Anvil! Tutorial 3

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 Alteeve Wiki :: How To :: Anvil! Tutorial 3

Warning: This tutorial is incomplete, flawed and generally sucks at this time. Do not follow this and expect anything to work. In large part, it's a dumping ground for notes and little else. This warning will be removed when the tutorial is completed.

This is the third Anvil! tutorial built on Red Hat's Enterprise Linux 7. It marks the third generation of the Anvil! High-Availability Platform.

As with the previous tutorials, the end goal of this tutorial is an Anvil! platform for high-availability virtual servers. It's design attempts to remove all single points of failure from the system. Power and networking are made fully redundant in this version, along with minimizing the node failures which would lead to service interruption. This tutorial also covers the Striker dashboard and ScanCore monitoring and self-healing tools.

As it the previous tutorial, KVM will be the hypervisor used for facilitating virtual machines. The old cman and rgmanager tools are replaced in favour of pacemaker for resource management.

Before We Begin

This tutorial does not require prior Anvil! experience (or any clustering experience), but it does expect a certain familiarity with Linux and a low-intermediate understanding of networking. Where possible, steps are explained in detail and rationale is provided for why certain decisions are made.

For those with Anvil! experience;

Please be careful not to skip too much. There are some major and some subtle changes from previous tutorials.

OS Setup

This tutorial assumes a minimal install of either RHEL or CentOS version 7.

Post OS Install

Note: With RHEL7, biosdevname tries to give network devices predictable names. It's very likely that your initial device names will differ from those in this tutorial.

If you are running RHEL

Before you can download any packages, you will need to register your nodes with Red Hat's subscription manager;

an-a04n01
subscription-manager register --username $username --password $password --auto-attach
subscription-manager repos --enable=rhel-ha-for-rhel-7-server-rpms
subscription-manager repos --enable=rhel-7-server-optional-rpms
The system has been registered with ID: 9c578d87-bd80-4637-9f41-6076efb9e20e

Installed Product Current Status:
Product Name: Red Hat Enterprise Linux Server
Status:       Subscribed
an-a04n02
subscription-manager register --username $username --password $password --auto-attach
subscription-manager repos --enable=rhel-ha-for-rhel-7-server-rpms
subscription-manager repos --enable=rhel-7-server-optional-rpms
The system has been registered with ID: a55c83e5-e4ec-4fcf-b7b7-b9455b3e07cf

Installed Product Current Status:
Product Name: Red Hat Enterprise Linux Server
Status:       Subscribed

Adding LINBIT Repos

If you purchased full LINBIT support, you can add their repos in order to get DRBD 9 and associated tools.

First, download their registration tool.

an-a04n01
cd /root
wget https://my.linbit.com/linbit-manage-node.py
--2016-11-19 10:22:21--  https://my.linbit.com/linbit-manage-node.py
Resolving my.linbit.com (my.linbit.com)... 212.69.166.235
Connecting to my.linbit.com (my.linbit.com)|212.69.166.235|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 26797 (26K) [application/x-python-script]
Saving to: ‘linbit-manage-node.py’

100%[========================================================================================>] 26,797      --.-K/s   in 0.1s    

2016-11-19 10:22:21 (175 KB/s) - ‘linbit-manage-node.py’ saved [26797/26797]
an-a04n02
cd /root
wget https://my.linbit.com/linbit-manage-node.py
--2016-11-19 10:26:52--  https://my.linbit.com/linbit-manage-node.py
Resolving my.linbit.com (my.linbit.com)... 212.69.166.235
Connecting to my.linbit.com (my.linbit.com)|212.69.166.235|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 26797 (26K) [application/x-python-script]
Saving to: ‘linbit-manage-node.py’

100%[========================================================================================>] 26,797      --.-K/s   in 0.1s    

2016-11-19 10:26:53 (182 KB/s) - ‘linbit-manage-node.py’ saved [26797/26797]

Make it executable.

an-a04n01
chmod 755 linbit-manage-node.py
ls -lah linbit-manage-node.py
-rwxr-xr-x. 1 root root 27K Oct 11 05:54 linbit-manage-node.py
an-a04n02
chmod 755 linbit-manage-node.py
-rwxr-xr-x. 1 root root 27K Oct 11 05:54 linbit-manage-node.py
Note: If you get the error: 'ERR: Could not detect MAC addresses of your node', then the version of 'linbit-manage-node.py' does not yet recognise bridges or slaved interfaces in bonds. For now, you can download a modified version from Alteeve instead.

Now run the tool interactively.

an-a04n01
/root/linbit-manage-node.py
linbit-manage-node.py (Version: 1.11)
Checking if version is up to date
[OK] Your version is up to date
Username:
an-a04n02
/root/linbit-manage-node.py
linbit-manage-node.py (Version: 1.11)
Checking if version is up to date
[OK] Your version is up to date
Username:

Enter the user name and password given to you by LINBIT when you registered with them.

an-a04n01
Username: xxxxxx
Credential (will not be echoed):
[OK] Login successful
The following contracts are available:
Will this node form a cluster with...

1) Contract: silver 2017-01-07 (ID: xxxx)

--> Please enter a number in range and press return:
an-a04n02
Username: xxxxxx
Credential (will not be echoed):
[OK] Login successful
The following contracts are available:
Will this node form a cluster with...

1) Contract: silver 2017-01-07 (ID: xxxx)

--> Please enter a number in range and press return:

If you have multiple contracts, select the number to the left of the contract identification. Otherwise, select '1'.

an-a04n01
--> Please enter a number in range and press return: 1
Writing registration data:
an-a04n02
--> Please enter a number in range and press return: 1
Writing registration data:

Confirm that you want to write out the license file. Once you accept, you will be presented with a menu of which repositories you want to use from LINBIT. We're only going to enable the 'drbd-9.0' repo and leave the pacemaker repos disabled as we'll pull them from Red Hat.

an-a04n01
--> Write to file (/var/lib/drbd-support/registration.json)? [y/N]
  Here are the repositories you can enable:

    1) pacemaker-1.1.15(Disabled)
    2) pacemaker-1.1.12(Disabled)
    3) pacemaker-1.1(Disabled)
    4) drbd-9.0(Disabled)
    5) drbd-8.4(Disabled)

  Enter the number of the repository you wish to enable/disable. Hit 0 when you are done.
  Enable/Disable: 4
  Here are the repositories you can enable:

    1) pacemaker-1.1.15(Disabled)
    2) pacemaker-1.1.12(Disabled)
    3) pacemaker-1.1(Disabled)
    4) drbd-9.0(Enabled)
    5) drbd-8.4(Disabled)

  Enter the number of the repository you wish to enable/disable. Hit 0 when you are done.
  Enable/Disable: 0
an-a04n02
--> Write to file (/var/lib/drbd-support/registration.json)? [y/N]
  Here are the repositories you can enable:

    1) pacemaker-1.1.15(Disabled)
    2) pacemaker-1.1.12(Disabled)
    3) pacemaker-1.1(Disabled)
    4) drbd-9.0(Disabled)
    5) drbd-8.4(Disabled)

  Enter the number of the repository you wish to enable/disable. Hit 0 when you are done.
  Enable/Disable: 4
  Here are the repositories you can enable:

    1) pacemaker-1.1.15(Disabled)
    2) pacemaker-1.1.12(Disabled)
    3) pacemaker-1.1(Disabled)
    4) drbd-9.0(Enabled)
    5) drbd-8.4(Disabled)

  Enter the number of the repository you wish to enable/disable. Hit 0 when you are done.
  Enable/Disable: 0
Warning: The repository will include a node-specific hash string in the 'baseurl'. Keep this private!

Once you select '0' to exit that menu, a summary of the repo will be displayed and you will be asked if you want to save it or not.

an-a04n01
Writing repository config:
Content:
[drbd-8.4]
name=LINBIT Packages for drbd-8.4 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/drbd-8.4/$basearch
enabled=0
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1

[pacemaker-1.1]
name=LINBIT Packages for pacemaker-1.1 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/pacemaker-1.1/$basearch
enabled=0
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1

[pacemaker-1.1.15]
name=LINBIT Packages for pacemaker-1.1.15 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/pacemaker-1.1.15/$basearch
enabled=0
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1

[pacemaker-1.1.12]
name=LINBIT Packages for pacemaker-1.1.12 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/pacemaker-1.1.12/$basearch
enabled=0
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1

[drbd-9.0]
name=LINBIT Packages for drbd-9.0 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/drbd-9.0/$basearch
enabled=1
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1
--> Write to file (/etc/yum.repos.d/linbit.repo)? [y/N] y
an-a04n02
Writing repository config:
Content:
[drbd-8.4]
name=LINBIT Packages for drbd-8.4 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/drbd-8.4/$basearch
enabled=0
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1

[pacemaker-1.1]
name=LINBIT Packages for pacemaker-1.1 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/pacemaker-1.1/$basearch
enabled=0
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1

[pacemaker-1.1.15]
name=LINBIT Packages for pacemaker-1.1.15 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/pacemaker-1.1.15/$basearch
enabled=0
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1

[pacemaker-1.1.12]
name=LINBIT Packages for pacemaker-1.1.12 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/pacemaker-1.1.12/$basearch
enabled=0
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1

[drbd-9.0]
name=LINBIT Packages for drbd-9.0 - $basearch
baseurl=http://packages.linbit.com/xxxxxx/yum/rhel7/drbd-9.0/$basearch
enabled=1
gpgkey=https://packages.linbit.com/package-signing-pubkey.asc
gpgcheck=1
--> Write to file (/etc/yum.repos.d/linbit.repo)? [y/N] y

When you accept, it will download the yum plugins and then ask you if you want to save their PGP key.

an-a04n01
[OK] Repository configuration written
Downloading LINBIT yum plugin
Downloading LINBIT yum plugin config
Final Notes:
--> Add linbit signing key to keyring now? [y/N] y
Now update your package information and install
LINBIT's kernel module and/or user space utilities
[OK] Congratulations! Your node was successfully configured.
an-a04n02
[OK] Repository configuration written
Downloading LINBIT yum plugin
Downloading LINBIT yum plugin config
Final Notes:
--> Add linbit signing key to keyring now? [y/N] y
Now update your package information and install
LINBIT's kernel module and/or user space utilities
[OK] Congratulations! Your node was successfully configured.

Done!

Install

Not all of these are required, but most are used at one point or another in this tutorial.

Note: The fence-agents-virsh package is not available in RHEL 7 beta. Further, it's only needed if you're building your Anvil! using VMs.
an-a04n01
yum install rsync pacemaker bridge-utils ntp corosync pcs wget gpm man vim screen mlocate syslinux bzip2 \
            openssh-clients fence-agents-all fence-agents-virsh policycoreutils-python drbd drbd-bash-completion \
            drbd-pacemaker drbd-udev drbd-utils drbdmanage
an-a04n02
<same>


Making ssh faster when the net is down

By default, the nodes will try to resolve the host name of an incoming ssh connection. When the internet connection is down, DNS lookups have to time out, which can make login times quite slow. When something goes wrong, seconds count and waiting for up to a minute for an SSH password prompt can be maddening.

For this reason, we will make two changes to /etc/ssh/sshd_config that disable this login delay.

Please be aware that this can reduce security. If this is a concern, skip this step.

an-a04n01
sed -i.anvil 's/#GSSAPIAuthentication no/GSSAPIAuthentication no/' /etc/ssh/sshd_config
sed -i 's/GSSAPIAuthentication yes/#GSSAPIAuthentication yes/' /etc/ssh/sshd_config
sed -i 's/#UseDNS yes/UseDNS no/' /etc/ssh/sshd_config
systemctl restart sshd.service
diff -u /etc/ssh/sshd_config.anvil /etc/ssh/sshd_config
--- /etc/ssh/sshd_config.anvil	2014-06-09 21:15:52.000000000 -0400
+++ /etc/ssh/sshd_config	2014-07-27 08:41:03.296760761 -0400
@@ -89,8 +89,8 @@
 #KerberosUseKuserok yes
 
 # GSSAPI options
-#GSSAPIAuthentication no
-GSSAPIAuthentication yes
+GSSAPIAuthentication no
+#GSSAPIAuthentication yes
 #GSSAPICleanupCredentials yes
 GSSAPICleanupCredentials yes
 #GSSAPIStrictAcceptorCheck yes
@@ -127,7 +127,7 @@
 #ClientAliveInterval 0
 #ClientAliveCountMax 3
 #ShowPatchLevel no
-#UseDNS yes
+UseDNS no
 #PidFile /var/run/sshd.pid
 #MaxStartups 10:30:100
 #PermitTunnel no
an-a04n02
same
same

Subsequent logins when the net is down should be quick.

Configuring the network

If you want to make any other changes, like configuring the interface to have a static IP, do so now. Once you're done editing;

nmcli connection reload
systemctl restart NetworkManager.service
ip addr show
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN 
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
    inet 127.0.0.1/8 scope host lo
       valid_lft forever preferred_lft forever
    inet6 ::1/128 scope host 
       valid_lft forever preferred_lft forever
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
    link/ether 52:54:00:a7:9d:17 brd ff:ff:ff:ff:ff:ff
    inet 192.168.122.201/24 scope global eth0
       valid_lft forever preferred_lft forever
    inet6 fe80::5054:ff:fea7:9d17/64 scope link 
       valid_lft forever preferred_lft forever

The interface should now start on boot properly.

Setting the Hostname

Fedora 19 is very different from EL6.

Note: The '--pretty' line currently doesn't work as there is a bug (rhbz#895299) with single-quotes.
Note: The '--static' option is currently needed to prevent the '.' from being removed. See this bug (rhbz#896756).

Use a format that works for you. For the tutorial, node names are based on the following;

  • A two-letter prefix identifying the company/user (an, for "Alteeve's Niche!")
  • A sequential Anvil! ID number in the form of aXX (a01 for "Anvil! 01", a02 for Anvil! 02, etc)
  • A sequential node ID number in the form of nYY

In our case, this is my third Anvil! and we use the company prefix an, so these two nodes will be;

  • an-a04n01 - node 1
  • an-a04n02 - node 2
hostnamectl set-hostname an-a04n01.alteeve.ca --static
hostnamectl set-hostname --pretty "Alteeve's Niche! - Anvil! 03, Node 01"

If you want the new host name to take effect immediately, you can use the traditional hostname command:

hostname an-a04n01.alteeve.ca

The "pretty" host name is stored in /etc/machine-info as the unquoted value for the PRETTY_HOSTNAME value.

vim /etc/machine-info
PRETTY_HOSTNAME=Alteeves Niche! - Anvil! 03, Node 01

If you can't get the hostname command to work for some reason, you can reboot to have the system read the new values.

Network

Note: (Note for myself) - Consider using 'primary_reselect=1.

We want static, named network devices. Follow this;

Then, use these configuration files;

Build the bridge;

vim /etc/sysconfig/network-scripts/ifcfg-ifn_bridge1
# Internet-Facing Network - Bridge
DEVICE="ifn_bridge1"
TYPE="Bridge"
BOOTPROTO="none"
IPADDR="10.255.40.1"
NETMASK="255.255.0.0"
GATEWAY="10.255.255.254"
DNS1="8.8.8.8"
DNS2="8.8.4.4"
DEFROUTE="yes"

Now build the bonds;

vim /etc/sysconfig/network-scripts/ifcfg-ifn_bond1
# Internet-Facing Network - Bond
DEVICE="ifn_bond1"
BRIDGE="ifn_bridge1"
BOOTPROTO="none"
NM_CONTROLLED="no"
ONBOOT="yes"
BONDING_OPTS="mode=1 primary=ifn_link1 updelay=120000 downdelay=0 fail_over_mac=none miimon=100 primary_reselect=better resend_igmp=5"
vim /etc/sysconfig/network-scripts/ifcfg-sn_bond1
# Storage Network - Bond
DEVICE="sn_bond1"
BOOTPROTO="none"
NM_CONTROLLED="no"
ONBOOT="yes"
BONDING_OPTS="mode=1 primary=sn_link1 updelay=120000 downdelay=0 fail_over_mac=none miimon=100 primary_reselect=better resend_igmp=5"
IPADDR="10.10.40.1"
NETMASK="255.255.0.0"
vim /etc/sysconfig/network-scripts/ifcfg-bcn_bond1
# Back-Channel Network - Bond
DEVICE="bcn_bond1"
BOOTPROTO="none"
NM_CONTROLLED="no"
ONBOOT="yes"
BONDING_OPTS="mode=1 primary=bcn_link1 updelay=120000 downdelay=0 fail_over_mac=none miimon=100 primary_reselect=better resend_igmp=5"
IPADDR="10.20.40.1"
NETMASK="255.255.0.0"

Now tell the interfaces to be slaves to their bonds;

Internet-Facing Network;

vim /etc/sysconfig/network-scripts/ifcfg-ifn_link1
# Internet-Facing Network - Link 1
DEVICE="ifn_link1"
NM_CONTROLLED="no"
BOOTPROTO="none"
ONBOOT="yes"
SLAVE="yes"
MASTER="ifn_bond1"
vim /etc/sysconfig/network-scripts/ifcfg-ifn_link2
# Internet-Facing Network - Link 2
DEVICE="ifn_link2"
NM_CONTROLLED="no"
BOOTPROTO="none"
ONBOOT="yes"
SLAVE="yes"
MASTER="ifn_bond1"

Storage Network;

vim /etc/sysconfig/network-scripts/ifcfg-sn_link1
# Storage Network - Link 1
DEVICE="sn_link1"
NM_CONTROLLED="no"
BOOTPROTO="none"
ONBOOT="yes"
SLAVE="yes"
MASTER="sn_bond1"
vim /etc/sysconfig/network-scripts/ifcfg-sn_link2
# Storage Network - Link 2
DEVICE="sn_link2"
NM_CONTROLLED="no"
BOOTPROTO="none"
ONBOOT="yes"
SLAVE="yes"
MASTER="sn_bond1"

Back-Channel Network

vim /etc/sysconfig/network-scripts/ifcfg-bcn_link1
# Back-Channel Network - Link 1
DEVICE="bcn_link1"
NM_CONTROLLED="no"
BOOTPROTO="none"
ONBOOT="yes"
SLAVE="yes"
MASTER="bcn_bond1"
vim /etc/sysconfig/network-scripts/ifcfg-bcn_link2
# Back-Channel Network - Link 2
DEVICE="bcn_link2"
NM_CONTROLLED="no"
BOOTPROTO="none"
ONBOOT="yes"
SLAVE="yes"
MASTER="bcn_bond1"

Now restart the network, confirm that the bonds and bridge are up and you are ready to proceed.

Setup The hosts File

You can use DNS if you prefer. For now, lets use /etc/hosts for node name resolution.

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

# Anvil! 03, Node 01
10.255.40.1	an-a04n01.ifn
10.10.40.1	an-a04n01.sn
10.20.40.1	an-a04n01.bcn an-a04n01 an-a04n01.alteeve.ca
10.20.41.1	an-a04n01.ipmi

# Anvil! 03, Node 02
10.255.40.2	an-a04n02.ifn
10.10.40.2	an-a04n02.sn
10.20.40.2	an-a04n02.bcn an-a04n02 an-a04n02.alteeve.ca
10.20.41.2	an-a04n02.ipmi

# Foundation Pack
### Foundation Pack
# Network Switches
10.20.1.1	an-switch01 an-switch01.alteeve.ca
10.20.1.2	an-switch02 an-switch02.alteeve.ca	# Only accessible when out of the stack
 
# Switched PDUs
10.20.2.1	an-pdu01 an-pdu01.alteeve.ca
10.20.2.2	an-pdu02 an-pdu02.alteeve.ca
 
# Network-monitored UPSes
10.20.3.1	an-ups01 an-ups01.alteeve.ca
10.20.3.2	an-ups02 an-ups02.alteeve.ca
 
### Monitor Packs
10.20.4.1	an-striker01 an-striker01.alteeve.ca
10.255.4.1	an-striker01.ifn
10.20.4.2	an-striker02 an-striker02.alteeve.ca
10.255.4.2	an-striker02.ifn

Setup SSH

Same as before.

Populating And Pushing ~/.ssh/known_hosts

an-a04n01
ssh-keygen -t rsa -N "" -b 8191 -f ~/.ssh/id_rsa
Generating public/private rsa key pair.

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:
be:17:cc:23:8e:b1:b4:76:a1:e4:2a:91:cb:cd:d8:3a root@an-a04n01.alteeve.ca
The key's randomart image is:
+--[ RSA 8191]----+
|                 |
|                 |
|                 |
|                 |
|   .    So       |
|  o   +.o =      |
| . B + B.o o     |
|  E + B o..      |
|  .+.o ...       |
+-----------------+
an-a04n01
ssh-keygen -t rsa -N "" -b 8191 -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:
71:b1:9d:31:9f:7a:c9:10:74:e0:4c:69:53:8f:e4:70 root@an-a04n02.alteeve.ca
The key's randomart image is:
+--[ RSA 8191]----+
|          ..O+E  |
|           B+% + |
|        . o.*.= .|
|         o   + . |
|        S   . +  |
|             .   |
|                 |
|                 |
|                 |
+-----------------+

Setup autorized_keys:

an-a04n01
cat ~/.ssh/id_rsa.pub >> ~/.ssh/authorized_keys
ssh root@an-a04n02 "cat /root/.ssh/id_rsa.pub" >> ~/.ssh/authorized_keys 
rsync -av ~/.ssh/authorized_keys root@an-a04n02:/root/.ssh/
ssh-keyscan an-a04n01.alteeve.ca >> ~/.ssh/known_hosts
ssh-keyscan an-a04n01 >> ~/.ssh/known_hosts
ssh-keyscan an-a04n01.bcn >> ~/.ssh/known_hosts
ssh-keyscan an-a04n01.sn >> ~/.ssh/known_hosts
ssh-keyscan an-a04n01.ifn >> ~/.ssh/known_hosts
ssh-keyscan an-a04n02.alteeve.ca >> ~/.ssh/known_hosts
ssh-keyscan an-a04n02 >> ~/.ssh/known_hosts
ssh-keyscan an-a04n02.bcn >> ~/.ssh/known_hosts
ssh-keyscan an-a04n02.sn >> ~/.ssh/known_hosts
ssh-keyscan an-a04n02.ifn >> ~/.ssh/known_hosts
rsync -av ~/.ssh/known_hosts root@an-a04n02:/root/.ssh/
rsync -av /etc/hosts root@an-a04n02:/etc/
an-a04n01

Keeping Time in Sync

It's not as critical as it used to be to keep the clocks on the nodes in sync, but it's still a good idea.

ln -sf /usr/share/zoneinfo/America/Toronto /etc/localtime
systemctl start ntpd.service
systemctl enable ntpd.service

Configuring IPMI

F19 specifics based on the IPMI tutorial.

yum -y install ipmitools OpenIPMI
systemctl start ipmi.service
systemctl enable ipmi.service
ln -s '/usr/lib/systemd/system/ipmi.service' '/etc/systemd/system/multi-user.target.wants/ipmi.service'

Our servers use lan channel 2, yours might be 1 or something else. Experiment.

ipmitool lan print 2
Set in Progress         : Set Complete
Auth Type Support       : NONE MD5 PASSWORD 
Auth Type Enable        : Callback : NONE MD5 PASSWORD 
                        : User     : NONE MD5 PASSWORD 
                        : Operator : NONE MD5 PASSWORD 
                        : Admin    : NONE MD5 PASSWORD 
                        : OEM      : NONE MD5 PASSWORD 
IP Address Source       : BIOS Assigned Address
IP Address              : 10.20.41.1
Subnet Mask             : 255.255.0.0
MAC Address             : 00:19:99:9a:d8:e8
SNMP Community String   : public
IP Header               : TTL=0x40 Flags=0x40 Precedence=0x00 TOS=0x10
Default Gateway IP      : 10.20.255.254
802.1q VLAN ID          : Disabled
802.1q VLAN Priority    : 0
RMCP+ Cipher Suites     : 0,1,2,3,6,7,8,17
Cipher Suite Priv Max   : OOOOOOOOXXXXXXX
                        :     X=Cipher Suite Unused
                        :     c=CALLBACK
                        :     u=USER
                        :     o=OPERATOR
                        :     a=ADMIN
                        :     O=OEM

I need to set the IPs to 10.20.41.1/16 and 10.20.41.2/16 for nodes 1 and 2, respectively. I also want to set the password to secret for the admin user.

Node 01 IP;

ipmitool lan set 2 ipsrc static
ipmitool lan set 2 ipaddr 10.20.41.1
ipmitool lan set 2 netmask 255.255.0.0
ipmitool lan set 2 defgw ipaddr 10.20.255.254
ipmitool lan print 2
Set in Progress         : Set Complete
Auth Type Support       : NONE MD5 PASSWORD 
Auth Type Enable        : Callback : NONE MD5 PASSWORD 
                        : User     : NONE MD5 PASSWORD 
                        : Operator : NONE MD5 PASSWORD 
                        : Admin    : NONE MD5 PASSWORD 
                        : OEM      : NONE MD5 PASSWORD 
IP Address Source       : Static Address
IP Address              : 10.20.41.1
Subnet Mask             : 255.255.0.0
MAC Address             : 00:19:99:9a:d8:e8
SNMP Community String   : public
IP Header               : TTL=0x40 Flags=0x40 Precedence=0x00 TOS=0x10
Default Gateway IP      : 10.20.255.254
802.1q VLAN ID          : Disabled
802.1q VLAN Priority    : 0
RMCP+ Cipher Suites     : 0,1,2,3,6,7,8,17
Cipher Suite Priv Max   : OOOOOOOOXXXXXXX
                        :     X=Cipher Suite Unused
                        :     c=CALLBACK
                        :     u=USER
                        :     o=OPERATOR
                        :     a=ADMIN
                        :     O=OEM

Node 01 IP;

ipmitool lan set 2 ipsrc static
ipmitool lan set 2 ipaddr 10.20.41.2
ipmitool lan set 2 netmask 255.255.0.0
ipmitool lan set 2 defgw ipaddr 10.20.255.254
ipmitool lan print 2
Set in Progress         : Set Complete
Auth Type Support       : NONE MD5 PASSWORD 
Auth Type Enable        : Callback : NONE MD5 PASSWORD 
                        : User     : NONE MD5 PASSWORD 
                        : Operator : NONE MD5 PASSWORD 
                        : Admin    : NONE MD5 PASSWORD 
                        : OEM      : NONE MD5 PASSWORD 
IP Address Source       : Static Address
IP Address              : 10.20.41.2
Subnet Mask             : 255.255.0.0
MAC Address             : 00:19:99:9a:b1:78
SNMP Community String   : public
IP Header               : TTL=0x40 Flags=0x40 Precedence=0x00 TOS=0x10
Default Gateway IP      : 10.20.255.254
802.1q VLAN ID          : Disabled
802.1q VLAN Priority    : 0
RMCP+ Cipher Suites     : 0,1,2,3,6,7,8,17
Cipher Suite Priv Max   : OOOOOOOOXXXXXXX
                        :     X=Cipher Suite Unused
                        :     c=CALLBACK
                        :     u=USER
                        :     o=OPERATOR
                        :     a=ADMIN
                        :     O=OEM

Set the password.

ipmitool user list 2
ID  Name	     Callin  Link Auth	IPMI Msg   Channel Priv Limit
1                    true    true       true       Unknown (0x00)
2   admin            true    true       true       OEM
Get User Access command failed (channel 2, user 3): Unknown (0x32)

(ignore the error, it's harmless... *BOOM*)

We want to set admin's password, so we do:

Note: The 2 below is the ID number, not the LAN channel.
ipmitool user set password 2 secret

Done!

Configuring the Anvil!

Now we're getting down to business!

For this section, we will be working on an-a04n01 and using ssh to perform tasks on an-a04n02.

Note: TODO: explain what this is and how it works.

Enable the pcs Daemon

Note: Most of this section comes more or less verbatim from the main Clusters from Scratch tutorial.

We will use pcs, the Pacemaker Configuration System, to configure our Anvil!.

Note that pcsd uses TCP port 2224.

systemctl start pcsd.service
systemctl enable pcsd.service
ln -s '/usr/lib/systemd/system/pcsd.service' '/etc/systemd/system/multi-user.target.wants/pcsd.service'

Now we need to set a password for the hacluster user. This is the account used by pcs on one node to talk to the pcs daemon on the other node. For this tutorial, we will use the password secret. You will want to use a stronger password, of course.

echo "super secret password" | passwd --stdin hacluster
Changing password for user hacluster.
passwd: all authentication tokens updated successfully.

Open up the firewall:

firewall-cmd --permanent --add-service=high-availability
firewall-cmd --reload

Initializing the Cluster

One of the biggest reasons we're using the pcs tool, over something like crm, is that it has been written to simplify the setup of clusters on Red Hat style operating systems. It will configure corosync automatically.

First, we need to know what hostname we will need to use for pcs.

Node 01:

hostname
an-a04n01.alteeve.ca

Node 02:

hostname
an-a04n02.alteeve.ca

Next, authenticate against the cluster nodes.

Both nodes:

pcs cluster auth an-a04n01.alteeve.ca an-a04n02.alteeve.ca -u hacluster

This will ask you for the user name and password. The default user name is hacluster and we set the password to secret.

Password: 
an-a04n01.alteeve.ca: 6e9f7e98-dfb7-4305-b8e0-d84bf4f93ce3
an-a04n01.alteeve.ca: Authorized
an-a04n02.alteeve.ca: ffee6a85-ddac-4d03-9b97-f136d532b478
an-a04n02.alteeve.ca: Authorized

Do this on one node only:

Now to initialize the cluster's communication and membership layer.

pcs cluster setup --name an-anvil-03 an-a04n01.alteeve.ca an-a04n02.alteeve.ca
an-a04n01.alteeve.ca: Succeeded
an-a04n02.alteeve.ca: Succeeded

This will create the corosync configuration file /etc/corosync/corosync.conf;

cat /etc/corosync/corosync.conf
totem {
version: 2
secauth: off
cluster_name: an-anvil-03
transport: udpu
}

nodelist {
  node {
        ring0_addr: an-a04n01.alteeve.ca
        nodeid: 1
       }
  node {
        ring0_addr: an-a04n02.alteeve.ca
        nodeid: 2
       }
}

quorum {
provider: corosync_votequorum
two_node: 1
}

logging {
to_syslog: yes
}

Start the Cluster For the First Time

This starts the cluster communication and membership layer for the first time.

On one node only;

pcs cluster start --all
an-a04n01.alteeve.ca: Starting Cluster...
an-a04n02.alteeve.ca: Starting Cluster...

After a few moments, you should be able to check the status;

pcs status
Cluster name: an-anvil-04
WARNING: no stonith devices and stonith-enabled is not false
Last updated: Mon Jun 24 23:28:29 2013
Last change: Mon Jun 24 23:28:10 2013 via crmd on an-a04n01.alteeve.ca
Current DC: NONE
2 Nodes configured, unknown expected votes
0 Resources configured.


Node an-a04n01.alteeve.ca (1): UNCLEAN (offline)
Node an-a04n02.alteeve.ca (2): UNCLEAN (offline)

Full list of resources:

The other node should show almost the identical output.

Disabling Quorum

Note: Show the math.

With quorum enabled, a two node cluster will lose quorum once either node fails. So we have to disable quorum.

By default, pacemaker uses quorum. You don't see this initially though;

pcs property
Cluster Properties:
 dc-version: 1.1.9-0.1318.a7966fb.git.fc18-a7966fb
 cluster-infrastructure: corosync

To disable it, we set no-quorum-policy=ignore.

pcs property set no-quorum-policy=ignore
pcs property
Cluster Properties:
 dc-version: 1.1.9-0.1318.a7966fb.git.fc18-a7966fb
 cluster-infrastructure: corosync
 no-quorum-policy: ignore

Enabling and Configuring Fencing

We will use IPMI and PDU based fence devices for redundancy.

You can see the list of available fence agents here. You will need to find the one for your hardware fence devices.

pcs stonith list
fence_alom - Fence agent for Sun ALOM
fence_apc - Fence agent for APC over telnet/ssh
fence_apc_snmp - Fence agent for APC over SNMP
fence_baytech - I/O Fencing agent for Baytech RPC switches in combination with a Cyclades Terminal
                Server
fence_bladecenter - Fence agent for IBM BladeCenter
fence_brocade - Fence agent for Brocade over telnet
fence_bullpap - I/O Fencing agent for Bull FAME architecture controlled by a PAP management console.
fence_cisco_mds - Fence agent for Cisco MDS
fence_cisco_ucs - Fence agent for Cisco UCS
fence_cpint - I/O Fencing agent for GFS on s390 and zSeries VM clusters
fence_drac - fencing agent for Dell Remote Access Card
fence_drac5 - Fence agent for Dell DRAC CMC/5
fence_eaton_snmp - Fence agent for Eaton over SNMP
fence_egenera - I/O Fencing agent for the Egenera BladeFrame
fence_eps - Fence agent for ePowerSwitch
fence_hpblade - Fence agent for HP BladeSystem
fence_ibmblade - Fence agent for IBM BladeCenter over SNMP
fence_idrac - Fence agent for IPMI over LAN
fence_ifmib - Fence agent for IF MIB
fence_ilo - Fence agent for HP iLO
fence_ilo2 - Fence agent for HP iLO
fence_ilo3 - Fence agent for IPMI over LAN
fence_ilo_mp - Fence agent for HP iLO MP
fence_imm - Fence agent for IPMI over LAN
fence_intelmodular - Fence agent for Intel Modular
fence_ipdu - Fence agent for iPDU over SNMP
fence_ipmilan - Fence agent for IPMI over LAN
fence_kdump - Fence agent for use with kdump
fence_ldom - Fence agent for Sun LDOM
fence_lpar - Fence agent for IBM LPAR
fence_mcdata - I/O Fencing agent for McData FC switches
fence_rackswitch - fence_rackswitch - I/O Fencing agent for RackSaver RackSwitch
fence_rhevm - Fence agent for RHEV-M REST API
fence_rsa - Fence agent for IBM RSA
fence_rsb - I/O Fencing agent for Fujitsu-Siemens RSB
fence_sanbox2 - Fence agent for QLogic SANBox2 FC switches
fence_scsi - fence agent for SCSI-3 persistent reservations
fence_virsh - Fence agent for virsh
fence_vixel - I/O Fencing agent for Vixel FC switches
fence_vmware - Fence agent for VMWare
fence_vmware_soap - Fence agent for VMWare over SOAP API
fence_wti - Fence agent for WTI
fence_xcat - I/O Fencing agent for xcat environments
fence_xenapi - XenAPI based fencing for the Citrix XenServer virtual machines.
fence_zvm - I/O Fencing agent for GFS on s390 and zSeries VM clusters

We will use fence_ipmilan and fence_apc_snmp.

Configuring IPMI Fencing

Every fence agent has a possibly unique subset of options that can be used. You can see a brief description of these options with the pcs stonith describe fence_X command. Let's look at the options available for fence_ipmilan.

pcs stonith describe fence_ipmilan
Stonith options for: fence_ipmilan
  auth: IPMI Lan Auth type (md5, password, or none)
  ipaddr: IPMI Lan IP to talk to
  passwd: Password (if required) to control power on IPMI device
  passwd_script: Script to retrieve password (if required)
  lanplus: Use Lanplus
  login: Username/Login (if required) to control power on IPMI device
  action: Operation to perform. Valid operations: on, off, reboot, status, list, diag, monitor or metadata
  timeout: Timeout (sec) for IPMI operation
  cipher: Ciphersuite to use (same as ipmitool -C parameter)
  method: Method to fence (onoff or cycle)
  power_wait: Wait X seconds after on/off operation
  delay: Wait X seconds before fencing is started
  privlvl: Privilege level on IPMI device
  verbose: Verbose mode

One of the nice things about pcs is that it allows us to create a test file to prepare all our changes in. Then, when we're happy with the changes, merge them into the running cluster. So let's make a copy called stonith_cfg

pcs cluster cib stonith_cfg

Now add IPMI fencing.

#                  unique name    fence agent   target node                           device addr             options
pcs stonith create fence_n01_ipmi fence_ipmilan pcmk_host_list="an-a04n01.alteeve.ca" ipaddr="an-a04n01.ipmi" action="reboot" login="admin" passwd="secret" delay=15 op monitor interval=60s
pcs stonith create fence_n02_ipmi fence_ipmilan pcmk_host_list="an-a04n02.alteeve.ca" ipaddr="an-a04n02.ipmi" action="reboot" login="admin" passwd="secret" op monitor interval=60s

Note that fence_n01_ipmi has a delay=15 set but fence_n02_ipmi does not. If the network connection breaks between the two nodes, they will both try to fence each other at the same time. If acpid is running, the slower node will not die right away. It will continue to run for up to four more seconds, ample time for it to also initiate a fence against the faster node. The end result is that both nodes get fenced. The ten-second delay protects against this by causing an-a04n02 to pause for 10 seconds before initiating a fence against an-a04n01. If both nodes are alive, an-a04n02 will power off before the 10 seconds pass, so it will never fence an-a04n01. However, if an-a04n01 really is dead, after the ten seconds have elapsed, fencing will proceed as normal.

Note: At the time of writing, pcmk_reboot_action is needed to override pacemaker's global fence action and pcmk_reboot_action is not recognized by pcs. Both of these issues will be resolved shortly; Pacemaker will honour action="..." in v1.1.10 and pcs will recognize pcmk_* special attributes "real soon now". Until then, the --force switch is needed.

Next, add the PDU fencing. This requires distinct "off" and "on" actions for each outlet on each PDU. With two nodes, each with two PSUs, this translates to eight commands. The "off" commands will be monitored to alert us if the PDU fails for some reason. There is no reason to monitor the "on" actions (it would be redundant). Note also that we don't bother using a "delay". The IPMI fence method will go first, before the PDU actions, so the PDU is already delayed.

# Node 1 - off
pcs stonith create fence_n01_pdu1_off fence_apc_snmp pcmk_host_list="an-a04n01.alteeve.ca" ipaddr="an-pdu01" action="off" port="1" op monitor interval="60s"
pcs stonith create fence_n01_pdu2_off fence_apc_snmp pcmk_host_list="an-a04n01.alteeve.ca" ipaddr="an-pdu02" action="off" port="1" power_wait="5" op monitor interval="60s"

# Node 1 - on
pcs stonith create fence_n01_pdu1_on fence_apc_snmp pcmk_host_list="an-a04n01.alteeve.ca" ipaddr="an-pdu01" action="on" port="1"
pcs stonith create fence_n01_pdu2_on fence_apc_snmp pcmk_host_list="an-a04n01.alteeve.ca" ipaddr="an-pdu02" action="on" port="1"

# Node 2 - off
pcs stonith create fence_n02_pdu1_off fence_apc_snmp pcmk_host_list="an-a04n02.alteeve.ca" ipaddr="an-pdu01" action="off" port="2" op monitor interval="60s"
pcs stonith create fence_n02_pdu2_off fence_apc_snmp pcmk_host_list="an-a04n02.alteeve.ca" ipaddr="an-pdu02" action="off" port="2" power_wait="5" op monitor interval="60s"

# Node 2 - on
pcs stonith create fence_n02_pdu1_on fence_apc_snmp pcmk_host_list="an-a04n02.alteeve.ca" ipaddr="an-pdu01" action="on" port="2"
pcs stonith create fence_n02_pdu2_on fence_apc_snmp pcmk_host_list="an-a04n02.alteeve.ca" ipaddr="an-pdu02" action="on" port="2"

We can check the new configuration now;

pcs status
Cluster name: an-anvil-04
Last updated: Tue Jul  2 16:41:55 2013
Last change: Tue Jul  2 16:41:44 2013 via cibadmin on an-a04n01.alteeve.ca
Stack: corosync
Current DC: an-a04n01.alteeve.ca (1) - partition with quorum
Version: 1.1.9-3.fc19-781a388
2 Nodes configured, unknown expected votes
10 Resources configured.


Online: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

Full list of resources:

 fence_n01_ipmi	(stonith:fence_ipmilan):	Started an-a04n01.alteeve.ca 
 fence_n02_ipmi	(stonith:fence_ipmilan):	Started an-a04n02.alteeve.ca 
 fence_n01_pdu1_off	(stonith:fence_apc_snmp):	Started an-a04n01.alteeve.ca 
 fence_n01_pdu2_off	(stonith:fence_apc_snmp):	Started an-a04n02.alteeve.ca 
 fence_n02_pdu1_off	(stonith:fence_apc_snmp):	Started an-a04n01.alteeve.ca 
 fence_n02_pdu2_off	(stonith:fence_apc_snmp):	Started an-a04n02.alteeve.ca 
 fence_n01_pdu1_on	(stonith:fence_apc_snmp):	Started an-a04n01.alteeve.ca 
 fence_n01_pdu2_on	(stonith:fence_apc_snmp):	Started an-a04n02.alteeve.ca 
 fence_n02_pdu1_on	(stonith:fence_apc_snmp):	Started an-a04n01.alteeve.ca 
 fence_n02_pdu2_on	(stonith:fence_apc_snmp):	Started an-a04n02.alteeve.ca

Before we proceed, we need to tell pacemaker to use fencing;

pcs property set stonith-enabled=true
pcs property
Cluster Properties:
Cluster Properties:
 cluster-infrastructure: corosync
 dc-version: 1.1.9-3.fc19-781a388
 no-quorum-policy: ignore
 stonith-enabled: true

Excellent!

Configuring Fence Levels

The goal of fence levels is to tell pacemaker that there are "fence methods" to try and to impose an order on those methods. Each method composes one or more fence primitives and, when 2 or more primitives are tied together, that all primitives must succeed for the overall method to succeed.

So in our case; the order we want is;

  • IPMI -> PDUs

The reason is that when IPMI fencing succeeds, we can be very certain the node is truly fenced. When PDU fencing succeeds, it only confirms that the power outlets were cycled. If someone moved a node's power cables to another outlet, we'll get a false positive. On that topic, tie-down the node's PSU cables to the PDU's cable tray when possible, clearly label the power cables and wrap the fingers of anyone who might move them around.

The PDU fencing needs to be implemented using four steps;

  • PDU 1, outlet X -> off
  • PDU 2, outlet X -> off
    • The power_wait="5" setting for the fence_n0X_pdu2_off primitives will cause a 5 second delay here, giving ample time to ensure the nodes lose power
  • PDU 1, outlet X -> on
  • PDU 2, outlet X -> on

This is to ensure that both outlets are off at the same time, ensuring that the node loses power. This works because fencing_topology acts serially.

Putting all this together, we issue this command;

pcs stonith level add 1 an-a04n01.alteeve.ca fence_n01_ipmi
pcs stonith level add 1 an-a04n02.alteeve.ca fence_n02_ipmi

The 1 tells pacemaker that this is our highest priority fence method. We can see that this was set using pcs;

pcs stonith level
 Node: an-a04n01.alteeve.ca
  Level 1 - fence_n01_ipmi
 Node: an-a04n02.alteeve.ca
  Level 1 - fence_n02_ipmi

Now we'll tell pacemaker to use the PDUs as the second fence method. Here we tie together the two off calls and the two on calls into a single method.

pcs stonith level add 2 an-a04n01.alteeve.ca fence_n01_pdu1_off,fence_n01_pdu2_off,fence_n01_pdu1_on,fence_n01_pdu2_on
pcs stonith level add 2 an-a04n02.alteeve.ca fence_n02_pdu1_off,fence_n02_pdu2_off,fence_n02_pdu1_on,fence_n02_pdu2_on

Check again and we'll see that the new methods were added.

pcs stonith level
 Node: an-a04n01.alteeve.ca
  Level 1 - fence_n01_ipmi
  Level 2 - fence_n01_pdu1_off,fence_n01_pdu2_off,fence_n01_pdu1_on,fence_n01_pdu2_on
 Node: an-a04n02.alteeve.ca
  Level 1 - fence_n02_ipmi
  Level 2 - fence_n02_pdu1_off,fence_n02_pdu2_off,fence_n02_pdu1_on,fence_n02_pdu2_on

For those of us who are XML fans, this is what the cib looks like now:

cat /var/lib/pacemaker/cib/cib.xml
<cib epoch="18" num_updates="0" admin_epoch="0" validate-with="pacemaker-1.2" cib-last-written="Thu Jul 18 13:15:53 2013" update-origin="an-a04n01.alteeve.ca" update-client="cibadmin" crm_feature_set="3.0.7" have-quorum="1" dc-uuid="1">
  <configuration>
    <crm_config>
      <cluster_property_set id="cib-bootstrap-options">
        <nvpair id="cib-bootstrap-options-dc-version" name="dc-version" value="1.1.9-dde1c52"/>
        <nvpair id="cib-bootstrap-options-cluster-infrastructure" name="cluster-infrastructure" value="corosync"/>
        <nvpair id="cib-bootstrap-options-no-quorum-policy" name="no-quorum-policy" value="ignore"/>
      </cluster_property_set>
    </crm_config>
    <nodes>
      <node id="1" uname="an-a04n01.alteeve.ca"/>
      <node id="2" uname="an-a04n02.alteeve.ca"/>
    </nodes>
    <resources>
      <primitive class="stonith" id="fence_n01_ipmi" type="fence_ipmilan">
        <instance_attributes id="fence_n01_ipmi-instance_attributes">
          <nvpair id="fence_n01_ipmi-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n01.alteeve.ca"/>
          <nvpair id="fence_n01_ipmi-instance_attributes-ipaddr" name="ipaddr" value="an-a04n01.ipmi"/>
          <nvpair id="fence_n01_ipmi-instance_attributes-action" name="action" value="reboot"/>
          <nvpair id="fence_n01_ipmi-instance_attributes-login" name="login" value="admin"/>
          <nvpair id="fence_n01_ipmi-instance_attributes-passwd" name="passwd" value="secret"/>
          <nvpair id="fence_n01_ipmi-instance_attributes-delay" name="delay" value="15"/>
        </instance_attributes>
        <operations>
          <op id="fence_n01_ipmi-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n02_ipmi" type="fence_ipmilan">
        <instance_attributes id="fence_n02_ipmi-instance_attributes">
          <nvpair id="fence_n02_ipmi-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n02.alteeve.ca"/>
          <nvpair id="fence_n02_ipmi-instance_attributes-ipaddr" name="ipaddr" value="an-a04n02.ipmi"/>
          <nvpair id="fence_n02_ipmi-instance_attributes-action" name="action" value="reboot"/>
          <nvpair id="fence_n02_ipmi-instance_attributes-login" name="login" value="admin"/>
          <nvpair id="fence_n02_ipmi-instance_attributes-passwd" name="passwd" value="secret"/>
        </instance_attributes>
        <operations>
          <op id="fence_n02_ipmi-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n01_pdu1_off" type="fence_apc_snmp">
        <instance_attributes id="fence_n01_pdu1_off-instance_attributes">
          <nvpair id="fence_n01_pdu1_off-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n01.alteeve.ca"/>
          <nvpair id="fence_n01_pdu1_off-instance_attributes-ipaddr" name="ipaddr" value="an-pdu01"/>
          <nvpair id="fence_n01_pdu1_off-instance_attributes-action" name="action" value="off"/>
          <nvpair id="fence_n01_pdu1_off-instance_attributes-port" name="port" value="1"/>
        </instance_attributes>
        <operations>
          <op id="fence_n01_pdu1_off-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n01_pdu2_off" type="fence_apc_snmp">
        <instance_attributes id="fence_n01_pdu2_off-instance_attributes">
          <nvpair id="fence_n01_pdu2_off-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n01.alteeve.ca"/>
          <nvpair id="fence_n01_pdu2_off-instance_attributes-ipaddr" name="ipaddr" value="an-pdu02"/>
          <nvpair id="fence_n01_pdu2_off-instance_attributes-action" name="action" value="off"/>
          <nvpair id="fence_n01_pdu2_off-instance_attributes-port" name="port" value="1"/>
          <nvpair id="fence_n01_pdu2_off-instance_attributes-power_wait" name="power_wait" value="5"/>
        </instance_attributes>
        <operations>
          <op id="fence_n01_pdu2_off-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n01_pdu1_on" type="fence_apc_snmp">
        <instance_attributes id="fence_n01_pdu1_on-instance_attributes">
          <nvpair id="fence_n01_pdu1_on-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n01.alteeve.ca"/>
          <nvpair id="fence_n01_pdu1_on-instance_attributes-ipaddr" name="ipaddr" value="an-pdu01"/>
          <nvpair id="fence_n01_pdu1_on-instance_attributes-action" name="action" value="on"/>
          <nvpair id="fence_n01_pdu1_on-instance_attributes-port" name="port" value="1"/>
        </instance_attributes>
        <operations>
          <op id="fence_n01_pdu1_on-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n01_pdu2_on" type="fence_apc_snmp">
        <instance_attributes id="fence_n01_pdu2_on-instance_attributes">
          <nvpair id="fence_n01_pdu2_on-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n01.alteeve.ca"/>
          <nvpair id="fence_n01_pdu2_on-instance_attributes-ipaddr" name="ipaddr" value="an-pdu02"/>
          <nvpair id="fence_n01_pdu2_on-instance_attributes-action" name="action" value="on"/>
          <nvpair id="fence_n01_pdu2_on-instance_attributes-port" name="port" value="1"/>
        </instance_attributes>
        <operations>
          <op id="fence_n01_pdu2_on-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n02_pdu1_off" type="fence_apc_snmp">
        <instance_attributes id="fence_n02_pdu1_off-instance_attributes">
          <nvpair id="fence_n02_pdu1_off-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n02.alteeve.ca"/>
          <nvpair id="fence_n02_pdu1_off-instance_attributes-ipaddr" name="ipaddr" value="an-pdu01"/>
          <nvpair id="fence_n02_pdu1_off-instance_attributes-action" name="action" value="off"/>
          <nvpair id="fence_n02_pdu1_off-instance_attributes-port" name="port" value="2"/>
        </instance_attributes>
        <operations>
          <op id="fence_n02_pdu1_off-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n02_pdu2_off" type="fence_apc_snmp">
        <instance_attributes id="fence_n02_pdu2_off-instance_attributes">
          <nvpair id="fence_n02_pdu2_off-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n02.alteeve.ca"/>
          <nvpair id="fence_n02_pdu2_off-instance_attributes-ipaddr" name="ipaddr" value="an-pdu02"/>
          <nvpair id="fence_n02_pdu2_off-instance_attributes-action" name="action" value="off"/>
          <nvpair id="fence_n02_pdu2_off-instance_attributes-port" name="port" value="2"/>
          <nvpair id="fence_n02_pdu2_off-instance_attributes-power_wait" name="power_wait" value="5"/>
        </instance_attributes>
        <operations>
          <op id="fence_n02_pdu2_off-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n02_pdu1_on" type="fence_apc_snmp">
        <instance_attributes id="fence_n02_pdu1_on-instance_attributes">
          <nvpair id="fence_n02_pdu1_on-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n02.alteeve.ca"/>
          <nvpair id="fence_n02_pdu1_on-instance_attributes-ipaddr" name="ipaddr" value="an-pdu01"/>
          <nvpair id="fence_n02_pdu1_on-instance_attributes-action" name="action" value="on"/>
          <nvpair id="fence_n02_pdu1_on-instance_attributes-port" name="port" value="2"/>
        </instance_attributes>
        <operations>
          <op id="fence_n02_pdu1_on-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
      <primitive class="stonith" id="fence_n02_pdu2_on" type="fence_apc_snmp">
        <instance_attributes id="fence_n02_pdu2_on-instance_attributes">
          <nvpair id="fence_n02_pdu2_on-instance_attributes-pcmk_host_list" name="pcmk_host_list" value="an-a04n02.alteeve.ca"/>
          <nvpair id="fence_n02_pdu2_on-instance_attributes-ipaddr" name="ipaddr" value="an-pdu02"/>
          <nvpair id="fence_n02_pdu2_on-instance_attributes-action" name="action" value="on"/>
          <nvpair id="fence_n02_pdu2_on-instance_attributes-port" name="port" value="2"/>
        </instance_attributes>
        <operations>
          <op id="fence_n02_pdu2_on-monitor-interval-60s" interval="60s" name="monitor"/>
        </operations>
      </primitive>
    </resources>
    <constraints/>
    <fencing-topology>
      <fencing-level devices="fence_n01_ipmi" id="fl-an-a04n01.alteeve.ca-1" index="1" target="an-a04n01.alteeve.ca"/>
      <fencing-level devices="fence_n02_ipmi" id="fl-an-a04n02.alteeve.ca-1" index="1" target="an-a04n02.alteeve.ca"/>
      <fencing-level devices="fence_n01_pdu1_off,fence_n01_pdu2_off,fence_n01_pdu1_on,fence_n01_pdu2_on" id="fl-an-a04n01.alteeve.ca-2" index="2" target="an-a04n01.alteeve.ca"/>
      <fencing-level devices="fence_n02_pdu1_off,fence_n02_pdu2_off,fence_n02_pdu1_on,fence_n02_pdu2_on" id="fl-an-a04n02.alteeve.ca-2" index="2" target="an-a04n02.alteeve.ca"/>
    </fencing-topology>
  </configuration>
</cib>

Fencing using fence_virsh

Note: To write this section, I used two virtual machines called pcmk1 and pcmk2.

If you are trying to learn fencing using KVM or Xen virtual machines, you can use the fence_virsh. You can also use fence_virtd, which is actually recommended by many, but I have found it to be rather unreliable.

To use fence_virsh, first install it.

yum -y install fence-agents-virsh
<lots of yum output>

Now test it from the command line. To do this, we need to know a few things;

  • The VM host is at IP 192.168.122.1
  • The username and password (-l and -p respectively) are the credentials used to log into VM host over SSH.
    • If you don't want your password to be shown, create a little shell script that simply prints your password and then use -S /path/to/script instead of -p "secret".
  • The name of the target VM, as shown by virsh list --all on the host, is the node (-n) value. For me, the nodes are called an-a04n01 and an-a04n02.

Create the Password Script

In my case, the host is called 'lemass', so I want to create a password script called '/root/lemass.pw'. The name of the script is entirely up to you.

an-a04n01
vim /root/lemass.pw
echo "my secret password"
chmod 755 /root/lemass.pw
/root/lemass.pw
my secret password
rsync -av /root/lemass.pw root@an-a04n02:/root/
sending incremental file list
lemass.pw

sent 102 bytes  received 31 bytes  266.00 bytes/sec
total size is 25  speedup is 0.19
an-a04n02
/root/lemass.pw
my secret password

Done.

Test fence_virsh Status from the Command Line

an-a04n01
fence_virsh -a 192.168.122.1 -l root -S /root/lemass.pw -n an-a04n02 -o status
Status: ON
an-a04n02
fence_virsh -a 192.168.122.1 -l root -S /root/lemass.pw -n an-a04n01 -o status
Status: ON

Excellent! Now to configure it in pacemaker;

an-a04n01
pcs stonith create fence_n01_virsh fence_virsh pcmk_host_list="an-a04n01.alteeve.ca" ipaddr="192.168.122.1" action="reboot" login="root" passwd_script="/root/lemass.pw" port="an-a04n01" delay=15 op monitor interval=60s
pcs stonith create fence_n02_virsh fence_virsh pcmk_host_list="an-a04n02.alteeve.ca" ipaddr="192.168.122.1" action="reboot" login="root" passwd_script="/root/lemass.pw" port="an-a04n02" op monitor interval=60s
pcs cluster status
Cluster Status:
 Last updated: Sun Jan 26 15:45:31 2014
 Last change: Sun Jan 26 15:06:14 2014 via crmd on an-a04n01.alteeve.ca
 Stack: corosync
 Current DC: an-a04n02.alteeve.ca (2) - partition with quorum
 Version: 1.1.10-19.el7-368c726
 2 Nodes configured
 2 Resources configured

PCSD Status:
an-a04n01.alteeve.ca: 
  an-a04n01.alteeve.ca: Online
an-a04n02.alteeve.ca: 
  an-a04n02.alteeve.ca: Online

Test Fencing

ToDo: Kill each node with echo c > /proc/sysrq-trigger and make sure the other node fences it.

Shared Storage

DRBD

We will use DRBD 8.4.

Install DRBD 8.4.4 from AN!

Warning: this doesn't work.

ToDo: Make a proper repo

an-a04n01
rpm -Uvh https://alteeve.ca/files/AN-Cluster_Tutorial_3/drbd84/drbd-8.4.4-4.el7.x86_64.rpm \
         https://alteeve.ca/files/AN-Cluster_Tutorial_3/drbd84/drbd-bash-completion-8.4.4-4.el7.x86_64.rpm \
         https://alteeve.ca/files/AN-Cluster_Tutorial_3/drbd84/drbd-pacemaker-8.4.4-4.el7.x86_64.rpm \
         https://alteeve.ca/files/AN-Cluster_Tutorial_3/drbd84/drbd-udev-8.4.4-4.el7.x86_64.rpm \
         https://alteeve.ca/files/AN-Cluster_Tutorial_3/drbd84/drbd-utils-8.4.4-4.el7.x86_64.rpm \
         https://alteeve.ca/files/AN-Cluster_Tutorial_3/drbd84/drbd-heartbeat-8.4.4-4.el7.x86_64.rpm \
         https://alteeve.ca/files/AN-Cluster_Tutorial_3/drbd84/drbd-xen-8.4.4-4.el7.x86_64.rpm
an-a04n02


Install DRBD 8.4.4 From Source

At this time, no EPEL repo exists for RHEL7, and the Fedora RPMs don't work, so we will install DRBD 8.4.4 from source.

Install dependencies:

yum -y install gcc flex rpm-build wget kernel-devel
wget -c http://oss.linbit.com/drbd/8.4/drbd-8.4.4.tar.gz
tar -xvzf drbd-8.4.4.tar.gz 
cd drbd-8.4.4
./configure \
  --prefix=/usr \
  --localstatedir=/var \
  --sysconfdir=/etc \
  --with-km \
  --with-udev \
  --with-pacemaker \
  --with-bashcompletion \
  --with-utils \
  --without-xen \
  --without-rgmanager \
  --without-heartbeat
make
make install

Don't let DRBD start on boot (pacemaker will handle it for us).

systemctl disable drbd.service
drbd.service is not a native service, redirecting to /sbin/chkconfig.
Executing /sbin/chkconfig drbd off

Done.

Optional; Make RPMs

Warning: I've not been able to get the RPMs genreated here to install yet. I'd recommend skipping this, unless you want to help sort out the problems. :)

After ./configure above, you can make RPMs instead of installing directly.

Dependencies:

yum install rpmdevtools redhat-rpm-config kernel-devel
<install text>

Setup RPM dev tree:

cd ~
rpmdev-setuptree
ls -lah ~/rpmbuild/
wget -c http://oss.linbit.com/drbd/8.4/drbd-8.4.4.tar.gz
tar -xvzf drbd-8.4.4.tar.gz
cd drbd-8.4.4
./configure \
  --prefix=/usr \
  --localstatedir=/var \
  --sysconfdir=/etc \
  --with-km \
  --with-udev \
  --with-pacemaker \
  --with-bashcompletion \
  --with-utils \
  --without-xen \
  --without-heartbeat
total 4.0K
drwxr-xr-x. 7 root root   67 Dec 23 20:06 .
dr-xr-x---. 6 root root 4.0K Dec 23 20:06 ..
drwxr-xr-x. 2 root root    6 Dec 23 20:06 BUILD
drwxr-xr-x. 2 root root    6 Dec 23 20:06 RPMS
drwxr-xr-x. 2 root root    6 Dec 23 20:06 SOURCES
drwxr-xr-x. 2 root root    6 Dec 23 20:06 SPECS
drwxr-xr-x. 2 root root    6 Dec 23 20:06 SRPMS

Userland tools:

make rpm
checking for presence of 8\.4\.4 in various changelog files
<snip>
+ exit 0
You have now:
/root/rpmbuild/RPMS/x86_64/drbd-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-utils-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-xen-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-udev-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-pacemaker-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-heartbeat-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-bash-completion-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-debuginfo-8.4.4-4.el7.x86_64.rpm

Kernel module:

make kmp-rpm
checking for presence of 8\.4\.4 in various changelog files
<snip>
+ exit 0
You have now:
/root/rpmbuild/RPMS/x86_64/drbd-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-utils-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-xen-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-udev-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-pacemaker-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-heartbeat-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-bash-completion-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-debuginfo-8.4.4-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/kmod-drbd-8.4.4_3.10.0_54.0.1-4.el7.x86_64.rpm
/root/rpmbuild/RPMS/x86_64/drbd-kernel-debuginfo-8.4.4-4.el7.x86_64.rpm

Configure DRBD

Configure global-common.conf;

vim /etc/drbd.d/global_common.conf
# These are options to set for the DRBD daemon sets the default values for
# resources.
global {
	# This tells DRBD that you allow it to report this installation to 
	# LINBIT for statistical purposes. If you have privacy concerns, set
	# this to 'no'. The default is 'ask' which will prompt you each time
	# DRBD is updated. Set to 'yes' to allow it without being prompted.
	usage-count no;

	# minor-count dialog-refresh disable-ip-verification
}

common {
	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";
		# 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;
		
		# Hook into Pacemaker's fencing.
		fence-peer "/usr/lib/drbd/crm-fence-peer.sh";
	}

	startup {
		# wfc-timeout degr-wfc-timeout outdated-wfc-timeout wait-after-sb
	}

	options {
		# cpu-mask on-no-data-accessible
	}

	disk {
		# size max-bio-bvecs on-io-error fencing disk-barrier disk-flushes
		# disk-drain md-flushes resync-rate resync-after al-extents
                # c-plan-ahead c-delay-target c-fill-target c-max-rate
                # c-min-rate disk-timeout
                fencing resource-and-stonith;
	}

	net {
		# protocol timeout max-epoch-size max-buffers unplug-watermark
		# connect-int ping-int sndbuf-size rcvbuf-size ko-count
		# allow-two-primaries cram-hmac-alg shared-secret after-sb-0pri
		# after-sb-1pri after-sb-2pri always-asbp rr-conflict
		# ping-timeout data-integrity-alg tcp-cork on-congestion
		# congestion-fill congestion-extents csums-alg verify-alg
		# use-rle

		# Protocol "C" tells DRBD not to tell the operating system that
		# the write is complete until the data has reach persistent
		# storage on both nodes. This is the slowest option, but it is
		# also the only one that guarantees consistency between the
		# nodes. It is also required for dual-primary, which we will 
		# be using.
		protocol C;

		# Tell DRBD to allow dual-primary. This is needed to enable 
		# live-migration of our servers.
		allow-two-primaries yes;

		# This tells DRBD what to do in the case of a split-brain when
		# neither node was primary, when one node was primary and when
		# both nodes are primary. In our case, we'll be running
		# dual-primary, so we can not safely recover automatically. The
		# only safe option is for the nodes to disconnect from one
		# another and let a human decide which node to invalidate. Of 
		after-sb-0pri discard-zero-changes;
		after-sb-1pri discard-secondary;
		after-sb-2pri disconnect;
	}
}

And now configure the first resource;

vim /etc/drbd.d/r0.res
# This is the first DRBD resource. If will store the shared file systems and
# the servers designed to run on node 01.
resource r0 {
	# These options here are common to both nodes. If for some reason you
	# need to set unique values per node, you can move these to the
	# 'on <name> { ... }' section.
	
	# This sets the device name of this DRBD resouce.
	device /dev/drbd0;

	# This tells DRBD what the backing device is for this resource.
	disk /dev/sda5;

	# This controls the location of the metadata. When "internal" is used,
	# as we use here, a little space at the end of the backing devices is
	# set aside (roughly 32 MB per 1 TB of raw storage). External metadata
	# can be used to put the metadata on another partition when converting
	# existing file systems to be DRBD backed, when there is no extra space
	# available for the metadata.
	meta-disk internal;

	# NOTE: this is not required or even recommended with pacemaker. remove
	# 	this options as soon as pacemaker is setup.
	startup {
		# This tells DRBD to promote both nodes to 'primary' when this
		# resource starts. However, we will let pacemaker control this
		# so we comment it out, which tells DRBD to leave both nodes
		# as secondary when drbd starts.
		#become-primary-on both;
	}

	# NOTE: Later, make it an option in the dashboard to trigger a manual
	# 	verify and/or schedule periodic automatic runs
	net {
		# TODO: Test performance differences between sha1 and md5
		# This tells DRBD how to do a block-by-block verification of
		# the data stored on the backing devices. Any verification
		# failures will result in the effected block being marked
		# out-of-sync.
		verify-alg md5;

		# TODO: Test the performance hit of this being enabled.
		# This tells DRBD to generate a checksum for each transmitted
		# packet. If the data received data doesn't generate the same
		# sum, a retransmit request is generated. This protects against
		# otherwise-undetected errors in transmission, like 
		# bit-flipping. See:
		# http://www.drbd.org/users-guide/s-integrity-check.html
		data-integrity-alg md5;
	}

	# WARNING: Confirm that these are safe when the controller's BBU is
	#          depleted/failed and the controller enters write-through 
	#          mode.
	disk {
		# TODO: Test the real-world performance differences gained with
		#       these options.
		# This tells DRBD not to bypass the write-back caching on the
		# RAID controller. Normally, DRBD forces the data to be flushed
		# to disk, rather than allowing the write-back cachine to 
		# handle it. Normally this is dangerous, but with BBU-backed
		# caching, it is safe. The first option disables disk flushing
		# and the second disabled metadata flushes.
		disk-flushes no;
		md-flushes no;
	}

	# This sets up the resource on node 01. The name used below must be the
	# named returned by "uname -n".
	on an-a04n01.alteeve.ca {
		# This is the address and port to use for DRBD traffic on this
		# node. Multiple resources can use the same IP but the ports
		# must differ. By convention, the first resource uses 7788, the
		# second uses 7789 and so on, incrementing by one for each
		# additional resource. 
		address 10.10.40.1:7788;
	}
	on an-a04n02.alteeve.ca {
		address 10.10.40.2:7788;
	}
}

Disable drbd from starting on boot.

systemctl disable drbd.service
drbd.service is not a native service, redirecting to /sbin/chkconfig.
Executing /sbin/chkconfig drbd off

Load the config;

modprobe drbd

Now check the config;

drbdadm dump
  --==  Thank you for participating in the global usage survey  ==--
The server's response is:

you are the 69th user to install this version
/etc/drbd.d/r0.res:3: in resource r0:
become-primary-on is set to both, but allow-two-primaries is not set.

Ignore that error. It has been reported and does not effect operation.

Create the metadisk;

drbdadm create-md r0
Writing meta data...
initializing activity log
NOT initializing bitmap
New drbd meta data block successfully created.
success

Start the DRBD resource on both nodes;

drbdadm up r0

Once /proc/drbd shows both nodes connected, force one to primary and it will sync over the second.

drbdadm primary --force r0

You should see the resource syncing now. Push both nodes to primary;

drbdadm primary r0

DLM, Clustered LVM and GFS2

an-a04n01
sed -i.anvil 's^filter = \[ "a/\.\*/" \]^filter = \[ "a|/dev/drbd*|", "r/.*/" \]^' /etc/lvm/lvm.conf
sed -i 's/locking_type = 1$/locking_type = 3/' /etc/lvm/lvm.conf
sed -i 's/fallback_to_local_locking = 1$/fallback_to_local_locking = 0/' /etc/lvm/lvm.conf 
sed -i 's/use_lvmetad = 1$/use_lvmetad = 0/' /etc/lvm/lvm.conf
--- /etc/lvm/lvm.conf.anvil	2013-11-27 03:28:08.000000000 -0500
+++ /etc/lvm/lvm.conf	2014-01-26 18:57:41.026928464 -0500
@@ -84,7 +84,7 @@
     # lvmetad is used" comment that is attached to global/use_lvmetad setting.
 
     # By default we accept every block device:
-    filter = [ "a/.*/" ]
+    filter = [ "a|/dev/drbd*|", "r/.*/" ]
 
     # Exclude the cdrom drive
     # filter = [ "r|/dev/cdrom|" ]
@@ -451,7 +451,7 @@
     # supported in clustered environment. If use_lvmetad=1 and locking_type=3
     # is set at the same time, LVM always issues a warning message about this
     # and then it automatically disables lvmetad use.
-    locking_type = 1
+    locking_type = 3
 
     # Set to 0 to fail when a lock request cannot be satisfied immediately.
     wait_for_locks = 1
@@ -467,7 +467,7 @@
     # 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.
@@ -594,7 +594,7 @@
     # supported in clustered environment. If use_lvmetad=1 and locking_type=3
     # is set at the same time, LVM always issues a warning message about this
     # and then it automatically disables lvmetad use.
-    use_lvmetad = 1
+    use_lvmetad = 0
 
     # Full path of the utility called to check that a thin metadata device
     # is in a state that allows it to be used.
rsync -av /etc/lvm/lvm.conf* root@an-a04n02:/etc/lvm/
sending incremental file list
lvm.conf
lvm.conf.anvil

sent 48536 bytes  received 440 bytes  97952.00 bytes/sec
total size is 90673  speedup is 1.85
an-a04n02
diff -u /etc/lvm/lvm.conf.anvil /etc/lvm/lvm.conf
--- /etc/lvm/lvm.conf.anvil	2013-11-27 03:28:08.000000000 -0500
+++ /etc/lvm/lvm.conf	2014-01-26 18:57:41.000000000 -0500
@@ -84,7 +84,7 @@
     # lvmetad is used" comment that is attached to global/use_lvmetad setting.
 
     # By default we accept every block device:
-    filter = [ "a/.*/" ]
+    filter = [ "a|/dev/drbd*|", "r/.*/" ]
 
     # Exclude the cdrom drive
     # filter = [ "r|/dev/cdrom|" ]
@@ -451,7 +451,7 @@
     # supported in clustered environment. If use_lvmetad=1 and locking_type=3
     # is set at the same time, LVM always issues a warning message about this
     # and then it automatically disables lvmetad use.
-    locking_type = 1
+    locking_type = 3
 
     # Set to 0 to fail when a lock request cannot be satisfied immediately.
     wait_for_locks = 1
@@ -467,7 +467,7 @@
     # 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.
@@ -594,7 +594,7 @@
     # supported in clustered environment. If use_lvmetad=1 and locking_type=3
     # is set at the same time, LVM always issues a warning message about this
     # and then it automatically disables lvmetad use.
-    use_lvmetad = 1
+    use_lvmetad = 0
 
     # Full path of the utility called to check that a thin metadata device
     # is in a state that allows it to be used.

Disable lvmetad as it's not cluster-aware.

an-a04n01
systemctl disable lvm2-lvmetad.service
systemctl disable lvm2-lvmetad.socket
systemctl stop lvm2-lvmetad.service
rm '/etc/systemd/system/sockets.target.wants/lvm2-lvmetad.socket'
an-a04n02
systemctl disable lvm2-lvmetad.service
systemctl disable lvm2-lvmetad.socket
systemctl stop lvm2-lvmetad.service
rm '/etc/systemd/system/sockets.target.wants/lvm2-lvmetad.socket'
Note: This will be moved to pacemaker shortly. We're enabling it here just long enough to configure pacemaker.

Start DLM and clvmd;

an-a04n01
systemctl start dlm.service
systemctl start clvmd.service
an-a04n02
systemctl start dlm.service
systemctl start clvmd.service

Create the PV, VG and the /shared LV;

an-a04n01
pvcreate /dev/drbd0
  Physical volume "/dev/drbd0" successfully created
vgcreate an-a04n01_vg0 /dev/drbd0
  /proc/devices: No entry for device-mapper found
  Clustered volume group "an-a04n01_vg0" successfully created
lvcreate -L 10G -n shared an-a04n01_vg0
  Logical volume "shared" created
an-a04n02
pvscan
  PV /dev/drbd0   VG an-a04n01_vg0   lvm2 [20.00 GiB / 20.00 GiB free]
  Total: 1 [20.00 GiB] / in use: 1 [20.00 GiB] / in no VG: 0 [0   ]
vgscan
  Reading all physical volumes.  This may take a while...
  Found volume group "an-a04n01_vg0" using metadata type lvm2
lvscan
  ACTIVE            '/dev/an-a04n01_vg0/shared' [10.00 GiB] inherit

Format the /dev/an-a04n01_vg0/shared;

an-a04n01
mkfs.gfs2 -j 2 -p lock_dlm -t an-anvil-04:shared /dev/an-a04n01_vg0/shared
/dev/an-a04n01_vg0/shared is a symbolic link to /dev/dm-0
This will destroy any data on /dev/dm-0
Are you sure you want to proceed? [y/n]y
Device:                    /dev/an-a04n01_vg0/shared
Block size:                4096
Device size:               10.00 GB (2621440 blocks)
Filesystem size:           10.00 GB (2621438 blocks)
Journals:                  2
Resource groups:           40
Locking protocol:          "lock_dlm"
Lock table:                "an-anvil-04:shared"
UUID:                      20bafdb0-1f86-f424-405b-9bf608c0c486
mkdir /shared
mount /dev/an-a04n01_vg0/shared /shared
df -h
Filesystem                         Size  Used Avail Use% Mounted on
/dev/vda3                           18G  5.6G   12G  32% /
devtmpfs                           932M     0  932M   0% /dev
tmpfs                              937M   61M  877M   7% /dev/shm
tmpfs                              937M  1.9M  935M   1% /run
tmpfs                              937M     0  937M   0% /sys/fs/cgroup
/dev/loop0                         4.4G  4.4G     0 100% /mnt/dvd
/dev/vda1                          484M   83M  401M  18% /boot
/dev/mapper/an--a03n01_vg0-shared   10G  259M  9.8G   3% /shared
an-a04n02
Filesystem                         Size  Used Avail Use% Mounted on
/dev/vda3                           18G  5.6G   12G  32% /
devtmpfs                           932M     0  932M   0% /dev
tmpfs                              937M   76M  862M   9% /dev/shm
tmpfs                              937M  2.0M  935M   1% /run
tmpfs                              937M     0  937M   0% /sys/fs/cgroup
/dev/loop0                         4.4G  4.4G     0 100% /mnt/dvd
/dev/vda1                          484M   83M  401M  18% /boot
/dev/mapper/an--a03n01_vg0-shared   10G  259M  9.8G   3% /shared

Shut down gfs2, clvmd and drbd now.

an-a04n01
umount /shared/
systemctl stop clvmd.service
drbdadm down r0
an-a04n02
umount /shared/
systemctl stop clvmd.service
drbdadm down r0

Done.

Add Storage to Pacemaker

Configure Dual-Primary DRBD

Setup DRBD as a dual-primary resource.

an-a04n01
pcs cluster cib drbd_cfg
pcs -f drbd_cfg resource create drbd_r0 ocf:linbit:drbd drbd_resource=r0 op monitor interval=60s
pcs -f drbd_cfg resource master drbd_r0_Clone drbd_r0 master-max=2 master-node-max=1 clone-max=2 clone-node-max=1 notify=true
pcs cluster cib-push drbd_cfg
CIB updated

Give it a couple minutes to promote both nodes to Master on both nodes. Initially, it will appear as Master on one node only.

Once updated, you should see this:

an-a04n01
pcs status
Cluster name: an-anvil-04
Last updated: Sun Jan 26 20:26:33 2014
Last change: Sun Jan 26 20:23:23 2014 via cibadmin on an-a04n01.alteeve.ca
Stack: corosync
Current DC: an-a04n02.alteeve.ca (2) - partition with quorum
Version: 1.1.10-19.el7-368c726
2 Nodes configured
4 Resources configured


Online: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

Full list of resources:

 fence_n01_virsh	(stonith:fence_virsh):	Started an-a04n01.alteeve.ca 
 fence_n02_virsh	(stonith:fence_virsh):	Started an-a04n02.alteeve.ca 
 Master/Slave Set: drbd_r0_Clone [drbd_r0]
     Masters: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

PCSD Status:
an-a04n01.alteeve.ca: 
  an-a04n01.alteeve.ca: Online
an-a04n02.alteeve.ca: 
  an-a04n02.alteeve.ca: Online

Daemon Status:
  corosync: active/disabled
  pacemaker: active/disabled
  pcsd: active/enabled
an-a04n02
pcs status
Cluster name: an-anvil-04
Last updated: Sun Jan 26 20:26:58 2014
Last change: Sun Jan 26 20:23:23 2014 via cibadmin on an-a04n01.alteeve.ca
Stack: corosync
Current DC: an-a04n02.alteeve.ca (2) - partition with quorum
Version: 1.1.10-19.el7-368c726
2 Nodes configured
4 Resources configured


Online: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

Full list of resources:

 fence_n01_virsh	(stonith:fence_virsh):	Started an-a04n01.alteeve.ca 
 fence_n02_virsh	(stonith:fence_virsh):	Started an-a04n02.alteeve.ca 
 Master/Slave Set: drbd_r0_Clone [drbd_r0]
     Masters: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

PCSD Status:
an-a04n01.alteeve.ca: 
  an-a04n01.alteeve.ca: Online
an-a04n02.alteeve.ca: 
  an-a04n02.alteeve.ca: Online

Daemon Status:
  corosync: active/disabled
  pacemaker: active/disabled
  pcsd: active/enabled

Configure DLM

an-a04n01
pcs cluster cib dlm_cfg
pcs -f dlm_cfg resource create dlm ocf:pacemaker:controld op monitor interval=60s
pcs -f dlm_cfg resource clone dlm clone-max=2 clone-node-max=1
pcs cluster cib-push dlm_cfg
CIB updated
an-a04n02
pcs status
Cluster name: an-anvil-04
Last updated: Sun Jan 26 20:34:36 2014
Last change: Sun Jan 26 20:33:31 2014 via cibadmin on an-a04n01.alteeve.ca
Stack: corosync
Current DC: an-a04n02.alteeve.ca (2) - partition with quorum
Version: 1.1.10-19.el7-368c726
2 Nodes configured
6 Resources configured


Online: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

Full list of resources:

 fence_n01_virsh	(stonith:fence_virsh):	Started an-a04n01.alteeve.ca 
 fence_n02_virsh	(stonith:fence_virsh):	Started an-a04n02.alteeve.ca 
 Master/Slave Set: drbd_r0_Clone [drbd_r0]
     Masters: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]
 Clone Set: dlm-clone [dlm]
     Started: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

PCSD Status:
an-a04n01.alteeve.ca: 
  an-a04n01.alteeve.ca: Online
an-a04n02.alteeve.ca: 
  an-a04n02.alteeve.ca: Online

Daemon Status:
  corosync: active/disabled
  pacemaker: active/disabled
  pcsd: active/enabled

Configure Cluster LVM

an-a04n01
pcs cluster cib clvmd_cfg
pcs -f clvmd_cfg resource create clvmd lsb:clvmd params daemon_timeout=30s op monitor interval=60s
pcs -f clvmd_cfg resource clone clvmd clone-max=2 clone-node-max=1
pcs -f clvmd_cfg constraint colocation add dlm-clone clvmd-clone INFINITY
pcs -f clvmd_cfg constraint order start dlm then start clvmd-clone
pcs cluster cib-push clvmd_cfg
CIB updated
an-a04n02
pcs status
Cluster name: an-anvil-04
Last updated: Mon Jan 27 19:00:33 2014
Last change: Mon Jan 27 19:00:19 2014 via crm_resource on an-a04n01.alteeve.ca
Stack: corosync
Current DC: an-a04n01.alteeve.ca (1) - partition with quorum
Version: 1.1.10-19.el7-368c726
2 Nodes configured
8 Resources configured


Online: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

Full list of resources:

 fence_n01_virsh        (stonith:fence_virsh):  Started an-a04n01.alteeve.ca
 fence_n02_virsh        (stonith:fence_virsh):  Started an-a04n02.alteeve.ca
 Master/Slave Set: drbd_r0_Clone [drbd_r0]
     Masters: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]
 Clone Set: dlm-clone [dlm]
     Started: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]
 Clone Set: clvmd-clone [clvmd]
     Started: [ an-a04n01.alteeve.ca an-a04n02.alteeve.ca ]

PCSD Status:
an-a04n01.alteeve.ca:
  an-a04n01.alteeve.ca: Online
an-a04n02.alteeve.ca:
  an-a04n02.alteeve.ca: Online

Daemon Status:
  corosync: active/disabled
  pacemaker: active/disabled
  pcsd: active/enabled

Configure the /shared GFS2 Partition

an-a04n01
pcs cluster cib fs_cfg
pcs -f fs_cfg resource create sharedFS Filesystem device="/dev/an-a04n01_vg0/shared" directory="/shared" fstype="gfs2"
pcs -f fs_cfg resource clone sharedFS
pcs cluster cib-push fs_cfg
CIB updated
df -h
Filesystem                         Size  Used Avail Use% Mounted on
/dev/vda3                           18G  5.6G   12G  32% /
devtmpfs                           932M     0  932M   0% /dev
tmpfs                              937M   61M  877M   7% /dev/shm
tmpfs                              937M  2.2M  935M   1% /run
tmpfs                              937M     0  937M   0% /sys/fs/cgroup
/dev/loop0                         4.4G  4.4G     0 100% /mnt/dvd
/dev/vda1                          484M   83M  401M  18% /boot
/dev/mapper/an--a03n01_vg0-shared   10G  259M  9.8G   3% /shared
an-a04n02
df -h
Filesystem                         Size  Used Avail Use% Mounted on
/dev/vda3                           18G  5.6G   12G  32% /
devtmpfs                           932M     0  932M   0% /dev
tmpfs                              937M   76M  862M   9% /dev/shm
tmpfs                              937M  2.6M  935M   1% /run
tmpfs                              937M     0  937M   0% /sys/fs/cgroup
/dev/loop0                         4.4G  4.4G     0 100% /mnt/dvd
/dev/vda1                          484M   83M  401M  18% /boot
/dev/mapper/an--a03n01_vg0-shared   10G  259M  9.8G   3% /shared

Configuring Constraints

an-a04n01
pcs cluster cib cst_cfg
pcs -f cst_cfg constraint order start dlm then promote drbd_r0_Clone
pcs -f cst_cfg constraint order promote drbd_r0_Clone then start clvmd-clone
pcs -f cst_cfg constraint order promote clvmd-clone then start sharedFS-clone
pcs cluster cib-push cst_cfg
CIB updated
pcs constraint show
Location Constraints:
Ordering Constraints:
  start dlm then promote drbd_r0_Clone
  promote drbd_r0_Clone then start clvmd-clone
  start clvmd-clone then start sharedFS-clone
Colocation Constraints:
an-a04n02
pcs constraint show
Location Constraints:
Ordering Constraints:
  start dlm then promote drbd_r0_Clone
  promote drbd_r0_Clone then start clvmd-clone
  start clvmd-clone then start sharedFS-clone
Colocation Constraints:

Odds and Sods

This is a section for random notes. The stuff here will be integrated into the finished tutorial or removed.

Determine multicast Address

Useful if you need to ensure that your switch has persistent multicast addresses set.

corosync-cmapctl | grep mcastaddr
totem.interface.0.mcastaddr (str) = 239.192.122.199



an-a04n01
an-a04n02

Notes

  • Pacemaker Logging
  • Editing cib.xml offline is possible with: CIB_file=/path/to/real/cib.xml cibadmin .... and sync to other nodes when done.

Thanks

This list will certainly grow as this tutorial progresses;

 

Any questions, feedback, advice, complaints or meanderings are welcome.
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