Change-Id: I28db3a8fc5afc96e26e354c583c05efd7396d57f
6.9 KiB
Highly available Block Storage API
Cinder provides Block-Storage-as-a-Service suitable for performance sensitive scenarios such as databases, expandable file systems, or providing a server with access to raw block level storage.
Persistent block storage can survive instance termination and can also be moved across instances like any external storage device. Cinder also has volume snapshots capability for backing up the volumes.
Making the Block Storage API service highly available in active/passive mode involves:
ha-blockstorage-pacemaker
ha-blockstorage-configure
ha-blockstorage-services
In theory, you can run the Block Storage service as active/active. However, because of sufficient concerns, we recommend running the volume component as active/passive only.
You can read more about these concerns on the Red Hat Bugzilla and there is a psuedo roadmap for addressing them upstream.
Add Block Storage API resource to Pacemaker
On RHEL-based systems, create resources for cinder's systemd agents and create constraints to enforce startup/shutdown ordering:
pcs resource create openstack-cinder-api systemd:openstack-cinder-api --clone interleave=true
pcs resource create openstack-cinder-scheduler systemd:openstack-cinder-scheduler --clone interleave=true
pcs resource create openstack-cinder-volume systemd:openstack-cinder-volume
pcs constraint order start openstack-cinder-api-clone then openstack-cinder-scheduler-clone
pcs constraint colocation add openstack-cinder-scheduler-clone with openstack-cinder-api-clone
pcs constraint order start openstack-cinder-scheduler-clone then openstack-cinder-volume
pcs constraint colocation add openstack-cinder-volume with openstack-cinder-scheduler-clone
If the Block Storage service runs on the same nodes as the other services, then it is advisable to also include:
pcs constraint order start openstack-keystone-clone then openstack-cinder-api-clone
Alternatively, instead of using systemd agents, download and install the OCF resource agent:
# cd /usr/lib/ocf/resource.d/openstack
# wget https://git.openstack.org/cgit/openstack/openstack-resource-agents/plain/ocf/cinder-api
# chmod a+rx *
You can now add the Pacemaker configuration for Block Storage API
resource. Connect to the Pacemaker cluster with the crm configure
command and
add the following cluster resources:
primitive p_cinder-api ocf:openstack:cinder-api \
params config="/etc/cinder/cinder.conf" \
os_password="secretsecret" \
os_username="admin" \
os_tenant_name="admin" \
keystone_get_token_url="http://10.0.0.11:5000/v2.0/tokens" \
op monitor interval="30s" timeout="30s"
This configuration creates p_cinder-api
, a resource for
managing the Block Storage API service.
The command crm configure
supports batch input, copy and paste
the lines above into your live Pacemaker configuration and then make
changes as required. For example, you may enter
edit p_ip_cinder-api
from the crm configure
menu and
edit the resource to match your preferred virtual IP address.
Once completed, commit your configuration changes by entering commit
from the crm configure
menu.
Pacemaker then starts the Block Storage API service and its dependent
resources on one of your nodes.
Configure Block Storage API service
Edit the /etc/cinder/cinder.conf
file. For example, on a
RHEL-based system:
[DEFAULT]
# This is the name which we should advertise ourselves as and for
# A/P installations it should be the same everywhere
host = cinder-cluster-1
# Listen on the Block Storage VIP
osapi_volume_listen = 10.0.0.11
auth_strategy = keystone
control_exchange = cinder
volume_driver = cinder.volume.drivers.nfs.NfsDriver
nfs_shares_config = /etc/cinder/nfs_exports
nfs_sparsed_volumes = true
nfs_mount_options = v3
[database]
connection = mysql://cinder:CINDER_DBPASS@10.0.0.11/cinder
max_retries = -1
[keystone_authtoken]
# 10.0.0.11 is the Keystone VIP
identity_uri = http://10.0.0.11:35357/
auth_uri = http://10.0.0.11:5000/
admin_tenant_name = service
admin_user = cinder
admin_password = CINDER_PASS
[oslo_messaging_rabbit]
# Explicitly list the rabbit hosts as it doesn't play well with HAProxy
rabbit_hosts = 10.0.0.12,10.0.0.13,10.0.0.14
# As a consequence, we also need HA queues
rabbit_ha_queues = True
heartbeat_timeout_threshold = 60
heartbeat_rate = 2
Replace CINDER_DBPASS
with the password you chose for
the Block Storage database. Replace CINDER_PASS
with the
password you chose for the cinder
user in the Identity
service.
This example assumes that you are using NFS for the physical storage, which will almost never be true in a production installation.
If you are using the Block Storage service OCF agent, some settings will be filled in for you, resulting in a shorter configuration file:
# We have to use MySQL connection to store data:
connection = mysql://cinder:CINDER_DBPASS@10.0.0.11/cinder
# Alternatively, you can switch to pymysql,
# a new Python 3 compatible library and use
# connection = mysql+pymysql://cinder:CINDER_DBPASS@10.0.0.11/cinder
# and be ready when everything moves to Python 3.
# Ref: https://wiki.openstack.org/wiki/PyMySQL_evaluation
# We bind Block Storage API to the VIP:
osapi_volume_listen = 10.0.0.11
# We send notifications to High Available RabbitMQ:
notifier_strategy = rabbit
rabbit_host = 10.0.0.11
Replace CINDER_DBPASS
with the password you chose for
the Block Storage database.
Configure OpenStack services to use the highly available Block Storage API
Your OpenStack services must now point their Block Storage API configuration to the highly available, virtual cluster IP address rather than a Block Storage API server’s physical IP address as you would for a non-HA environment.
Create the Block Storage API endpoint with this IP.
If you are using both private and public IP addresses, create two virtual IPs and define your endpoint. For example:
$ openstack endpoint create volume --region $KEYSTONE_REGION \
--publicurl 'http://PUBLIC_VIP:8776/v1/%(tenant_id)s' \
--adminurl 'http://10.0.0.11:8776/v1/%(tenant_id)s' \
--internalurl 'http://10.0.0.11:8776/v1/%(tenant_id)s'