Required Programs

You will need to install the packages below. Under CentOS, Scientific Linux or other RHEL-based distros, you can simply run the command below.

For Red Hat customers though, you will need to enable the "RHEL Server Resilient Storage" entitlement. If you are foregoing GFS2 to save money, then you will need to instead enable the "RHEL Server High Availability" entitlement instead.

Once you are ready, run the following command to install what you need. If you opted not to use GFS2, remove gfs2-utils. The gpm is also optional as it provides mouse facility in the command-line.

yum install cman corosync rgmanager ricci gfs2-utils ntp \
            libvirt lvm2-cluster qemu-kvm qemu-kvm-tools \
            virt-install virt-viewer syslinux wget gpm \
            rsync

Disable the 'qemu' Bridge

By default, libvirtd creates a bridge called virbr0 designed to connect virtual machines to the first eth0 interface. Our system will not need this, so we will remove it now.

If libvirtd has started, skip to the next step. If you haven't started libvirtd yet, you can manually disable the bridge by blanking out the config file.

cat /dev/null >/etc/libvirt/qemu/networks/default.xml

If libvirtd has started, then you will need to first stop the bridge.

virsh net-destroy default
Network default destroyed

To disable and remove it, run the following;

virsh net-autostart default --disable
Network default unmarked as autostarted
virsh net-undefine default
Network default has been undefined

Keeping Time In Sync

It is very important that time on both nodes be kept in sync. The way to do this is to setup [[[NTP]], the network time protocol. I like to use the tick.redhat.com time server, though you are free to substitute your preferred time source.

First, add the timeserver to the NTP configuration file by appending the following lines to the end of it.

echo server tick.redhat.com$'\n'restrict tick.redhat.com mask 255.255.255.255 nomodify notrap noquery >> /etc/ntp.conf
tail -n 4 /etc/ntp.conf
# Enable writing of statistics records.
#statistics clockstats cryptostats loopstats peerstats
server tick.redhat.com
restrict tick.redhat.com mask 255.255.255.255 nomodify notrap noquery

Now make sure that the ntpd service starts on boot, then start it manually.

chkconfig ntpd on
/etc/init.d/ntpd start
Starting ntpd:                                             [  OK  ]

Configuration Methods

In Red Hat Cluster Services, the heart of the cluster is found in the /etc/cluster/cluster.conf XML configuration file.

There are three main ways of editing this file. Two are already well documented, so I won't bother discussing them, beyond introducing them. The third way is by directly hand-crafting the cluster.conf file. This method is not very well documented, and directly manipulating configuration files is my preferred method. As my boss loves to say; "The more computers do for you, the more they do to you".

The first two, well documented, graphical tools are:

  • system-config-cluster, older GUI tool run directly from one of the cluster nodes.
  • Conga, comprised of the ricci node-side client and the luci web-based server (can be run on machines outside the cluster).

I do like the tools above, but I often find issues that send me back to the command line. I'd recommend setting them aside for now as well. Once you feel comfortable with cluster.conf syntax, then by all means, go back and use them. I'd recommend not relying on them though, which might be the case if you try to use them too early in your studies.

The First cluster.conf Foundation Configuration

The very first stage of building the cluster is to create a configuration file that is as minimal as possible. We're going to do this on an-node01 and, when we're done, copy it over to an-node02.

Name the Cluster and Set The Configuration Version

The cluster tag is the parent tag for the entire cluster configuration file.

vim /etc/cluster/cluster.conf
<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="1">
</cluster>

The cluster element has two attributes that we need to set;

  • name=""
  • config_version=""

The name="" attribute defines the name of the cluster. It must be unique amongst the clusters on your network. It should be descriptive, but you will not want to make it too long, either. You will see this name in the various cluster tools and you will enter in, for example, when creating a GFS2 partition later on. This tutorial uses the cluster name an-cluster-A.

The config_version="" attribute is an integer indicating the version of the configuration file. Whenever you make a change to the cluster.conf file, you will need to increment this version number by 1. If you don't increment this number, then the cluster tools will not know that the file needs to be reloaded. As this is the first version of this configuration file, it will start with 1. Note that this tutorial will increment the version after every change, regardless of whether it is explicitly pushed out to the other nodes and reloaded. The reason is to help get into the habit of always increasing this value.

Configuring cman Options

We are setting up a special kind of cluster, called a 2-Node cluster.

This is a special case because traditional quorum will not be useful. With only two nodes, each having a vote of 1, the total votes is 2. Quorum needs 50% + 1, which means that a single node failure would shut down the cluster, as the remaining node's vote is 50% exactly. That kind of defeats the purpose to having a cluster at all.

So to account for this special case, there is a special attribute called two_node="1". This tells the cluster manager to continue operating with only one vote. This option requires that the expected_votes="" attribute be set to 1. Normally, expected_votes is set automatically to the total sum of the defined cluster nodes' votes (which itself is a default of 1). This is the other half of the "trick", as a single node's vote of 1 now always provides quorum (that is, 1 meets the 50% + 1 requirement).

In short; this disables quorum.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="2">
	<cman expected_votes="1" two_node="1" />
</cluster>

Take note of the self-closing <... /> tag. This is an XML syntax that tells the parser not to look for any child or a closing tags.

Defining Cluster Nodes

This example is a little artificial, please don't load it into your cluster as we will need to add a few child tags, but one thing at a time.

This introduces two tags, the later a child tag of the former;

  • clusternodes
    • clusternode

The first is the parent clusternodes tag, which takes no attributes of its own. Its sole purpose is to contain the clusternode child tags, of which there will be one per node.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="3">
	<cman expected_votes="1" two_node="1" />
	<clusternodes>
		<clusternode name="an-node01.alteeve.ca" nodeid="1" />
		<clusternode name="an-node02.alteeve.ca" nodeid="2" />
	</clusternodes>
</cluster>

The clusternode tag defines each cluster node. There are many attributes available, but we will look at just the two required ones.

The first is the name="" attribute. The value should match the fully qualified domain name, which you can check by running uname -n on each node. This isn't strictly required, mind you, but for simplicity's sake, this is the name we will use.

The cluster decides which network to use for cluster communication by resolving the name="..." value. It will take the returned IP address and try to match it to one of the IPs on the system. Once it finds a match, that becomes the network the cluster will use. In our case, an-node01.alteeve.ca resolves to 10.20.0.1, which is used by bond0.

If you have syslinux installed, you can check this out yourself using the following command;

ifconfig |grep -B 1 $(gethostip -d $(uname -n)) | grep HWaddr | awk '{ print $1 }'
bond0

Please see the clusternode's name attribute document for details on how name to interface mapping is resolved.

The second attribute is nodeid="". This must be a unique integer amongst the <clusternode ...> elements in the cluster. It is what the cluster itself uses to identify the node.

Defining Fence Devices

Fencing devices are used to forcible eject a node from a cluster if it stops responding.

This is generally done by forcing it to power off or reboot. Some SAN switches can logically disconnect a node from the shared storage device, a process called fabric fencing, which has the same effect of guaranteeing that the defective node can not alter the shared storage. A common, third type of fence device is one that cuts the mains power to the server. These are called PDUs and are effectively power bars where each outlet can be independently switched off over the network.

In this tutorial, our nodes support IPMI, which we will use as the primary fence device. We also have an APC brand switched PDU which will act as a backup fence device.

Note: Not all brands of switched PDUs are supported as fence devices. Before you purchase a fence device, confirm that it is supported.

All fence devices are contained within the parent fencedevices tag, which has no attributes of its own. Within this parent tag are one or more fencedevice child tags.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="4">
        <cman expected_votes="1" two_node="1" />
        <clusternodes>
                <clusternode name="an-node01.alteeve.ca" nodeid="1" />
                <clusternode name="an-node02.alteeve.ca" nodeid="2" />
        </clusternodes>
        <fencedevices>
                <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
        </fencedevices>
</cluster>

In our cluster, each fence device used will have its own fencedevice tag. If you are using IPMI, this means you will have a fencedevice entry for each node, as each physical IPMI BMC is a unique fence device. On the other hand, fence devices that support multiple nodes, like switched PDUs, will have just one entry. In our case, we're using both types, so we have three fences devices; The two IPMI BMCs plus the switched PDU.

All fencedevice tags share two basic attributes; name="" and agent="".

  • The name attribute must be unique among all the fence devices in your cluster. As we will see in the next step, this name will be used within the <clusternode...> tag.
  • The agent tag tells the cluster which fence agent to use when the fenced daemon needs to communicate with the physical fence device. A fence agent is simple a shell script that acts as a go-between layer between the fenced daemon and the fence hardware. This agent takes the arguments from the daemon, like what port to act on and what action to take, and performs the requested action against the target node. The agent is responsible for ensuring that the execution succeeded and returning an appropriate success or failure exit code.

For those curious, the full details are described in the FenceAgentAPI. If you have two or more of the same fence device, like IPMI, then you will use the same fence agent value a corresponding number of times.

Beyond these two attributes, each fence agent will have its own subset of attributes. The scope of which is outside this tutorial, though we will see examples for IPMI and a switched PDU. All fence agents have a corresponding man page that will show you what attributes it accepts and how they are used. The two fence agents we will see here have their attributes defines in the following man pages.

  • man fence_ipmilan - IPMI fence agent.
  • man fence_apc_snmp - APC-brand switched PDU using SNMP.

The example above is what this tutorial will use.

Using the Fence Devices

Now we have nodes and fence devices defined, we will go back and tie them together. This is done by:

  • Defining a fence tag containing all fence methods and devices.
    • Defining one or more method tag(s) containing the device call(s) needed for each fence attempt.
      • Defining one or more device tag(s) containing attributes describing how to call the fence device to kill this node.

Here is how we implement IPMI as the primary fence device with the APC switched PDU as the backup method.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="5">
        <cman expected_votes="1" two_node="1" />
        <clusternodes>
                <clusternode name="an-node01.alteeve.ca" nodeid="1">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an01" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="1" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
                <clusternode name="an-node02.alteeve.ca" nodeid="2">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an02" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="2" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
        </clusternodes>
        <fencedevices>
                <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
        </fencedevices>
</cluster>

First, notice that the fence tag has no attributes. It's merely a parent for the method(s) child elements.

There are two method elements, one for each fence device, named ipmi and pdu. These names are merely descriptive and can be whatever you feel is most appropriate.

Within each method element is one or more device tags. For a given method to succeed, all defined device elements must themselves succeed. This is very useful for grouping calls to separate PDUs when dealing with nodes having redundant power supplies, as shown in the PDU example above.

The actual fence device configuration is the final piece of the puzzle. It is here that you specify per-node configuration options and link these attributes to a given fencedevice. Here, we see the link to the fencedevice via the name, ipmi_an01 in this example.

Note that the PDU definition needs a port="" attribute where the IPMI fence devices do not. These are the sorts of differences you will find, varying depending on how the fence device agent works.

When a fence call is needed, the fence devices will be called in the order they are found here. If both devices fail, the cluster will go back to the start and try again, looping indefinitely until one device succeeds.

Note: It's important to understand why we use IPMI as the primary fence device. The FenceAgentAPI specification suggests, but does not require, that a fence device confirm that the node is off. IPMI can do this, the switched PDU can not. Thus, IPMI won't return a success unless the node is truly off. The PDU, however, will return a success once the power is cut to the requested port. The risk is that a misconfigured node with redundant PDU may in fact still be running, leading to disastrous consequences.

Let's step through an example fence call to help show how the per-cluster and fence device attributes are combined during a fence call.

  • The cluster manager decides that a node needs to be fenced. Let's say that the victim is an-node02.
  • The first method in the fence section under an-node02 is consulted. Within it there are two method entries, named ipmi and pdu. The IPMI method's device has one attribute while the PDU's device has two attributes;
    • port; only found in the PDU method, this tells the cluster that an-node02 is connected to switched PDU's outlet number 2.
    • action; Found on both devices, this tells the cluster that the fence action to take is reboot. How this action is actually interpreted depends on the fence device in use, though the name certainly implies that the node will be forced off and then restarted.
  • The cluster searches in fencedevices for a fencedevice matching the name ipmi_an02. This fence device has four attributes;
    • agent; This tells the cluster to call the fence_ipmilan fence agent script, as we discussed earlier.
    • ipaddr; This tells the fence agent where on the network to find this particular IPMI BMC. This is how multiple fence devices of the same type can be used in the cluster.
    • login; This is the login user name to use when authenticating against the fence device.
    • passwd; This is the password to supply along with the login name when authenticating against the fence device.
  • Should the IPMI fence call fail for some reason, the cluster will move on to the second pdu method, repeating the steps above but using the PDU values.

When the cluster calls the fence agent, it does so by initially calling the fence agent script with no arguments.

/usr/sbin/fence_ipmilan

Then it will pass to that agent the following arguments:

ipaddr=an-node02.ipmi
login=root
passwd=secret
action=reboot

As you can see then, the first three arguments are from the fencedevice attributes and the last one is from the device attributes under an-node02's clusternode's fence tag.

If this method fails, then the PDU will be called in a very similar way, but with an extra argument from the device attributes.

/usr/sbin/fence_apc_snmp

Then it will pass to that agent the following arguments:

ipaddr=pdu2.alteeve.ca
port=2
action=reboot

Should this fail, the cluster will go back and try the IPMI interface again. It will loop through the fence device methods forever until one of the methods succeeds. Below are snippets from other clusters using different fence device configurations which might help you build your cluster.

Example <fencedevice...> Tag For IPMI

Warning: When using IPMI for fencing, it is very important that you disable ACPI. If acpid is running when an IPMI-based fence is called against it, it will begin a graceful shutdown. This means that it will stay running for another four seconds. This is more than enough time for it to initiate a shutdown of the peer, resulting in both nodes powering down if the network is interrupted.

As stated above, it is critical to disable the acpid daemon from running with the server.

chkconfig acpid off
/etc/init.d/acpid stop
Warning: After this tutorial was completed, a new <device ... /> attribute called delay="..." was added. This is a very useful attribute that allows you to tell fenced "hey, if you need to fence node X, pause for Y seconds before doing so". By setting this on only one node, you can effectively ensure that when both nodes try to fence each other at the same time, the one with the delay="Y" set will always win.

Here we will show what IPMI <fencedevice...> tags look like.

	...
		<clusternode name="an-node01.alteeve.ca" nodeid="1">
			<fence>
				<method name="ipmi">
					<device name="ipmi_an01" action="reboot"/>
				</method>
			</fence>
		</clusternode>
		<clusternode name="an-node02.alteeve.ca" nodeid="2">
			<fence>
				<method name="ipmi">
					<device name="ipmi_an02" action="reboot"/>
				</method>
			</fence>
		</clusternode>
	...
	<fencedevices>
		<fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
		<fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
	</fencedevices>
  • ipaddr; This is the resolvable name or IP address of the device. If you use a resolvable name, it is strongly advised that you put the name in /etc/hosts as DNS is another layer of abstraction which could fail.
  • login; This is the login name to use when the fenced daemon connects to the device.
  • passwd; This is the login password to use when the fenced daemon connects to the device.
  • name; This is the name of this particular fence device within the cluster which, as we will see shortly, is matched in the <clusternode...> element where appropriate.
Note: We will see shortly that, unlike switched PDUs or other network fence devices, IPMI does not have ports. This is because each IPMI BMC supports just its host system. More on that later.

Example <fencedevice...> Tag For HP iLO

Here we will show how to use iLO (integraterd Lights-Out) management devices as <fencedevice...> entries. We won't be using it ourselves, but it is quite popular as a fence device so I wanted to show an example of its use.

	...
		<clusternode name="an-node01.alteeve.ca" nodeid="1">
			<fence>
				<method name="ilo">
					<device action="reboot" name="ilo_an01"/>
				</method>
			</fence>
		</clusternode>
		<clusternode name="an-node02.alteeve.ca" nodeid="2">
			<fence>
				<method name="ilo">
					<device action="reboot" name="ilo_an02"/>
				</method>
			</fence>
		</clusternode>
	...
	<fencedevices>
		<fencedevice agent="fence_ilo" ipaddr="an-node01.ilo" login="root" name="ilo_an01" passwd="secret"/>
		<fencedevice agent="fence_ilo" ipaddr="an-node02.ilo" login="root" name="ilo_an02" passwd="secret"/>
	</fencedevices>
  • ipaddr; This is the resolvable name or IP address of the device. If you use a resolvable name, it is strongly advised that you put the name in /etc/hosts as DNS is another layer of abstraction which could fail.
  • login; This is the login name to use when the fenced daemon connects to the device.
  • passwd; This is the login password to use when the fenced daemon connects to the device.
  • name; This is the name of this particular fence device within the cluster which, as we will see shortly, is matched in the <clusternode...> element where appropriate.
Note: Like IPMI, iLO does not have ports. This is because each iLO BMC supports just its host system.
Note: A reader kindly reported that iLO3 does not work with the fence_ilo agent. The recommendation is to now use fence_ipmilan with the following options; <fencedevice agent="fence_ipmilan" ipaddr="an-node01.ilo" lanplus="1" login="Administrator" name="ilo_an01" passwd="secret" power_wait="4"/>.

Example <fencedevice...> Tag For Dell's DRAC

Note: I have not tested fencing on Dell, but am using a reference working configuration from another user.

Here we will show how to use DRAC (Dell Remote Access Controller) management devices as <fencedevice...> entries. We won't be using it ourselves, but it is another popular as a fence device so I wanted to show an example of its use.

	...
		<clusternode name="an-node01.alteeve.ca" nodeid="1">
			<fence>
				<method name="drac">
					<device action="reboot" name="drac_an01"/>
				</method>
			</fence>
		</clusternode>
		<clusternode name="an-node02.alteeve.ca" nodeid="2">
			<fence>
				<method name="ilo">
					<device action="reboot" name="drac_an02"/>
				</method>
			</fence>
		</clusternode>
	...
	<fencedevices>
		<fencedevice agent="fence_drac5" cmd_prompt="admin1-&gt;" ipaddr="an-node01.drac" login="root" name="drac_an01" passwd="secret" secure="1"/>
		<fencedevice agent="fence_drac5" cmd_prompt="admin1-&gt;" ipaddr="an-node02.drac" login="root" name="drac_an02" passwd="secret" secure="1"/>
	</fencedevices>
  • ipaddr; This is the resolvable name or IP address of the device. If you use a resolvable name, it is strongly advised that you put the name in /etc/hosts as DNS is another layer of abstraction which could fail.
  • login; This is the login name to use when the fenced daemon connects to the device.
  • passwd; This is the login password to use when the fenced daemon connects to the device.
  • name; This is the name of this particular fence device within the cluster which, as we will see shortly, is matched in the <clusternode...> element where appropriate.
  • cmd_prompt; This is the string that the fence agent looks for when talking to the DRAC device.
  • secure; This tells the agent to use SSH.
Note: Like IPMI and iLO, DRAC does not have ports. This is because each DRAC BMC supports just its host system.

Example <fencedevice...> Tag For APC Switched PDUs

Here we will show how to configure APC switched PDU <fencedevice...> tags. There are two agents for these devices; One that uses the telnet or ssh login and one that uses SNMP. This tutorial uses the later, and it is recommended that you do the same.

The example below is from a production cluster that uses redundant power supplies and two separate PDUs. This is how you will want to configure any production clusters you build.

	...
		<clusternode name="an-node01.alteeve.ca" nodeid="1">
			<fence>
				<method name="pdu2">
					<device action="reboot" name="pdu1" port="1"/>
					<device action="reboot" name="pdu2" port="1"/>
				</method>
			</fence>
		</clusternode>
		<clusternode name="an-node02.alteeve.ca" nodeid="2">
			<fence>
				<method name="pdu2">
					<device action="reboot" name="pdu1" port="2"/>
					<device action="reboot" name="pdu2" port="2"/>
				</method>
			</fence>
		</clusternode>
	...
	<fencedevices>
 		<fencedevice agent="fence_apc_snmp" ipaddr="pdu1.alteeve.ca" name="pdu1" />
		<fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
	</fencedevices>
  • agent; This is the name of the script under /usr/sbin/ to use when calling the physical PDU.
  • ipaddr; This is the resolvable name or IP address of the device. If you use a resolvable name, it is strongly advised that you put the name in /etc/hosts as DNS is another layer of abstraction which could fail.
  • name; This is the name of this particular fence device within the cluster which, as we will see shortly, is matched in the <clusternode...> element where appropriate.

Give Nodes More Time To Start

Clusters with more than three nodes will have to gain quorum before they can fence other nodes. As we discussed earlier though, this is not the case when using the two_node="1" attribute in the cman element. What this means in practice is that if you start the cluster on one node and then wait too long to start the cluster on the second node, the first will fence the second.

The logic behind this is; When the cluster starts, it will try to talk to its fellow node and then fail. With the special two_node="1" attribute set, the cluster knows that it is allowed to start clustered services, but it has no way to say for sure what state the other node is in. It could well be online and hosting services for all it knows. So it has to proceed on the assumption that the other node is alive and using shared resources. Given that, and given that it can not talk to the other node, its only safe option is to fence the other node. Only then can it be confident that it is safe to start providing clustered services.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="6">
        <cman expected_votes="1" two_node="1" />
        <clusternodes>
                <clusternode name="an-node01.alteeve.ca" nodeid="1">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an01" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="1" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
                <clusternode name="an-node02.alteeve.ca" nodeid="2">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an02" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="2" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
        </clusternodes>
        <fencedevices>
                <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
        </fencedevices>
        <fence_daemon post_join_delay="30" />
</cluster>

The new tag is fence_daemon, seen near the bottom if the file above. The change is made using the post_join_delay="30" attribute. By default, the cluster will declare the other node dead after just 6 seconds. The reason is that the larger this value, the slower the start-up of the cluster services will be. During testing and development though, I find this value to be far too short and frequently led to unnecessary fencing. Once your cluster is setup and working, it's not a bad idea to reduce this value to the lowest value with which you are comfortable.

Configuring Totem

There are many attributes for the totem element. For now though, we're only going to set two of them. We know that cluster communication will be travelling over our private, secured BCN network, so for the sake of simplicity, we're going to disable encryption. We are also offering network redundancy using the bonding drivers, so we're also going to disable totem's redundant ring protocol.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="7">
        <cman expected_votes="1" two_node="1" />
        <clusternodes>
                <clusternode name="an-node01.alteeve.ca" nodeid="1">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an01" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="1" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
                <clusternode name="an-node02.alteeve.ca" nodeid="2">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an02" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="2" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
        </clusternodes>
        <fencedevices>
                <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
        </fencedevices>
        <fence_daemon post_join_delay="30" />
        <totem rrp_mode="none" secauth="off"/>
</cluster>
Note: At this time, redundant ring protocol is not supported (RHEL6.1 and lower). It is in technology preview mode in RHEL6.2 and above. This is another reason why we will not be using it in this tutorial..

RRP is an optional second ring that can be used for cluster communication in the case of a break down in the first ring. However, if you wish to explore it further, please take a look at the clusternode element tag called <altname...>. When altname is used though, then the rrp_mode attribute will need to be changed to either active or passive (the details of which are outside the scope of this tutorial).

The second option we're looking at here is the secauth="off" attribute. This controls whether the cluster communications are encrypted or not. We can safely disable this because we're working on a known-private network, which yields two benefits; It's simpler to setup and it's a lot faster. If you must encrypt the cluster communications, then you can do so here. The details of which are also outside the scope of this tutorial though.

Validating and Pushing the /etc/cluster/cluster.conf File

One of the most noticeable changes in RHCS cluster stable 3 is that we no longer have to make a long, cryptic xmllint call to validate our cluster configuration. Now we can simply call ccs_config_validate.

ccs_config_validate
Configuration validates

If there was a problem, you need to go back and fix it. DO NOT proceed until your configuration validates. Once it does, we're ready to move on!

With it validated, we need to push it to the other node. As the cluster is not running yet, we will push it out using rsync.

rsync -av /etc/cluster/cluster.conf root@an-node02:/etc/cluster/
sending incremental file list
cluster.conf

sent 1198 bytes  received 31 bytes  2458.00 bytes/sec
total size is 1118  speedup is 0.91

Setting Up ricci

Another change from RHCS stable 2 is how configuration changes are propagated. Before, after a change, we'd push out the updated cluster configuration by calling ccs_tool update /etc/cluster/cluster.conf. Now this is done with cman_tool version -r. More fundamentally though, the cluster needs to authenticate against each node and does this using the local ricci system user. The user has no password initially, so we need to set one.

On both nodes:

passwd ricci
Changing password for user ricci.
New password: 
Retype new password: 
passwd: all authentication tokens updated successfully.

You will need to enter this password once from each node against the other node. We will see this later.

Now make sure that the ricci daemon is set to start on boot and is running now.

chkconfig ricci on
chkconfig --list ricci
ricci          	0:off	1:off	2:on	3:on	4:on	5:on	6:off

Now start it up.

/etc/init.d/ricci start
Starting ricci:                                            [  OK  ]
Note: If you don't see [ OK ], don't worry, it is probably because it was already running.

We also need to have a daemon called modclusterd running on start.

chkconfig modclusterd on
chkconfig --list modclusterd
modclusterd    	0:off	1:off	2:on	3:on	4:on	5:on	6:off

Now start it up.

/etc/init.d/modclusterd start
Starting Cluster Module - cluster monitor: Setting verbosity level to LogBasic
                                                           [  OK  ]

Starting the Cluster for the First Time

It's a good idea to open a second terminal on either node and tail the /var/log/messages syslog file. All cluster messages will be recorded here and it will help to debug problems if you can watch the logs. To do this, in the new terminal windows run;

clear; tail -f -n 0 /var/log/messages

This will clear the screen and start watching for new lines to be written to syslog. When you are done watching syslog, press the <ctrl> + c key combination.

How you lay out your terminal windows is, obviously, up to your own preferences. Below is a configuration I have found very useful.

Terminal window layout for watching 2 nodes. Left windows are used for entering commands and the left windows are used for tailing syslog.

With the terminals setup, lets start the cluster!

Warning: If you don't start cman on both nodes within 30 seconds, the slower node will be fenced.

On both nodes, run:

/etc/init.d/cman start
Starting cluster: 
   Checking if cluster has been disabled at boot...        [  OK  ]
   Checking Network Manager...                             [  OK  ]
   Global setup...                                         [  OK  ]
   Loading kernel modules...                               [  OK  ]
   Mounting configfs...                                    [  OK  ]
   Starting cman...                                        [  OK  ]
   Waiting for quorum...                                   [  OK  ]
   Starting fenced...                                      [  OK  ]
   Starting dlm_controld...                                [  OK  ]
   Starting gfs_controld...                                [  OK  ]
   Unfencing self...                                       [  OK  ]
   Joining fence domain...                                 [  OK  ]

Here is what you should see in syslog:

Dec 13 12:08:44 an-node01 kernel: DLM (built Nov  9 2011 08:04:11) installed
Dec 13 12:08:45 an-node01 corosync[3434]:   [MAIN  ] Corosync Cluster Engine ('1.4.1'): started and ready to provide service.
Dec 13 12:08:45 an-node01 corosync[3434]:   [MAIN  ] Corosync built-in features: nss dbus rdma snmp
Dec 13 12:08:45 an-node01 corosync[3434]:   [MAIN  ] Successfully read config from /etc/cluster/cluster.conf
Dec 13 12:08:45 an-node01 corosync[3434]:   [MAIN  ] Successfully parsed cman config
Dec 13 12:08:45 an-node01 corosync[3434]:   [TOTEM ] Initializing transport (UDP/IP Multicast).
Dec 13 12:08:45 an-node01 corosync[3434]:   [TOTEM ] Initializing transmit/receive security: libtomcrypt SOBER128/SHA1HMAC (mode 0).
Dec 13 12:08:46 an-node01 corosync[3434]:   [TOTEM ] The network interface [10.20.0.1] is now up.
Dec 13 12:08:46 an-node01 corosync[3434]:   [QUORUM] Using quorum provider quorum_cman
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: corosync cluster quorum service v0.1
Dec 13 12:08:46 an-node01 corosync[3434]:   [CMAN  ] CMAN 3.0.12.1 (built Sep 30 2011 03:17:43) started
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: corosync CMAN membership service 2.90
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: openais checkpoint service B.01.01
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: corosync extended virtual synchrony service
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: corosync configuration service
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: corosync cluster closed process group service v1.01
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: corosync cluster config database access v1.01
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: corosync profile loading service
Dec 13 12:08:46 an-node01 corosync[3434]:   [QUORUM] Using quorum provider quorum_cman
Dec 13 12:08:46 an-node01 corosync[3434]:   [SERV  ] Service engine loaded: corosync cluster quorum service v0.1
Dec 13 12:08:46 an-node01 corosync[3434]:   [MAIN  ] Compatibility mode set to whitetank.  Using V1 and V2 of the synchronization engine.
Dec 13 12:08:46 an-node01 corosync[3434]:   [TOTEM ] A processor joined or left the membership and a new membership was formed.
Dec 13 12:08:46 an-node01 corosync[3434]:   [CMAN  ] quorum regained, resuming activity
Dec 13 12:08:46 an-node01 corosync[3434]:   [QUORUM] This node is within the primary component and will provide service.
Dec 13 12:08:46 an-node01 corosync[3434]:   [QUORUM] Members[1]: 1
Dec 13 12:08:46 an-node01 corosync[3434]:   [QUORUM] Members[1]: 1
Dec 13 12:08:46 an-node01 corosync[3434]:   [CPG   ] chosen downlist: sender r(0) ip(10.20.0.1) ; members(old:0 left:0)
Dec 13 12:08:46 an-node01 corosync[3434]:   [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:08:47 an-node01 corosync[3434]:   [TOTEM ] A processor joined or left the membership and a new membership was formed.
Dec 13 12:08:47 an-node01 corosync[3434]:   [QUORUM] Members[2]: 1 2
Dec 13 12:08:47 an-node01 corosync[3434]:   [QUORUM] Members[2]: 1 2
Dec 13 12:08:47 an-node01 corosync[3434]:   [CPG   ] chosen downlist: sender r(0) ip(10.20.0.1) ; members(old:1 left:0)
Dec 13 12:08:47 an-node01 corosync[3434]:   [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:08:49 an-node01 fenced[3490]: fenced 3.0.12.1 started
Dec 13 12:08:49 an-node01 dlm_controld[3515]: dlm_controld 3.0.12.1 started
Dec 13 12:08:51 an-node01 gfs_controld[3565]: gfs_controld 3.0.12.1 started
Note: If you see messages like rsyslogd-2177: imuxsock begins to drop messages from pid 29288 due to rate-limiting, this is caused by new default configuration in rsyslogd. To disable rate limiting, please follow the instructions in Disabling rsyslog Rate Limiting below.

Now to confirm that the cluster is operating properly, run cman_tool status;

cman_tool status
Version: 6.2.0
Config Version: 7
Cluster Name: an-cluster-A
Cluster Id: 24561
Cluster Member: Yes
Cluster Generation: 8
Membership state: Cluster-Member
Nodes: 2
Expected votes: 1
Total votes: 2
Node votes: 1
Quorum: 1  
Active subsystems: 7
Flags: 2node 
Ports Bound: 0  
Node name: an-node01.alteeve.ca
Node ID: 1
Multicast addresses: 239.192.95.81 
Node addresses: 10.20.0.1

We can see that the both nodes are talking because of the Nodes: 2 entry.

If you ever want to see the nitty-gritty configuration, you can run corosync-objctl.

corosync-objctl
cluster.name=an-cluster-A
cluster.config_version=7
cluster.cman.expected_votes=1
cluster.cman.two_node=1
cluster.cman.nodename=an-node01.alteeve.ca
cluster.cman.cluster_id=24561
cluster.clusternodes.clusternode.name=an-node01.alteeve.ca
cluster.clusternodes.clusternode.nodeid=1
cluster.clusternodes.clusternode.fence.method.name=ipmi
cluster.clusternodes.clusternode.fence.method.device.name=ipmi_an01
cluster.clusternodes.clusternode.fence.method.device.action=reboot
cluster.clusternodes.clusternode.fence.method.name=pdu
cluster.clusternodes.clusternode.fence.method.device.name=pdu2
cluster.clusternodes.clusternode.fence.method.device.port=1
cluster.clusternodes.clusternode.fence.method.device.action=reboot
cluster.clusternodes.clusternode.name=an-node02.alteeve.ca
cluster.clusternodes.clusternode.nodeid=2
cluster.clusternodes.clusternode.fence.method.name=ipmi
cluster.clusternodes.clusternode.fence.method.device.name=ipmi_an02
cluster.clusternodes.clusternode.fence.method.device.action=reboot
cluster.clusternodes.clusternode.fence.method.name=pdu
cluster.clusternodes.clusternode.fence.method.device.name=pdu2
cluster.clusternodes.clusternode.fence.method.device.port=2
cluster.clusternodes.clusternode.fence.method.device.action=reboot
cluster.fencedevices.fencedevice.name=ipmi_an01
cluster.fencedevices.fencedevice.agent=fence_ipmilan
cluster.fencedevices.fencedevice.ipaddr=an-node01.ipmi
cluster.fencedevices.fencedevice.login=root
cluster.fencedevices.fencedevice.passwd=secret
cluster.fencedevices.fencedevice.name=ipmi_an02
cluster.fencedevices.fencedevice.agent=fence_ipmilan
cluster.fencedevices.fencedevice.ipaddr=an-node02.ipmi
cluster.fencedevices.fencedevice.login=root
cluster.fencedevices.fencedevice.passwd=secret
cluster.fencedevices.fencedevice.agent=fence_apc_snmp
cluster.fencedevices.fencedevice.ipaddr=pdu2.alteeve.ca
cluster.fencedevices.fencedevice.name=pdu2
cluster.fence_daemon.post_join_delay=30
cluster.totem.rrp_mode=none
cluster.totem.secauth=off
totem.rrp_mode=none
totem.secauth=off
totem.transport=udp
totem.version=2
totem.nodeid=1
totem.vsftype=none
totem.token=10000
totem.join=60
totem.fail_recv_const=2500
totem.consensus=2000
totem.key=an-cluster-A
totem.interface.ringnumber=0
totem.interface.bindnetaddr=10.20.0.1
totem.interface.mcastaddr=239.192.95.81
totem.interface.mcastport=5405
libccs.next_handle=7
libccs.connection.ccs_handle=3
libccs.connection.config_version=7
libccs.connection.fullxpath=0
libccs.connection.ccs_handle=4
libccs.connection.config_version=7
libccs.connection.fullxpath=0
libccs.connection.ccs_handle=5
libccs.connection.config_version=7
libccs.connection.fullxpath=0
logging.timestamp=on
logging.to_logfile=yes
logging.logfile=/var/log/cluster/corosync.log
logging.logfile_priority=info
logging.to_syslog=yes
logging.syslog_facility=local4
logging.syslog_priority=info
aisexec.user=ais
aisexec.group=ais
service.name=corosync_quorum
service.ver=0
service.name=corosync_cman
service.ver=0
quorum.provider=quorum_cman
service.name=openais_ckpt
service.ver=0
runtime.services.quorum.service_id=12
runtime.services.cman.service_id=9
runtime.services.ckpt.service_id=3
runtime.services.ckpt.0.tx=0
runtime.services.ckpt.0.rx=0
runtime.services.ckpt.1.tx=0
runtime.services.ckpt.1.rx=0
runtime.services.ckpt.2.tx=0
runtime.services.ckpt.2.rx=0
runtime.services.ckpt.3.tx=0
runtime.services.ckpt.3.rx=0
runtime.services.ckpt.4.tx=0
runtime.services.ckpt.4.rx=0
runtime.services.ckpt.5.tx=0
runtime.services.ckpt.5.rx=0
runtime.services.ckpt.6.tx=0
runtime.services.ckpt.6.rx=0
runtime.services.ckpt.7.tx=0
runtime.services.ckpt.7.rx=0
runtime.services.ckpt.8.tx=0
runtime.services.ckpt.8.rx=0
runtime.services.ckpt.9.tx=0
runtime.services.ckpt.9.rx=0
runtime.services.ckpt.10.tx=0
runtime.services.ckpt.10.rx=0
runtime.services.ckpt.11.tx=2
runtime.services.ckpt.11.rx=3
runtime.services.ckpt.12.tx=0
runtime.services.ckpt.12.rx=0
runtime.services.ckpt.13.tx=0
runtime.services.ckpt.13.rx=0
runtime.services.evs.service_id=0
runtime.services.evs.0.tx=0
runtime.services.evs.0.rx=0
runtime.services.cfg.service_id=7
runtime.services.cfg.0.tx=0
runtime.services.cfg.0.rx=0
runtime.services.cfg.1.tx=0
runtime.services.cfg.1.rx=0
runtime.services.cfg.2.tx=0
runtime.services.cfg.2.rx=0
runtime.services.cfg.3.tx=0
runtime.services.cfg.3.rx=0
runtime.services.cpg.service_id=8
runtime.services.cpg.0.tx=4
runtime.services.cpg.0.rx=8
runtime.services.cpg.1.tx=0
runtime.services.cpg.1.rx=0
runtime.services.cpg.2.tx=0
runtime.services.cpg.2.rx=0
runtime.services.cpg.3.tx=16
runtime.services.cpg.3.rx=23
runtime.services.cpg.4.tx=0
runtime.services.cpg.4.rx=0
runtime.services.cpg.5.tx=2
runtime.services.cpg.5.rx=3
runtime.services.confdb.service_id=11
runtime.services.pload.service_id=13
runtime.services.pload.0.tx=0
runtime.services.pload.0.rx=0
runtime.services.pload.1.tx=0
runtime.services.pload.1.rx=0
runtime.services.quorum.service_id=12
runtime.connections.active=6
runtime.connections.closed=110
runtime.connections.fenced:CPG:3490:19.service_id=8
runtime.connections.fenced:CPG:3490:19.client_pid=3490
runtime.connections.fenced:CPG:3490:19.responses=5
runtime.connections.fenced:CPG:3490:19.dispatched=9
runtime.connections.fenced:CPG:3490:19.requests=5
runtime.connections.fenced:CPG:3490:19.sem_retry_count=0
runtime.connections.fenced:CPG:3490:19.send_retry_count=0
runtime.connections.fenced:CPG:3490:19.recv_retry_count=0
runtime.connections.fenced:CPG:3490:19.flow_control=0
runtime.connections.fenced:CPG:3490:19.flow_control_count=0
runtime.connections.fenced:CPG:3490:19.queue_size=0
runtime.connections.fenced:CPG:3490:19.invalid_request=0
runtime.connections.fenced:CPG:3490:19.overload=0
runtime.connections.dlm_controld:CPG:3515:22.service_id=8
runtime.connections.dlm_controld:CPG:3515:22.client_pid=3515
runtime.connections.dlm_controld:CPG:3515:22.responses=5
runtime.connections.dlm_controld:CPG:3515:22.dispatched=8
runtime.connections.dlm_controld:CPG:3515:22.requests=5
runtime.connections.dlm_controld:CPG:3515:22.sem_retry_count=0
runtime.connections.dlm_controld:CPG:3515:22.send_retry_count=0
runtime.connections.dlm_controld:CPG:3515:22.recv_retry_count=0
runtime.connections.dlm_controld:CPG:3515:22.flow_control=0
runtime.connections.dlm_controld:CPG:3515:22.flow_control_count=0
runtime.connections.dlm_controld:CPG:3515:22.queue_size=0
runtime.connections.dlm_controld:CPG:3515:22.invalid_request=0
runtime.connections.dlm_controld:CPG:3515:22.overload=0
runtime.connections.dlm_controld:CKPT:3515:23.service_id=3
runtime.connections.dlm_controld:CKPT:3515:23.client_pid=3515
runtime.connections.dlm_controld:CKPT:3515:23.responses=0
runtime.connections.dlm_controld:CKPT:3515:23.dispatched=0
runtime.connections.dlm_controld:CKPT:3515:23.requests=0
runtime.connections.dlm_controld:CKPT:3515:23.sem_retry_count=0
runtime.connections.dlm_controld:CKPT:3515:23.send_retry_count=0
runtime.connections.dlm_controld:CKPT:3515:23.recv_retry_count=0
runtime.connections.dlm_controld:CKPT:3515:23.flow_control=0
runtime.connections.dlm_controld:CKPT:3515:23.flow_control_count=0
runtime.connections.dlm_controld:CKPT:3515:23.queue_size=0
runtime.connections.dlm_controld:CKPT:3515:23.invalid_request=0
runtime.connections.dlm_controld:CKPT:3515:23.overload=0
runtime.connections.gfs_controld:CPG:3565:26.service_id=8
runtime.connections.gfs_controld:CPG:3565:26.client_pid=3565
runtime.connections.gfs_controld:CPG:3565:26.responses=5
runtime.connections.gfs_controld:CPG:3565:26.dispatched=8
runtime.connections.gfs_controld:CPG:3565:26.requests=5
runtime.connections.gfs_controld:CPG:3565:26.sem_retry_count=0
runtime.connections.gfs_controld:CPG:3565:26.send_retry_count=0
runtime.connections.gfs_controld:CPG:3565:26.recv_retry_count=0
runtime.connections.gfs_controld:CPG:3565:26.flow_control=0
runtime.connections.gfs_controld:CPG:3565:26.flow_control_count=0
runtime.connections.gfs_controld:CPG:3565:26.queue_size=0
runtime.connections.gfs_controld:CPG:3565:26.invalid_request=0
runtime.connections.gfs_controld:CPG:3565:26.overload=0
runtime.connections.fenced:CPG:3490:28.service_id=8
runtime.connections.fenced:CPG:3490:28.client_pid=3490
runtime.connections.fenced:CPG:3490:28.responses=5
runtime.connections.fenced:CPG:3490:28.dispatched=8
runtime.connections.fenced:CPG:3490:28.requests=5
runtime.connections.fenced:CPG:3490:28.sem_retry_count=0
runtime.connections.fenced:CPG:3490:28.send_retry_count=0
runtime.connections.fenced:CPG:3490:28.recv_retry_count=0
runtime.connections.fenced:CPG:3490:28.flow_control=0
runtime.connections.fenced:CPG:3490:28.flow_control_count=0
runtime.connections.fenced:CPG:3490:28.queue_size=0
runtime.connections.fenced:CPG:3490:28.invalid_request=0
runtime.connections.fenced:CPG:3490:28.overload=0
runtime.connections.corosync-objctl:CONFDB:3698:27.service_id=11
runtime.connections.corosync-objctl:CONFDB:3698:27.client_pid=3698
runtime.connections.corosync-objctl:CONFDB:3698:27.responses=444
runtime.connections.corosync-objctl:CONFDB:3698:27.dispatched=0
runtime.connections.corosync-objctl:CONFDB:3698:27.requests=447
runtime.connections.corosync-objctl:CONFDB:3698:27.sem_retry_count=0
runtime.connections.corosync-objctl:CONFDB:3698:27.send_retry_count=0
runtime.connections.corosync-objctl:CONFDB:3698:27.recv_retry_count=0
runtime.connections.corosync-objctl:CONFDB:3698:27.flow_control=0
runtime.connections.corosync-objctl:CONFDB:3698:27.flow_control_count=0
runtime.connections.corosync-objctl:CONFDB:3698:27.queue_size=0
runtime.connections.corosync-objctl:CONFDB:3698:27.invalid_request=0
runtime.connections.corosync-objctl:CONFDB:3698:27.overload=0
runtime.totem.pg.msg_reserved=1
runtime.totem.pg.msg_queue_avail=761
runtime.totem.pg.mrp.srp.orf_token_tx=2
runtime.totem.pg.mrp.srp.orf_token_rx=405
runtime.totem.pg.mrp.srp.memb_merge_detect_tx=53
runtime.totem.pg.mrp.srp.memb_merge_detect_rx=53
runtime.totem.pg.mrp.srp.memb_join_tx=3
runtime.totem.pg.mrp.srp.memb_join_rx=5
runtime.totem.pg.mrp.srp.mcast_tx=45
runtime.totem.pg.mrp.srp.mcast_retx=0
runtime.totem.pg.mrp.srp.mcast_rx=56
runtime.totem.pg.mrp.srp.memb_commit_token_tx=4
runtime.totem.pg.mrp.srp.memb_commit_token_rx=4
runtime.totem.pg.mrp.srp.token_hold_cancel_tx=4
runtime.totem.pg.mrp.srp.token_hold_cancel_rx=7
runtime.totem.pg.mrp.srp.operational_entered=2
runtime.totem.pg.mrp.srp.operational_token_lost=0
runtime.totem.pg.mrp.srp.gather_entered=2
runtime.totem.pg.mrp.srp.gather_token_lost=0
runtime.totem.pg.mrp.srp.commit_entered=2
runtime.totem.pg.mrp.srp.commit_token_lost=0
runtime.totem.pg.mrp.srp.recovery_entered=2
runtime.totem.pg.mrp.srp.recovery_token_lost=0
runtime.totem.pg.mrp.srp.consensus_timeouts=0
runtime.totem.pg.mrp.srp.mtt_rx_token=913
runtime.totem.pg.mrp.srp.avg_token_workload=0
runtime.totem.pg.mrp.srp.avg_backlog_calc=0
runtime.totem.pg.mrp.srp.rx_msg_dropped=0
runtime.totem.pg.mrp.srp.continuous_gather=0
runtime.totem.pg.mrp.srp.firewall_enabled_or_nic_failure=0
runtime.totem.pg.mrp.srp.members.1.ip=r(0) ip(10.20.0.1) 
runtime.totem.pg.mrp.srp.members.1.join_count=1
runtime.totem.pg.mrp.srp.members.1.status=joined
runtime.totem.pg.mrp.srp.members.2.ip=r(0) ip(10.20.0.2) 
runtime.totem.pg.mrp.srp.members.2.join_count=1
runtime.totem.pg.mrp.srp.members.2.status=joined
runtime.blackbox.dump_flight_data=no
runtime.blackbox.dump_state=no
cman_private.COROSYNC_DEFAULT_CONFIG_IFACE=xmlconfig:cmanpreconfig

If you want to check what DLM lockspaces, you can use dlm_tool ls to list lock spaces. Given that we're not running and resources or clustered filesystems though, there won't be any at this time. We'll look at this again later.

Testing Fencing

We need to thoroughly test our fence configuration and devices before we proceed. Should the cluster call a fence, and if the fence call fails, the cluster will hang until the fence finally succeeds. There is no way to abort a fence, so this could effectively hang the cluster. If we have problems, we need to find them now.

We need to run two tests from each node against the other node for a total of four tests.

  • The first test will use fence_ipmilan. To do this, we will hang the victim node by running echo c > /proc/sysrq-trigger on it. This will immediately and completely hang the kernel. The other node should detect the failure and reboot the victim. You can confirm that IPMI was used by watching the fence PDU and not seeing it power-cycle the port.
  • Secondly, we will pull the power on the victim node. This is done to ensure that the IPMI BMC is also dead and will simulate a failure in the power supply. You should see the other node try to fence the victim, fail initially, then try again using the second, switched PDU. If you want the PDU, you should see the power indicator LED go off and then come back on.
Note: To "pull the power", we can actually just log into the PDU and turn off the victim's power. In this case, we'll see the power restored when the PDU is used to fence the node. We can actually use the fence_apc fence agent to pull the power, as we'll see.
Test Victim Pass?
echo c > /proc/sysrq-trigger an-node01 Yes / No
fence_apc_snmp -a pdu2.alteeve.ca -n 1 -o off an-node01 Yes / No
echo c > /proc/sysrq-trigger an-node02 Yes / No
fence_apc_snmp -a pdu2.alteeve.ca -n 2 -o off an-node02 Yes / No

After the lost node is recovered, remember to restart cman before starting the next test.

Hanging an-node01

Be sure to be tailing the /var/log/messages on an-node02. Go to an-node01's first terminal and run the following command.

Warning: This command will not return and you will lose all ability to talk to this node until it is rebooted.

On an-node01 run:

echo c > /proc/sysrq-trigger

On an-node02's syslog terminal, you should see the following entries in the log.

Dec 13 12:42:39 an-node02 corosync[2758]:   [TOTEM ] A processor failed, forming new configuration.
Dec 13 12:42:41 an-node02 corosync[2758]:   [QUORUM] Members[1]: 2
Dec 13 12:42:41 an-node02 corosync[2758]:   [TOTEM ] A processor joined or left the membership and a new membership was formed.
Dec 13 12:42:41 an-node02 corosync[2758]:   [CPG   ] chosen downlist: sender r(0) ip(10.20.0.2) ; members(old:2 left:1)
Dec 13 12:42:41 an-node02 corosync[2758]:   [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:42:41 an-node02 kernel: dlm: closing connection to node 1
Dec 13 12:42:41 an-node02 fenced[2817]: fencing node an-node01.alteeve.ca
Dec 13 12:42:56 an-node02 fenced[2817]: fence an-node01.alteeve.ca success

Perfect!

If you are watching an-node01's display, you should now see it starting to boot back up.

Note: Remember to start cman once the node boots back up before trying the next test.

Cutting the Power to an-node01

As was discussed earlier, IPMI and other out-of-band management interfaces have a fatal flaw as a fence device. Their BMC draws its power from the same power supply as the node itself. Thus, when the power supply itself fails (or the mains connection is pulled/tripped over), fencing via IPMI will fail. This makes the power supply a single point of failure, which is what the PDU protects us against.

So to simulate a failed power supply, we're going to use an-node02's fence_apc fence agent to turn off the power to an-node01.

Alternatively, you could also just unplug the power and the fence would still succeed. The fence call only needs to confirm that the node is off to succeed. Whether the node restarts after or not is not important so far as the cluster is concerned.

From an-node02, pull the power on an-node01 with the following call;

fence_apc_snmp -a pdu2.alteeve.ca -n 1 -o off
Success: Powered OFF

Back on an-node02's syslog, we should see the following entries;

Dec 13 12:45:46 an-node02 corosync[2758]:   [TOTEM ] A processor failed, forming new configuration.
Dec 13 12:45:48 an-node02 corosync[2758]:   [QUORUM] Members[1]: 2
Dec 13 12:45:48 an-node02 corosync[2758]:   [TOTEM ] A processor joined or left the membership and a new membership was formed.
Dec 13 12:45:48 an-node02 corosync[2758]:   [CPG   ] chosen downlist: sender r(0) ip(10.20.0.2) ; members(old:2 left:1)
Dec 13 12:45:48 an-node02 corosync[2758]:   [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:45:48 an-node02 kernel: dlm: closing connection to node 1
Dec 13 12:45:48 an-node02 fenced[2817]: fencing node an-node01.alteeve.ca
Dec 13 12:46:08 an-node02 fenced[2817]: fence an-node01.alteeve.ca dev 0.0 agent fence_ipmilan result: error from agent
Dec 13 12:46:08 an-node02 fenced[2817]: fence an-node01.alteeve.ca success

Hoozah!

Notice that there is an error from the fence_ipmilan. This is exactly what we expected because of the IPMI's BMC lost power and couldn't respond.

So now we know that an-node01 can be fenced successfully from both fence devices. Now we need to run the same tests against an-node02.

Hanging an-node02

Warning: DO NOT ASSUME THAT an-node02 WILL FENCE PROPERLY JUST BECAUSE an-node01 PASSED!. There are many ways that a fence could fail; Bad password, misconfigured device, plugged into the wrong port on the PDU and so on. Always test all nodes using all methods!

Be sure to be tailing the /var/log/messages on an-node02. Go to an-node01's first terminal and run the following command.

Note: This command will not return and you will lose all ability to talk to this node until it is rebooted.

On an-node02 run:

echo c > /proc/sysrq-trigger

On an-node01's syslog terminal, you should see the following entries in the log.

Dec 13 12:52:34 an-node01 corosync[3445]:   [TOTEM ] A processor failed, forming new configuration.
Dec 13 12:52:36 an-node01 corosync[3445]:   [QUORUM] Members[1]: 1
Dec 13 12:52:36 an-node01 corosync[3445]:   [TOTEM ] A processor joined or left the membership and a new membership was formed.
Dec 13 12:52:36 an-node01 corosync[3445]:   [CPG   ] chosen downlist: sender r(0) ip(10.20.0.1) ; members(old:2 left:1)
Dec 13 12:52:36 an-node01 corosync[3445]:   [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:52:36 an-node01 kernel: dlm: closing connection to node 2
Dec 13 12:52:36 an-node01 fenced[3501]: fencing node an-node02.alteeve.ca
Dec 13 12:52:51 an-node01 fenced[3501]: fence an-node02.alteeve.ca success

Again, perfect!

Cutting the Power to an-node02

From an-node01, pull the power on an-node02 with the following call;

fence_apc_snmp -a pdu2.alteeve.ca -n 2 -o off
Success: Powered OFF

Back on an-node01's syslog, we should see the following entries;

Dec 13 12:55:58 an-node01 corosync[3445]:   [TOTEM ] A processor failed, forming new configuration.
Dec 13 12:56:00 an-node01 corosync[3445]:   [QUORUM] Members[1]: 1
Dec 13 12:56:00 an-node01 corosync[3445]:   [TOTEM ] A processor joined or left the membership and a new membership was formed.
Dec 13 12:56:00 an-node01 corosync[3445]:   [CPG   ] chosen downlist: sender r(0) ip(10.20.0.1) ; members(old:2 left:1)
Dec 13 12:56:00 an-node01 kernel: dlm: closing connection to node 2
Dec 13 12:56:00 an-node01 corosync[3445]:   [MAIN  ] Completed service synchronization, ready to provide service.
Dec 13 12:56:00 an-node01 fenced[3501]: fencing node an-node02.alteeve.ca
Dec 13 12:56:20 an-node01 fenced[3501]: fence an-node02.alteeve.ca dev 0.0 agent fence_ipmilan result: error from agent
Dec 13 12:56:20 an-node01 fenced[3501]: fence an-node02.alteeve.ca success

Woot!

Only now can we safely say that our fencing is setup and working properly.

Testing Network Redundancy

Next up of the testing block is our network configuration. Seeing as we've build our bonds, we need to now test that they are working properly.

  • Make sure that cman has started on both nodes.

First, we'll test all network cables individually, one node and one bonded interface at a time.

  • For each network; IFN, SN and BCN;
    • On both nodes, start a ping flood against the opposing node specifying the appropriate network name suffix in the first window and starting tailing syslog in the second window.
    • watch each bond's /proc/net/bonding/bondX file to see which interfaces are active.
    • Pull the currently-active network cable from the bond (either at the switch or at the node).
    • Check the state of the bonds again and see that they've switched to their backup interface. If a node gets fenced, you know something went wrong. You should see a handful of lost packets in the ping flood.
    • Restore the network cable and wait 2 minutes, then verify that the old primary interface was restored. You will see another handful of lost packets in the flood during the recovery.
    • Pull the cable again, then restore it. This time, do not wait 2 minutes. After just a few seconds, pull the backup link and ensure that the bond immediately resumed use of the primary interface.
    • Repeat the above steps for all bonds on both nodes. This will take a while, but you need to ensure configuration errors are found now.
Warning: Testing the complete primary switch failure and subsequant recovery is very, very important. Please do NOT skip this step!

Once all bonds have been tested, we'll do a final test by failing the primary switch.

  • Cut the power to the switch.
  • Check all bond status files. Confirm that all have switched to their backup links.
  • Restore power to the switch and wait 2 minutes.
  • Confirm that the bonds did not switch to the primary interfaces before the switch was ready to move data.

If all of these steps pass and the cluster doesn't partition, then you can be confident that your network is configured properly for full redundancy.

Network Testing Terminal Layout

If you have a couple of monitors, particularly one with portrait mode, you might be able to open 16 terminals at once. This is how many are needed to run ping floods, watch the bond status files, tail syslog and watch cman_tool all at the same time. This configuration makes it very easy to keep a near real-time, complete view of all network components.

On the left window, the top-left terminal shows watch cman_tool status and the top-right terminal shows tail -f -n 0 /var/log/messages for an-node01. The bottom two terminals show the same for an-node02.

On the right, portrait-mode window, the terminal layout used for monitoring the bonded link status and ping floods are shown. There are two columns; an-node01 on the left and an-node02 on the right. Each column is stacked into six rows, bond0 on the top followed by ping -f an-node02.bcn, bond1 in the middle followed by ping -f an-node02.sn and bond2 at the bottom followed by ping -f an-node02.ifn. The left window shows the standard tail on syslog plus watch cman_tool status.

Terminal layout used for HA network testing; Calls shown.
Terminal layout used for HA network testing; Calls running.

How to Know if the Tests Passed

Well, the most obvious answer to this question is if the cluster is still working after a switch is powered off.

We can be a little more subtle than that though.

The state of each bond is viewable by looking in the special /proc/net/bonding/bondX files, where X is the bond number. Lets take a look at bond0 on an-node01.

cat /proc/net/bonding/bond0
Ethernet Channel Bonding Driver: v3.6.0 (September 26, 2009)

Bonding Mode: fault-tolerance (active-backup)
Primary Slave: eth0 (primary_reselect always)
Currently Active Slave: eth0
MII Status: up
MII Polling Interval (ms): 100
Up Delay (ms): 120000
Down Delay (ms): 0

Slave Interface: eth0
MII Status: up
Link Failure Count: 0
Permanent HW addr: 00:e0:81:c7:ec:49
Slave queue ID: 0

Slave Interface: eth3
MII Status: up
Link Failure Count: 0
Permanent HW addr: 00:1b:21:9d:59:fc
Slave queue ID: 0

We can see that the currently active interface is eth0. This is the key bit we're going to be watching for these tests. I know that eth0 on an-node01 is connected to by first switch. So when I pull the cable to that switch, or when I fail that switch entirely, I should see eth3 take over.

We'll also be watching syslog. If things work right, we should not see any messages from the cluster during failure and recovery.

Failing The First Interface

Let's look at the first test. We'll fail an-node01's eth0 interface by pulling its cable.

On an-node01's syslog, you will see;

Dec 13 14:03:19 an-node01 kernel: e1000e: eth0 NIC Link is Down
Dec 13 14:03:19 an-node01 kernel: bonding: bond0: link status definitely down for interface eth0, disabling it
Dec 13 14:03:19 an-node01 kernel: bonding: bond0: making interface eth3 the new active one.

Looking again at an-node01's bond0's status;

cat /proc/net/bonding/bond0
Ethernet Channel Bonding Driver: v3.6.0 (September 26, 2009)

Bonding Mode: fault-tolerance (active-backup)
Primary Slave: eth0 (primary_reselect always)
Currently Active Slave: eth3
MII Status: up
MII Polling Interval (ms): 100
Up Delay (ms): 120000
Down Delay (ms): 0

Slave Interface: eth0
MII Status: down
Link Failure Count: 1
Permanent HW addr: 00:e0:81:c7:ec:49
Slave queue ID: 0

Slave Interface: eth3
MII Status: up
Link Failure Count: 0
Permanent HW addr: 00:1b:21:9d:59:fc
Slave queue ID: 0

We can see now that eth0 is down and that eth3 has taken over.

If you look at the windows running the ping flood, both an-node01 and an-node02 should show nearly the same number of lost packets;

PING an-node02 (10.20.0.2) 56(84) bytes of data.
........................

The failure of the link was successful!

Recovering The First Interface

Surviving failure is only half the test. We also need to test the recovery of the interface. When ready, reconnect an-node01's eth0.

The first thing you should notice is in an-node01's syslog;

Dec 13 14:06:40 an-node01 kernel: e1000e: eth0 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:06:40 an-node01 kernel: bonding: bond0: link status up for interface eth0, enabling it in 120000 ms.

The bond will still be using eth3, so lets wait two minutes.

After the two minutes, you should see the following addition syslog entries.

Dec 13 14:08:40 an-node01 kernel: bond0: link status definitely up for interface eth0, 1000 Mbps full duplex.
Dec 13 14:08:40 an-node01 kernel: bonding: bond0: making interface eth0 the new active one.

If we go back to the bond status file, we'll see that the eth0 interface has been restored.

cat /proc/net/bonding/bond0
Ethernet Channel Bonding Driver: v3.6.0 (September 26, 2009)

Bonding Mode: fault-tolerance (active-backup)
Primary Slave: eth0 (primary_reselect always)
Currently Active Slave: eth0
MII Status: up
MII Polling Interval (ms): 100
Up Delay (ms): 120000
Down Delay (ms): 0

Slave Interface: eth0
MII Status: up
Link Failure Count: 1
Permanent HW addr: 00:e0:81:c7:ec:49
Slave queue ID: 0

Slave Interface: eth3
MII Status: up
Link Failure Count: 0
Permanent HW addr: 00:1b:21:9d:59:fc
Slave queue ID: 0

Note that the only difference from before is that eth0's Link Failure Count has been incremented to 1.

The test has passed!

Now repeat the test for the other two bonds, then for all three bonds on an-node02. Remember to also repeat each test, but pull the backup interface before the 2 minutes delays has completed. The primary interface should immediately take over again. This will confirm that failover for the backup link is also working properly.

Failing The First Switch

Note: Make sure that cman is running before beginning the test! The real test is less about the failure and recovery of the network itself and more about whether it fails and recovers in such a way that the cluster stays up and no partitioning occurs.

Check that all bonds on both nodes are using their primary interfaces. Confirm your cabling to ensure that these are all routed to the primary switch and that all backup links are cabled into the backup switch. Once done, pull the power to the primary switch. Both nodes should show similar output in their syslog windows;

Dec 13 14:16:17 an-node01 kernel: e1000e: eth2 NIC Link is Down
Dec 13 14:16:17 an-node01 kernel: e1000e: eth0 NIC Link is Down
Dec 13 14:16:17 an-node01 kernel: bonding: bond0: link status definitely down for interface eth0, disabling it
Dec 13 14:16:17 an-node01 kernel: bonding: bond0: making interface eth3 the new active one.
Dec 13 14:16:17 an-node01 kernel: bonding: bond2: link status definitely down for interface eth2, disabling it
Dec 13 14:16:17 an-node01 kernel: bonding: bond2: making interface eth5 the new active one.
Dec 13 14:16:17 an-node01 kernel: device eth2 left promiscuous mode
Dec 13 14:16:17 an-node01 kernel: device eth5 entered promiscuous mode
Dec 13 14:16:17 an-node01 kernel: e1000e: eth1 NIC Link is Down
Dec 13 14:16:18 an-node01 kernel: bonding: bond1: link status definitely down for interface eth1, disabling it
Dec 13 14:16:18 an-node01 kernel: bonding: bond1: making interface eth4 the new active one.

I can look at an-node01's /proc/net/bonding/bond0 file and see:

cat /proc/net/bonding/bond0
Ethernet Channel Bonding Driver: v3.6.0 (September 26, 2009)

Bonding Mode: fault-tolerance (active-backup)
Primary Slave: eth0 (primary_reselect always)
Currently Active Slave: eth3
MII Status: up
MII Polling Interval (ms): 100
Up Delay (ms): 120000
Down Delay (ms): 0

Slave Interface: eth0
MII Status: down
Link Failure Count: 3
Permanent HW addr: 00:e0:81:c7:ec:49
Slave queue ID: 0

Slave Interface: eth3
MII Status: up
Link Failure Count: 2
Permanent HW addr: 00:1b:21:9d:59:fc
Slave queue ID: 0

Notice Currently Active Slave is now eth3? You can also see now that eth0's link is down (MII Status: down).

It should be the same story for all the other bonds on both nodes.

If we check the status of the cluster, we'll see that all is good.

cman_tool status
Version: 6.2.0
Config Version: 7
Cluster Name: an-cluster-A
Cluster Id: 24561
Cluster Member: Yes
Cluster Generation: 40
Membership state: Cluster-Member
Nodes: 2
Expected votes: 1
Total votes: 2
Node votes: 1
Quorum: 1  
Active subsystems: 7
Flags: 2node 
Ports Bound: 0  
Node name: an-node01.alteeve.ca
Node ID: 1
Multicast addresses: 239.192.95.81 
Node addresses: 10.20.0.1

Success! We just failed the primary switch without any interruption of clustered services.

We're not out of the woods yet, though...

Restoring The First Switch

Now that we've confirmed all of the bonds are working on the backup switch, lets restore power to the first switch.

Warning: Be sure to wait five minutes after restoring power before declaring the recovery a success! Some configuration faults will take a few minutes to appear.

It is very important to wait for a while after restoring power to the switch. Some of the common problems that can break your cluster will not show up immediately. A good example is a misconfiguration of STP. In this case, the switch will come up, a short time will pass and then the switch will trigger an STP reconfiguration. Once this happens, both switches will block traffic for many seconds. This will partition you cluster.

So then, lets power it back up.

Within a few moments, you should see this in your syslog;

Dec 13 14:19:30 an-node01 kernel: e1000e: eth0 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:19:30 an-node01 kernel: bonding: bond0: link status up for interface eth0, enabling it in 120000 ms.
Dec 13 14:19:30 an-node01 kernel: e1000e: eth2 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:19:30 an-node01 kernel: e1000e: eth1 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:19:30 an-node01 kernel: bonding: bond2: link status up for interface eth2, enabling it in 120000 ms.
Dec 13 14:19:30 an-node01 kernel: bonding: bond1: link status up for interface eth1, enabling it in 120000 ms.

As with the individual link test, the backup interfaces will remain in use for two minutes. This is critical because miimon has detected the connection to the switches, but the switches are still a long way from being able to route traffic. After the two minutes, we'll see the primary interfaces return to active state.

Dec 13 14:20:25 an-node01 kernel: e1000e: eth0 NIC Link is Down
Dec 13 14:20:25 an-node01 kernel: bonding: bond0: link status down again after 55000 ms for interface eth0.
Dec 13 14:20:26 an-node01 kernel: e1000e: eth1 NIC Link is Down
Dec 13 14:20:26 an-node01 kernel: bonding: bond1: link status down again after 55800 ms for interface eth1.
Dec 13 14:20:27 an-node01 kernel: e1000e: eth2 NIC Link is Down
Dec 13 14:20:27 an-node01 kernel: bonding: bond2: link status down again after 56800 ms for interface eth2.
Dec 13 14:20:27 an-node01 kernel: e1000e: eth0 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:20:27 an-node01 kernel: bonding: bond0: link status up for interface eth0, enabling it in 120000 ms.
Dec 13 14:20:28 an-node01 kernel: e1000e: eth1 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:20:28 an-node01 kernel: bonding: bond1: link status up for interface eth1, enabling it in 120000 ms.
Dec 13 14:20:29 an-node01 kernel: e1000e: eth2 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:20:29 an-node01 kernel: bonding: bond2: link status up for interface eth2, enabling it in 120000 ms.
Dec 13 14:20:31 an-node01 kernel: e1000e: eth0 NIC Link is Down
Dec 13 14:20:31 an-node01 kernel: bonding: bond0: link status down again after 3500 ms for interface eth0.
Dec 13 14:20:32 an-node01 kernel: e1000e: eth1 NIC Link is Down
Dec 13 14:20:32 an-node01 kernel: bonding: bond1: link status down again after 4100 ms for interface eth1.
Dec 13 14:20:32 an-node01 kernel: e1000e: eth2 NIC Link is Down
Dec 13 14:20:32 an-node01 kernel: bonding: bond2: link status down again after 3500 ms for interface eth2.
Dec 13 14:20:33 an-node01 kernel: e1000e: eth0 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:20:33 an-node01 kernel: bonding: bond0: link status up for interface eth0, enabling it in 120000 ms.
Dec 13 14:20:34 an-node01 kernel: e1000e: eth1 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:20:34 an-node01 kernel: bonding: bond1: link status up for interface eth1, enabling it in 120000 ms.
Dec 13 14:20:35 an-node01 kernel: e1000e: eth2 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:20:35 an-node01 kernel: bonding: bond2: link status up for interface eth2, enabling it in 120000 ms.

See all that bouncing? That is caused by many switches showing a link (that is the MII status) without actually being able to push traffic. As part of the switches boot sequence, the links will go down and come back up a couple of times. The 2 minute counter will reset with each bounce, so the recovery time is actually quite a bit longer than two minutes. This is fine, no need to rush back to the first switch.

Note that you will not see this bouncing on switches that hold back on MII status until finished booting.

After a few minutes, the old interfaces will actually be restored.

Dec 13 14:22:33 an-node01 kernel: bond0: link status definitely up for interface eth0, 1000 Mbps full duplex.
Dec 13 14:22:33 an-node01 kernel: bonding: bond0: making interface eth0 the new active one.
Dec 13 14:22:34 an-node01 kernel: bond1: link status definitely up for interface eth1, 1000 Mbps full duplex.
Dec 13 14:22:34 an-node01 kernel: bonding: bond1: making interface eth1 the new active one.
Dec 13 14:22:35 an-node01 kernel: bond2: link status definitely up for interface eth2, 1000 Mbps full duplex.
Dec 13 14:22:35 an-node01 kernel: bonding: bond2: making interface eth2 the new active one.
Dec 13 14:22:35 an-node01 kernel: device eth5 left promiscuous mode
Dec 13 14:22:35 an-node01 kernel: device eth2 entered promiscuous mode

Complete success!

Warning: It is worth restating the importance of spreading your two fence methods across two switches. If both your PDU(s) and you IPMI (or iLO, etc) interfaces all run through one switch, that switch becomes a single point of failure. Generally, I run the IPMI/iLO/etc fence devices on the primary switch and the PDU(s) on the secondary switch.

Failing The Secondary Switch

Before we can say that everything is perfect, we need to test failing and recovering the secondary switch. The main purpose of this test is to ensure that there are no problems caused when the secondary switch restarts.

To fail the switch, as we did with the primary switch, simply cut its power. We should see the following in both node's syslog;

Dec 13 14:30:57 an-node01 kernel: e1000e: eth3 NIC Link is Down
Dec 13 14:30:57 an-node01 kernel: bonding: bond0: link status definitely down for interface eth3, disabling it
Dec 13 14:30:58 an-node01 kernel: e1000e: eth4 NIC Link is Down
Dec 13 14:30:58 an-node01 kernel: e1000e: eth5 NIC Link is Down
Dec 13 14:30:58 an-node01 kernel: bonding: bond1: link status definitely down for interface eth4, disabling it
Dec 13 14:30:58 an-node01 kernel: bonding: bond2: link status definitely down for interface eth5, disabling it

Let's take a look at an-node01's bond0 status file.

cat /proc/net/bonding/bond0
Ethernet Channel Bonding Driver: v3.6.0 (September 26, 2009)

Bonding Mode: fault-tolerance (active-backup)
Primary Slave: eth0 (primary_reselect always)
Currently Active Slave: eth0
MII Status: up
MII Polling Interval (ms): 100
Up Delay (ms): 120000
Down Delay (ms): 0

Slave Interface: eth0
MII Status: up
Link Failure Count: 3
Permanent HW addr: 00:e0:81:c7:ec:49
Slave queue ID: 0

Slave Interface: eth3
MII Status: down
Link Failure Count: 3
Permanent HW addr: 00:1b:21:9d:59:fc
Slave queue ID: 0

Note that the eth3 interface is shown as down. There should have been no dropped packets in the ping-flood window at all.

Restoring The Second Switch

When the power is restored to the switch, we'll see the same "bouncing" as the switch goes through its startup process. Notice that the backup link also remains listed as down for 2 minutes, despite the interface not being used by the bonded interface.

Dec 13 14:33:36 an-node01 kernel: e1000e: eth4 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:33:36 an-node01 kernel: e1000e: eth5 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:33:36 an-node01 kernel: bonding: bond1: link status up for interface eth4, enabling it in 120000 ms.
Dec 13 14:33:36 an-node01 kernel: bonding: bond2: link status up for interface eth5, enabling it in 120000 ms.
Dec 13 14:33:37 an-node01 kernel: e1000e: eth3 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:33:37 an-node01 kernel: bonding: bond0: link status up for interface eth3, enabling it in 120000 ms.
Dec 13 14:34:34 an-node01 kernel: e1000e: eth5 NIC Link is Down
Dec 13 14:34:34 an-node01 kernel: bonding: bond2: link status down again after 58000 ms for interface eth5.
Dec 13 14:34:36 an-node01 kernel: e1000e: eth5 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: Rx/Tx
Dec 13 14:34:36 an-node01 kernel: bonding: bond2: link status up for interface eth5, enabling it in 120000 ms.
Dec 13 14:34:38 an-node01 kernel: e1000e: eth5 NIC Link is Down
Dec 13 14:34:38 an-node01 kernel: bonding: bond2: link status down again after 2000 ms for interface eth5.
Dec 13 14:34:40 an-node01 kernel: e1000e: eth5 NIC Link is Up 1000 Mbps Full Duplex, Flow Control: None
Dec 13 14:34:40 an-node01 kernel: bonding: bond2: link status up for interface eth5, enabling it in 120000 ms.

After two minutes from the last bound, we'll see the backup interfaces return to up state in the bond's status file.

Dec 13 14:35:36 an-node01 kernel: bond1: link status definitely up for interface eth4, 1000 Mbps full duplex.
Dec 13 14:35:37 an-node01 kernel: bond0: link status definitely up for interface eth3, 1000 Mbps full duplex.
Dec 13 14:36:40 an-node01 kernel: bond2: link status definitely up for interface eth5, 1000 Mbps full duplex.

After a full five minutes, the cluster and the network remain stable. We can officially declare our network to be fully highly available!

Installing DRBD

DRBD is an open-source application for real-time, block-level disk replication created and maintained by Linbit. We will use this to keep the data on our cluster consistent between the two nodes.

To install it, we have three choices;

  1. Purchase a Red Hat blessed, fully supported copy from Linbit.
  2. Install from the freely available, community maintained ELRepo repository.
  3. Install from source files.

We will be using the 8.3.x version of DRBD. This tracts the Red Hat and Linbit supported versions, providing the most tested combination and providing a painless path to move to a fully supported version, should you decide to do so down the road.

Option 1 - Fully Supported by Red Hat and Linbit

Red Hat decided to no longer directly support DRBD in EL6 to narrow down what applications they shipped and focus on improving those components. Given the popularity of DRBD, however, Red Hat struck a deal with Linbit, the authors and maintainers of DRBD. You have the option of purchasing a fully supported version of DRBD that is blessed by Red Hat for use under Red Hat Enterprise Linux 6.

If you are building a fully supported cluster, please contact Linbit to purchase DRBD. Once done, you will get an email with you login information and, most importantly here, the URL hash needed to access the official repositories.

First you will need to add an entry in /etc/yum.repo.d/ for DRBD, but this needs to be hand-crafted as you must specify the URL hash given to you in the email as part of the repo configuration.

  • Log into the Linbit portal.
  • Click on Account.
  • Under Your account details, click on the hash string to the right of URL hash:.
  • Click on RHEL 6 (even if you are using CentOS or another EL6 distro.

This will take you to a new page called Instructions for using the DRBD package repository. The details installation instruction are found here.

Lets use the imaginative URL hash of abcdefghijklmnopqrstuvwxyz0123456789ABCD and we're are in fact using x86_64 architecture. Given this, we would create the following repository configuration file.

vim /etc/yum.repos.d/linbit.repo
[drbd-8]
name=DRBD 8
baseurl=http://packages.linbit.com/abcdefghijklmnopqrstuvwxyz0123456789ABCD/rhel6/x86_64
gpgcheck=0

Once this is saved, you can install DRBD using yum;

yum install drbd kmod-drbd

Done!

Option 2 - Install From ELRepo

ELRepo is a community-maintained repository of packages for Enterprise Linux; Red Hat Enterprise Linux and its derivatives like CentOS. This is the easiest option for a freely available DRBD package.

The main concern with this option is that you are seceding control of DRBD to a community-controlled project. This is a trusted repo, but there are still undeniable security concerns.

Check for the latest installation RPM and information;

# Install the ELRepo GPG key, add the repo and install DRBD.
rpm --import http://elrepo.org/RPM-GPG-KEY-elrepo.org
rpm -Uvh http://elrepo.org/elrepo-release-6-4.el6.elrepo.noarch.rpm
Retrieving http://elrepo.org/elrepo-release-6-4.el6.elrepo.noarch.rpm
Preparing...                ########################################### [100%]
   1:elrepo-release         ########################################### [100%]
yum install drbd83-utils kmod-drbd83

This is the method used for this tutorial.

Option 3 - Install From Source

If you do not wish to pay for access to the official DRBD repository and do not feel comfortable adding a public repository, your last option is to install from Linbit's source code. The benefit of this is that you can vet the source before installing it, making it a more secure option. The downside is that you will need to manually install updates and security fixes as they are made available.

On Both nodes run:

# Download, compile and install DRBD
yum install flex gcc make kernel-devel
wget -c http://oss.linbit.com/drbd/8.3/drbd-8.3.15.tar.gz
tar -xvzf drbd-8.3.15.tar.gz
cd drbd-8.3.15
./configure \
   --prefix=/usr \
   --localstatedir=/var \
   --sysconfdir=/etc \
   --with-utils \
   --with-km \
   --with-udev \
   --with-pacemaker \
   --with-rgmanager \
   --with-bashcompletion
make
make install
chkconfig --add drbd
chkconfig drbd off

Hooking DRBD Into The Cluster's Fencing

Warning: This script has no delay built into it. In many cases, if the link between the DRBD resources fail, both nodes may fence simultaneously causing both nodes to shut down. If you add sleep 10; to one of the nodes, then you can ensure that dual-fencing won't occur.

We will use a script, written by Lon Hohberger of Red Hat. This script will capture fence calls from DRBD and in turn calls the cluster's fence_node against the opposing node. It this way, DRBD will avoid split-brain without the need to maintain two separate fence configurations.

On Both nodes run:

# Obliterate peer - fence via cman
wget -c https://alteeve.ca/files/an-cluster/sbin/obliterate-peer.sh -O /sbin/obliterate-peer.sh
chmod a+x /sbin/obliterate-peer.sh
ls -lah /sbin/obliterate-peer.sh
-rwxr-xr-x 1 root root 2.1K May  4  2011 /sbin/obliterate-peer.sh

We'll configure DRBD to use this script shortly.

Alternate Fence Handler; rhcs_fence

Note: Caveat: The author of this tutorial is also the author of this script.

A new fence handler which ties DRBD into RHCS is now available called rhcs_fence with the goal of replacing obliterate-peer.sh. It aims to extend Lon's script, which hasn't been actively developed in some time.

This agent has had minimal testing, so please test thoroughly when using it.

This agent addresses the simultaneous fencing issue by automatically adding a delay to the fence call based on the host node's ID number, with the node having ID of 1 having no delay at all. It is also a little more elegant about how it handles the actual fence call with the goal of being more reliable when a fence action takes longer than usual to complete.

To install it, run the following on both nodes.

wget -c https://raw.github.com/digimer/rhcs_fence/master/rhcs_fence 
chmod 755 rhcs_fence
mv rhcs_fence /sbin/
ls -lah /sbin/rhcs_fence
-rwxr-xr-x 1 root root 15K Jan 24 22:04 /usr/sbin/rhcs_fence

The "Why" of Our Layout

We will be creating three separate DRBD resources. The reason for this is to minimize the chance of data loss in a split-brain event.

We're going to take steps to ensure that a split-brain is exceedingly unlikely, but we always have to plan for the worst case scenario. The biggest concern with recovering from a split-brain is that, by necessity, one of the nodes will lose data. Further, there is no way to automate the recovery, as there is no clear way for DRBD to tell which node has the more valuable data.

Consider this scenario;

  • You have a two-node cluster running two VMs. One is a mirror for a project and the other is an accounting application. Node 1 hosts the mirror, Node 2 hosts the accounting application.
  • A partition occurs and both nodes try to fence the other.
  • Network access is lost, so both nodes fall back to fencing using PDUs.
  • Both nodes have redundant power supplies, and at some point in time, the power cables on the second PDU got reversed.
  • The fence_apc_snmp agent succeeds, because the requested outlets were shut off. However, do to the cabling mistake, neither node actually shut down.
  • Both nodes proceed to run independently, thinking they are the only node left.
  • During this split-brain, the mirror VM downloads over a gigabyte of updates. Meanwhile, an hour earlier, the accountant updates the books, totalling less than one megabyte of changes.

At this point, you will need to discard the changed on one of the nodes. So now you have to choose;

  • Is the node with the most changes more valid?
  • Is the node with the most recent changes more valid?

Neither of these are true, as the node with the older data and smallest amount of changed data is the accounting data which is significantly more valuable.

Now imagine that both VMs have equally valuable data. What then? Which side do you discard?

The approach we will use is to create two separate DRBD resources. Then we will assign the VMs into two groups; VMs normally designed to run on one node will go one one resource while the VMs designed to normally run on the other resource will share the second resource.

With all the VMs on a given resource running on the same DRBD resource, we can fairly easily decide which node to discard changes on, on a per-resource level.

To summarize, we're going to create the following three resources;

  • r0; A small resource for the shared files formatted with GFS2.
  • r1; This resource will back the VMs designed to primarily run on an-node01.
  • r2; This resource will back the VMs designed to primarily run on an-node02.

Creating The Partitions For DRBD

It is possible to use LVM on the hosts, and simply create LVs to back our DRBD resources. However, this causes confusion as LVM will see the PV signatures on both the DRBD backing devices and the DRBD device itself. Getting around this requires editing LVM's filter option, which is somewhat complicated. Not overly so, mind you, but enough to be outside the scope of this document.

Also, by working with fdisk directly, it will give us a chance to make sure that the DRBD partitions start on an even 64 KiB boundry. This is important for decent performance on Windows VMs, as we will see later. This is true for both traditional platter and modern solid-state drives.

On our nodes, we created three primary disk partitions;

  • /dev/sda1; The /boot partition.
  • /dev/sda2; The root / partition.
  • /dev/sda3; The swap partition.

We will create a new extended partition. Then within it we will create three new partitions;

  • /dev/sda5; a small partition we will later use for our shared GFS2 partition.
  • /dev/sda6; a partition big enough to host the VMs that will normally run on an-node01.
  • /dev/sda7; a partition big enough to host the VMs that will normally run on an-node02.

As we create each partition, we will do a little math to ensure that the start sector is on a 64 KiB boundry.

Block Alignment

For performance reasons, we want to ensure that the file systems created within a VM matches the block alignment of the underlying storage stack, clear down to the base partitions on /dev/sda (or what ever your lowest-level block device is).

Imagine this misaligned scenario;

Note: Not to scale
                 ________________________________________________________________
VM File system  |~~~~~|_______|_______|_______|_______|_______|_______|_______|__
                |~~~~~|==========================================================
DRBD Partition  |~~~~~|_______|_______|_______|_______|_______|_______|_______|__
64 KiB block    |_______|_______|_______|_______|_______|_______|_______|_______|
512byte sectors |_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|

Now, when the guest wants to write one block worth of data, it actually causes two blocks to be written, causing avoidable disk I/O.

Note: Not to scale
                 ________________________________________________________________
VM File system  |~~~~~~~|_______|_______|_______|_______|_______|_______|_______|
                |~~~~~~~|========================================================
DRBD Partition  |~~~~~~~|_______|_______|_______|_______|_______|_______|_______|
64 KiB block    |_______|_______|_______|_______|_______|_______|_______|_______|
512byte sectors |_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|_|

By changing the start cylinder of our partitions to always start on 64 KiB boundaries, we're sure to keep the guest OS's file system in-line with the DRBD backing device's blocks. Thus, all reads and writes in the guest OS effect a matching number of real blocks, maximizing disk I/O efficiency.

Thankfully, as we'll see in a moment, the parted program has a mode that will tell it to always optimally align partitions, so we won't need to do any crazy math.

Note: You will want to do this with SSD drives, too. It's true that the performance will remain about the same, but SSD drives have a limited number of write cycles, and aligning the blocks will minimize block writes.

Special thanks to Pasi Kärkkäinen for his patience in explaining to me the importance of disk alignment. He created two images which I used as templates for the ASCII art images above;

Creating the DRBD Partitions

Here I will show you the values I entered to create the three partitions I needed on my nodes.

DO NOT DIRECTLY COPY THIS!

The values you enter will almost certainly be different.

We're going to use a program called parted to configure the disk /dev/sda. Pay close attention to the -a optimal switch. This tells parted to create new partitions with optimal block alignment, which is crucial for virtual machine performance.

parted -a optimal /dev/sda
GNU Parted 2.1
Using /dev/sda
Welcome to GNU Parted! Type 'help' to view a list of commands.
(parted)

We're now in the parted console. Before we start, let's take a look at the current disk configuration along with the amount of free space available.

print free
Model: ATA ST9500420ASG (scsi)
Disk /dev/sda: 500GB
Sector size (logical/physical): 512B/512B
Partition Table: msdos

Number  Start   End     Size    Type     File system     Flags
        32.3kB  1049kB  1016kB           Free Space
 1      1049kB  269MB   268MB   primary  ext4            boot
 2      269MB   43.2GB  42.9GB  primary  ext4
 3      43.2GB  47.5GB  4295MB  primary  linux-swap(v1)
        47.5GB  500GB   453GB            Free Space

Before we can create the three DRBD partition, we first need to create an extended partition wherein which we will create the three logical partitions. From the output above, we can see that the free space starts at 47.5GB, and that the drive ends at 500GB. Knowing this, we can now create the extended partition.

mkpart extended 47.5GB 500GB
Warning: WARNING: the kernel failed to re-read the partition table on /dev/sda
(Device or resource busy).  As a result, it may not reflect all of your changes
until after reboot.

Don't worry about that message, we will reboot when we finish.

So now we can confirm that the new extended partition was create by again printing the partition table and the free space.

print free
Model: ATA ST9500420ASG (scsi)
Disk /dev/sda: 500GB
Sector size (logical/physical): 512B/512B
Partition Table: msdos

Number  Start   End     Size    Type      File system     Flags
        32.3kB  1049kB  1016kB            Free Space
 1      1049kB  269MB   268MB   primary   ext4            boot
 2      269MB   43.2GB  42.9GB  primary   ext4
 3      43.2GB  47.5GB  4295MB  primary   linux-swap(v1)
 4      47.5GB  500GB   453GB   extended                  lba
        47.5GB  500GB   453GB             Free Space
        500GB   500GB   24.6kB            Free Space

Perfect. So now we're going to create our three logical partitions. We're going to use the same start position as last time, but the end position will be 20 GiB further in.

mkpart logical 47.5GB 67.5GB
Warning: WARNING: the kernel failed to re-read the partition table on /dev/sda
(Device or resource busy).  As a result, it may not reflect all of your changes
until after reboot.

We'll check again to see the new partition layout.

print free
Model: ATA ST9500420ASG (scsi)
Disk /dev/sda: 500GB
Sector size (logical/physical): 512B/512B
Partition Table: msdos

Number  Start   End     Size    Type      File system     Flags
        32.3kB  1049kB  1016kB            Free Space
 1      1049kB  269MB   268MB   primary   ext4            boot
 2      269MB   43.2GB  42.9GB  primary   ext4
 3      43.2GB  47.5GB  4295MB  primary   linux-swap(v1)
 4      47.5GB  500GB   453GB   extended                  lba
 5      47.5GB  67.5GB  20.0GB  logical
        67.5GB  500GB   433GB             Free Space
        500GB   500GB   24.6kB            Free Space

Again, perfect. Now I have a total of 433GB left free. How you carve this up for your VMs will depend entirely on what kind of VMs you plan to install and what their needs are. For me, I will divide the space evenly into to logical partitions of 216.5GB (433 / 2 = 216.5).

The first partition will start at 67.5 and end at 284GB (67.5 + 216.5 = 284)

mkpart logical 67.5GB 284GB
Warning: WARNING: the kernel failed to re-read the partition table on /dev/sda
(Device or resource busy).  As a result, it may not reflect all of your changes
until after reboot.

Once again, lets look at the new partition table.

print free
Model: ATA ST9500420ASG (scsi)
Disk /dev/sda: 500GB
Sector size (logical/physical): 512B/512B
Partition Table: msdos

Number  Start   End     Size    Type      File system     Flags
        32.3kB  1049kB  1016kB            Free Space
 1      1049kB  269MB   268MB   primary   ext4            boot
 2      269MB   43.2GB  42.9GB  primary   ext4
 3      43.2GB  47.5GB  4295MB  primary   linux-swap(v1)
 4      47.5GB  500GB   453GB   extended                  lba
 5      47.5GB  67.5GB  20.0GB  logical
 6      67.5GB  284GB   216GB   logical
        284GB   500GB   216GB             Free Space
        500GB   500GB   24.6kB            Free Space

Finally, our last partition will start at 284GB and use the rest of the free space, ending at 500GB.

mkpart logical 284GB 500GB
Warning: WARNING: the kernel failed to re-read the partition table on /dev/sda
(Device or resource busy).  As a result, it may not reflect all of your changes
until after reboot.

One last time, let's look at the partition table.

print free
Model: ATA ST9500420ASG (scsi)
Disk /dev/sda: 500GB
Sector size (logical/physical): 512B/512B
Partition Table: msdos

Number  Start   End     Size    Type      File system     Flags
        32.3kB  1049kB  1016kB            Free Space
 1      1049kB  269MB   268MB   primary   ext4            boot
 2      269MB   43.2GB  42.9GB  primary   ext4
 3      43.2GB  47.5GB  4295MB  primary   linux-swap(v1)
 4      47.5GB  500GB   453GB   extended                  lba
 5      47.5GB  67.5GB  20.0GB  logical
 6      67.5GB  284GB   216GB   logical
 7      284GB   500GB   216GB   logical
        500GB   500GB   24.6kB            Free Space

Just as we asked for. Before we finish though, let's be extra careful and do a manual check of our three partitions to ensure that they are, in fact, aligned optimally. There will be no output from the following commands if the partitions are aligned.

(parted) align-check opt 5
(parted) align-check opt 6
(parted) align-check opt 7
(parted)

Excellent! We can now exit.

quit
Information: You may need to update /etc/fstab.

Now we need to reboot to make the kernel see the new partition table.

reboot

Done! Do this for both nodes, then proceed.

Configuring DRBD

DRBD is configured in two parts;

  • Global and common configuration options
  • Resource configurations

We will be creating three separate DRBD resources, so we will create three separate resource configuration files. More on that in a moment.

Configuring DRBD Global and Common Options

The first file to edit is /etc/drbd.d/global_common.conf. In this file, we will set global configuration options and set default resource configuration options. These default resource options can be overwritten in the actual resource files which we'll create once we're done here.

I'll explain the values we're setting here, and we'll put the explanation of each option in the file itself, as it will be useful to have them should you need to alter the files sometime in the future.

The first addition is in the handlers { } directive. We're going to add the fence-peer option and configure it to use the obliterate-peer.sh script we spoke about earlier in the DRBD section.

vim /etc/drbd.d/global_common.conf
	handlers {
		# This script is a wrapper for RHCS's 'fence_node' command line
		# tool. It will call a fence against the other node and return
		# the appropriate exit code to DRBD.
		fence-peer		"/sbin/obliterate-peer.sh";
	}
Note: If you used the rhcs_fence handler, use 'fence-peer "/usr/sbin/rhcs_fence";'.

We're going to add three options to the startup { } directive; We're going to tell DRBD to make both nodes "primary" on start, to wait five minutes on start for its peer to connect and, if the peer never connected last time, to wait onto two minutes.

	startup {
		# This tells DRBD to promote both nodes to Primary on start.
		become-primary-on	both;

		# This tells DRBD to wait five minutes for the other node to
		# connect. This should be longer than it takes for cman to
		# timeout and fence the other node *plus* the amount of time it
		# takes the other node to reboot. If you set this too short,
		# you could corrupt your data. If you want to be extra safe, do
		# not use this at all and DRBD will wait for the other node
		# forever.
		wfc-timeout		300;

		# This tells DRBD to wait for the other node for three minutes
		# if the other node was degraded the last time it was seen by
		# this node. This is a way to speed up the boot process when
		# the other node is out of commission for an extended duration.
		degr-wfc-timeout	120;
	}

For the disk { } directive, we're going to configure DRBD's behaviour when a split-brain is detected. By setting fencing to resource-and-stonith, we're telling DRBD to stop all disk access and call a fence against its peer node rather than proceeding.

	disk {
		# This tells DRBD to block IO and fence the remote node (using
		# the 'fence-peer' helper) when connection with the other node
		# is unexpectedly lost. This is what helps prevent split-brain
		# condition and it is incredible important in dual-primary
		# setups!
		fencing			resource-and-stonith;
	}

In the net { } directive, we're going to tell DRBD that it is allowed to run in dual-primary mode and we're going to configure how it behaves if a split-brain has occurred, despite our best efforts. The recovery (or lack there of) requires three options; What to do when neither node had been primary (after-sb-0pri), what to do if only one node had been primary (after-sb-1pri) and finally, what to do if both nodes had been primary (after-sb-2pri), as will most likely be the case for us. This last instance will be configured to tell DRBD just to drop the connection, which will require human intervention to correct.

At this point, you might be wondering why we won't simply run Primary/Secondary. The reason is because of live-migration. When we push a VM across to the backup node, there is a short period of time where both nodes need to be writeable.

	net {
		# This tells DRBD to allow two nodes to be Primary at the same
		# time. It is needed when 'become-primary-on both' is set.
		allow-two-primaries;

		# The following three commands tell DRBD how to react should
		# our best efforts fail and a split brain occurs. You can learn
		# more about these options by reading the drbd.conf man page.
		# NOTE! It is not possible to safely recover from a split brain
		# where both nodes were primary. This care requires human
		# intervention, so 'disconnect' is the only safe policy.
		after-sb-0pri		discard-zero-changes;
		after-sb-1pri		discard-secondary;
		after-sb-2pri		disconnect;
	}

We'll make our usual backup of the configuration file, add the new sections and then create a diff to see exactly how things have changed.

cp /etc/drbd.d/global_common.conf /etc/drbd.d/global_common.conf.orig
vim /etc/drbd.d/global_common.conf 
diff -u  /etc/drbd.d/global_common.conf.orig /etc/drbd.d/global_common.conf
--- /etc/drbd.d/global_common.conf.orig	2011-12-13 22:22:30.916128360 -0500
+++ /etc/drbd.d/global_common.conf	2011-12-13 22:26:30.733379609 -0500
@@ -14,22 +14,67 @@
 		# split-brain "/usr/lib/drbd/notify-split-brain.sh root";
 		# out-of-sync "/usr/lib/drbd/notify-out-of-sync.sh root";
 		# before-resync-target "/usr/lib/drbd/snapshot-resync-target-lvm.sh -p 15 -- -c 16k";
+
 		# after-resync-target /usr/lib/drbd/unsnapshot-resync-target-lvm.sh;
+                # This script is a wrapper for RHCS's 'fence_node' command line
+                # tool. It will call a fence against the other node and return
+                # the appropriate exit code to DRBD.
+                fence-peer              "/sbin/obliterate-peer.sh";
 	}
 
 	startup {
 		# wfc-timeout degr-wfc-timeout outdated-wfc-timeout wait-after-sb
+
+                # This tells DRBD to promote both nodes to Primary on start.
+                become-primary-on       both;
+
+                # This tells DRBD to wait five minutes for the other node to
+                # connect. This should be longer than it takes for cman to
+                # timeout and fence the other node *plus* the amount of time it
+                # takes the other node to reboot. If you set this too short,
+                # you could corrupt your data. If you want to be extra safe, do
+                # not use this at all and DRBD will wait for the other node
+                # forever.
+                wfc-timeout             300;
+
+                # This tells DRBD to wait for the other node for three minutes
+                # if the other node was degraded the last time it was seen by
+                # this node. This is a way to speed up the boot process when
+                # the other node is out of commission for an extended duration.
+                degr-wfc-timeout        120;
 	}
 
 	disk {
 		# on-io-error fencing use-bmbv no-disk-barrier no-disk-flushes
 		# no-disk-drain no-md-flushes max-bio-bvecs
+
+                # This tells DRBD to block IO and fence the remote node (using
+                # the 'fence-peer' helper) when connection with the other node
+                # is unexpectedly lost. This is what helps prevent split-brain
+                # condition and it is incredible important in dual-primary
+                # setups!
+                fencing                 resource-and-stonith;
 	}
 
 	net {
 		# sndbuf-size rcvbuf-size timeout connect-int ping-int ping-timeout max-buffers
 		# max-epoch-size ko-count allow-two-primaries cram-hmac-alg shared-secret
 		# after-sb-0pri after-sb-1pri after-sb-2pri data-integrity-alg no-tcp-cork
+
+
+                # This tells DRBD to allow two nodes to be Primary at the same
+                # time. It is needed when 'become-primary-on both' is set.
+                allow-two-primaries;
+
+                # The following three commands tell DRBD how to react should
+                # our best efforts fail and a split brain occurs. You can learn
+                # more about these options by reading the drbd.conf man page.
+                # NOTE! It is not possible to safely recover from a split brain
+                # where both nodes were primary. This care requires human
+                # intervention, so 'disconnect' is the only safe policy.
+                after-sb-0pri           discard-zero-changes;
+                after-sb-1pri           discard-secondary;
+                after-sb-2pri           disconnect;
 	}
 
 	syncer {

Configuring the DRBD Resources

As mentioned earlier, we are going to create three DRBD resources.

  • Resource r0, which will be device /dev/drbd0, will be the shared GFS2 partition.
  • Resource r1, which will be device /dev/drbd1, will provide disk space for VMs that will normally run on an-node01.
  • Resource r2, which will be device /dev/drbd2, will provide disk space for VMs that will normally run on an-node02.
Note: The reason for the two separate VM resources is to help protect against data loss in the off chance that a split-brain occurs, despite our counter-measures. As we will see later, recovering from a split brain requires discarding the changes on one side of the resource. If VMs are running on the same resource but on different nodes, this would lead to data loss. Using two resources helps prevent that scenario.

Each resource configuration will be in its own file saved as /etc/drbd.d/rX.res. The three of them will be pretty much the same. So let's take a look at the first GFS2 resource r0.res, then we'll just look at the changes for r1.res and r2.res. These files won't exist initially.

vim /etc/drbd.d/r0.res
# This is the resource used for the shared GFS2 partition.
resource r0 {
	# This is the block device path.
	device		/dev/drbd0;

	# We'll use the normal internal metadisk (takes about 32MB/TB)
	meta-disk	internal;

	# This is the `uname -n` of the first node
	on an-node01.alteeve.ca {
		# The 'address' has to be the IP, not a hostname. This is the
		# node's SN (bond1) IP. The port number must be unique amoung
		# resources.
		address		10.10.0.1:7788;

		# This is the block device backing this resource on this node.
		disk		/dev/sda5;
	}
	# Now the same information again for the second node.
	on an-node02.alteeve.ca {
		address		10.10.0.2:7788;
		disk		/dev/sda5;
	}
}

Now copy this to r1.res and edit for the an-node01 VM resource. The main differences are the resource name, r1, the block device, /dev/drbd1, the port, 7790 and the backing block devices, /dev/sda6.

cp /etc/drbd.d/r0.res /etc/drbd.d/r1.res
vim /etc/drbd.d/r1.res
# This is the resource used for VMs that will normally run on an-node01.
resource r1 {
	# This is the block device path.
	device		/dev/drbd1;

	# We'll use the normal internal metadisk (takes about 32MB/TB)
	meta-disk	internal;

	# This is the `uname -n` of the first node
	on an-node01.alteeve.ca {
		# The 'address' has to be the IP, not a hostname. This is the
		# node's SN (bond1) IP. The port number must be unique amoung
		# resources.
		address		10.10.0.1:7789;

		# This is the block device backing this resource on this node.
		disk		/dev/sda6;
	}
	# Now the same information again for the second node.
	on an-node02.alteeve.ca {
		address		10.10.0.2:7789;
		disk		/dev/sda6;
	}
}

The last resource is again the same, with the same set of changes.

cp /etc/drbd.d/r1.res /etc/drbd.d/r2.res
vim /etc/drbd.d/r2.res
# This is the resource used for VMs that will normally run on an-node02.
resource r2 {
	# This is the block device path.
	device		/dev/drbd2;

	# We'll use the normal internal metadisk (takes about 32MB/TB)
	meta-disk	internal;

	# This is the `uname -n` of the first node
	on an-node01.alteeve.ca {
		# The 'address' has to be the IP, not a hostname. This is the
		# node's SN (bond1) IP. The port number must be unique amoung
		# resources.
		address		10.10.0.1:7790;

		# This is the block device backing this resource on this node.
		disk		/dev/sda7;
	}
	# Now the same information again for the second node.
	on an-node02.alteeve.ca {
		address		10.10.0.2:7790;
		disk		/dev/sda7;
	}
}

The final step is to validate the configuration. This is done by running the following command;

drbdadm dump
# /etc/drbd.conf
common {
    protocol               C;
    net {
        allow-two-primaries;
        after-sb-0pri    discard-zero-changes;
        after-sb-1pri    discard-secondary;
        after-sb-2pri    disconnect;
    }
    disk {
        fencing          resource-and-stonith;
    }
    startup {
        wfc-timeout      300;
        degr-wfc-timeout 120;
        become-primary-on both;
    }
    handlers {
        pri-on-incon-degr "/usr/lib/drbd/notify-pri-on-incon-degr.sh; /usr/lib/drbd/notify-emergency-reboot.sh; echo b > /proc/sysrq-trigger ; reboot -f";
        pri-lost-after-sb "/usr/lib/drbd/notify-pri-lost-after-sb.sh; /usr/lib/drbd/notify-emergency-reboot.sh; echo b > /proc/sysrq-trigger ; reboot -f";
        local-io-error   "/usr/lib/drbd/notify-io-error.sh; /usr/lib/drbd/notify-emergency-shutdown.sh; echo o > /proc/sysrq-trigger ; halt -f";
        fence-peer       /sbin/obliterate-peer.sh;
    }
}

# resource r0 on an-node01.alteeve.ca: not ignored, not stacked
resource r0 {
    on an-node01.alteeve.ca {
        device           /dev/drbd0 minor 0;
        disk             /dev/sda5;
        address          ipv4 10.10.0.1:7788;
        meta-disk        internal;
    }
    on an-node02.alteeve.ca {
        device           /dev/drbd0 minor 0;
        disk             /dev/sda5;
        address          ipv4 10.10.0.2:7788;
        meta-disk        internal;
    }
}

# resource r1 on an-node01.alteeve.ca: not ignored, not stacked
resource r1 {
    on an-node01.alteeve.ca {
        device           /dev/drbd1 minor 1;
        disk             /dev/sda6;
        address          ipv4 10.10.0.1:7789;
        meta-disk        internal;
    }
    on an-node02.alteeve.ca {
        device           /dev/drbd1 minor 1;
        disk             /dev/sda6;
        address          ipv4 10.10.0.2:7789;
        meta-disk        internal;
    }
}

# resource r2 on an-node01.alteeve.ca: not ignored, not stacked
resource r2 {
    on an-node01.alteeve.ca {
        device           /dev/drbd2 minor 2;
        disk             /dev/sda7;
        address          ipv4 10.10.0.1:7790;
        meta-disk        internal;
    }
    on an-node02.alteeve.ca {
        device           /dev/drbd2 minor 2;
        disk             /dev/sda7;
        address          ipv4 10.10.0.2:7790;
        meta-disk        internal;
    }
}

You'll note that the output is formatted differently from the configuration files we created, but the values themselves are the same. If there had of been errors, you would have seen them printed. Fix any problems before proceeding. Once you get a clean dump, copy the configuration over to the other node.

rsync -av /etc/drbd.d root@an-node02:/etc/
sending incremental file list
drbd.d/
drbd.d/global_common.conf
drbd.d/global_common.conf.orig
drbd.d/r0.res
drbd.d/r1.res
drbd.d/r2.res

sent 7534 bytes  received 129 bytes  5108.67 bytes/sec
total size is 7874  speedup is 1.03

Initializing The DRBD Resources

Now that we have DRBD configured, we need to initialize the DRBD backing devices and then bring up the resources for the first time.

Note: To save a bit of time and typing, the following sections will use a little bash magic. When commands need to be run on all three resources, rather than running the same command three times with the different resource names, we will use the short-hand form r{0,1,2} or r{0..2}.

On both nodes, create the new metadata on the backing devices. You may need to type yes to confirm the action if any data is seen. If DRBD sees an actual file system, it will error and insist that you clear the partition. You can do this by running; dd if=/dev/zero of=/dev/sdaX bs=4M, where X is the partition you want to clear. This is called "zeroing out" a partition. The dd program does not print its progress, and can take a long time. To check the progress, open a new session to the server and run 'kill -USR1 $(pgrep -l '^dd$' | awk '{ print $1 }')'.

If DRBD sees old metadata, it will prompt you to type yes before it will proceed. In my case, I had recently zeroed-out my drive so DRBD had no concerns and just created the metadata for the three resources.

drbdadm create-md r{0..2}
Writing meta data...
initializing activity log
NOT initialized bitmap
New drbd meta data block successfully created.
success
Writing meta data...
initializing activity log
NOT initialized bitmap
New drbd meta data block successfully created.
success
Writing meta data...
initializing activity log
NOT initialized bitmap
New drbd meta data block successfully created.
success

Before you go any further, we'll need to load the drbd kernel module. Note that you won't normally need to do this. Later, after we get everything running the first time, we'll be able to start and stop the DRBD resources using the /etc/init.d/drbd script, which loads and unloads the drbd kernel module as needed.

modprobe drbd

Now go back to the terminal windows we had used to watch the cluster start. We now want to watch the output of cat /proc/drbd so we can keep tabs on the current state of the DRBD resources. We'll do this by using the watch program, which will refresh the output of the cat call every couple of seconds.

watch cat /proc/drbd
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03

Back in the first terminal, we need to attach the backing device, /dev/sda{5..7} to their respective DRBD resources, r{0..2}. After running the following command, you will see no output on the first terminal, but the second terminal's /proc/drbd should update.

drbdadm attach r{0..2}
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:StandAlone ro:Secondary/Unknown ds:Inconsistent/DUnknown   r----s
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:19515784
 1: cs:StandAlone ro:Secondary/Unknown ds:Inconsistent/DUnknown   r----s
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:211418788
 2: cs:StandAlone ro:Secondary/Unknown ds:Inconsistent/DUnknown   r----s
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:211034800

Take note of the connection state, cs:StandAlone, the current role, ro:Secondary/Unknown and the disk state, ds:Inconsistent/DUnknown. This tells us that our resources are not talking to one another, are not usable because they are in the Secondary state (you can't even read the /dev/drbdX device) and that the backing device does not have an up to date view of the data.

This all makes sense of course, as the resources are brand new.

So the next step is to connect the two nodes together. As before, we won't see any output from the first terminal, but the second terminal will change.

Note: After running the following command on the first node, its connection state will become cs:WFConnection which means that it is waiting for a connection from the other node.
drbdadm connect r{0..2}
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:Connected ro:Secondary/Secondary ds:Inconsistent/Inconsistent C r-----
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:19515784
 1: cs:Connected ro:Secondary/Secondary ds:Inconsistent/Inconsistent C r-----
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:211418788
 2: cs:Connected ro:Secondary/Secondary ds:Inconsistent/Inconsistent C r-----
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:211034800

We can now see that the two nodes are talking to one another properly as the connection state has changed to cs:Connected. They can see that their peer node is in the same state as they are; Secondary/Inconsistent.

Seeing as the resources are brand new, there is no data to synchronize the two nodes. We're going to issue a special command that will only ever be used this one time. It will tell DRBD to immediately consider the DRBD resources to be up to date.

On one node only, run;

drbdadm -- --clear-bitmap new-current-uuid r{0..2}

As before, look to the second terminal to see the new state of affairs.

version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:Connected ro:Secondary/Secondary ds:UpToDate/UpToDate C r-----
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0
 1: cs:Connected ro:Secondary/Secondary ds:UpToDate/UpToDate C r-----
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0
 2: cs:Connected ro:Secondary/Secondary ds:UpToDate/UpToDate C r-----
    ns:0 nr:0 dw:0 dr:0 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0

Voila!

We could promote both sides to Primary by running drbdadm primary r{0..2} on both nodes, but there is no purpose in doing that at this stage as we can safely say our DRBD is ready to go. So instead, let's just stop DRBD entirely. We'll also prevent it from starting on boot as drbd will be managed by the cluster in a later step.

On both nodes run;

/etc/init.d/drbd stop
Stopping all DRBD resources: .

Now disable it from starting on boot.

chkconfig drbd off
chkconfig --list drbd
drbd           	0:off	1:off	2:off	3:off	4:off	5:off	6:off

The second terminal will start complaining that /proc/drbd no longer exists. This is because the drbd init script unloaded the drbd kernel module. It is expected and not a problem.

Configuring Clustered Storage

Before we can provision the first virtual machine, we must first create the storage that will back them. This will take a few steps;

  • Configuring LVM's clustered locking and creating the PVs, VGs and LVs
  • Formatting and configuring the shared GFS2 partition.
  • Adding storage to the cluster's resource management.

Clustered Logical Volume Management

We will assign all three DRBD resources to be managed by clustered LVM. This isn't strictly needed for the GFS2 partition, as it uses DLM directly. However, the flexibility of LVM is very appealing, and will make later growth of the GFS2 partition quite trivial, should the need arise.

The real reason for clustered LVM in our cluster is to provide DLM-backed locking to the partitions, or logical volumes in LVM, that will be used to back our VMs. Of course, the flexibility of LVM managed storage is enough of a win to justify using LVM for our VMs in itself, and shouldn't be ignored here.

Configuring Clustered LVM Locking

Before we create the clustered LVM, we need to first make three changes to the LVM configuration.

  • We need to filter out the DRBD backing devices so that LVM doesn't see the same signature twice.
  • Switch from local locking to clustered locking.
  • Prevent fall-back to local locking when the cluster is not available.

Start by making a backup of lvm.conf and then begin editing it.

cp /etc/lvm/lvm.conf /etc/lvm/lvm.conf.orig
vim /etc/lvm/lvm.conf

The configuration option to filter out the DRBD backing device is, surprisingly, filter = [ ... ]. By default, it is set to allow everything via the "a/.*/" regular expression. We're only using DRBD in our LVM, so we're going to flip that to reject everything except DRBD by changing the regex to "a|/dev/drbd*|", "r/.*/". If we didn't do this, LVM would see the same signature on the DRBD device and again on the backing devices, at which time it would ignore the DRBD device. This filter allows LVM to only inspect the DRBD devices for LVM signatures.

Change;

    # By default we accept every block device:
    filter = [ "a/.*/" ]

To;

    # We're only using LVM on DRBD resource.
    filter = [ "a|/dev/drbd*|", "r/.*/" ]

For the locking, we're going to change the locking_type from 1 (local locking) to 3, (clustered locking). This is what tells LVM to use DLM.

Change;

    locking_type = 1

To;

    locking_type = 3

Lastly, we're also going to disallow fall-back to local locking. Normally, LVM would try to access a clustered LVM VG using local locking if DLM is not available. We want to prevent any access to the clustered LVM volumes except when the DLM is itself running. This is done by changing fallback_to_local_locking to 0.

Change;

    fallback_to_local_locking = 1

To;

    fallback_to_local_locking = 0

Save the changes, then lets run a diff against our backup to see a summary of the changes.

diff -u /etc/lvm/lvm.conf.orig /etc/lvm/lvm.conf
--- /etc/lvm/lvm.conf.orig	2011-12-14 17:42:16.416094972 -0500
+++ /etc/lvm/lvm.conf	2011-12-14 17:49:15.747097684 -0500
@@ -62,8 +62,8 @@
     # If it doesn't do what you expect, check the output of 'vgscan -vvvv'.
 
 
-    # By default we accept every block device:
-    filter = [ "a/.*/" ]
+    # We're only using LVM on DRBD resource.
+    filter = [ "a|/dev/drbd*|", "r/.*/" ]
 
     # Exclude the cdrom drive
     # filter = [ "r|/dev/cdrom|" ]
@@ -356,7 +356,7 @@
     # Type 3 uses built-in clustered locking.
     # Type 4 uses read-only locking which forbids any operations that might 
     # change metadata.
-    locking_type = 1
+    locking_type = 3
 
     # Set to 0 to fail when a lock request cannot be satisfied immediately.
     wait_for_locks = 1
@@ -372,7 +372,7 @@
     # to 1 an attempt will be made to use local file-based locking (type 1).
     # If this succeeds, only commands against local volume groups will proceed.
     # Volume Groups marked as clustered will be ignored.
-    fallback_to_local_locking = 1
+    fallback_to_local_locking = 0
 
     # Local non-LV directory that holds file-based locks while commands are
     # in progress.  A directory like /tmp that may get wiped on reboot is OK.

Perfect! Now copy the modified lvm.conf file to the other node.

rsync -av /etc/lvm/lvm.conf root@an-node02:/etc/lvm/
sending incremental file list
lvm.conf

sent 2351 bytes  received 283 bytes  5268.00 bytes/sec
total size is 28718  speedup is 10.90

Testing the clvmd Daemon

A little later on, we're going to put clustered LVM under the control of rgmanager. Before we can do that though, we need to start it manually so that we can use it to create the LV that will back the GFS2 /shared partition, which we will also be adding to rgmanager when we build our storage services.

Before we start the clvmd daemon, we'll want to ensure that the cluster is running.

cman_tool status
Version: 6.2.0
Config Version: 7
Cluster Name: an-cluster-A
Cluster Id: 24561
Cluster Member: Yes
Cluster Generation: 68
Membership state: Cluster-Member
Nodes: 2
Expected votes: 1
Total votes: 2
Node votes: 1
Quorum: 1  
Active subsystems: 7
Flags: 2node 
Ports Bound: 0  
Node name: an-node01.alteeve.ca
Node ID: 1
Multicast addresses: 239.192.95.81 
Node addresses: 10.20.0.1

It is, and both nodes are members. We can start the clvmd daemon now.

/etc/init.d/clvmd start
Starting clvmd: 
Activating VG(s):   No volume groups found
                                                           [  OK  ]

We've not created any clustered volume groups yet, so that complaint about not finding volume groups is expected.

We don't want clvmd to start at boot, as we will be putting it under the cluster's control. So we need to make sure that clvmd is disabled at boot, and then we'll stop clvmd for now.

chkconfig clvmd off
chkconfig --list clvmd
clvmd          	0:off	1:off	2:off	3:off	4:off	5:off	6:off

Now stop it entirely.

/etc/init.d/clvmd stop
Signaling clvmd to exit                                    [  OK  ]
clvmd terminated                                           [  OK  ]

Initialize our DRBD Resource for use as LVM PVs

This is the first time we're actually going to use DRBD and clustered LVM, so we need to make sure that both are started. Earlier we stopped them, so if they're not running now, we need to restart them.

First, check (and start if needed) drbd.

/etc/init.d/drbd status
drbd not loaded

It's stopped, so we'll start it on both nodes now.

/etc/init.d/drbd start
Starting DRBD resources: [ d(r0) d(r1) d(r2) n(r0) n(r1) n(r2) ].

It looks like it started, but let's confirm that the resources are all Connected, Primary and UpToDate.

/etc/init.d/drbd status
drbd driver loaded OK; device status:
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
m:res  cs         ro               ds                 p  mounted  fstype
0:r0   Connected  Primary/Primary  UpToDate/UpToDate  C
1:r1   Connected  Primary/Primary  UpToDate/UpToDate  C
2:r2   Connected  Primary/Primary  UpToDate/UpToDate  C

Excellent, now to check on clvmd.

/etc/init.d/clvmd status
clvmd is stopped

It's also stopped, so lets start it now.

/etc/init.d/clvmd start
Starting clvmd: 
Activating VG(s):   No volume groups found
                                                           [  OK  ]

Now we're ready to start!

Before we can use LVM, clustered or otherwise, we need to initialize one or more raw storage devices. This is done using the pvcreate command. We're going to do this on an-node01, then run pvscan on an-node02. We should see the newly initialized DRBD resources appear.

Running pvscan first, we'll see that no PVs have been created.

pvscan
  No matching physical volumes found

On an-node01, initialize the PVs;

pvcreate /dev/drbd{0..2}
  Writing physical volume data to disk "/dev/drbd0"
  Physical volume "/dev/drbd0" successfully created
  Writing physical volume data to disk "/dev/drbd1"
  Physical volume "/dev/drbd1" successfully created
  Writing physical volume data to disk "/dev/drbd2"
  Physical volume "/dev/drbd2" successfully created

On both nodes, re-run pvscan and the new PVs should show. This works because DRBD is keeping the data in sync, including the new LVM signatures.

pvscan
  PV /dev/drbd0                      lvm2 [18.61 GiB]
  PV /dev/drbd1                      lvm2 [201.62 GiB]
  PV /dev/drbd2                      lvm2 [201.26 GiB]
  Total: 3 [421.49 GiB] / in use: 0 [0   ] / in no VG: 3 [421.49 GiB]

Done.

Creating Cluster Volume Groups

As with initializing the DRBD resource above, we will create out volume groups, VGs, on an-node01 only, but we will then see them on both nodes.

Check to confirm that no VGs exist;

vgdisplay
  No volume groups found

Now to create the VGs, we'll use the vgcreate command with the -c y switch, which tells LVM to make the VG a clustered VG. Note that when the clvmd daemon is running, -c y is implied. However, I like to get into the habit of using it because it will trigger an error if, for some reason, clvmd wasn't actually running.

On an-node01, create the three VGs.

  • VG for the GFS2 /shared partition;
vgcreate -c y shared-vg0 /dev/drbd0
  Clustered volume group "shared-vg0" successfully created
  • VG for the VMs that will primarily run on an-node01;
vgcreate -c y an01-vg0 /dev/drbd1
  Clustered volume group "an01-vg0" successfully created
  • VG for the VMs that will primarily run on an-node02;
vgcreate -c y an02-vg0 /dev/drbd2
  Clustered volume group "an02-vg0" successfully created

Now on both nodes, we should see the three new volume groups.

vgscan
  Reading all physical volumes.  This may take a while...
  Found volume group "an02-vg0" using metadata type lvm2
  Found volume group "an01-vg0" using metadata type lvm2
  Found volume group "shared-vg0" using metadata type lvm2

Creating a Logical Volume

At this stage, we're going to create only one LV for the GFS2 partition. We'll create the rest later when we're ready to provision the VMs. This will be the /shared partiton, which we will discuss further in the next section.

As before, we'll create the LV on an-node01 and then verify it exists on both nodes.

Before we create our first LV, check lvscan.

lvscan

Nothing is returned.

On an-node01, create the the LV on the shared-vg0 VG, using all of the available space.

lvcreate -l 100%FREE -n shared shared-vg0
  Logical volume "shared" created

Now on both nodes, check that the new LV exists.

lvscan
  ACTIVE            '/dev/shared-vg0/shared' [18.61 GiB] inherit

Perfect. We can now create our GFS2 partition.

Creating The Shared GFS2 Partition

The GFS2-formatted /shared partition will be used for four main purposes;

  • /shared/files; Storing files like ISO images needed when provisioning VMs.
  • /shared/provision; Storing short scripts used to call virt-install which handles the creation of our VMs.
  • /shared/definitions; This is where the XML definition files which define the emulated hardware backing our VMs are kept. This is the most critical directory as the cluster will look here when starting and recovering VMs.
  • /shared/archive; This is used to store old copies of the XML definition files. I like to make a time-stamped copy of definition files prior to altering and redefining a VM. This way, I can quickly and easily revert to an old configuration should I run into trouble.

Make sure that both drbd and clvmd are running.

The mkfs.gfs2 call uses a few switches that are worth explaining;

  • -p lock_dlm; This tells GFS2 to use DLM for its clustered locking. Currently, this is the only supported locking type.
  • -j 2; This tells GFS2 to create two journals. This must match the number of nodes that will try to mount this partition at any one time.
  • -t an-cluster-A:shared; This is the lockspace name, which must be in the format <clustename>:<fsname>. The clustername must match the one in cluster.conf, and any node that belongs to a cluster of another name will not be allowed to access the file system.
Note: Depending on the size of the new partition, this call could take a while to complete. Please be patient.

Then, on an-node01, run;

mkfs.gfs2 -p lock_dlm -j 2 -t an-cluster-A:shared /dev/shared-vg0/shared
This will destroy any data on /dev/shared-vg0/shared.
It appears to contain: symbolic link to `../dm-0'
Are you sure you want to proceed? [y/n] y
Device:                    /dev/shared-vg0/shared
Blocksize:                 4096
Device Size                18.61 GB (4878336 blocks)
Filesystem Size:           18.61 GB (4878333 blocks)
Journals:                  2
Resource Groups:           75
Locking Protocol:          "lock_dlm"
Lock Table:                "an-cluster-A:shared"
UUID:                      162a80eb-59b3-08bd-5d69-740cbb60aa45

On both nodes, run all of the following commands.

mkdir /shared
mount /dev/shared-vg0/shared /shared/

Confirm that /shared is now mounted.

df -hP /shared
Filesystem            Size  Used Avail Use% Mounted on
/dev/mapper/shared--vg0-shared   19G  259M   19G   2% /shared

Note that the path under Filesystem is different from what we used when creating the GFS2 partition. This is an effect of Device Mapper, which is used by LVM to create symlinks to actual block device paths. If we look at our /dev/shared-vg0/shared device and the device from df, /dev/mapper/shared--vg0-shared, we'll see that they both point to the same actual block device.

ls -lah /dev/shared-vg0/shared /dev/mapper/shared--vg0-shared
lrwxrwxrwx 1 root root 7 Oct 23 16:35 /dev/mapper/shared--vg0-shared -> ../dm-0
lrwxrwxrwx 1 root root 7 Oct 23 16:35 /dev/shared-vg0/shared -> ../dm-0
ls -lah /dev/dm-0
brw-rw---- 1 root disk 253, 0 Oct 23 16:35 /dev/dm-0

This next step uses some command-line voodoo. It takes the output from gfs2_tool sb /dev/shared-vg0/shared uuid, parses out the UUID, converts it to lower-case and spits out a string that can be used in /etc/fstab. We'll run it twice; The first time to confirm that the output is what we expect and the second time to append it to /etc/fstab.

The gfs2 daemon can only work on GFS2 partitions that have been defined in /etc/fstab, so this is a required step on both nodes.

We use defaults,noatime,nodiratime instead of just defaults for performance reasons. Normally, every time a file or directory is accessed, its atime (or diratime) is updated, which requires a disk write, which requires an exclusive DLM lock, which is expensive. If you need to know when a file or directory was accessed, remove ,noatime,nodiratime.

echo `gfs2_tool sb /dev/shared-vg0/shared uuid | awk '/uuid =/ { print $4; }' | sed -e "s/\(.*\)/UUID=\L\1\E \/shared\t\tgfs2\tdefaults,noatime,nodiratime\t0 0/"`
UUID=162a80eb-59b3-08bd-5d69-740cbb60aa45 /shared gfs2 defaults,noatime,nodiratime 0 0

This looks good, so now re-run it but redirect the output to append to /etc/fstab. We'll confirm it worked by checking the status of the gfs2 daemon.

echo `gfs2_tool sb /dev/shared-vg0/shared uuid | awk '/uuid =/ { print $4; }' | sed -e "s/\(.*\)/UUID=\L\1\E \/shared\t\tgfs2\tdefaults,noatime,nodiratime\t0 0/"` >> /etc/fstab
/etc/init.d/gfs2 status
Configured GFS2 mountpoints: 
/shared
Active GFS2 mountpoints: 
/shared

Perfect, gfs2 can see the partition now! We're ready to setup our directories.

On an-node01

mkdir /shared/{definitions,provision,archive,files}

On both nodes, confirm that all of the new directories exist and are visible.

ls -lah /shared/
total 24K
drwxr-xr-x   6 root root 3.8K Dec 14 19:05 .
dr-xr-xr-x. 24 root root 4.0K Dec 14 18:44 ..
drwxr-xr-x   2 root root    0 Dec 14 19:05 archive
drwxr-xr-x   2 root root    0 Dec 14 19:05 definitions
drwxr-xr-x   2 root root    0 Dec 14 19:05 files
drwxr-xr-x   2 root root    0 Dec 14 19:05 provision

Wonderful!

As with drbd and clvmd, we don't want to have gfs2 start at boot as we're going to put it under the control of the cluster.

chkconfig gfs2 off
chkconfig --list gfs2
gfs2           	0:off	1:off	2:off	3:off	4:off	5:off	6:off

Renaming a GFS2 Partition

Warning: Be sure to unmount the GFS2 partition from all nodes prior to altering the cluster or filesystem names!

If you ever need to rename your cluster, you will need to update your GFS2 partition before you can remount it. Unmount the partition from all nodes and run:

gfs2_tool sb /dev/shared-vg0/shared table "new_cluster_name:shared"
You shouldn't change any of these values if the filesystem is mounted.

Are you sure? [y/n] y

current lock table name = "an-cluster-A:shared"
new lock table name = "new_cluster_name:shared"
Done

Then you can change the cluster's name in cluster.conf and then remount the GFS2 partition.

You can use the same command, changing the GFS2 partition name, if you want to change the name of the filesystem instead of (or at the same time as) the cluster's name.

Stopping All Clustered Storage Components

Before we can put storage under the cluster's control, we need to make sure that the gfs2, clvmd and drbd daemons are stopped.

On both nodes, run;

/etc/init.d/gfs2 stop && /etc/init.d/clvmd stop && /etc/init.d/drbd stop
Unmounting GFS2 filesystem (/shared):                      [  OK  ]
Deactivating clustered VG(s):   0 logical volume(s) in volume group "an02-vg0" now active
  0 logical volume(s) in volume group "an01-vg0" now active
  0 logical volume(s) in volume group "shared-vg0" now active
                                                           [  OK  ]
Signaling clvmd to exit                                    [  OK  ]
clvmd terminated                                           [  OK  ]
Stopping all DRBD resources: .

Managing Storage In The Cluster

A little while back, we spoke about how the cluster is split into two components; cluster communication managed by cman and resource management provided by rgmanager. It's the later which we will now begin to configure.

In the cluster.conf, the rgmanager component is contained within the <rm /> element tags. Within this element are three types of child elements. They are:

  • Fail-over Domains - <failoverdomains />;
    • These are optional constraints which allow for control which nodes, and under what circumstances, services may run. When not used, a service will be allowed to run on any node in the cluster without constraints or ordering.
  • Resources - <resources />;
    • Within this element, available resources are defined. Simply having a resource here will not put it under cluster control. Rather, it makes it available for use in <service /> elements.
  • Services - <service />;
    • This element contains one or more parallel or series child-elements which are themselves references to <resources /> elements. When in parallel, the services will start and stop at the same time. When in series, the services start in order and stop in reverse order. We will also see a specialized type of service that uses the <vm /> element name, as you can probably guess, for creating virtual machine services.

We'll look at each of these components in more detail shortly.

A Note On Daemon Starting

There are four daemons we will be putting under cluster control;

  • drbd; Replicated storage.
  • clvmd; Clustered LVM.
  • gfs2; Mounts and Unmounts configured GFS2 partition.
  • libvirtd; Provides access to virsh and other libvirt tools. Needed for running our VMs.

The reason we do not want to start these daemons with the system is so that we can let the cluster do it. This way, should any fail, the cluster will detect the failure and fail the entire service tree. For example, lets say that drbd failed to start, rgmanager would fail the storage service and give up, rather than continue trying to start clvmd and the rest. With libvirtd being the last daemon, it will not be possible to start a VM unless the storage started successfully.

If we had left these daemons to boot on start, the failure of the drbd would not effect the start-up of clvmd, which would then not find its PVs given that DRBD is down. Next, the system would try to start the gfs2 daemon which would also fail as the LV backing the partition would not be available. Finally, the system would start libvirtd, which would allow the start of virtual machine, which would also be missing their "hard drives" as their backing LVs would also not be available. Pretty messy situation to clean up from.

Defining The Resources

Lets start by first defining our clustered resources.

As stated before, the addition of these resources does not, in itself, put the defined resources under the cluster's management. Instead, it defines services, like init.d scripts. These can then be used by one or more <service /> elements, as we will see shortly. For now, it is enough to know what, until a resource is defined, it can not be used in the cluster.

Given that this is the first component of rgmanager being added to cluster.conf, we will be creating the parent <rm /> elements here as well.

Let's take a look at the new section, then discuss the parts.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="8">
        <cman expected_votes="1" two_node="1" />
        <clusternodes>
                <clusternode name="an-node01.alteeve.ca" nodeid="1">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an01" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="1" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
                <clusternode name="an-node02.alteeve.ca" nodeid="2">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an02" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="2" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
        </clusternodes>
        <fencedevices>
                <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
        </fencedevices>
        <fence_daemon post_join_delay="30" />
        <totem rrp_mode="none" secauth="off"/>
        <rm>
                <resources>
                        <script file="/etc/init.d/drbd" name="drbd"/>
                        <script file="/etc/init.d/clvmd" name="clvmd"/>
                        <script file="/etc/init.d/gfs2" name="gfs2"/>
                        <script file="/etc/init.d/libvirtd" name="libvirtd"/>
                </resources>
        </rm>
</cluster>

First and foremost; Note that we've incremented the version to 8. As always, increment and then edit.

Let's focus on the new section;

	<rm>
		<resources>
			<script file="/etc/init.d/drbd" name="drbd"/>
			<script file="/etc/init.d/clvmd" name="clvmd"/>
			<script file="/etc/init.d/gfs2" name="gfs2"/>
			<script file="/etc/init.d/libvirtd" name="libvirtd"/>
		</resources>
	</rm>

The <resources>...</resources> element contains our four <script .../> resources. This is a particular type of resource which specifically handles that starting and stopping of init.d style scripts. That is, the script must exit with LSB compliant codes. They must also properly react to being called with the sole argument of start, stop and status.

There are many other types of resources which, with the exception of <vm .../>, we will not be looking at in this tutorial. Should you be interested in them, please look in /usr/share/cluster for the various scripts (executable files that end with .sh).

Each of our four <script ... /> resources have two attributes;

  • file="..."; The full path to the script to be managed.
  • name="..."; A unique name used to reference this resource later on in the <service /> elements.

Other resources are more involved, but the <script .../> resources are quite simple.

Creating Failover Domains

Fail-over domains are, at their most basic, a collection of one or more nodes in the cluster with a particular set of rules associated with them. Services can then be configured to operate within the context of a given fail-over domain. There are a few key options to be aware of.

Fail-over domains are optional and can be left out of the cluster, generally speaking. However, in our cluster, we will need them for our storage services, as we will later see, so please do not skip this step.

  • A fail-over domain can be unordered or prioritized.
    • When unordered, a service will start on any node in the domain. Should that node later fail, it will restart to another random node in the domain.
    • When prioritized, a service will start on the available node with the highest priority in the domain. Should that node later fail, the service will restart on the available node with the next highest priority.
  • A fail-over domain can be restricted or unrestricted.
    • When restricted, a service is only allowed to start on, or restart on. a nodes in the domain. When no nodes are available, the service will be stopped.
    • When unrestricted, a service will try to start on, or restart on, a node in the domain. However, when no domain members are available, the cluster will pick another available node at random to start the service on.
  • A fail-over domain can have a fail-back policy.
    • When a domain allows for fail-back and the domain is ordered, and a node with a higher priority (re)joins the cluster, services within the domain will migrate to that higher-priority node. This allows for automated restoration of services on a failed node when it rejoins the cluster.
    • When a domain does not allow for fail-back, but is unrestricted, fail-back of services that fell out of the domain will happen anyway. That is to say, nofailback="1" is ignored if a service was running on a node outside of the fail-over domain and a node within the domain joins the cluster. However, once the service is on a node within the domain, the service will not relocate to a higher-priority node should one join the cluster later.
    • When a domain does not allow for fail-back and is restricted, then fail-back of services will never occur.

What we need to do at this stage is to create something of a hack. Let me explain;

As discussed earlier, we need to start a set of local daemons on all nodes. These aren't really clustered resources though as they can only ever run on their host node. They will never be relocated or restarted elsewhere in the cluster as as such, are not highly available. So to work around this desire to "cluster the unclusterable", we're going to create a fail-over domain for each node in the cluster. Each of these domains will have only one of the cluster nodes as members of the domain and the domain will be restricted, unordered and have no fail-back. With this configuration, any service group using it will only ever run on the one node in the domain.

In the next step, we will create a service group, then replicate it once for each node in the cluster. The only difference will be the failoverdomain each is set to use. With our configuration of two nodes then, we will have two fail-over domains, one for each node, and we will define the clustered storage service twice, each one using one of the two fail-over domains.

Let's look at the complete updated cluster.conf, then we will focus closer on the new section.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="9">
        <cman expected_votes="1" two_node="1" />
        <clusternodes>
                <clusternode name="an-node01.alteeve.ca" nodeid="1">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an01" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="1" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
                <clusternode name="an-node02.alteeve.ca" nodeid="2">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an02" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="2" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
        </clusternodes>
        <fencedevices>
                <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
        </fencedevices>
        <fence_daemon post_join_delay="30" />
        <totem rrp_mode="none" secauth="off"/>
        <rm>
                <resources>
                        <script file="/etc/init.d/drbd" name="drbd"/>
                        <script file="/etc/init.d/clvmd" name="clvmd"/>
                        <script file="/etc/init.d/gfs2" name="gfs2"/>
                        <script file="/etc/init.d/libvirtd" name="libvirtd"/>
                </resources>
                <failoverdomains>
                        <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                                <failoverdomainnode name="an-node01.alteeve.ca"/>
                        </failoverdomain>
                        <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                                <failoverdomainnode name="an-node02.alteeve.ca"/>
                        </failoverdomain>
                </failoverdomains>
        </rm>
</cluster>

As always, the version was incremented, this time to 9. We've also added the new <failoverdomains>...</failoverdomains> element. Let's take a closer look at this new element.

                <failoverdomains>
                        <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                                <failoverdomainnode name="an-node01.alteeve.ca"/>
                        </failoverdomain>
                        <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                                <failoverdomainnode name="an-node02.alteeve.ca"/>
                        </failoverdomain>
                </failoverdomains>

The first thing to node is that there are two <failoverdomain...>...</failoverdomain> child elements.

  • The first has the name only_an01 and contains only the node an-node01 as a member.
  • The second is effectively identical, save that the domain's name is only_an02 and it contains only the node an-node02 as a member.

The <failoverdomain ...> element has four attributes;

  • The name="..." attribute sets the unique name of the domain which we will later use to bind a service to the domain.
  • The nofailback="1" attribute tells the cluster to never "fail back" any services in this domain. This seems redundant, given there is only one node, but when combined with restricted="0", prevents any migration of services.
  • The ordered="0" this is also somewhat redundant in that there is only one node defined in the domain, but I don't like to leave attributes undefined so I have it here.
  • The restricted="1" attribute is key in that it tells the cluster to not try to restart services within this domain on any other nodes outside of the one defined in the fail-over domain.

Each of the <failoverdomain...> elements has a single <failoverdomainnode .../> child element. This is a very simple element which has, at this time, only one attribute;

  • name="..."; The name of the node to include in the fail-over domain. This name must match the corresponding <clusternode name="..." node name.

At this point, we're ready to finally create our clustered storage services.

Creating Clustered Storage Services

With the resources defined and the fail-over domains created, we can set about creating our services.

Generally speaking, services can have one or more resources within them. When two or more resources exist, then can be put into a dependency tree, they can used in parallel or a combination of parallel and dependent resources.

When you create a service dependency tree, you put each dependent resource as a child element of its parent. The resources are then started in order, starting at the top of the tree and working its way down to the deepest child resource. If at any time one of the resources should fail, the entire service will be declared failed and no attempt will be made to try and start any further child resources. Conversely, stopping the service will cause the deepest child resource to be stopped first. Then the second deepest and on upwards towards the top resource. This is exactly the behaviour we want, as we will see shortly.

When resources are defined in parallel, all defined resources will be started at the same time. Should any one of the resources fail to start, the entire resource will declared failed. Stopping the service will likewise cause a simultaneous call to stop all resources.

As before, let's take a look at the entire updated cluster.conf file, then we'll focus in on the new service section.

<?xml version="1.0"?>
<cluster name="an-cluster-A" config_version="10">
        <cman expected_votes="1" two_node="1" />
        <clusternodes>
                <clusternode name="an-node01.alteeve.ca" nodeid="1">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an01" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="1" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
                <clusternode name="an-node02.alteeve.ca" nodeid="2">
                        <fence>
                                <method name="ipmi">
                                        <device name="ipmi_an02" action="reboot" />
                                </method>
                                <method name="pdu">
                                        <device name="pdu2" port="2" action="reboot" />
                                </method>
                        </fence>
                </clusternode>
        </clusternodes>
        <fencedevices>
                <fencedevice name="ipmi_an01" agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" passwd="secret" />
                <fencedevice name="ipmi_an02" agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" passwd="secret" />
                <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2" />
        </fencedevices>
        <fence_daemon post_join_delay="30" />
        <totem rrp_mode="none" secauth="off"/>
        <rm>
                <resources>
                        <script file="/etc/init.d/drbd" name="drbd"/>
                        <script file="/etc/init.d/clvmd" name="clvmd"/>
                        <script file="/etc/init.d/gfs2" name="gfs2"/>
                        <script file="/etc/init.d/libvirtd" name="libvirtd"/>
                </resources>
                <failoverdomains>
                        <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                                <failoverdomainnode name="an-node01.alteeve.ca"/>
                        </failoverdomain>
                        <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                                <failoverdomainnode name="an-node02.alteeve.ca"/>
                        </failoverdomain>
                </failoverdomains>
                <service name="storage_an01" autostart="1" domain="only_an01" exclusive="0" recovery="restart">
                        <script ref="drbd">
                                <script ref="clvmd">
                                        <script ref="gfs2">
                                                <script ref="libvirtd"/>
                                        </script>
                                </script>
                        </script>
                </service>
                <service name="storage_an02" autostart="1" domain="only_an02" exclusive="0" recovery="restart">
                        <script ref="drbd">
                                <script ref="clvmd">
                                        <script ref="gfs2">
                                                <script ref="libvirtd"/>
                                        </script>
                                </script>
                        </script>
                </service>
        </rm>
</cluster>

With the version now at 10, we have added two <service...>...</service> elements. Each containing a four <script ...> type resources in a service tree configuration. Let's take a closer look.

		<service name="storage_an01" autostart="1" domain="only_an01" exclusive="0" recovery="restart">
			<script ref="drbd">
				<script ref="clvmd">
					<script ref="gfs2">
						<script ref="libvirtd"/>
					</script>
				</script>
			</script>
		</service>
		<service name="storage_an02" autostart="1" domain="only_an02" exclusive="0" recovery="restart">
			<script ref="drbd">
				<script ref="clvmd">
					<script ref="gfs2">
						<script ref="libvirtd"/>
					</script>
				</script>
			</script>
		</service>

The <service ...>...</service> elements have five attributes each;

  • The name="..." attribute is a unique name that will be used to identify the service, as we will see later.
  • The autostart="1" attribute tells the cluster that, when it starts, it should automatically start this service.
  • The domain="..." attribute tells the cluster which fail-over domain this service must run within. The two otherwise identical services each point to a different fail-over domain, as we discussed in the previous section.
  • The exclusive="0" attribute tells the cluster that a node running this service is allowed to to have other services running as well.
  • The recovery="restart" attribute sets the service recovery policy. As the name implies, the cluster will try to restart this service should it fail. Should the service fail multiple times in a row, it will be disabled. The exact number of failures allowed before disabling is configurable using the optional max_restarts and restart_expire_time attributes, which are not covered here.
Warning: It is a fairly common mistake to interpret exclusive to mean that a service is only allowed to run on one node at a time. This is not the case, please do not use this attribute incorrectly.

Within each of the two <service ...>...</service> attributes are four <script...> type resources. These are configured as a service tree in the order;

  • drbd -> clvmd -> gfs2 -> libvirtd.

Each of these <script ...> elements has just one attribute; ref="..." which points to a corresponding script resource.

The logic for this particular resource tree is;

  • DRBD needs to start so that the bare clustered storage devices become available.
  • Clustered LVM must next start so that the logical volumes used by GFS2 and our VMs become available.
  • The GFS2 partition contains the XML definition files needed to start our virtual machines.
  • Finally, libvirtd must be running for the virtual machines to be able to run. By putting this daemon in the resource tree, we can ensure that no attempt to start a VM will succeed until all of the clustered storage stack is available.

From the other direction, we need the stop order to be organized in the reverse order.

  • Stopping libvirtd would cause any remaining running VMs to stop. If a VM is blocking, it will prevent libvirtd from stopping and, thus, delay any of our other clustered storage resources from attempting to stop.
  • We need the GFS2 partition to unmount after the VM goes down and before Clustered LVM map stop.
  • With all VMs and the GFS2 partition stopped, we can safely say that all LVs are no longer in use and thus clvmd can stop.
  • With Clustered LVM now stopped, nothing should be using our DRBD resources any more, so we can safely stop them, too.

All in all, it's a surprisingly simple and effective configuration.

Validating And Pushing The Changes

We've made a big change, so it's all the more important that we validate the config before proceeding.

ccs_config_validate
Configuration validates

We need to now tell the cluster to use the new configuration file. Unlike last time, we won't use rsync. Now that the cluster is up and running, we can use it to push out the updated configuration file using cman_tool. This is the first time we've used the cluster to push out an updated cluster.conf file, so we will have to enter the password we set earlier for the ricci user on both nodes.

cman_tool version -r
You have not authenticated to the ricci daemon on an-node01.alteeve.ca
Password:
You have not authenticated to the ricci daemon on an-node02.alteeve.ca
Password:

If you were watching syslog, you will have seen an entries like the ones below.

Dec 14 20:39:08 an-node01 modcluster: Updating cluster.conf
Dec 14 20:39:12 an-node01 corosync[2360]:   [QUORUM] Members[2]: 1 2

Now we can confirm that both nodes are using the new configuration by re-running the cman_tool version command, but without the -r switch.

On both;

cman_tool version
6.2.0 config 10

Checking The Cluster's Status

Now let's look at a new tool; clustat, cluster status. We'll be using clustat extensively from here on out to monitor the status of the cluster members and managed services. It does not manage the cluster in any way, it is simply a status tool. We'll see how

Here is what it should look like when run from an-node01.

clustat
Cluster Status for an-cluster-A @ Wed Dec 14 20:45:04 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local
 an-node02.alteeve.ca                       2 Online

At this point, we're only running the foundation of the cluster, so we can only see which nodes are in the cluster. We've added resources to the cluster configuration though, so it's time to start the resource layer as well, which is managed by the rgmanager daemon.

At this time, we're still starting the cluster manually after each node boots, so we're going to make sure that rgmanager is disabled at boot.

chkconfig rgmanager off
chkconfig --list rgmanager
rgmanager      	0:off	1:off	2:off	3:off	4:off	5:off	6:off

Now let's start it.

Note: We've configured the storage services to start automatically. When we start rgmanager now, it will start the storage resources, including DRBD. In turn, DRBD will stop up to five minutes and wait for its peer. This will cause the first node you start rgmanager on to appear to hang until the other node's rgmanager has started DRBD as well.
/etc/init.d/rgmanager start
Starting Cluster Service Manager:                          [  OK  ]

Now let's run clustat again, and see what's new.

clustat
Cluster Status for an-cluster-A @ Wed Dec 14 20:52:11 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started

What we see are two section; The top section shows the cluster members and the lower part covers the managed resources.

We can see that both members, an-node01.alteeve.ca and an-node02.alteeve.ca are Online, meaning that cman is running and that they've joined the cluster. It also shows us that both members are running rgmanager. You will always see Local beside the name of the node you ran the actual clustat command from.

Under the services, you can see the two new services we created with the service: prefix. We can see that each service is started, meaning that all four of the resources are up and running properly and which node each service is running on.

Note that the two storage services are running, despite not having started them? That is because the rgmanager service was started earlier. When we pushed out the updated configuration, rgmanager saw the two new storage services had autostart="1" and started them. If you check your storage services now, you will see that they are all online.

DRBD;

/etc/init.d/drbd status
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
m:res  cs         ro               ds                 p  mounted  fstype
0:r0   Connected  Primary/Primary  UpToDate/UpToDate  C
1:r1   Connected  Primary/Primary  UpToDate/UpToDate  C
2:r2   Connected  Primary/Primary  UpToDate/UpToDate  C

Clustered LVM;

pvscan; vgscan; lvscan
  PV /dev/drbd2   VG an02-vg0     lvm2 [201.25 GiB / 201.25 GiB free]
  PV /dev/drbd1   VG an01-vg0     lvm2 [201.62 GiB / 201.62 GiB free]
  PV /dev/drbd0   VG shared-vg0   lvm2 [18.61 GiB / 0    free]
  Total: 3 [421.48 GiB] / in use: 3 [421.48 GiB] / in no VG: 0 [0   ]
  Reading all physical volumes.  This may take a while...
  Found volume group "an02-vg0" using metadata type lvm2
  Found volume group "an01-vg0" using metadata type lvm2
  Found volume group "shared-vg0" using metadata type lvm2
  ACTIVE            '/dev/shared-vg0/shared' [18.61 GiB] inherit

GFS2;

/etc/init.d/gfs2 status
Configured GFS2 mountpoints: 
Configured GFS2 mountpoints: 
/shared
Active GFS2 mountpoints: 
/shared

Nice, eh?

Managing Cluster Resources

Managing services in the cluster is done with a fairly simple tool called clusvcadm.

The main commands we're going to look at shortly are:

  • clusvcadm -e <service> -m <node>: Enable the <service> on the specified <node>. When a <node> is not specified, the local node where the command was run is assumed.
  • clusvcadm -d <service>: Disable the <service>.

There are other ways to use clusvcadm which we will look at after the virtual servers are provisioned and under cluster control.

Stopping Clustered Storage - A Preview To Cold-Stopping The Cluster

To stop the storage services, we'll use the rgmanager command line tool clusvcadm, the cluster service administrator. Specifically, we'll use its -d switch, which tells rgmanager to disable the service.

Note: Services with the service: prefix can be called with their name alone. As we will see later, other services will need to have the service type prefix included.

As always, confirm the current state of affairs before starting. On both nodes, run clustat to confirm that the storage services are up.

clustat
Cluster Status for an-cluster-A @ Tue Dec 20 20:37:42 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started

They are, so now lets gracefully shut them down.

On an-node01, run:

clusvcadm -d storage_an01
Local machine disabling service:storage_an01...Success

If we now run clustat from either node, we should see this;

clustat
Cluster Status for an-cluster-A @ Tue Dec 20 20:38:28 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           (an-node01.alteeve.ca)        disabled      
 service:storage_an02           an-node02.alteeve.ca          started

Notice how service:storage_an01 is now in the disabled state? If you check the status of drbd now on an-node02 you will see that an-node01 is indeed down.

/etc/init.d/drbd status
drbd driver loaded OK; device status:
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
m:res  cs            ro               ds                 p  mounted  fstype
0:r0   WFConnection  Primary/Unknown  UpToDate/Outdated  C
1:r1   WFConnection  Primary/Unknown  UpToDate/Outdated  C
2:r2   WFConnection  Primary/Unknown  UpToDate/Outdated  C

If you want to shut down the entire cluster, you will need to stop the storage_an02 service as well. For fun, let's do this, but lets stop the service from an-node01;

clusvcadm -d storage_an02
Local machine disabling service:storage_an02...Success

Now on both nodes, we should see this from clustat;

clustat
Cluster Status for an-cluster-A @ Tue Dec 20 20:39:55 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           (an-node01.alteeve.ca)        disabled      
 service:storage_an02           (an-node02.alteeve.ca)        disabled
Warning: If you are not doing a cold shut-down of the cluster, you will want to skip this step and just stop rgmanager. The reason is that the autostart="1" value only gets evaluated when quorum is gained. If you disable the storage_anXX service and then reboot the node, the cluster has not lost quorum. Thus, when the node rejoins the cluster, the storage service will not automatically start.

We can now, if we wanted to, stop the rgmanager and cman daemons. This is, in fact, how we will cold-stop the cluster from now on.

We'll cover cold stopping the cluster after we finish provisioning VMs.

Starting Clustered Storage

Normally from now on, the clustered storage will start automatically. However, it's a good exercise to look at how to manually start them, just in case.

The main difference from stopping the service is that we swap the -d switch for the -e, enable, switch. We will also add the target cluster member name using the -m switch. We didn't need to use the member switch while stopping because the cluster could tell where the service was running and, thus, which member to contact to stop the service.

Should you omit the member name, the cluster will try to use the local node as the target member. Note though that a target service will start on the node the command was issued on, regardless of the fail-over domain's ordered policy. That is to say, a service will not start on another node in the cluster when the member option is not specified, despite the fail-over configuration set to prefer another node.

Note: The storage services need to start at about the same time on both nodes. This is because the initially started storage service will hang when it tries to start drbd until either the other node is up or until it times out. For this reason, be sure to have two terminal windows open to make then next two calls simultaneously.

On an-node01, run;

clusvcadm -e storage_an01 -m an-node01.alteeve.ca
Member an-node01.alteeve.ca trying to enable service:storage_an01...Success
service:storage_an01 is now running on an-node01.alteeve.ca

On an-node02, run;

clusvcadm -e storage_an02 -m an-node02.alteeve.ca
Member an-node02.alteeve.ca trying to enable service:storage_an02...Success
service:storage_an02 is now running on an-node02.alteeve.ca

Now clustat on either node should again show the storage services running again.

clustat
Cluster Status for an-cluster-A @ Tue Dec 20 21:09:19 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started

A Note On Resource Management With DRBD

When the cluster starts for the first time, where neither node's DRBD storage was up, the first node to start will wait for /etc/drbd.d/global_common.conf's wfc-timeout seconds (300 in our case) for the second node to start. For this reason, we want to ensure that we enable the storage resources more or less at the same time and from two different terminals. The reason for two terminals is that the clusvcadm -e ... command won't return until all resources have started, so you need the second terminal window to start the other node's clustered storage service while the first one waits.

If the clustered storage service ever fails, look in syslog's /var/log/messages for a split-brain error. Look for a message like:

Mar 29 20:24:37 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm initial-split-brain minor-2
Mar 29 20:24:37 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm initial-split-brain minor-2 exit code 0 (0x0)
Mar 29 20:24:37 an-node01 kernel: block drbd2: Split-Brain detected but unresolved, dropping connection!
Mar 29 20:24:37 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm split-brain minor-2
Mar 29 20:24:37 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm split-brain minor-2 exit code 0 (0x0)
Mar 29 20:24:37 an-node01 kernel: block drbd2: conn( WFReportParams -> Disconnecting )

With the fencing hook into the cluster, this should be a very hard problem to run into. If you do though, Linbit has the authoritative guide to recover from this situation.

Provisioning Virtual Machines

Now we're getting to the purpose of our cluster; Provision virtual machines!

We have two steps left;

  • Provision our VMs.
  • Add the VMs to rgmanager.

"Provisioning" a virtual machine simple means to create it; Assign a collection of emulated hardware, connected to physical devices, to a given virtual machine and begin the process of installing the operating system on it. This tutorial is more about clustering than it is about virtual machine administration, so some experience with managing virtual machines has to be assumed. If you need to brush up, here are some resources;

When you feel comfortable, proceed.

Before We Begin - Setting Up Our Workstation

The virtual machines are, for obvious reasons, headless. That is, they have no real video card into which we can plug a monitor and watch the progress of the install. This would, left unresolved, make it pretty hard to install the operating systems as there is simply no network in the early stages of most operating system installations.

Part of the libvirtd package is a program called virt-manager which is available on most all modern Linux distributions. This application makes it very easy to connect to our virtual machines, regardless of their network state.

How you install this will depend on your workstation.

On RPM-based systems, try:

yum install virt-manager

On deb based systems, try:

apt-get install virt-manager

On SUSE-based systems, try;

zypper install virt-manager

Once it is installed, you need to determine whether your workstation is on the IFN or BCN. I've got my laptop on the BCN, so I will connect to the nodes using just their short host names. If you're on the same IFN as the nodes, you will need to append .ifn to the host names.

Initial installation of virt-manager.

To connect to the the cluster nodes;

  1. Click on File -> Add Connection....
  2. Make sure that Hypervisor is set to QEMU/KVM.
  3. Click to check Connect to remote host.
  4. Make sure that Method is set to SSH/span>.
  5. Make sure that Username is set to root.
  6. Enter the Hostname using the proper entry from /etc/hosts (ie: an-node01 or an-node01.ifn)
  7. Click on the button labelled Connect.
  8. Repeat these steps for the other node.
New connection window.

Once your two nodes have been added to virt-manager, you should see both nodes as connected, but no VMs will be shown as we've not yet provisioned any yet.

Two nodes added to virt-manager.

We'll come back to virt-manager shortly.

Provision Planning

Before we can start creating virtual machines, we need to take stock of what resources we have available and how we want to divy them out to the VMs.

In my cluster, I've got 200 GiB available on each of my two nodes.

vgdisplay |grep -i -e free -e "vg name"
  VG Name               an02-vg0
  Free  PE / Size       51521 / 201.25 GiB
  VG Name               an01-vg0
  Free  PE / Size       51615 / 201.62 GiB
  VG Name               shared-vg0
  Free  PE / Size       0 / 0

I know I have 8 GiB of memory, but I have to slice off a certain amount of that for the host OS. I've got my nodes sitting about where they will be normally, so I can check how much memory is in use fairly easily.

cat /proc/meminfo |grep -e MemTotal -e MemFree
MemTotal:        8050312 kB
MemFree:         7432288 kB

I'm sitting about about 604 MiB used (8,050,312 KiB - 7,432,288 KiB == 618,024 KiB / 1,024 == 603.54 MiB). I think I can safely operate within 1 GiB, leaving me 7 GiB of RAM to allocate to VMs.

Next up, I need to confirm how many CPU cores I have available.

cat /proc/cpuinfo |grep processor
processor	: 0
processor	: 1
processor	: 2
processor	: 3

I've got four, and I like to dedicate the first one to the host OS, so I've got three to allocate to my VMs.

On the network front, I know I've got two bridges, one to the IFN and one to the BCN.

So let's summarize:

  • 400 GiB of space, 200 GiB per DRBD resource.
  • 7 GiB of RAM.
  • 3 CPU cores (can over-allocate).
  • 1 network bridge, vbr2.

With this list in mind, we can now start planning out the VMs.

The network can share the same subnet as the IFN if you wish, but I prefer to isolate my VMs from the IFN using a different subnet, 10.254.0.0/16. This is, admittedly, "security by obscurity" and in no way is it a replacement for proper isolation. In production, you will want to setup firewalls on you nodes to prevent access from virtual machines.

With that said, here is what we will install now. Obviously, you will have other needs and goals. Mine is an admittedly artificial network.

  • A development server. This would be used for testing, so it will have more modest resources.
  • A web server, which will mainly use a DB server, so will need CPU and RAM, but not much disk.
  • A database server.
  • A windows server. I don't exactly have a use for it, except to show how to install a Windows VM for those who do need it.

Now to divvy up the resources;

VM Name Primary Host Disk CPU RAM IFN OS
Dev Server vm0001-dev an-node01 150 GiB 1 GiB 2 core 10.254.0.1/16 CentOS 6
Web Server vm0002-web an-node01 50 GiB 2 GiB 2 cores 10.254.0.2/16 CentOS 6
Database Server vm0003-db an-node02 100 GiB 2 GiB 2 cores 10.254.0.3/16 CentOS 6
Web Server vm0004-ms an-node02 100 GiB 2 GiB 2 cores 10.254.0.4/16 Windows Server 2008 R2 64-bit

Notice that we've over-allocated the CPU cores? This is ok. We're going to restrict the VMs to CPU cores number 1 through 3, leaving core number 0 for the host OS. When all of the VMs are running on one node, the hypervisor's scheduler will handle shuffling jobs from the VMs' cores to the real cores that are least loaded at a given time.

As for the RAM though, we can not use more than we have. We're going to leave 1 GiB for the host, so we'll divvy the remaining 7 GiB between the VMs. Remember, we have to plan for when all four VMs will run on just one node.

A Note on VM Configuration

It would be a questionably valueable divertion to cover the setup of each VM. It will be up to you, reader, to setup each VM however you like.

Provisioning vm0001-dev

Note: We're going to spend a lot more time on this first VM, so bear with me here, even if you aren't interested in creating a VM like this.

Before we can provision, we need to gather whatever install source we'll need for the VM. This can be a simple ISO file, as we'll see on the windows install later, or it can be files on a web server, which we'll use here. We'll also need to create the "hard drive" for the VM, which will be a new LV. Finally, we'll craft the virt-install command which will begin the actual OS install.

This being a Linux machine, we can provision this using a network. Conveniently, I've got a PXE server setup with the CentOS install files available on my local network at http://10.255.255.254/c6/x86_64/img/. You don't need to have a full PXE server setup, mounting the install ISO and pointing a web server at the mounted directory would work just fine. I'm also going to further customize my install by using a kickstart file which, effectively, pre-answers the installation questions so that the install is fully automated.

So, let's create the new LV. I know that this machine will be primarily run on an-node01 and that it will be 150 GiB. I personally always name the LVs as vmXXXX-Y, where X is the VM's name and the Y is a simple integer. You are obviously free to use whatever makes most sense to you.

Creating vm0001-dev's Storage

With that, the lvcreate call is;

On an-node01, run;

lvcreate -L 150G -n vm0001-1 /dev/an01-vg0
  Logical volume "vm0001-1" created

Creating vm0001-dev's virt-install Call

Now with the storage created, we can craft the virt-install command. I like to put this into a file under the /shared/provision/ directory for future reference. Let's take a look at the command, then we'll discuss what the switches are for.

touch /shared/provision/vm0001-dev.sh
chmod 755 /shared/provision/vm0001-dev.sh 
vim /shared/provision/vm0001-dev.sh
virt-install --connect qemu:///system \
  --name vm0001-dev \
  --ram 1024 \
  --arch x86_64 \
  --vcpus 1 \
  --location http://10.255.255.254/c6/x86_64/img/ \
  --extra-args "ks=http://10.255.255.254/c6/x86_64/ks/c6_minimal.ks" \
  --os-type linux \
  --os-variant rhel6 \
  --disk path=/dev/an01-vg0/vm0001-1 \
  --network bridge=vbr2 \
  --vnc
Note: Don't use tabs to indent the lines.

Let's break it down;

  • --connect qemu:///system

This tells virt-install to use the QEMU hardware emulator (as opposed to Xen) and to install the VM on to local system.

  • --name vm0001-dev

This sets the name of the VM. It is the name we will use in the cluster configuration and whenever we use the libvirtd tools, like virsh.

  • --ram 1024

This sets the amount of RAM, in MiB, to allocate to this VM. Here, we're allocating 1 GiB (1,024 MiB).

  • --arch x86_64

This sets the emulated CPU's architecture to 64-bit. This can be used even when you plan to install a 32-bit OS, but not the other way around, of course.

  • --vcpus 1

This sets the number of CPU cores to allocate to this VM. Here, we're setting just one.

  • --location http://10.255255.254/c6/x86_64/img/

This tells virt-install to pull the installation files from the URL specified.

  • --extra-args "ks=http://10.255.255.254/c6/x86_64/ks/c6_minimal.ks"

This is an optional command used to pass the install kernel arguments. Here, I'm using it to tell the kernel to grab the specified kickstart file for use during the installation.

Note: If you want to copy the kickstart script used in this tutorial, you can find it here.
  • --os-type linux

This broadly sets hardware emulation for optimal use with Linux-based virtual machines.

  • --os-variant rhel6

This further refines tweaks to the hardware emulation to maximize performance for RHEL6 (and derivative) installs.

  • --disk path=/dev/an01-vg0/vm0001-1

This tells the installer to use the LV we created earlier as the backing storage device for the new virtual machine.

  • --network bridge=vbr2

This tells the installer to create a network card in the VM and to then connect it to the vbr2 bridge, thus connecting the VM to the IFN. Optionally, you could add ,model=e1000 option to tells the emulator to mimic an Intel e1000 hardware NIC. The default is to use the virtio virtualized network card. If you have two or more bridges, you can repeat the --network switch as many times as you need.

  • --vnc

This tells virt-manager to create a VNC server on the VM and, if possible, immediately connect it the just-provisioned VM. With a minimal install on the nodes, the automatically spawned client will fail. This is fine, just use virt-manager from my workstation.

Note: If you close the initial VNC window and want to reconnect to the VM, you can simply open up virt-manager, connect to the an-node01 host if needed, and double-click on the vm0001-dev entry. This will effectively "plug a monitor into the VM".

Initializing vm0001-dev's Install

Well, time to start the install!

On an-node01, run;

/shared/provision/vm0001-dev.sh
Starting install...
Retrieving file .treeinfo...                             |  676 B     00:00 ... 
Retrieving file vmlinuz...                               | 7.5 MB     00:00 ... 
Retrieving file initrd.img...                            |  59 MB     00:02 ... 
Creating domain...                                       |    0 B     00:00     
WARNING  Unable to connect to graphical console: virt-viewer not installed. Please install the 'virt-viewer' package.
Domain installation still in progress. You can reconnect to 
the console to complete the installation process.

And it's off!

Initial provision of vm0001-dev.

Progressing nicely.

Installation of vm0001-dev proceeding as expected.

And done! Note that, depending on your kickstart file, it may have automatically rebooted or you may need to reboot manually.

Note: I've found that there are occassions where the VM will power off instead of rebooting. With virt-manager, you can click to select the new VM and then press the "play" button to boot the VM manually.
Installation of vm0001-dev complete.

Defining vm0001-dev On an-node02

We can use virsh to see that the new virtual machine exists and what state it is in. Note that I've gotten into the habit of using --all to get around virsh's default behaviour of hiding VMs that are off.

On an-node01;

virsh list --all
 Id Name                 State
----------------------------------
  2 vm0001-dev           running

On an-node02;

virsh list --all
 Id Name                 State
----------------------------------

As we see, the new vm0001-dev is only known to an-node01. This is, in and of itself, just fine.

We're going to need to put the virtual machine's XML definition file in a common place accessible on both nodes. This could be matching but separate directories on either node, or it can be a common shared location. As we've got the cluster's /shared GFS2 partition, we're going to use the /shared/definitions directory we create earlier. This avoids the need to remember to keep two copies of the file in sync across both nodes.

To backup the VM's configuration, we'll again use virsh, but this time with the dumpxml command.

On an-node01;

virsh dumpxml vm0001-dev > /shared/definitions/vm0001-dev.xml
cat /shared/definitions/vm0001-dev.xml
<domain type='kvm' id='2'>
  <name>vm0001-dev</name>
  <uuid>2512b2dd-a1a8-f990-2a0d-6c41968ab3f8</uuid>
  <memory>1048576</memory>
  <currentMemory>1048576</currentMemory>
  <vcpu>1</vcpu>
  <os>
    <type arch='x86_64' machine='rhel6.2.0'>hvm</type>
    <boot dev='network'/>
    <boot dev='cdrom'/>
    <boot dev='hd'/>
    <bootmenu enable='yes'/>
  </os>
  <features>
    <acpi/>
    <apic/>
    <pae/>
  </features>
  <clock offset='utc'/>
  <on_poweroff>destroy</on_poweroff>
  <on_reboot>restart</on_reboot>
  <on_crash>restart</on_crash>
  <devices>
    <emulator>/usr/libexec/qemu-kvm</emulator>
    <disk type='block' device='disk'>
      <driver name='qemu' type='raw' cache='none' io='native'/>
      <source dev='/dev/an01-vg0/vm0001-1'/>
      <target dev='vda' bus='virtio'/>
      <alias name='virtio-disk0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x04' function='0x0'/>
    </disk>
    <interface type='bridge'>
      <mac address='52:54:00:9b:3c:f7'/>
      <source bridge='vbr2'/>
      <target dev='vnet0'/>
      <model type='virtio'/>
      <alias name='net0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x03' function='0x0'/>
    </interface>
    <serial type='pty'>
      <source path='/dev/pts/2'/>
      <target port='0'/>
      <alias name='serial0'/>
    </serial>
    <console type='pty' tty='/dev/pts/2'>
      <source path='/dev/pts/2'/>
      <target type='serial' port='0'/>
      <alias name='serial0'/>
    </console>
    <input type='tablet' bus='usb'>
      <alias name='input0'/>
    </input>
    <input type='mouse' bus='ps2'/>
    <graphics type='vnc' port='5900' autoport='yes'/>
    <video>
      <model type='cirrus' vram='9216' heads='1'/>
      <alias name='video0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x02' function='0x0'/>
    </video>
    <memballoon model='virtio'>
      <alias name='balloon0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x05' function='0x0'/>
    </memballoon>
  </devices>
</domain>

There we go; That is the emulated hardware on which your virtual machine exists. Pretty neat, eh?

I like to keep all of my VMs defined on all of my nodes. This is entirely optional, as the cluster will define the VM on a target node when needed. It is, though, a good chance to examine how this is done manually.

On an-node02;

virsh define /shared/definitions/vm0001-dev.xml
Domain vm0001-dev defined from /shared/definitions/vm0001-dev.xml

We can confirm that it now exists by re-running virsh list --all.

virsh list --all
 Id Name                 State
----------------------------------
  - vm0001-dev           shut off

You should also now be able to see vm0001-dev under an-node02 in your virt-manager window. It will be listed as shutoff, which is expected. Do not try to turn it on while it's running on the other node!

Provisioning vm0002-web

This installation will be pretty much the same as it was for vm0001-dev, so we'll look mainly at the differences.

Creating vm0002-web's Storage

We'll use lvcreate again, but this time we won't specify a specific size, but instead a percentage of the remainin free space will be defined. Note that the -L switch changes to -l;

On an-node01, run;

lvcreate -l 100%FREE -n vm0002-1 /dev/an01-vg0
  Logical volume "vm0002-1" created

Creating vm0002-web's virt-install Call

The virt-install command will be quite similar to the previous one.

touch /shared/provision/vm0002-web.sh
chmod 755 /shared/provision/vm0002-web.sh 
vim /shared/provision/vm0002-web.sh
virt-install --connect qemu:///system \
  --name vm0002-web \
  --ram 2048 \
  --arch x86_64 \
  --vcpus 2 \
  --location http://10.255.255.254/c6/x86_64/img/ \
  --extra-args "ks=http://10.255.255.254/c6/x86_64/ks/c6_minimal.ks" \
  --os-type linux \
  --os-variant rhel6 \
  --disk path=/dev/an01-vg0/vm0002-1 \
  --network bridge=vbr2 \
  --vnc

Lets look at the differences;

  • --name vm0002-web; This sets the new name of the VM.
  • --ram 2048; This doubles the amount of RAM to 2048 MiB.
  • --vcpus 2; This sets the number of CPU cores to two.
  • --disk path=/dev/an01-vg0/vm0002-1; The path to the new LV is set.

Note that the same kickstart file from before is used. This is fine as it doesn't specify a specific IP address and it is smart enough to adapt to the new virtual disk size.

Initializing vm0002-web's Install

Well, time to start the install!

On an-node01, run;

/shared/provision/vm0002-web.sh
Starting install...
Retrieving file .treeinfo...                             |  676 B     00:00 ... 
Retrieving file vmlinuz...                               | 7.5 MB     00:00 ... 
Retrieving file initrd.img...                            |  59 MB     00:02 ... 
Creating domain...                                       |    0 B     00:00     
WARNING  Unable to connect to graphical console: virt-viewer not installed. Please install the 'virt-viewer' package.
Domain installation still in progress. You can reconnect to 
the console to complete the installation process.

The install should proceed more or less the same as it did for vm0001-dev.

Defining vm0002-web On an-node02

We can use virsh to see that the new virtual machine exists and what state it is in. Note that I've gotten into the habit of using --all to get around virsh's default behaviour of hiding VMs that are off.

On an-node01;

virsh list --all
 Id Name                 State
----------------------------------
  2 vm0001-dev           running
  4 vm0002-web           running

On an-node02;

virsh list --all
 Id Name                 State
----------------------------------
  - vm0001-dev           shut off

As before, the new vm0002-web is only known to an-node01.

On an-node01;

virsh dumpxml vm0002-web > /shared/definitions/vm0002-web.xml
cat /shared/definitions/vm0002-web.xml
<domain type='kvm' id='4'>
  <name>vm0002-web</name>
  <uuid>02f967ab-103f-c276-c40f-9eaa47339df4</uuid>
  <memory>2097152</memory>
  <currentMemory>2097152</currentMemory>
  <vcpu>2</vcpu>
  <os>
    <type arch='x86_64' machine='rhel6.2.0'>hvm</type>
    <boot dev='hd'/>
  </os>
  <features>
    <acpi/>
    <apic/>
    <pae/>
  </features>
  <clock offset='utc'/>
  <on_poweroff>destroy</on_poweroff>
  <on_reboot>restart</on_reboot>
  <on_crash>restart</on_crash>
  <devices>
    <emulator>/usr/libexec/qemu-kvm</emulator>
    <disk type='block' device='disk'>
      <driver name='qemu' type='raw' cache='none' io='native'/>
      <source dev='/dev/an01-vg0/vm0002-1'/>
      <target dev='vda' bus='virtio'/>
      <alias name='virtio-disk0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x04' function='0x0'/>
    </disk>
    <interface type='bridge'>
      <mac address='52:54:00:65:39:60'/>
      <source bridge='vbr2'/>
      <target dev='vnet1'/>
      <model type='virtio'/>
      <alias name='net0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x03' function='0x0'/>
    </interface>
    <serial type='pty'>
      <source path='/dev/pts/3'/>
      <target port='0'/>
      <alias name='serial0'/>
    </serial>
    <console type='pty' tty='/dev/pts/3'>
      <source path='/dev/pts/3'/>
      <target type='serial' port='0'/>
      <alias name='serial0'/>
    </console>
    <input type='tablet' bus='usb'>
      <alias name='input0'/>
    </input>
    <input type='mouse' bus='ps2'/>
    <graphics type='vnc' port='5901' autoport='yes'/>
    <video>
      <model type='cirrus' vram='9216' heads='1'/>
      <alias name='video0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x02' function='0x0'/>
    </video>
    <memballoon model='virtio'>
      <alias name='balloon0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x05' function='0x0'/>
    </memballoon>
  </devices>
</domain>

There we go; That is the emulated hardware on which your virtual machine exists. Pretty neat, eh?

I like to keep all of my VMs defined on all of my nodes. This is entirely optional, as the cluster will define the VM on a target node when needed. It is, though, a good chance to examine how this is done manually.

On an-node02;

virsh define /shared/definitions/vm0002-web.xml
Domain vm0002-web defined from /shared/definitions/vm0002-web.xml

We can confirm that it now exists by re-running virsh list --all.

virsh list --all
 Id Name                 State
----------------------------------
  - vm0001-dev           shut off
  - vm0002-web           shut off

Provisioning vm0003-db

This installation will, again, be pretty much the same as it was for vm0001-dev and vm0002-web, so we'll again look mainly at the differences.

Creating vm0003-db's Storage

We'll use lvcreate again, but being the first LV on the an02-vg0, we'll specify the specific size again.

On an-node01, run;

lvcreate -L 100G -n vm0003-1 /dev/an02-vg0
  Logical volume "vm0003-1" created

Creating vm0003-db's virt-install Call

The virt-install command will be quite similar to the previous one.

touch /shared/provision/vm0003-db.sh
chmod 755 /shared/provision/vm0003-db.sh 
vim /shared/provision/vm0003-db.sh
virt-install --connect qemu:///system \
  --name vm0003-db \
  --ram 2048 \
  --arch x86_64 \
  --vcpus 2 \
  --location http://10.255.255.254/c6/x86_64/img/ \
  --extra-args "ks=http://10.255.255.254/c6/x86_64/ks/c6_minimal.ks" \
  --os-type linux \
  --os-variant rhel6 \
  --disk path=/dev/an02-vg0/vm0003-1 \
  --network bridge=vbr2 \
  --vnc

Lets look at the differences;

  • --name vm0003-db; This sets the new name of the VM.
  • --disk path=/dev/an02-vg0/vm0003-1; The path to the new LV is set. Note that the VG has changed as this VM will run in an-node02 normally.

Initializing vm0003-db's Install

This time we're going to provision the new VM on an-node02, as that is where it will live normally.

On an-node02, run;

/shared/provision/vm0003-db.sh
Starting install...
Retrieving file .treeinfo...                             |  676 B     00:00 ... 
Retrieving file vmlinuz...                               | 7.5 MB     00:00 ... 
Retrieving file initrd.img...                            |  59 MB     00:02 ... 
Creating domain...                                       |    0 B     00:00     
WARNING  Unable to connect to graphical console: virt-viewer not installed. Please install the 'virt-viewer' package.
Domain installation still in progress. You can reconnect to 
the console to complete the installation process.

The install should proceed more or less the same as it did for vm0001-dev and vm0002-web.

Defining vm0003-db On an-node01

We can use virsh to see that the new virtual machine exists and what state it is in. Note that I've gotten into the habit of using --all to get around virsh's default behaviour of hiding VMs that are off.

On an-node02;

virsh list --all
 Id Name                 State
----------------------------------
  2 vm0003-db            running
  - vm0001-dev           shut off
  - vm0002-web           shut off

On an-node01;

virsh list --all
 Id Name                 State
----------------------------------
  2 vm0001-dev           running
  4 vm0002-web           running

To backup the VM's configuration, we'll again use virsh, but this time with the dumpxml command.

On an-node02;

virsh dumpxml vm0003-db > /shared/definitions/vm0003-db.xml
cat /shared/definitions/vm0003-db.xml
<domain type='kvm' id='2'>
  <name>vm0003-db</name>
  <uuid>a7018001-b433-b739-bbd9-d4d3285f0a72</uuid>
  <memory>2097152</memory>
  <currentMemory>2097152</currentMemory>
  <vcpu>2</vcpu>
  <os>
    <type arch='x86_64' machine='rhel6.2.0'>hvm</type>
    <boot dev='hd'/>
  </os>
  <features>
    <acpi/>
    <apic/>
    <pae/>
  </features>
  <clock offset='utc'/>
  <on_poweroff>destroy</on_poweroff>
  <on_reboot>restart</on_reboot>
  <on_crash>restart</on_crash>
  <devices>
    <emulator>/usr/libexec/qemu-kvm</emulator>
    <disk type='block' device='disk'>
      <driver name='qemu' type='raw' cache='none' io='native'/>
      <source dev='/dev/an02-vg0/vm0003-1'/>
      <target dev='vda' bus='virtio'/>
      <alias name='virtio-disk0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x04' function='0x0'/>
    </disk>
    <interface type='bridge'>
      <mac address='52:54:00:44:83:ec'/>
      <source bridge='vbr2'/>
      <target dev='vnet0'/>
      <model type='virtio'/>
      <alias name='net0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x03' function='0x0'/>
    </interface>
    <serial type='pty'>
      <source path='/dev/pts/2'/>
      <target port='0'/>
      <alias name='serial0'/>
    </serial>
    <console type='pty' tty='/dev/pts/2'>
      <source path='/dev/pts/2'/>
      <target type='serial' port='0'/>
      <alias name='serial0'/>
    </console>
    <input type='tablet' bus='usb'>
      <alias name='input0'/>
    </input>
    <input type='mouse' bus='ps2'/>
    <graphics type='vnc' port='5900' autoport='yes'/>
    <video>
      <model type='cirrus' vram='9216' heads='1'/>
      <alias name='video0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x02' function='0x0'/>
    </video>
    <memballoon model='virtio'>
      <alias name='balloon0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x05' function='0x0'/>
    </memballoon>
  </devices>
</domain>

On an-node01;

virsh define /shared/definitions/vm0003-db.xml
Domain vm0003-db defined from /shared/definitions/vm0003-db.xml

We can confirm that it now exists by re-running virsh list --all.

virsh list --all
 Id Name                 State
----------------------------------
  2 vm0001-dev           running
  4 vm0002-web           running
  - vm0003-db            shut off

Provisioning vm0004-ms

Now for something a little different!

This will be the Windows 2008 R2 virtual machine. The biggest difference this time will be that we're going to install from the ISO file rather than from a web-accessible store.

Another difference is that we're going to specify what kind of storage bus to use with this VM. We'll be using a special, virtualized bus called virtio which requires that the drivers be available to the OS at install time. These drivers will, in turn, be made available to the installer as a virtual floppy disk. It will make for quite the interesting virt-install call, as we'll see.

Preparing vm0004-ms's Storage

As before, we need to create the backing storage LV before we can provision the machine. As we planned, this will be a 100 GiB partition and will be on the an02-vg0 VG. Seeing as this LV will use up the rest of the free space in the VG, we'll again use the lvcreate -l 100%FREE instead of -L 100G as sometimes the numbers don't work out to be exactly the size we intend.

On an-node02, run;

lvcreate -l 100%FREE -n vm0004-1 /dev/an02-vg0
  Logical volume "vm0004-1" created

Before we proceed, we now need to put a copy of the install media, the OS's ISO and the virtual floppy disk, somewhere that the installer can access. I like to put files like this into the /shared/files/ directory we created earlier. How you put them there will be an exercise for the reader.

If you do not have a copy of Microsoft's server operating system, you can download a 30-day free trial here;

The driver for the virtio bus can be found from Red Hat here. Note that there is an ISO and a vfd (virtual floppy disk) file. You can use the ISO and mount it as a second CD-ROM if you wish. This tutorial will use the virtual floppy disk to show how floppy images can be used in VMs:

Note: The vfd no longer seems to exist upstream. As of Sep. 30, 2012, the latest available version is virtio-win-0.1-30.iso, which is an ISO (cd-rom) image. To use it, replace the line;

--disk path=/shared/files/virtio-win-1.1.16.vfd,device=floppy \

with;

--disk path=/shared/files/virtio-win-0.1-30.iso,device=cdrom \

For those wishing to use the floppy image:

Creating vm0004-ms's virt-install Call

Lets look at the virt-install command, then we'll discuss the main differences from the previous call for the firewall. As before, we'll put this command into a small shell script for later reference.

touch /shared/provision/vm0004-ms.sh
chmod 755 /shared/provision/vm0004-ms.sh 
vim /shared/provision/vm0004-ms.sh
virt-install --connect qemu:///system \
  --name vm0004-ms \
  --ram 2048 \
  --arch x86_64 \
  --vcpus 2 \
  --cdrom /shared/files/Windows_Server_2008_R2_64Bit_SP1.iso \
  --disk path=/dev/an02-vg0/vm0004-1,device=disk,bus=virtio \
  --disk path=/shared/files/virtio-win-1.1.16.vfd,device=floppy \
  --os-type windows \
  --os-variant win2k8 \
  --network bridge=vbr2 \
  --vnc

Let's look at the main differences;

  • --cdrom /shared/files/Windows_Server_2008_R2_64Bit_SP1.iso

Here we've swapped out the --location and --extra-args arguments for the --cdrom switch. This will create an emulated DVD-ROM drive and boot from it. The path and file is an ISO image of the installation media we want to use.

  • --disk path=/dev/an02-vg0/vm0004-1,device=disk,bus=virtio

This is the same line we used before, pointing to the new LV of course, but we've added options to it. Specifically, we've told the hardware emulator, QEMU, to not create the standard (ide or scsi) bus. This is a special bus that improves storage I/O on windows (and other) guests. Windows does not support this bus natively, which brings us to the next option.

  • --disk path=/shared/files/virtio-win-1.1.16.vfd,device=floppy

This mounts the emulated floppy disk with the virtio drivers that we'll need to allow windows to see the hard drive during the install.

The rest is more or less the same as before.

Initializing vm0004-ms's Install

As before, we'll run the script with the virt-install command in it.

On an-node02, run;

/shared/provision/vm0004-ms.sh
Starting install...
Creating domain...                                       |    0 B     00:00     
WARNING  Unable to connect to graphical console: virt-viewer not installed. Please install the 'virt-viewer' package.
Domain installation still in progress. Waiting for installation to complete.

This install isn't automated like the previous installs were, so we'll need to hand-hold the VM through the install.

Initial provision of vm0004-ms.

After you get click to select the Custom (advanced) installation method, you will

The Windows 2008 VM vm0004-ms doesn't see a hard drive.

Click on the Load Driver option on the bottom left. You will be presented with a window telling you your options for loading the drivers.

The Windows 2008 VM vm0004-ms driver prompt.

Click on the OK button and the installer will automatically find the virtual floppy disk and present you with the available drivers. Click to highlight Red Hat VirtIO SCSI Controller (A:\amd64\Win2008\viostor.inf) and click the Next button.

Selecting the Win2008 virtio driver.

At this point, the windows installer will see the virtual hard drive and you can proceed with the install as you would normally install Windows 2008 R2 server.

The Win2008 installer now is about to use the virtio-backed storage.

Once the install is complete, reboot.

Installation of vm0004-ms complete.

Post-Install Housekeeping

We have to be careful to "eject" the virtual floppy and DVD disks from the VM. If you neglect to do so, then later delete the files, virsh will fail to boot the VMs and undefine them entirely. (Yes, that is dumb, in this author's opinion). How to recover from this issue can be found below.

Note: At the time of writing this, the author could not find any manner to eject media from the command line, shy of modifying the raw XML definition file and then redefining the VM and rebooting the guest. This is part of a known bug found in libvirt prior to version 0.9.7 and EL6 ships with version 0.8.7. For this reason, we will use virt-manager here.

To "eject" the DVD-ROM and floppy drive, we will use the virt-manager graphical program. You will need to either run virt-manager on one of the nodes, or use a version of it from your workstation by connecting to the host node over SSH. This later method is what I like to do.

Using virt-manager, connect to the vm0004-ms VM.

Connecting to vm0004-ms using virt-manager from a remote workstation.

Click on View then Details and you will see the virtual machine's emulated hardware.

Looking at vm0004-ms's emulated hardware configuration.

First, let's eject the virtual floppy disk. In the left panel, click to select the Floppy 1 device.

Viewing the Floppy 1 device on vm0004-ms.

Click on the Disconnect button and the disk will be unmounted.

Viewing the Floppy 1 device after ejecting the virtual floppy disk on vm0004-ms.

Now to eject the emulated DVD-ROM, again on the left panel, click to select the IDE CDROM 1 device.

Viewing the IDE CDROM 1 device on vm0004-ms.

Click on Disconnect again to unmount the ISO image.

Viewing the IDE CDROM 1 device after ejecting the virtual floppy disk on vm0004-ms.

Now both the floppy disk and DVD image have been unmounted from the VM. We can return to the console view (View -> Console) and we will see that both the floppy disk and DVD drive no longer show any media as mounted within them.

Viewing File Manager on vm0004-ms with the virtual floppy disk and DVD ISO image now unmounted.

Done!

Defining vm0004-ms On an-node02

Now with the installation media unmounted, and as we did before, we will use virsh dumpxml to write out the XML definition file for the new VM and then virsh define it on an-node01.

On an-node02;

virsh list --all
 Id Name                 State
----------------------------------
  2 vm0003-db            running
  4 vm0004-ms            running
  - vm0001-dev           shut off
  - vm0002-web           shut off

On an-node01;

virsh list --all
 Id Name                 State
----------------------------------
  2 vm0001-dev           running
  4 vm0002-web           running
  - vm0003-db            shut off

As before, our new VM is only defined on the node we installed it on. We'll fix this now.

On an-node02;

virsh dumpxml vm0004-ms > /shared/definitions/vm0004-ms.xml
cat /shared/definitions/vm0004-ms.xml
<domain type='kvm' id='4'>
  <name>vm0004-ms</name>
  <uuid>4c537551-96f4-3b5e-209a-0e41cab41d44</uuid>
  <memory>2097152</memory>
  <currentMemory>2097152</currentMemory>
  <vcpu>2</vcpu>
  <os>
    <type arch='x86_64' machine='rhel6.2.0'>hvm</type>
    <boot dev='hd'/>
  </os>
  <features>
    <acpi/>
    <apic/>
    <pae/>
  </features>
  <clock offset='localtime'>
    <timer name='rtc' tickpolicy='catchup'/>
  </clock>
  <on_poweroff>destroy</on_poweroff>
  <on_reboot>restart</on_reboot>
  <on_crash>restart</on_crash>
  <devices>
    <emulator>/usr/libexec/qemu-kvm</emulator>
    <disk type='block' device='disk'>
      <driver name='qemu' type='raw' cache='none' io='native'/>
      <source dev='/dev/an02-vg0/vm0004-1'/>
      <target dev='vda' bus='virtio'/>
      <alias name='virtio-disk0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x04' function='0x0'/>
    </disk>
    <disk type='file' device='floppy'>
      <driver name='qemu' type='raw' cache='none'/>
      <target dev='fda' bus='fdc'/>
      <alias name='fdc0-0-0'/>
      <address type='drive' controller='0' bus='0' unit='0'/>
    </disk>
    <disk type='file' device='cdrom'>
      <driver name='qemu' type='raw'/>
      <target dev='hdc' bus='ide'/>
      <readonly/>
      <alias name='ide0-1-0'/>
      <address type='drive' controller='0' bus='1' unit='0'/>
    </disk>
    <controller type='fdc' index='0'>
      <alias name='fdc0'/>
    </controller>
    <controller type='ide' index='0'>
      <alias name='ide0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x01' function='0x1'/>
    </controller>
    <interface type='bridge'>
      <mac address='52:54:00:5e:b1:47'/>
      <source bridge='vbr2'/>
      <target dev='vnet1'/>
      <alias name='net0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x03' function='0x0'/>
    </interface>
    <serial type='pty'>
      <source path='/dev/pts/3'/>
      <target port='0'/>
      <alias name='serial0'/>
    </serial>
    <console type='pty' tty='/dev/pts/3'>
      <source path='/dev/pts/3'/>
      <target type='serial' port='0'/>
      <alias name='serial0'/>
    </console>
    <input type='tablet' bus='usb'>
      <alias name='input0'/>
    </input>
    <input type='mouse' bus='ps2'/>
    <graphics type='vnc' port='5901' autoport='yes'/>
    <video>
      <model type='vga' vram='9216' heads='1'/>
      <alias name='video0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x02' function='0x0'/>
    </video>
    <memballoon model='virtio'>
      <alias name='balloon0'/>
      <address type='pci' domain='0x0000' bus='0x00' slot='0x05' function='0x0'/>
    </memballoon>
  </devices>
</domain>

As before, defining the VM on both nodes is optional, but a habit I like to do.

On an-node01;

virsh define /shared/definitions/vm0004-ms.xml
Domain vm0004-ms defined from /shared/definitions/vm0004-ms.xml

We can confirm that it now exists by re-running virsh list --all.

virsh list --all
 Id Name                 State
----------------------------------
  2 vm0001-dev           running
  4 vm0002-web           running
  - vm0003-db            shut off
  - vm0004-ms            shut off

With that, all our VMs exist and we're ready to make them highly available!

Making Our VMs Highly Available Cluster Services

We're ready to start the final step; Making our VMs highly available cluster services! This involves two main steps:

  • Creating two new, ordered fail-over Domains; One with each node as the highest priority.
  • Adding our VMs as services, one is each new fail-over domain.

Creating the Ordered Fail-Over Domains

We have planned for two VMs, vm0001-dev and vm0002-web to normally run on an-node01 while vm0003-db and vm0004-ms to run on an-node02. Of course, should one of the nodes fail, the lost VMs will be restarted on the surviving node. For this, we will use an ordered fail-over domain.

The idea here is that each new fail-over domain will have one node with a higher priority than the other. That is, one will have an-node01 with the highest priority and the other will have an-node02 as the highest. This way, VMs that we want to normally run on a given node will be added to the matching fail-over domain.

Note: With 2-node clusters like ours, ordering is arguably useless. It's used here more to introduce the concepts rather than providing any real benefit. If you want to make production clusters unordered, you can. Just remember to run the VMs on the appropriate nodes when both are on-line.

Here are the two new domains we will create in /etc/cluster/cluster.conf;

                <failoverdomains>
                        ...
                        <failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
                                <failoverdomainnode name="an-node01.alteeve.ca" priority="1"/>
                                <failoverdomainnode name="an-node02.alteeve.ca" priority="2"/>
                        </failoverdomain>
                        <failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
                                <failoverdomainnode name="an-node01.alteeve.ca" priority="2"/>
                                <failoverdomainnode name="an-node02.alteeve.ca" priority="1"/>
                        </failoverdomain>
                </failoverdomains>

The two major pieces of the puzzle here are the <failoverdomain ...>'s ordered="1" attribute and the <failoverdomainnode ...>'s priority="x" attributes. The former tells the cluster that there is a preference for which node should be used when both are available. The later, which is the difference between the two new domains, tells the cluster which specific node is preferred.

The first of the new fail-over domains is primary_an01. Any service placed in this domain will prefer to run on an-node01, as its priority of 1 is higher than an-node02's priority of 2. The second of the new domains is primary_an02 which reverses the preference, making an-node02 preferred over an-node01.

Let's look at the complete cluster.conf with the new domain, and the version updated to 11 of course.

<?xml version="1.0"?>
<cluster config_version="11" name="an-cluster-A">
        <cman expected_votes="1" two_node="1"/>
        <clusternodes>
                <clusternode name="an-node01.alteeve.ca" nodeid="1">
                        <fence>
                                <method name="ipmi">
                                        <device action="reboot" name="ipmi_an01"/>
                                </method>
                                <method name="pdu">
                                        <device action="reboot" name="pdu2" port="1"/>
                                </method>
                        </fence>
                </clusternode>
                <clusternode name="an-node02.alteeve.ca" nodeid="2">
                        <fence>
                                <method name="ipmi">
                                        <device action="reboot" name="ipmi_an02"/>
                                </method>
                                <method name="pdu">
                                        <device action="reboot" name="pdu2" port="2"/>
                                </method>
                        </fence>
                </clusternode>
        </clusternodes>
        <fencedevices>
                <fencedevice agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" name="ipmi_an01" passwd="secret"/>
                <fencedevice agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" name="ipmi_an02" passwd="secret"/>
                <fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2"/>
        </fencedevices>
        <fence_daemon post_join_delay="30"/>
        <totem rrp_mode="none" secauth="off"/>
        <rm>
                <resources>
                        <script file="/etc/init.d/drbd" name="drbd"/>
                        <script file="/etc/init.d/clvmd" name="clvmd"/>
                        <script file="/etc/init.d/gfs2" name="gfs2"/>
                        <script file="/etc/init.d/libvirtd" name="libvirtd"/>
                </resources>
                <failoverdomains>
                        <failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
                                <failoverdomainnode name="an-node01.alteeve.ca"/>
                        </failoverdomain>
                        <failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
                                <failoverdomainnode name="an-node02.alteeve.ca"/>
                        </failoverdomain>
                        <failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
                                <failoverdomainnode name="an-node01.alteeve.ca" priority="1"/>
                                <failoverdomainnode name="an-node02.alteeve.ca" priority="2"/>
                        </failoverdomain>
                        <failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
                                <failoverdomainnode name="an-node01.alteeve.ca" priority="2"/>
                                <failoverdomainnode name="an-node02.alteeve.ca" priority="1"/>
                        </failoverdomain>
                </failoverdomains>
                <service autostart="1" domain="only_an01" exclusive="0" name="storage_an01" recovery="restart">
                        <script ref="drbd">
                                <script ref="clvmd">
                                        <script ref="gfs2">
                                                <script ref="libvirtd"/>
                                        </script>
                                </script>
                        </script>
                </service>
                <service autostart="1" domain="only_an02" exclusive="0" name="storage_an02" recovery="restart">
                        <script ref="drbd">
                                <script ref="clvmd">
                                        <script ref="gfs2">
                                                <script ref="libvirtd"/>
                                        </script>
                                </script>
                        </script>
                </service>
        </rm>
</cluster>

Let's validate it now, but we won't bother to push it out just yet.

ccs_config_validate
Configuration validates

Good, now to create the new VM services!

Making Our VMs Clustered Services

The final piece of the puzzle, and the whole purpose of this exercise is in sight!

There is a special service in rgmanager for virtual machines which uses the vm: prefix. We will need to create four of these services; One for each of the virtual machines.

Note: There is a one main drawback of using rgmanager to manage virtual machines in our cluster. Ideally, we'd like to have the vm: services start after the storage_X services are up, and a bit of logic to say that all VMs can start on one node, should the other's storage service fail. This isn't possible though, so we will need to manually start VMs after a cold-start of the cluster.

Creating The vm: Services

We'll create four new services, one for each VM. These are simple single-element entries. Lets increment the version to 12 and take a look at the new entries.

        <rm>
                ...
                <vm name="vm0001-dev" domain="primary_an01" path="/shared/definitions/" autostart="0"
                 exclusive="0" recovery="restart" max_restarts="2" restart_expire_time="600"/>
                <vm name="vm0002-web" domain="primary_an01" path="/shared/definitions/" autostart="0"
                 exclusive="0" recovery="restart" max_restarts="2" restart_expire_time="600"/>
                <vm name="vm0003-db" domain="primary_an02" path="/shared/definitions/" autostart="0"
                 exclusive="0" recovery="restart" max_restarts="2" restart_expire_time="600"/>
                <vm name="vm0004-ms" domain="primary_an02" path="/shared/definitions/" autostart="0"
                 exclusive="0" recovery="restart" max_restarts="2" restart_expire_time="600"/>
        </rm>

Let's look at each of the attributes now;

  • name; This must match the name we created the VM with (the --name ... value when we provisioned the VMs). This is the name that will be passed to the vm.sh resource agent when managing this service, and it will be the <name>.xml used when looking under path=... for the VM's definition file.
  • domain; This tells the cluster to manage the VM using the given fail-over domain.
  • path; This tells the cluster where to look for the VM's definition file. Do not include the actual file name, just the path. This is partly why we wrote out each VM's definition to the shared directory.
  • autostart; As mentioned above, we can't have the VMs start with the cluster, because the underlying storage takes too long to come on-line. Setting this to 0 disables the auto-start behaviour.
  • exclusive; As we saw with the storage services, we want to ensure that this service is not exclusive. If it were, starting the VM would stop the storage and prevent other VMs from running on the node. This would be a bad thing™.
  • recovery; This tells the cluster what to do when the service fails. We are setting this to restart, so the cluster will try to restart the VM on the same node it was on when it failed. The alternative is relocate, which would instead start the VM on another node. More about this next.
  • max_restarts; When a VM fails, it is possible that it is because there is a subtle problem on the host node itself. So this attribute allows up to set a limit on how many times a VM will be allowed to restart before giving up and switching to a relocate police. We're setting this to 2, which means that if a VM is restarted twice, the third failure will trigger a relocate.
  • restart_expire_time; If we let the failure count increment indefinitely, than a relocate policy becomes inevitable, when there is no reason to believe that an issue with the host node exists. To account for this, we use this attribute to tell the cluster to "forget" a restart after the defined number of seconds. We're using 600 seconds (ten minutes). So if a VM fails, the failure count increments from 0 to 1. After 600 seconds though, the restart is "forgotten" and the failure count returns to 0. Said another way, a VM will have to fail three times in ten minutes to trigger the relocate recovery policy.

So let's take a look at the final, complete cluster.conf;

<?xml version="1.0"?>
<cluster config_version="12" name="an-cluster-A">
	<cman expected_votes="1" two_node="1"/>
	<clusternodes>
		<clusternode name="an-node01.alteeve.ca" nodeid="1">
			<fence>
				<method name="ipmi">
					<device action="reboot" name="ipmi_an01"/>
				</method>
				<method name="pdu">
					<device action="reboot" name="pdu2" port="1"/>
				</method>
			</fence>
		</clusternode>
		<clusternode name="an-node02.alteeve.ca" nodeid="2">
			<fence>
				<method name="ipmi">
					<device action="reboot" name="ipmi_an02"/>
				</method>
				<method name="pdu">
					<device action="reboot" name="pdu2" port="2"/>
				</method>
			</fence>
		</clusternode>
	</clusternodes>
	<fencedevices>
		<fencedevice agent="fence_ipmilan" ipaddr="an-node01.ipmi" login="root" name="ipmi_an01" passwd="secret"/>
		<fencedevice agent="fence_ipmilan" ipaddr="an-node02.ipmi" login="root" name="ipmi_an02" passwd="secret"/>
		<fencedevice agent="fence_apc_snmp" ipaddr="pdu2.alteeve.ca" name="pdu2"/>
	</fencedevices>
	<fence_daemon post_join_delay="30"/>
	<totem rrp_mode="none" secauth="off"/>
	<rm>
		<resources>
			<script file="/etc/init.d/drbd" name="drbd"/>
			<script file="/etc/init.d/clvmd" name="clvmd"/>
			<script file="/etc/init.d/gfs2" name="gfs2"/>
			<script file="/etc/init.d/libvirtd" name="libvirtd"/>
		</resources>
		<failoverdomains>
			<failoverdomain name="only_an01" nofailback="1" ordered="0" restricted="1">
				<failoverdomainnode name="an-node01.alteeve.ca"/>
			</failoverdomain>
			<failoverdomain name="only_an02" nofailback="1" ordered="0" restricted="1">
				<failoverdomainnode name="an-node02.alteeve.ca"/>
			</failoverdomain>
			<failoverdomain name="primary_an01" nofailback="1" ordered="1" restricted="1">
				<failoverdomainnode name="an-node01.alteeve.ca" priority="1"/>
				<failoverdomainnode name="an-node02.alteeve.ca" priority="2"/>
			</failoverdomain>
			<failoverdomain name="primary_an02" nofailback="1" ordered="1" restricted="1">
				<failoverdomainnode name="an-node01.alteeve.ca" priority="2"/>
				<failoverdomainnode name="an-node02.alteeve.ca" priority="1"/>
			</failoverdomain>
		</failoverdomains>
		<service autostart="1" domain="only_an01" exclusive="0" name="storage_an01" recovery="restart">
			<script ref="drbd">
				<script ref="clvmd">
					<script ref="gfs2">
						<script ref="libvirtd"/>
					</script>
				</script>
			</script>
		</service>
		<service autostart="1" domain="only_an02" exclusive="0" name="storage_an02" recovery="restart">
			<script ref="drbd">
				<script ref="clvmd">
					<script ref="gfs2">
						<script ref="libvirtd"/>
					</script>
				</script>
			</script>
		</service>
		<vm name="vm0001-dev" domain="primary_an01" path="/shared/definitions/" autostart="0" exclusive="0" recovery="restart" max_restarts="2" restart_expire_time="600"/>
		<vm name="vm0002-web" domain="primary_an01" path="/shared/definitions/" autostart="0" exclusive="0" recovery="restart" max_restarts="2" restart_expire_time="600"/>
		<vm name="vm0003-db" domain="primary_an02" path="/shared/definitions/" autostart="0" exclusive="0" recovery="restart" max_restarts="2" restart_expire_time="600"/>
		<vm name="vm0004-ms" domain="primary_an02" path="/shared/definitions/" autostart="0" exclusive="0" recovery="restart" max_restarts="2" restart_expire_time="600"/>
	</rm>
</cluster>

Let's validate one more time.

ccs_config_validate
Configuration validates

She's a beaut', eh?

Making The VM Services Active

Before we push the last cluster.conf out, lets take a look at the current state of affairs.

On an-node01;

clustat
Cluster Status for an-cluster-A @ Tue Dec 27 14:06:38 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started
virsh list --all
 Id Name                 State
----------------------------------
  2 vm0001-dev           running
  4 vm0002-web           running
  - vm0003-db            shut off
  - vm0004-ms            shut off

On an-node02;

clustat
Cluster Status for an-cluster-A @ Tue Dec 27 14:07:32 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started
virsh list --all
 Id Name                 State
----------------------------------
  2 vm0003-db            running
  4 vm0004-ms            running
  - vm0001-dev           shut off
  - vm0002-web           shut off

So we can see that the cluster doesn't know about the VMs yet, as we've not yet pushed out the changes. We can also see that vm0001-dev and vm0002-web are currently running on an-node01 and vm0003-db and vm0004-ms are running on an-node02.

So let's push out the new configuration and see what happens!

cman_tool version -r
cman_tool version
6.2.0 config 12

Let's take a look at what showed up in syslog;

Dec 27 14:18:20 an-node01 modcluster: Updating cluster.conf
Dec 27 14:18:20 an-node01 corosync[2362]:   [QUORUM] Members[2]: 1 2
Dec 27 14:18:20 an-node01 rgmanager[2579]: Reconfiguring
Dec 27 14:18:22 an-node01 rgmanager[2579]: Initializing vm:vm0001-dev
Dec 27 14:18:22 an-node01 rgmanager[2579]: vm:vm0001-dev was added to the config, but I am not initializing it.
Dec 27 14:18:22 an-node01 rgmanager[2579]: Initializing vm:vm0002-web
Dec 27 14:18:22 an-node01 rgmanager[2579]: vm:vm0002-web was added to the config, but I am not initializing it.
Dec 27 14:18:22 an-node01 rgmanager[2579]: Initializing vm:vm0003-db
Dec 27 14:18:22 an-node01 rgmanager[2579]: vm:vm0003-db was added to the config, but I am not initializing it.
Dec 27 14:18:23 an-node01 rgmanager[2579]: Initializing vm:vm0004-ms
Dec 27 14:18:23 an-node01 rgmanager[2579]: vm:vm0004-ms was added to the config, but I am not initializing it.

Indeed, if we check again with clustat, we'll see the new VM services, but all four will show as disabled, despite the VMs themselves being up and running.

clustat
Cluster Status for an-cluster-A @ Tue Dec 27 14:20:10 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  (none)                         disabled      
 vm:vm0002-web                  (none)                         disabled      
 vm:vm0003-db                   (none)                         disabled      
 vm:vm0004-ms                   (none)                         disabled

This highlights how the state of the VMs is not intrinsically tied to the cluster's status. The VMs were started outside of the cluster, so the cluster thinks they are off-line. We know they're running though, so we can tell the cluster to enable them now. Note that the VMs will not be rebooted or in any way effected, provided you tell the cluster to enable the VM on the node it's currently running on.

Let's start by enabling vm0001-dev, which we know is running on an-node01. Be aware that the vm: prefix is required when using clusvcadm!

clusvcadm -e vm:vm0001-dev -m an-node01.alteeve.ca
vm:vm0001-dev is now running on an-node01.alteeve.ca

Now we can see that the VM is under the cluster's control!

clustat
Cluster Status for an-cluster-A @ Tue Dec 27 14:25:08 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  (none)                         disabled      
 vm:vm0003-db                   (none)                         disabled      
 vm:vm0004-ms                   (none)                         disabled

Perfect! Now to add the other three VMs. Note that all of these commands can be run from whichever node you wish, because we're specifying the target node by using the "member" switch.

clusvcadm -e vm:vm0002-web -m an-node01.alteeve.ca
vm:vm0002-web is now running on an-node01.alteeve.ca
clusvcadm -e vm:vm0003-db -m an-node02.alteeve.ca
vm:vm0003-db is now running on an-node02.alteeve.ca
clusvcadm -e vm:vm0004-ms -m an-node02.alteeve.ca
vm:vm0004-ms is now running on an-node02.alteeve.ca

Let's do a final check of the cluster's status;

clustat
Cluster Status for an-cluster-A @ Tue Dec 27 14:28:19 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

The Last Step - Automatic Cluster Start

The last step is to enable automatic starting of the cman and rgmanager services when the host node boots. This is quite simple;

On both nodes, run;

chkconfig cman on && chkconfig rgmanager on
chkconfig --list | grep -e cman -e rgmanager
cman           	0:off	1:off	2:on	3:on	4:on	5:on	6:off
rgmanager      	0:off	1:off	2:on	3:on	4:on	5:on	6:off

The next time you restart the nodes, you will be able to run clustat and you should find your cluster up and running!

We're Done! Or, Are We?

That's it, ladies and gentlemen. Our cluster is completed! In theory now, any failure in the cluster will result in no lost data and, at worst, no more than a minute or two of downtime.

"In theory" just isn't good enough in clustering though. Time to take "theory" and make it a tested, known fact.

Testing; Taking Theory And Putting It Into Practice

You may have thought that we were done. Indeed, the cluster has been built, but we don't know if things actually work.

Enter testing.

In practice, when preparing production clusters for deployment, you should plan to spend at least twice as long in testing as you did in building the cluster. You need to imagine all failure scenarios, trigger those failures and see what happens.

A Note On The Importance Of Fencing

It may be tempting to think that you were careful and don't really need to test you cluster thoroughly.

You are wrong

Baring you being absolutely obsessive with testing every step of the way, you will almost certain make mistakes. Now I make no claims to genius, but I do like to think I am pretty comfortable building 2-node clusters. Despite that, while writing this testing portion of the tutorial, I found the following problems with my cluster;

  • RGManager's autostart="1" is not evaluated when a node starts, only when quorum is gained. The mistake had me assuming that the storage services would start when the node restarted, after having manually disabled the service prior to node withdrawal.
  • The behaviour of echo c > /proc/sysrq-trigger changed since EL5 and now triggers a core dump with 100% CPU load in EL6 KVM guests. This means that a previous expectation of the cluster recovering from these crashes was wrong.
  • I forgot to install the obliterate-peer.sh script for DRBD, which I didn't catch until I tried to fail a node.

You simply can't make assumptions. Test your cluster in every failure mode you can imagine. Until you do, you won't know what you might have missed!

Controlled VM Migration And Node Withdrawal

This testing will ensure that live migration works in both directions, and that each node can be cleanly removed from and then rejoin the cluster.

The test will consist of the following steps;

  1. Live migrate vm0001-dev and vm0002-web from an-node01 to an-node02. This will ensure live migration works and that all VMs will run on a single node.
  2. Withdraw an-node01 from the cluster entirely and reboot it. This will ensure that cold shut-down of the node is successful.
  3. Once an-node01 has rebooted, rejoin it to the cluster. This will ensure that rejoining the cluster works.
  4. Once an-node01 is a member of the cluster, we will wait a few minutes and ensure that vm0001-dev and vm0002-web automatically live migrate back to an-node01. This will ensure that priority is working.
  5. We will live migrate vm0003-db and vm0004-ms from an-node02 to an-node01 to ensure that migration works in the other direction.
  6. With the VMs all running on an-node01, we will withdraw an-node02 from the cluster, reboot it, rejoin it to the cluster and then confirm that vm0003-db and vm0004-ms automatically migrate back to an-node02.

With all of these tests completed, we will be able to ensure that order and controlled migration of VM services work as expected.

Live Migration - vm0001-dev And vm0002-dev To an-node02

First up, we will use the special clusvcadm switch -M, which tells the cluster to use "live migration". This is, the VM will move to the target member without shutting down. Users of the VM should notice, and worst, a brief network interruption when the cut-over occurs, without any adverse effect on their services or dropped connections.

Let's take a quick look at the state of affairs;

On an-node02, run;

clustat
Cluster Status for an-cluster-A @ Sat Dec 31 13:49:41 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Lets start by live migrating vm0001-dev. Before we do though, let's ssh into it and start a ping against a target on the internet. We'll leave this running throughout the live migration.

On vm0001-dev;

Running ping alteeve.ca on vm0001-dev prior to live migration.

Now back on an-node01, let's migrate vm0001-dev over to an-node02. This will take a little while as the VM's RAM gets copied across the BCN.

clusvcadm -M vm:vm0001-dev -m an-node02.alteeve.ca
Trying to migrate vm:vm0001-dev to an-node02.alteeve.ca...Success
Mid-migration of vm0001-dev.

Once complete, check the new status of clustat;

clustat
Cluster Status for an-cluster-A @ Sat Dec 31 14:11:43 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node02.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

If we look again at vm0001-dev's ping, we'll see that a few packets were dropped but our ssh session remained intact. Any other active TCP session should have survived this just fine as well.

Results of the ping on vm0001-dev post live migration.

Wonderful! Now let's live migrate vm0002-web to an-node02.

clusvcadm -M vm:vm0002-web -m an-node02.alteeve.ca
Trying to migrate vm:vm0002-web to an-node02.alteeve.ca...Success

Again, check the new status of clustat;

clustat
Cluster Status for an-cluster-A @ Sat Dec 31 14:17:35 2011
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node02.alteeve.ca          started       
 vm:vm0002-web                  an-node02.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

We can see now that all four VMs are running on an-node02! This is possible because of our careful planning of the VM resources earlier. This will mean more load on the host node's CPU, so things might not be as fast as we would like, but all services are on-line!

Withdraw an-node01 From The Cluster

So imagine now that we need to do some work on an-node01, like replace a bad network card or add some RAM. We've moved the VMs off, so now the only remaining service is service:storage_an01. We don't want to manually disable this service, because if we did, the service would not automatically start when the node rejoined the cluster. So we're going to just stop rgmanager and let it disable the storage_an01 service.

Check the state of the cluster;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:11:56 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node02.alteeve.ca          started       
 vm:vm0002-web                  an-node02.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Just as we expect, so now we will stop rgmanager, then stop cman.

On an-node01;

/etc/init.d/rgmanager stop
Stopping Cluster Service Manager:                          [  OK  ]
/etc/init.d/cman stop
Stopping cluster: 
   Leaving fence domain...                                 [  OK  ]
   Stopping gfs_controld...                                [  OK  ]
   Stopping dlm_controld...                                [  OK  ]
   Stopping fenced...                                      [  OK  ]
   Stopping cman...                                        [  OK  ]
   Waiting for corosync to shutdown:                       [  OK  ]
   Unloading kernel modules...                             [  OK  ]
   Unmounting configfs...                                  [  OK  ]

Checking on an-node02, we can see that all four VMs are running fine and that an-node01 is gone.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:13:23 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Offline
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           (an-node01.alteeve.ca)        stopped       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node02.alteeve.ca          started       
 vm:vm0002-web                  an-node02.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Test passed!

You can now power off and restart an-node01.

Rejoining an-node01 To The Cluster

If you haven't already, reboot an-node01. As we set earlier, cman and rgmanager will start automatically. The easiest thing to do for this test is to watch clustat on an-node02. If all goes well, you should see an-node01 rejoin the cluster automatically.

Connected to cluster;

Rebooting an-node01, while an-node02 hosts all four VMs.

Storage coming on-line;

Storage coming up on an-node01.

Back in business!

Back in business!

You should be able to log back into an-node01 and see that everything is back on-line. DRBD should be UpToDate, or be in the process of synchronizing.

Warning: Never migrate a VM to a node until its underlying DRBD resource is UpToDate! If the sync source node (the one that is UpToDate) goes down, DRBD will drop the resource to Secondary, making it inaccessible to the node and crashing the VM.

Migrating vm0001-dev And vm0002-web Back To an-node01

If we were putting the cluster back into its normal state, all that would be left to do is to migrate an-node01's VMs back. So let's do that.

As always, start with a check of the current cluster status.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:31:06 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node02.alteeve.ca          started       
 vm:vm0002-web                  an-node02.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Now confirm that the underlying storage is ready. Remember that DRBD resource r1 backs the VMs used by the an01-vg0 volume groups.

cat /proc/drbd
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:0 dw:0 dr:12552 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0
 1: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:2428 dw:2428 dr:9776 al:0 bm:4 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:0
 2: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:510 dw:510 dr:9744 al:0 bm:4 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:0

All systems ready; Let's migrate vm0001-dev and vm0002-web now.

clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.ca
Trying to migrate vm:vm0001-dev to an-node01.alteeve.ca...Success
clusvcadm -M vm:vm0002-web -m an-node01.alteeve.ca
Trying to migrate vm:vm0002-web to an-node01.alteeve.ca...Success

Check the new status;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:32:11 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

With that, the cluster is back in business!

Live Migration - vm0003-db And vm0004-ms To an-node01

Let's start the process of taking an-node02 out of the cluster. The first step is to move vm0003-db and vm0004-ms over to an-node01.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:42:10 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Ready to migrate.

clusvcadm -M vm:vm0003-db -m an-node01.alteeve.ca
Trying to migrate vm:vm0003-db to an-node01.alteeve.ca...Success
clusvcadm -M vm:vm0004-ms -m an-node01.alteeve.ca
Trying to migrate vm:vm0004-ms to an-node01.alteeve.ca...Success

Confirm;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:42:42 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node01.alteeve.ca          started       
 vm:vm0004-ms                   an-node01.alteeve.ca          started

Done!

Withdraw an-node02 From The Cluster

Double-check that all the VMs are off of an-node02 prior to withdrawal.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:45:30 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node01.alteeve.ca          started       
 vm:vm0004-ms                   an-node01.alteeve.ca          started

As before, we will not disable the storage_an02 service. If we did, the service would not automatically restart when the node rejoined the cluster.

So now that an-node01 is hosting all of the VMs and is running independently. Now we can stop rgmanager and cman.

On an-node02;

/etc/init.d/rgmanager stop
Stopping Cluster Service Manager:                          [  OK  ]
/etc/init.d/cman stop
Stopping cluster: 
   Leaving fence domain...                                 [  OK  ]
   Stopping gfs_controld...                                [  OK  ]
   Stopping dlm_controld...                                [  OK  ]
   Stopping fenced...                                      [  OK  ]
   Stopping cman...                                        [  OK  ]
   Waiting for corosync to shutdown:                       [  OK  ]
   Unloading kernel modules...                             [  OK  ]
   Unmounting configfs...                                  [  OK  ]

Confirm;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:49:14 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Offline

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           (an-node02.alteeve.ca)        stopped
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node01.alteeve.ca          started
 vm:vm0004-ms                   an-node01.alteeve.ca          started

Done! We can now shut down and reboot an-node02 entirely.

Rejoining an-node02 To The Cluster

Exactly as we did with an-node01, we will reboot an-node02. The cman and rgmanager services should start automatically, so once again, we will just watch clustat on an-node01. If all goes well, you should see an-node02 rejoin the cluster automatically.

Connected to cluster;

Rebooting an-node02, while an-node02 hosts all four VMs.

Storage coming on-line;

Storage coming up on an-node02.

Back in business!

Back in business!

You should be able to log back into an-node02 and see that everything is back on-line. DRBD should be UpToDate, or be in the process of synchronizing.

Warning: Again; Never migrate a VM to a node until its underlying DRBD resource is UpToDate! If the sync source node (the one that is UpToDate) goes down, DRBD will drop the resource to Secondary, making it inaccessible to the node and crashing the VM.

Migrating vm0003-db And vm0004-ms Back To an-node02

The last step to restore the cluster to its ideal state is to migrate vm0003-db and vm0004-ms back to an-node02.

As always, start with a check of the current cluster status.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:57:19 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node01.alteeve.ca          started       
 vm:vm0004-ms                   an-node01.alteeve.ca          started

Now confirm that the underlying storage is ready. Remember that DRBD resource r2 backs the VMs used by the an02-vg0 volume groups.

cat /proc/drbd
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:0 dw:0 dr:8788 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0
 1: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:376 dw:376 dr:5876 al:0 bm:7 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:0
 2: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:671 dw:671 dr:5844 al:0 bm:16 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:0

All systems ready; Let's migrate vm0003-db and vm0004-ms now.

clusvcadm -M vm:vm0003-db -m an-node02.alteeve.ca
Trying to migrate vm:vm0003-db to an-node02.alteeve.ca...Success
clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.ca
Trying to migrate vm:vm0004-ms to an-node02.alteeve.ca...Success

Check the new status;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 16:59:22 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

All controlled migration, withdrawal and re-joining tests completed!

Uncontrolled VM Migration and Node Failure

This test will be more violent than the previous tests. Here we will test failing the VMs and ensuring that the cluster will recover the VMs by restarting them on the hosts. We will repeatedly fail the VMs three times within ten minutes to ensure that the relocate policy kicks in, as we expect it to.

Once we complete the VM failure testing, we will fail and recover both nodes, one at a time of course, and rejoin them to the cluster. This will confirm that the VMs recover on the surviving node.

The tests will be;

  • Crash all four VMs three times. The failures will be triggered by using virsh destroy <vm> on the current host node.
  • After each crash, we will confirm that the VM came back on-line before crashing it again.
  • With all of the VMs tested to recover properly, we will live-migrate them back to their designated host nodes.
  • Once the cluster is back into its ideal state, we will crash an-node01. Within a few seconds, it should be fenced and the lost VMs should restart on an-node02. Once it rejoins the cluster and the VMs return to an-node01, we will repeat the test by failing an-node02.

Failure Testing vm0001-dev

Confirm that vm0001-dev is running on an-node01.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 18:29:10 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

It is, perfect. Now before I kill a VM, I like to start a ping against it. It acts both as an indication of when the node is back up and acts as a crude method of timing how long it took the VM to fully recover.

Note: If your VMs are isolated, as they are in this tutorial, you may have to run the ping from another VM or from your firewall.
ping 10.254.0.1
PING 10.254.0.1 (10.254.0.1) 56(84) bytes of data.
64 bytes from 10.254.0.1: icmp_seq=1 ttl=64 time=0.737 ms
64 bytes from 10.254.0.1: icmp_seq=2 ttl=64 time=0.530 ms
64 bytes from 10.254.0.1: icmp_seq=3 ttl=64 time=0.589 ms

Now, on an-node01, forcefully shut down vm0001-dev;

virsh destroy vm0001-dev
Domain vm0001-dev destroyed

Within a few seconds (10, maximum), the cluster will detect that the VM has failed and will restart it.

Failure of vm0001-dev detected by the cluster and restarted.

We can see in an-node01's syslog that the failure was detected and automatically recovered.

Jan  1 18:38:25 an-node01 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 18:38:25 an-node01 kernel: device vnet0 left promiscuous mode
Jan  1 18:38:25 an-node01 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 18:38:27 an-node01 ntpd[2190]: Deleting interface #19 vnet0, fe80::fc54:ff:fe9b:3cf7#123, interface stats: received=0, sent=0, dropped=0, active_time=3058 secs
Jan  1 18:38:35 an-node01 rgmanager[2430]: status on vm "vm0001-dev" returned 7 (unspecified)
Jan  1 18:38:35 an-node01 rgmanager[2430]: Stopping service vm:vm0001-dev
Jan  1 18:38:36 an-node01 rgmanager[2430]: Service vm:vm0001-dev is recovering
Jan  1 18:38:36 an-node01 rgmanager[2430]: Recovering failed service vm:vm0001-dev
Jan  1 18:38:37 an-node01 kernel: device vnet0 entered promiscuous mode
Jan  1 18:38:37 an-node01 kernel: vbr2: port 2(vnet0) entering learning state
Jan  1 18:38:37 an-node01 rgmanager[2430]: Service vm:vm0001-dev started
Jan  1 18:38:39 an-node01 ntpd[2190]: Listening on interface #20 vnet0, fe80::fc54:ff:fe9b:3cf7#123 Enabled
Jan  1 18:38:49 an-node01 kernel: kvm: 12390: cpu0 unimplemented perfctr wrmsr: 0xc1 data 0xabcd
Jan  1 18:38:52 an-node01 kernel: vbr2: port 2(vnet0) entering forwarding state

The first four entries are related to the VM's network being torn down after it was killed. The fifth through eighth lines show the detection and recovery of the node!

Going back to the ping, we can see that the VM was down for roughly 36 seconds (time between network loss and recovery, add a bit more time for all services to start.

PING 10.254.0.1 (10.254.0.1) 56(84) bytes of data.
64 bytes from 10.254.0.1: icmp_seq=1 ttl=64 time=0.737 ms
64 bytes from 10.254.0.1: icmp_seq=2 ttl=64 time=0.530 ms
64 bytes from 10.254.0.1: icmp_seq=3 ttl=64 time=0.589 ms
64 bytes from 10.254.0.1: icmp_seq=4 ttl=64 time=0.589 ms
64 bytes from 10.254.0.1: icmp_seq=5 ttl=64 time=0.477 ms
64 bytes from 10.254.0.1: icmp_seq=6 ttl=64 time=0.482 ms
64 bytes from 10.254.0.1: icmp_seq=7 ttl=64 time=0.489 ms
64 bytes from 10.254.0.1: icmp_seq=8 ttl=64 time=0.495 ms
64 bytes from 10.254.0.1: icmp_seq=9 ttl=64 time=0.503 ms
64 bytes from 10.254.0.1: icmp_seq=10 ttl=64 time=0.513 ms
64 bytes from 10.254.0.1: icmp_seq=11 ttl=64 time=0.516 ms
64 bytes from 10.254.0.1: icmp_seq=12 ttl=64 time=0.524 ms
64 bytes from 10.254.0.1: icmp_seq=13 ttl=64 time=0.405 ms
64 bytes from 10.254.0.1: icmp_seq=14 ttl=64 time=0.536 ms
64 bytes from 10.254.0.1: icmp_seq=15 ttl=64 time=0.441 ms
64 bytes from 10.254.0.1: icmp_seq=16 ttl=64 time=0.552 ms

# Node died here, 36 pings lost at ~1 ping/sec.

64 bytes from 10.254.0.1: icmp_seq=52 ttl=64 time=0.816 ms
64 bytes from 10.254.0.1: icmp_seq=53 ttl=64 time=0.440 ms
64 bytes from 10.254.0.1: icmp_seq=54 ttl=64 time=0.354 ms
64 bytes from 10.254.0.1: icmp_seq=55 ttl=64 time=0.342 ms
64 bytes from 10.254.0.1: icmp_seq=56 ttl=64 time=0.446 ms
64 bytes from 10.254.0.1: icmp_seq=57 ttl=64 time=0.418 ms
64 bytes from 10.254.0.1: icmp_seq=58 ttl=64 time=0.441 ms
^C
--- 10.254.0.1 ping statistics ---
58 packets transmitted, 23 received, 60% packet loss, time 57949ms
rtt min/avg/max/mdev = 0.342/0.505/0.816/0.109 ms

Not bad at all!

Now let's kill it two more times and confirm that the third recovery happens on an-node02. We'll use the ping as an indicator of when the VM is back on-line before killing it the third time.

Second failure;

virsh destroy vm0001-dev
Domain vm0001-dev destroyed

Checking syslog again;

Jan  1 18:45:07 an-node01 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 18:45:07 an-node01 kernel: device vnet0 left promiscuous mode
Jan  1 18:45:07 an-node01 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 18:45:09 an-node01 ntpd[2190]: Deleting interface #20 vnet0, fe80::fc54:ff:fe9b:3cf7#123, interface stats: received=0, sent=0, dropped=0, active_time=390 secs
Jan  1 18:45:46 an-node01 rgmanager[2430]: status on vm "vm0001-dev" returned 7 (unspecified)
Jan  1 18:45:46 an-node01 rgmanager[2430]: Stopping service vm:vm0001-dev
Jan  1 18:45:46 an-node01 rgmanager[2430]: Service vm:vm0001-dev is recovering
Jan  1 18:45:47 an-node01 rgmanager[2430]: Recovering failed service vm:vm0001-dev
Jan  1 18:45:47 an-node01 kernel: device vnet0 entered promiscuous mode
Jan  1 18:45:47 an-node01 kernel: vbr2: port 2(vnet0) entering learning state
Jan  1 18:45:47 an-node01 rgmanager[2430]: Service vm:vm0001-dev started
Jan  1 18:45:50 an-node01 ntpd[2190]: Listening on interface #21 vnet0, fe80::fc54:ff:fe9b:3cf7#123 Enabled
Jan  1 18:45:59 an-node01 kernel: kvm: 17874: cpu0 unimplemented perfctr wrmsr: 0xc1 data 0xabcd
Jan  1 18:46:02 an-node01 kernel: vbr2: port 2(vnet0) entering forwarding state

We can see that the vm0001-dev VM is still on an-node01;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 18:47:01 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Now the third crash. This time it should come up on an-node02.

virsh destroy vm0001-dev
Domain vm0001-dev destroyed

Checking an-node01's syslog again, we'll see something different.

Jan  1 18:47:26 an-node01 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 18:47:26 an-node01 kernel: device vnet0 left promiscuous mode
Jan  1 18:47:26 an-node01 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 18:47:27 an-node01 ntpd[2190]: Deleting interface #21 vnet0, fe80::fc54:ff:fe9b:3cf7#123, interface stats: received=0, sent=0, dropped=0, active_time=97 secs
Jan  1 18:47:46 an-node01 rgmanager[2430]: status on vm "vm0001-dev" returned 7 (unspecified)
Jan  1 18:47:46 an-node01 rgmanager[2430]: Stopping service vm:vm0001-dev
Jan  1 18:47:46 an-node01 rgmanager[2430]: Service vm:vm0001-dev is recovering
Jan  1 18:47:46 an-node01 rgmanager[2430]: Restart threshold for vm:vm0001-dev exceeded; attempting to relocate
Jan  1 18:47:47 an-node01 rgmanager[2430]: Service vm:vm0001-dev is now running on member 2

The difference is the "Restart threshold for vm:vm0001-dev exceeded; attempting to relocate" line. Indeed, if we check clustat, we will in fact see it running on an-node02!

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 18:49:38 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node02.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Success!

This test is complete, so we'll finish my migrating the VM back to an-node01.

clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.ca
Trying to migrate vm:vm0001-dev to an-node01.alteeve.ca...Success

As always, confirm.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 18:51:05 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Excellent.

Failure Testing vm0002-web

We'll go through the same process here as we just did with vm0001-dev, but we won't cover all the details here as much. After each crash of the VM, we'll check clustat and look at the syslog on an-node01. Not shown here is a background ping running to indicate when the VM is back up enough to crash again.

Confirm that vm0002-web is on an-node01.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:06:21 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Good, we're ready. On an-node01, kill the VM.

virsh destroy vm0002-web
Domain vm0002-web destroyed

As we expect, an-node01 restarts the VM within a few seconds.

Jan  1 19:07:16 an-node01 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:07:16 an-node01 kernel: device vnet1 left promiscuous mode
Jan  1 19:07:16 an-node01 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:07:18 an-node01 ntpd[2190]: Deleting interface #11 vnet1, fe80::fc54:ff:fe65:3960#123, interface stats: received=0, sent=0, dropped=0, active_time=9315 secs
Jan  1 19:07:27 an-node01 rgmanager[2430]: status on vm "vm0002-web" returned 7 (unspecified)
Jan  1 19:07:27 an-node01 rgmanager[2430]: Stopping service vm:vm0002-web
Jan  1 19:07:27 an-node01 rgmanager[2430]: Service vm:vm0002-web is recovering
Jan  1 19:07:28 an-node01 rgmanager[2430]: Recovering failed service vm:vm0002-web
Jan  1 19:07:28 an-node01 kernel: device vnet1 entered promiscuous mode
Jan  1 19:07:28 an-node01 kernel: vbr2: port 3(vnet1) entering learning state
Jan  1 19:07:29 an-node01 rgmanager[2430]: Service vm:vm0002-web started
Jan  1 19:07:31 an-node01 ntpd[2190]: Listening on interface #23 vnet1, fe80::fc54:ff:fe65:3960#123 Enabled
Jan  1 19:07:38 an-node01 kernel: kvm: 1994: cpu0 unimplemented perfctr wrmsr: 0xc1 data 0xabcd
Jan  1 19:07:43 an-node01 kernel: vbr2: port 3(vnet1) entering forwarding state

Checking clustat, I can see the VM is back on-line.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:09:03 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Let's kill it for the second time.

virsh destroy vm0002-web
Domain vm0002-web destroyed

We can again see that an-node01 recovered it locally.

Jan  1 19:12:08 an-node01 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:12:08 an-node01 kernel: device vnet1 left promiscuous mode
Jan  1 19:12:08 an-node01 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:12:10 an-node01 ntpd[2190]: Deleting interface #23 vnet1, fe80::fc54:ff:fe65:3960#123, interface stats: received=0, sent=0, dropped=0, active_time=279 secs
Jan  1 19:12:17 an-node01 rgmanager[2430]: status on vm "vm0002-web" returned 7 (unspecified)
Jan  1 19:12:17 an-node01 rgmanager[2430]: Stopping service vm:vm0002-web
Jan  1 19:12:18 an-node01 rgmanager[2430]: Service vm:vm0002-web is recovering
Jan  1 19:12:18 an-node01 rgmanager[2430]: Recovering failed service vm:vm0002-web
Jan  1 19:12:19 an-node01 kernel: device vnet1 entered promiscuous mode
Jan  1 19:12:19 an-node01 kernel: vbr2: port 3(vnet1) entering learning state
Jan  1 19:12:19 an-node01 rgmanager[2430]: Service vm:vm0002-web started
Jan  1 19:12:22 an-node01 ntpd[2190]: Listening on interface #24 vnet1, fe80::fc54:ff:fe65:3960#123 Enabled
Jan  1 19:12:28 an-node01 kernel: kvm: 6113: cpu0 unimplemented perfctr wrmsr: 0xc1 data 0xabcd
Jan  1 19:12:34 an-node01 kernel: vbr2: port 3(vnet1) entering forwarding state

Confirm with clustat;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:13:45 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

This time, it should recover on an-node02;

virsh destroy vm0002-web
Domain vm0002-web destroyed

Looking in syslog, we can see the counter was tripped.

Jan  1 19:14:26 an-node01 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:14:26 an-node01 kernel: device vnet1 left promiscuous mode
Jan  1 19:14:26 an-node01 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:14:27 an-node01 rgmanager[2430]: status on vm "vm0002-web" returned 7 (unspecified)
Jan  1 19:14:27 an-node01 rgmanager[2430]: Stopping service vm:vm0002-web
Jan  1 19:14:28 an-node01 rgmanager[2430]: Service vm:vm0002-web is recovering
Jan  1 19:14:28 an-node01 rgmanager[2430]: Restart threshold for vm:vm0002-web exceeded; attempting to relocate
Jan  1 19:14:28 an-node01 ntpd[2190]: Deleting interface #24 vnet1, fe80::fc54:ff:fe65:3960#123, interface stats: received=0, sent=0, dropped=0, active_time=126 secs
Jan  1 19:14:29 an-node01 rgmanager[2430]: Service vm:vm0002-web is now running on member 2

Indeed, this is confirmed with clustat.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:15:57 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node02.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Excellent, this test has passed as well! Now migrate the VM back and we'll be ready to test the third VM.

clusvcadm -M vm:vm0002-web -m an-node01.alteeve.ca
Trying to migrate vm:vm0002-web to an-node01.alteeve.ca...Success
clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:17:41 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Done.

Failure Testing vm0003-db

This should be getting familiar now. The main difference is that the VM is now running on an-node02, so that is where will will kill the VM from and that is where we will watch syslog.

Confirm that vm0003-db is on an-node02.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:25:55 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Good, we're ready. On an-node02, kill the VM.

virsh destroy vm0003-db
Domain vm0003-db destroyed

As we expect, an-node02 restarts the VM within a few seconds.

Jan  1 19:26:21 an-node02 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 19:26:21 an-node02 kernel: device vnet0 left promiscuous mode
Jan  1 19:26:21 an-node02 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 19:26:22 an-node02 ntpd[2200]: Deleting interface #10 vnet0, fe80::fc54:ff:fe44:83ec#123, interface stats: received=0, sent=0, dropped=0, active_time=8863 secs
Jan  1 19:26:35 an-node02 rgmanager[2439]: status on vm "vm0003-db" returned 7 (unspecified)
Jan  1 19:26:36 an-node02 rgmanager[2439]: Stopping service vm:vm0003-db
Jan  1 19:26:36 an-node02 rgmanager[2439]: Service vm:vm0003-db is recovering
Jan  1 19:26:36 an-node02 rgmanager[2439]: Recovering failed service vm:vm0003-db
Jan  1 19:26:37 an-node02 kernel: device vnet0 entered promiscuous mode
Jan  1 19:26:37 an-node02 kernel: vbr2: port 2(vnet0) entering learning state
Jan  1 19:26:37 an-node02 rgmanager[2439]: Service vm:vm0003-db started
Jan  1 19:26:40 an-node02 ntpd[2200]: Listening on interface #15 vnet0, fe80::fc54:ff:fe44:83ec#123 Enabled

Checking clustat, I can see the VM is back on-line.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:27:06 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Let's kill it for the second time.

virsh destroy vm0003-db
Domain vm0003-db destroyed

We can again see that an-node02 recovered it locally.

Jan  1 19:27:40 an-node02 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 19:27:40 an-node02 kernel: device vnet0 left promiscuous mode
Jan  1 19:27:40 an-node02 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 19:27:41 an-node02 ntpd[2200]: Deleting interface #15 vnet0, fe80::fc54:ff:fe44:83ec#123, interface stats: received=0, sent=0, dropped=0, active_time=61 secs
Jan  1 19:27:45 an-node02 rgmanager[2439]: status on vm "vm0003-db" returned 7 (unspecified)
Jan  1 19:27:46 an-node02 rgmanager[2439]: Stopping service vm:vm0003-db
Jan  1 19:27:46 an-node02 rgmanager[2439]: Service vm:vm0003-db is recovering
Jan  1 19:27:46 an-node02 rgmanager[2439]: Recovering failed service vm:vm0003-db
Jan  1 19:27:47 an-node02 kernel: device vnet0 entered promiscuous mode
Jan  1 19:27:47 an-node02 kernel: vbr2: port 2(vnet0) entering learning state
Jan  1 19:27:47 an-node02 rgmanager[2439]: Service vm:vm0003-db started
Jan  1 19:27:50 an-node02 ntpd[2200]: Listening on interface #16 vnet0, fe80::fc54:ff:fe44:83ec#123 Enabled

Confirm with clustat;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:28:21 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

This time, it should recover on an-node01;

virsh destroy vm0003-db
Domain vm0003-db destroyed

Looking in syslog, we can see the counter was tripped.

Jan  1 19:28:36 an-node02 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 19:28:36 an-node02 kernel: device vnet0 left promiscuous mode
Jan  1 19:28:36 an-node02 kernel: vbr2: port 2(vnet0) entering disabled state
Jan  1 19:28:37 an-node02 ntpd[2200]: Deleting interface #16 vnet0, fe80::fc54:ff:fe44:83ec#123, interface stats: received=0, sent=0, dropped=0, active_time=47 secs
Jan  1 19:28:55 an-node02 rgmanager[2439]: status on vm "vm0003-db" returned 7 (unspecified)
Jan  1 19:28:56 an-node02 rgmanager[2439]: Stopping service vm:vm0003-db
Jan  1 19:28:56 an-node02 rgmanager[2439]: Service vm:vm0003-db is recovering
Jan  1 19:28:56 an-node02 rgmanager[2439]: Restart threshold for vm:vm0003-db exceeded; attempting to relocate
Jan  1 19:28:57 an-node02 rgmanager[2439]: Service vm:vm0003-db is now running on member 1

Again, this is confirmed with clustat.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:29:42 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node01.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

This test has passed as well! As before, migrate the VM back and we'll be ready to test the last VM.

clusvcadm -M vm:vm0003-db -m an-node02.alteeve.ca
Trying to migrate vm:vm0003-db to an-node02.alteeve.ca...Success
clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:30:32 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Done.

Failure Testing vm0004-ms

Warning: Windows is particularly sensitive to sudden reboots. This is the nature of MS Windows and beyond the ability of the cluster to deal with. As such, be sure that you've created your recovery ISOs and taken reasonable precautions so that you can recover the guest after a hard shut down. That is, of course, what we're about to do here.

This is the last VM to test. This testing is repetitive and boring, but it is also critical. Good on you for sticking it out. Right then, let's get to it.

Confirm that vm0004-ms is on an-node02.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:43:41 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Good, we're ready. On an-node02, kill the VM.

virsh destroy vm0004-ms
Domain vm0004-ms destroyed

As we expect, an-node02 restarts the VM within a few seconds.

Jan  1 19:43:52 an-node02 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:43:52 an-node02 kernel: device vnet1 left promiscuous mode
Jan  1 19:43:52 an-node02 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:43:53 an-node02 ntpd[2200]: Deleting interface #11 vnet1, fe80::fc54:ff:fe5e:b147#123, interface stats: received=0, sent=0, dropped=0, active_time=9895 secs
Jan  1 19:44:06 an-node02 rgmanager[2439]: status on vm "vm0004-ms" returned 7 (unspecified)
Jan  1 19:44:07 an-node02 rgmanager[2439]: Stopping service vm:vm0004-ms
Jan  1 19:44:07 an-node02 rgmanager[2439]: Service vm:vm0004-ms is recovering
Jan  1 19:44:07 an-node02 rgmanager[2439]: Recovering failed service vm:vm0004-ms
Jan  1 19:44:08 an-node02 kernel: device vnet1 entered promiscuous mode
Jan  1 19:44:08 an-node02 kernel: vbr2: port 3(vnet1) entering learning state
Jan  1 19:44:08 an-node02 rgmanager[2439]: Service vm:vm0004-ms started
Jan  1 19:44:11 an-node02 ntpd[2200]: Listening on interface #18 vnet1, fe80::fc54:ff:fe5e:b147#123 Enabled
Jan  1 19:44:23 an-node02 kernel: vbr2: port 3(vnet1) entering forwarding state

Checking clustat, I can see the VM is back on-line.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:44:38 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Let's kill it for the second time.

virsh destroy vm0004-ms
Domain vm0004-ms destroyed

We can again see that an-node02 recovered it locally.

Jan  1 19:44:54 an-node02 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:44:54 an-node02 kernel: device vnet1 left promiscuous mode
Jan  1 19:44:54 an-node02 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:44:55 an-node02 ntpd[2200]: Deleting interface #18 vnet1, fe80::fc54:ff:fe5e:b147#123, interface stats: received=0, sent=0, dropped=0, active_time=44 secs
Jan  1 19:45:16 an-node02 rgmanager[2439]: status on vm "vm0004-ms" returned 7 (unspecified)
Jan  1 19:45:17 an-node02 rgmanager[2439]: Stopping service vm:vm0004-ms
Jan  1 19:45:17 an-node02 rgmanager[2439]: Service vm:vm0004-ms is recovering
Jan  1 19:45:17 an-node02 rgmanager[2439]: Recovering failed service vm:vm0004-ms
Jan  1 19:45:18 an-node02 kernel: device vnet1 entered promiscuous mode
Jan  1 19:45:18 an-node02 kernel: vbr2: port 3(vnet1) entering learning state
Jan  1 19:45:18 an-node02 rgmanager[2439]: Service vm:vm0004-ms started
Jan  1 19:45:21 an-node02 ntpd[2200]: Listening on interface #19 vnet1, fe80::fc54:ff:fe5e:b147#123 Enabled
Jan  1 19:45:33 an-node02 kernel: vbr2: port 3(vnet1) entering forwarding state

Confirm with clustat;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:46:17 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

This time, it should recover on an-node01;

virsh destroy vm0004-ms
Domain vm0004-ms destroyed

Looking in syslog, we can see the counter was tripped.

Jan  1 19:45:33 an-node02 kernel: vbr2: port 3(vnet1) entering forwarding state
Jan  1 19:46:30 an-node02 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:46:30 an-node02 kernel: device vnet1 left promiscuous mode
Jan  1 19:46:30 an-node02 kernel: vbr2: port 3(vnet1) entering disabled state
Jan  1 19:46:32 an-node02 ntpd[2200]: Deleting interface #19 vnet1, fe80::fc54:ff:fe5e:b147#123, interface stats: received=0, sent=0, dropped=0, active_time=71 secs
Jan  1 19:46:36 an-node02 rgmanager[2439]: status on vm "vm0004-ms" returned 7 (unspecified)
Jan  1 19:46:37 an-node02 rgmanager[2439]: Stopping service vm:vm0004-ms
Jan  1 19:46:37 an-node02 rgmanager[2439]: Service vm:vm0004-ms is recovering
Jan  1 19:46:37 an-node02 rgmanager[2439]: Restart threshold for vm:vm0004-ms exceeded; attempting to relocate
Jan  1 19:46:38 an-node02 rgmanager[2439]: Service vm:vm0004-ms is now running on member 1

Indeed, this is confirmed with clustat.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:48:23 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node01.alteeve.ca          started

Wonderful! All four VMs fail and recover as we expected them to. Move the VM back and we're ready to crash the nodes!

clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.ca
Trying to migrate vm:vm0004-ms to an-node02.alteeve.ca...Success
clustat
Cluster Status for an-cluster-A @ Sun Jan  1 19:49:32 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Done and done!

Failing and Recovery of an-node01

The final stage of testing is also the most brutal. We're going to hang an-node01 in such a way that it stops responding to messages from an-node02. Within a few seconds, an-node01 should be fenced, then shortly after the two lost VMs should boot up on an-node02.

The is a particularly important test for a somewhat non-obvious reason.

Note: It's one thing to migrate or boot VMs one at a time. The other VMs will not likely be under load, so the resources of the host should be more or less free for the VM being recovered. After a failure though, all lost VMs will be simultaneously recovered, taxing the host's resources to a greater extent. This test ensures that each node has sufficient resources to effectively recover the VMs simultaneously.

We could just shut off an-node01, but we tested this earlier when we setup fencing. What we have not yet tested is how the cluster recovers from a hung node. To hang the host, we're going to trigger a special event in the kernel, using magic SysRq triggers. We'll do this by sending the letter c to the /proc/sysrq-trigger file. This will "Reboot kexec and output a crashdump". The node should be fenced before a memory dump can complete, so don't expect to see anything in /var/crashed unless your system is extremely fast.

Warning: If you are skimming, take note! The next command will crash your node!

So, on an-node01, issue the following command to crash the node.

echo c > /proc/sysrq-trigger

This command will not return. Watching syslog on an-node02, we'll see output like this;

Jan  1 21:26:00 an-node02 kernel: block drbd1: PingAck did not arrive in time.
Jan  1 21:26:00 an-node02 kernel: block drbd1: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 ) 
Jan  1 21:26:00 an-node02 kernel: block drbd1: asender terminated
Jan  1 21:26:00 an-node02 kernel: block drbd1: Terminating asender thread
Jan  1 21:26:00 an-node02 kernel: block drbd1: Connection closed
Jan  1 21:26:00 an-node02 kernel: block drbd1: conn( NetworkFailure -> Unconnected ) 
Jan  1 21:26:00 an-node02 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1
Jan  1 21:26:00 an-node02 kernel: block drbd1: receiver terminated
Jan  1 21:26:00 an-node02 kernel: block drbd1: Restarting receiver thread
Jan  1 21:26:00 an-node02 kernel: block drbd1: receiver (re)started
Jan  1 21:26:00 an-node02 kernel: block drbd1: conn( Unconnected -> WFConnection ) 
Jan  1 21:26:00 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
Jan  1 21:26:01 an-node02 kernel: block drbd2: PingAck did not arrive in time.
Jan  1 21:26:01 an-node02 kernel: block drbd2: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 ) 
Jan  1 21:26:01 an-node02 kernel: block drbd2: asender terminated
Jan  1 21:26:01 an-node02 kernel: block drbd2: Terminating asender thread
Jan  1 21:26:01 an-node02 kernel: block drbd2: Connection closed
Jan  1 21:26:01 an-node02 kernel: block drbd2: conn( NetworkFailure -> Unconnected ) 
Jan  1 21:26:01 an-node02 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2
Jan  1 21:26:01 an-node02 kernel: block drbd2: receiver terminated
Jan  1 21:26:01 an-node02 kernel: block drbd2: Restarting receiver thread
Jan  1 21:26:01 an-node02 kernel: block drbd2: receiver (re)started
Jan  1 21:26:01 an-node02 kernel: block drbd2: conn( Unconnected -> WFConnection ) 
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 21:26:03 an-node02 kernel: block drbd0: PingAck did not arrive in time.
Jan  1 21:26:03 an-node02 kernel: block drbd0: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 ) 
Jan  1 21:26:03 an-node02 kernel: block drbd0: asender terminated
Jan  1 21:26:03 an-node02 kernel: block drbd0: Terminating asender thread
Jan  1 21:26:03 an-node02 kernel: block drbd0: Connection closed
Jan  1 21:26:03 an-node02 kernel: block drbd0: conn( NetworkFailure -> Unconnected ) 
Jan  1 21:26:03 an-node02 kernel: block drbd0: helper command: /sbin/drbdadm fence-peer minor-0
Jan  1 21:26:03 an-node02 kernel: block drbd0: receiver terminated
Jan  1 21:26:03 an-node02 kernel: block drbd0: Restarting receiver thread
Jan  1 21:26:03 an-node02 kernel: block drbd0: receiver (re)started
Jan  1 21:26:03 an-node02 kernel: block drbd0: conn( Unconnected -> WFConnection ) 
Jan  1 21:26:03 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
Jan  1 21:26:03 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 21:26:09 an-node02 corosync[1963]:   [TOTEM ] A processor failed, forming new configuration.
Jan  1 21:26:11 an-node02 corosync[1963]:   [QUORUM] Members[1]: 2
Jan  1 21:26:11 an-node02 corosync[1963]:   [TOTEM ] A processor joined or left the membership and a new membership was formed.
Jan  1 21:26:11 an-node02 kernel: dlm: closing connection to node 1
Jan  1 21:26:11 an-node02 corosync[1963]:   [CPG   ] chosen downlist: sender r(0) ip(10.20.0.2) ; members(old:2 left:1)
Jan  1 21:26:11 an-node02 corosync[1963]:   [MAIN  ] Completed service synchronization, ready to provide service.
Jan  1 21:26:11 an-node02 fenced[2022]: fencing node an-node01.alteeve.ca
Jan  1 21:26:11 an-node02 kernel: GFS2: fsid=an-cluster-A:shared.0: jid=1: Trying to acquire journal lock...
Jan  1 21:26:14 an-node02 fence_node[15572]: fence an-node01.alteeve.ca success
Jan  1 21:26:14 an-node02 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1 exit code 7 (0x700)
Jan  1 21:26:14 an-node02 kernel: block drbd1: fence-peer helper returned 7 (peer was stonithed)
Jan  1 21:26:14 an-node02 kernel: block drbd1: pdsk( DUnknown -> Outdated ) 
Jan  1 21:26:14 an-node02 kernel: block drbd1: new current UUID 6355AAB258658E8F:4642D156D54731A1:5F8A6B05E2FCCE19:165E9B466805EC81
Jan  1 21:26:14 an-node02 kernel: block drbd1: susp( 1 -> 0 ) 
Jan  1 21:26:15 an-node02 fenced[2022]: fence an-node01.alteeve.ca success
Jan  1 21:26:15 an-node02 fence_node[15672]: fence an-node01.alteeve.ca success
Jan  1 21:26:15 an-node02 kernel: block drbd0: helper command: /sbin/drbdadm fence-peer minor-0 exit code 7 (0x700)
Jan  1 21:26:15 an-node02 kernel: block drbd0: fence-peer helper returned 7 (peer was stonithed)
Jan  1 21:26:15 an-node02 kernel: block drbd0: pdsk( DUnknown -> Outdated ) 
Jan  1 21:26:15 an-node02 kernel: block drbd0: new current UUID C1F5EF16EE80E6C1:1B503B46E6650575:234E9A10EE04FDE7:7DBC4288E230DC9B
Jan  1 21:26:15 an-node02 kernel: block drbd0: susp( 1 -> 0 ) 
Jan  1 21:26:15 an-node02 fence_node[15627]: fence an-node01.alteeve.ca success
Jan  1 21:26:15 an-node02 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2 exit code 7 (0x700)
Jan  1 21:26:15 an-node02 kernel: block drbd2: fence-peer helper returned 7 (peer was stonithed)
Jan  1 21:26:15 an-node02 kernel: block drbd2: pdsk( DUnknown -> Outdated ) 
Jan  1 21:26:15 an-node02 kernel: block drbd2: new current UUID 1F79DE480F1E33C1:A674C3CB12017193:76118DDAE165C5FB:871F8081B7D527A9
Jan  1 21:26:15 an-node02 kernel: block drbd2: susp( 1 -> 0 ) 
Jan  1 21:26:16 an-node02 kernel: GFS2: fsid=an-cluster-A:shared.0: jid=1: Looking at journal...
Jan  1 21:26:16 an-node02 kernel: GFS2: fsid=an-cluster-A:shared.0: jid=1: Done
Jan  1 21:26:16 an-node02 rgmanager[2514]: Marking service:storage_an01 as stopped: Restricted domain unavailable
Jan  1 21:26:16 an-node02 rgmanager[2514]: Taking over service vm:vm0001-dev from down member an-node01.alteeve.ca
Jan  1 21:26:16 an-node02 rgmanager[2514]: Taking over service vm:vm0002-web from down member an-node01.alteeve.ca
Jan  1 21:26:17 an-node02 kernel: device vnet2 entered promiscuous mode
Jan  1 21:26:17 an-node02 kernel: vbr2: port 4(vnet2) entering learning state
Jan  1 21:26:17 an-node02 rgmanager[2514]: Service vm:vm0001-dev started
Jan  1 21:26:17 an-node02 kernel: device vnet3 entered promiscuous mode
Jan  1 21:26:17 an-node02 kernel: vbr2: port 5(vnet3) entering learning state
Jan  1 21:26:18 an-node02 rgmanager[2514]: Service vm:vm0002-web started
Jan  1 21:26:20 an-node02 ntpd[2275]: Listening on interface #12 vnet2, fe80::fc54:ff:fe9b:3cf7#123 Enabled
Jan  1 21:26:20 an-node02 ntpd[2275]: Listening on interface #13 vnet3, fe80::fc54:ff:fe65:3960#123 Enabled
Jan  1 21:26:27 an-node02 kernel: kvm: 16177: cpu0 unimplemented perfctr wrmsr: 0xc1 data 0xabcd
Jan  1 21:26:29 an-node02 kernel: kvm: 16118: cpu0 unimplemented perfctr wrmsr: 0xc1 data 0xabcd
Jan  1 21:26:32 an-node02 kernel: vbr2: port 4(vnet2) entering forwarding state
Jan  1 21:26:32 an-node02 kernel: vbr2: port 5(vnet3) entering forwarding state

Checking with clustat, we can confirm that all four VMs are now running on an-node02.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 21:28:00 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node02.alteeve.ca          started
 vm:vm0002-web                  an-node02.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Perfect! This is exactly why we built the cluster!

If we wait a few minutes, we'll see that the hung node has recovered.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 22:30:04 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node02.alteeve.ca          started       
 vm:vm0002-web                  an-node02.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Before we can push the VMs back though, we must make sure that the underlying DRBD resource has finished synchronizing.

Note: With four VMs, it will most certainly take time for underlying resource to resync. Do not migrate the VMs until this has completed!
cat /proc/drbd
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:1182704 nr:1053880 dw:1052676 dr:1245848 al:0 bm:266 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:0
 1: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:2087568 nr:362698 dw:366444 dr:2263316 al:9 bm:411 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:0
 2: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:2098343 nr:1114307 dw:1065375 dr:2340421 al:10 bm:551 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0

We're ready, so lets migrate back vm0001-dev and vm0002-web.

clusvcadm -M vm:vm0001-dev -m an-node01.alteeve.ca
Trying to migrate vm:vm0001-dev to an-node01.alteeve.ca...Success
clusvcadm -M vm:vm0002-web -m an-node01.alteeve.ca
Trying to migrate vm:vm0002-web to an-node01.alteeve.ca...Success

Confirm;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 22:37:10 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

There we have it. Successful crash and recovery of an-node01.

Discussing the syslog Messages

Let's step back and look at the syslog output; There are a few things to discuss.

The first thing we see is that almost immediately after hanging an-node01, the first messages are from DRBD, not the cluster. This in turn trigger's DRBD's fence-handler script, obliterate-peer.sh. This is because DRBD is extremely sensitive to interruptions, even more so than the cluster itself. You will notice that DRBD reacted a full 9 seconds faster than the cluster.

The first thing the cluster does, upon realizing it has lost communication with its peer, is call a fence against the lost node. As mentioned, this involves calling obliterate-peer.sh, which is itself a very simple wrapper for cman_tool and fence_node shell calls.

Jan  1 21:26:00 an-node02 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1
Jan  1 21:26:00 an-node02 kernel: block drbd1: receiver terminated
Jan  1 21:26:00 an-node02 kernel: block drbd1: Restarting receiver thread
Jan  1 21:26:00 an-node02 kernel: block drbd1: receiver (re)started
Jan  1 21:26:00 an-node02 kernel: block drbd1: conn( Unconnected -> WFConnection ) 
Jan  1 21:26:00 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca

Here we see DRBD calling the handler (first message), shortly after we see a log entry from obliterate-peer.sh (last entry). What you don't see is that right after that last message, obliterate-peer.sh goes into a 10-iteration loop where it calls fence_node against its peer.

Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: Local node ID: 2 / Remote node: an-node01.alteeve.ca
Jan  1 21:26:01 an-node02 /sbin/obliterate-peer.sh: kill node failed: Invalid argument

The fence_node call runs in the background, so the obliterate-peer.sh script goes into a short sleep before trying again (and again...). These subsequent calls will generate the kill node failed: Invalid argument because the first call is already in the process of fencing the node, and are thus safe to ignore. The important past was that this error message didn't follow the first entry.

Jan  1 21:26:15 an-node02 fenced[2022]: fence an-node01.alteeve.ca success

This is what matters. Here we see that the fence succeeded and the hung node was indeed fenced.

Failing and Recovery of an-node02

With everything back in place, we'll hang an-node02 and ensure that its VMs will recover on an-node01.

As always, check the current state.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 22:53:43 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Now hang an-node02.

echo c > /proc/sysrq-trigger

As before, that command will not return. If we check an-node01's syslog though, we should see that the node is fenced and the lost VMs are recovered.

Jan  1 22:56:14 an-node01 kernel: block drbd1: PingAck did not arrive in time.
Jan  1 22:56:14 an-node01 kernel: block drbd1: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 ) 
Jan  1 22:56:15 an-node01 kernel: block drbd1: asender terminated
Jan  1 22:56:15 an-node01 kernel: block drbd1: Terminating asender thread
Jan  1 22:56:15 an-node01 kernel: block drbd1: Connection closed
Jan  1 22:56:15 an-node01 kernel: block drbd1: conn( NetworkFailure -> Unconnected ) 
Jan  1 22:56:15 an-node01 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1
Jan  1 22:56:15 an-node01 kernel: block drbd1: receiver terminated
Jan  1 22:56:15 an-node01 kernel: block drbd1: Restarting receiver thread
Jan  1 22:56:15 an-node01 kernel: block drbd1: receiver (re)started
Jan  1 22:56:15 an-node01 kernel: block drbd1: conn( Unconnected -> WFConnection ) 
Jan  1 22:56:15 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.ca
Jan  1 22:56:19 an-node01 kernel: block drbd0: PingAck did not arrive in time.
Jan  1 22:56:19 an-node01 kernel: block drbd0: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 ) 
Jan  1 22:56:19 an-node01 kernel: block drbd0: asender terminated
Jan  1 22:56:19 an-node01 kernel: block drbd0: Terminating asender thread
Jan  1 22:56:19 an-node01 kernel: block drbd0: Connection closed
Jan  1 22:56:19 an-node01 kernel: block drbd0: conn( NetworkFailure -> Unconnected ) 
Jan  1 22:56:19 an-node01 kernel: block drbd0: helper command: /sbin/drbdadm fence-peer minor-0
Jan  1 22:56:19 an-node01 kernel: block drbd0: receiver terminated
Jan  1 22:56:19 an-node01 kernel: block drbd0: Restarting receiver thread
Jan  1 22:56:19 an-node01 kernel: block drbd0: receiver (re)started
Jan  1 22:56:19 an-node01 kernel: block drbd0: conn( Unconnected -> WFConnection ) 
Jan  1 22:56:19 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.ca
Jan  1 22:56:19 an-node01 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 22:56:21 an-node01 kernel: block drbd2: PingAck did not arrive in time.
Jan  1 22:56:21 an-node01 kernel: block drbd2: peer( Primary -> Unknown ) conn( Connected -> NetworkFailure ) pdsk( UpToDate -> DUnknown ) susp( 0 -> 1 ) 
Jan  1 22:56:21 an-node01 kernel: block drbd2: asender terminated
Jan  1 22:56:21 an-node01 kernel: block drbd2: Terminating asender thread
Jan  1 22:56:21 an-node01 kernel: block drbd2: Connection closed
Jan  1 22:56:21 an-node01 kernel: block drbd2: conn( NetworkFailure -> Unconnected ) 
Jan  1 22:56:21 an-node01 kernel: block drbd2: receiver terminated
Jan  1 22:56:21 an-node01 kernel: block drbd2: Restarting receiver thread
Jan  1 22:56:21 an-node01 kernel: block drbd2: receiver (re)started
Jan  1 22:56:21 an-node01 kernel: block drbd2: conn( Unconnected -> WFConnection ) 
Jan  1 22:56:21 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2
Jan  1 22:56:21 an-node01 /sbin/obliterate-peer.sh: Local node ID: 1 / Remote node: an-node02.alteeve.ca
Jan  1 22:56:21 an-node01 /sbin/obliterate-peer.sh: kill node failed: Invalid argument
Jan  1 22:56:22 an-node01 corosync[1958]:   [TOTEM ] A processor failed, forming new configuration.
Jan  1 22:56:24 an-node01 corosync[1958]:   [QUORUM] Members[1]: 1
Jan  1 22:56:24 an-node01 corosync[1958]:   [TOTEM ] A processor joined or left the membership and a new membership was formed.
Jan  1 22:56:24 an-node01 kernel: dlm: closing connection to node 2
Jan  1 22:56:24 an-node01 corosync[1958]:   [CPG   ] chosen downlist: sender r(0) ip(10.20.0.1) ; members(old:2 left:1)
Jan  1 22:56:24 an-node01 corosync[1958]:   [MAIN  ] Completed service synchronization, ready to provide service.
Jan  1 22:56:24 an-node01 fenced[2014]: fencing node an-node02.alteeve.ca
Jan  1 22:56:24 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Trying to acquire journal lock...
Jan  1 22:56:28 an-node01 fenced[2014]: fence an-node02.alteeve.ca success
Jan  1 22:56:29 an-node01 fence_node[638]: fence an-node02.alteeve.ca success
Jan  1 22:56:29 an-node01 kernel: block drbd2: helper command: /sbin/drbdadm fence-peer minor-2 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd2: fence-peer helper returned 7 (peer was stonithed)
Jan  1 22:56:29 an-node01 kernel: block drbd2: pdsk( DUnknown -> Outdated ) 
Jan  1 22:56:29 an-node01 kernel: block drbd2: new current UUID 207F7C9279067EC1:3EEB0F756A6A289F:FD92DAC355F53A93:FD91DAC355F53A93
Jan  1 22:56:29 an-node01 kernel: block drbd2: susp( 1 -> 0 ) 
Jan  1 22:56:29 an-node01 fence_node[518]: fence an-node02.alteeve.ca success
Jan  1 22:56:29 an-node01 kernel: block drbd1: helper command: /sbin/drbdadm fence-peer minor-1 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd1: fence-peer helper returned 7 (peer was stonithed)
Jan  1 22:56:29 an-node01 kernel: block drbd1: pdsk( DUnknown -> Outdated ) 
Jan  1 22:56:29 an-node01 kernel: block drbd1: new current UUID C65C044AE682D8C5:67D512BD61B70265:C1947DF86E910F8B:C1937DF86E910F8B
Jan  1 22:56:29 an-node01 kernel: block drbd1: susp( 1 -> 0 ) 
Jan  1 22:56:29 an-node01 rgmanager[2507]: Marking service:storage_an02 as stopped: Restricted domain unavailable
Jan  1 22:56:29 an-node01 fence_node[583]: fence an-node02.alteeve.ca success
Jan  1 22:56:29 an-node01 kernel: block drbd0: helper command: /sbin/drbdadm fence-peer minor-0 exit code 7 (0x700)
Jan  1 22:56:29 an-node01 kernel: block drbd0: fence-peer helper returned 7 (peer was stonithed)
Jan  1 22:56:29 an-node01 kernel: block drbd0: pdsk( DUnknown -> Outdated ) 
Jan  1 22:56:29 an-node01 kernel: block drbd0: new current UUID 295A00166167B5C3:A3F3889ECF7247F5:30313B4AFFF6F82B:30303B4AFFF6F82B
Jan  1 22:56:29 an-node01 kernel: block drbd0: susp( 1 -> 0 ) 
Jan  1 22:56:29 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Looking at journal...
Jan  1 22:56:30 an-node01 kernel: GFS2: fsid=an-cluster-A:shared.1: jid=0: Done
Jan  1 22:56:30 an-node01 rgmanager[2507]: Taking over service vm:vm0003-db from down member an-node02.alteeve.ca
Jan  1 22:56:30 an-node01 rgmanager[2507]: Taking over service vm:vm0004-ms from down member an-node02.alteeve.ca
Jan  1 22:56:30 an-node01 kernel: device vnet2 entered promiscuous mode
Jan  1 22:56:30 an-node01 kernel: vbr2: port 4(vnet2) entering learning state
Jan  1 22:56:30 an-node01 rgmanager[2507]: Service vm:vm0003-db started
Jan  1 22:56:31 an-node01 kernel: device vnet3 entered promiscuous mode
Jan  1 22:56:31 an-node01 kernel: vbr2: port 5(vnet3) entering learning state
Jan  1 22:56:31 an-node01 rgmanager[2507]: Service vm:vm0004-ms started
Jan  1 22:56:34 an-node01 ntpd[2267]: Listening on interface #12 vnet3, fe80::fc54:ff:fe5e:b147#123 Enabled
Jan  1 22:56:34 an-node01 ntpd[2267]: Listening on interface #13 vnet2, fe80::fc54:ff:fe44:83ec#123 Enabled
Jan  1 22:56:40 an-node01 kernel: kvm: 1074: cpu0 unimplemented perfctr wrmsr: 0xc1 data 0xabcd
Jan  1 22:56:45 an-node01 kernel: vbr2: port 4(vnet2) entering forwarding state
Jan  1 22:56:46 an-node01 kernel: vbr2: port 5(vnet3) entering forwarding state

Checking clustat;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 22:57:36 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Offline

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           (an-node02.alteeve.ca)        stopped
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node01.alteeve.ca          started
 vm:vm0004-ms                   an-node01.alteeve.ca          started

All four VMs are back up and running on an-node01!

Within a few moments, we should see see that an-node02 has rejoined the cluster.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 23:00:43 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node01.alteeve.ca          started
 vm:vm0004-ms                   an-node01.alteeve.ca          started

Now we'll wait for the backing DRBD resources to be in sync.

cat /proc/drbd
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:SyncTarget ro:Primary/Primary ds:Inconsistent/UpToDate C r-----
    ns:0 nr:272884 dw:271744 dr:5700 al:0 bm:25 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:780928
	[====>...............] sync'ed: 26.4% (780928/1052672)K
	finish: 0:10:02 speed: 1,284 (1,280) want: 250 K/sec
 1: cs:SyncTarget ro:Primary/Primary ds:Inconsistent/UpToDate C r-----
    ns:0 nr:272196 dw:271048 dr:3688 al:0 bm:45 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:122292
	[=============>......] sync'ed: 70.2% (122292/393216)K
	finish: 0:01:31 speed: 1,328 (1,276) want: 250 K/sec
 2: cs:SyncTarget ro:Primary/Primary ds:Inconsistent/UpToDate C r-----
    ns:0 nr:273426 dw:272258 dr:3636 al:0 bm:47 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:781500
	[====>...............] sync'ed: 26.4% (781500/1052760)K
	finish: 0:09:49 speed: 1,308 (1,284) want: 250 K/sec

(time passes)

cat /proc/drbd
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:1053812 dw:1052672 dr:6964 al:0 bm:74 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0
 1: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:394560 dw:393412 dr:4988 al:0 bm:70 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:0
 2: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:1055190 dw:1054022 dr:4936 al:0 bm:167 lo:0 pe:0 ua:0 ap:0 ep:1 wo:f oos:0

Now we're ready to migrate vm0003-db and vm0004-ms back to an-node02.

clusvcadm -M vm:vm0003-db -m an-node02.alteeve.ca
Trying to migrate vm:vm0003-db to an-node02.alteeve.ca...Success
clusvcadm -M vm:vm0004-ms -m an-node02.alteeve.ca
Trying to migrate vm:vm0004-ms to an-node02.alteeve.ca...Success

A final check;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 23:08:06 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

Good!

Complete Cold Shut Down And Cold Starting The Cluster

The final testing is now complete. There is one final task to cover though; "Cold Shut Down" and "Cold Start" of the cluster. This involves shutting down all VMs, stopping rgmanager and cman on both nodes, then powering off both nodes.

The cold-start process involves simply powering both nodes on within the set post_join_delay, then manually enabling the four VMs.

Stopping All VMs

Check the status as always;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 23:13:24 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  an-node01.alteeve.ca          started
 vm:vm0002-web                  an-node01.alteeve.ca          started
 vm:vm0003-db                   an-node02.alteeve.ca          started
 vm:vm0004-ms                   an-node02.alteeve.ca          started

All four VMs are up, so we'll stop all of them.

Note: You might want to get into the habit of stopping the windows machines, then connecting to them over RDP or using virt-manager to ensure that it has started to power down. If it hasn't, shut it down from within the OS.
clusvcadm -d vm:vm0001-dev
Local machine disabling vm:vm0001-dev...Success
clusvcadm -d vm:vm0002-web
Local machine disabling vm:vm0002-web...Success
clusvcadm -d vm:vm0003-db
Local machine disabling vm:vm0003-db...Success
clusvcadm -d vm:vm0004-ms
Local machine disabling vm:vm0004-ms...Success

Confirm;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 23:17:29 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State
 ------- ----                   ----- ------                   -----
 service:storage_an01           an-node01.alteeve.ca          started
 service:storage_an02           an-node02.alteeve.ca          started
 vm:vm0001-dev                  (an-node01.alteeve.ca)        disabled
 vm:vm0002-web                  (an-node01.alteeve.ca)        disabled
 vm:vm0003-db                   (an-node02.alteeve.ca)        disabled
 vm:vm0004-ms                   (an-node02.alteeve.ca)        disabled

Good, we can now stop rgmanager on both nodes.

Shutting Down The Cluster Entirely

Note: It can sometimes take a minute or two for rgmanager to stop. Please be patient.

On an-node01;

/etc/init.d/rgmanager stop
Stopping Cluster Service Manager:                          [  OK  ]

On an-node02;

/etc/init.d/rgmanager stop
Stopping Cluster Service Manager:                          [  OK  ]

Now stop cman on both nodes.

On an-node01;

/etc/init.d/cman stop
Stopping cluster: 
   Leaving fence domain...                                 [  OK  ]
   Stopping gfs_controld...                                [  OK  ]
   Stopping dlm_controld...                                [  OK  ]
   Stopping fenced...                                      [  OK  ]
   Stopping cman...                                        [  OK  ]
   Waiting for corosync to shutdown:                       [  OK  ]
   Unloading kernel modules...                             [  OK  ]
   Unmounting configfs...                                  [  OK  ]

On an-node02;

/etc/init.d/cman stop
Stopping cluster: 
   Leaving fence domain...                                 [  OK  ]
   Stopping gfs_controld...                                [  OK  ]
   Stopping dlm_controld...                                [  OK  ]
   Stopping fenced...                                      [  OK  ]
   Stopping cman...                                        [  OK  ]
   Waiting for corosync to shutdown:                       [  OK  ]
   Unloading kernel modules...                             [  OK  ]
   Unmounting configfs...                                  [  OK  ]

We're down, we can safely power off the nodes now.

poweroff
Broadcast message from root@an-node01.alteeve.ca
	(/dev/pts/0) at 23:22 ...

The system is going down for power off NOW!

Cold-Stop achieved!

Cold-Starting The Cluster

Note: It is important to power on both nodes within post_join_delay seconds. Otherwise, the slower node will be fenced and the boot process will take longer than it needs to.

Power on both nodes. You can just hit the power button, or if you have a workstation on the BCN with fence-agents installed, you can call fence_ipmilan (or the agent you use in your cluster).

fence_ipmilan -a an-node01.ipmi -l root -p secret -o on
Powering on machine @ IPMI:an-node01.ipmi...Done
fence_ipmilan -a an-node02.ipmi -l root -p secret -o on
Powering on machine @ IPMI:an-node02.ipmi...Done

Once they're up, log into them again and check their status. You will see that the VMs are off-line.

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 23:40:16 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, Local, rgmanager
 an-node02.alteeve.ca                       2 Online, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  (none)                         disabled      
 vm:vm0002-web                  (none)                         disabled      
 vm:vm0003-db                   (none)                         disabled      
 vm:vm0004-ms                   (none)                         disabled

Check that DRBD is ready;

cat /proc/drbd
version: 8.3.12 (api:88/proto:86-96)
GIT-hash: e2a8ef4656be026bbae540305fcb998a5991090f build by dag@Build64R6, 2011-11-20 10:57:03
 0: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:4 nr:0 dw:0 dr:8712 al:0 bm:1 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0
 1: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:0 dw:0 dr:4632 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0
 2: cs:Connected ro:Primary/Primary ds:UpToDate/UpToDate C r-----
    ns:0 nr:0 dw:0 dr:4648 al:0 bm:0 lo:0 pe:0 ua:0 ap:0 ep:1 wo:b oos:0

Golden, let's start the VMs.

clusvcadm -e vm:vm0001-dev -m an-node01.alteeve.ca
vm:vm0001-dev is now running on an-node01.alteeve.ca
clusvcadm -e vm:vm0002-web -m an-node01.alteeve.ca
vm:vm0002-web is now running on an-node01.alteeve.ca
clusvcadm -e vm:vm0003-db -m an-node02.alteeve.ca
vm:vm0003-db is now running on an-node02.alteeve.ca
clusvcadm -e vm:vm0004-ms -m an-node02.alteeve.ca
vm:vm0004-ms is now running on an-node02.alteeve.ca

Check the new status;

clustat
Cluster Status for an-cluster-A @ Sun Jan  1 23:45:35 2012
Member Status: Quorate

 Member Name                             ID   Status
 ------ ----                             ---- ------
 an-node01.alteeve.ca                       1 Online, rgmanager
 an-node02.alteeve.ca                       2 Online, Local, rgmanager

 Service Name                   Owner (Last)                   State         
 ------- ----                   ----- ------                   -----         
 service:storage_an01           an-node01.alteeve.ca          started       
 service:storage_an02           an-node02.alteeve.ca          started       
 vm:vm0001-dev                  an-node01.alteeve.ca          started       
 vm:vm0002-web                  an-node01.alteeve.ca          started       
 vm:vm0003-db                   an-node02.alteeve.ca          started       
 vm:vm0004-ms                   an-node02.alteeve.ca          started

We're back up and running!

Done and Done!

That, ladies and gentlemen, is all she wrote!

You should now be safely ready to take your cluster into production at this stage.

Happy Hacking!

Troubleshooting

The troubleshooting section seems to have pushed Media Wiki beyond it's single-article length limit. For this reason, it has been moved to it's own page.

Disabling rsyslog Rate Limiting

Please see;

 

Any questions, feedback, advice, complaints or meanderings are welcome.
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