This charm provides Keystone, the Openstack identity service. It's target platform is (ideally) Ubuntu LTS + Openstack.
The following interfaces are provided:
- nrpe-external-master: Used to generate Nagios checks.
- identity-service: Openstack API endpoints request an entry in the
Keystone service catalog + endpoint template catalog. When a relation
is established, Keystone receives: service name, region, public_url,
admin_url and internal_url. It first checks that the requested service
is listed as a supported service. This list should stay updated to
support current Openstack core services. If the service is supported,
an entry in the service catalog is created, an endpoint template is
created and a admin token is generated. The other end of the relation
receives the token as well as info on which ports Keystone is listening
on.
- keystone-service: This is currently only used by Horizon/dashboard
as its interaction with Keystone is different from other Openstack API
services. That is, Horizon requests a Keystone role and token exists.
During a relation, Horizon requests its configured default role and
Keystone responds with a token and the auth + admin ports on which
Keystone is listening.
- identity-admin: Charms use this relation to obtain the credentials
for the admin user. This is intended for charms that automatically
provision users, tenants, etc. or that otherwise automate using the
Openstack cluster deployment.
- identity-notifications: Used to broadcast messages to any services
listening on the interface.
- identity-credentials: Charms use this relation to obtain keystone
credentials without creating a service catalog entry. Set 'username'
only on the relation and keystone will set defaults and return
authentication details. Possible relation settings:
username: Username to be created.
project: Project (tenant) name to be created. Defaults to services
project.
requested_roles: Comma delimited list of roles to be created
requested_grants: Comma delimited list of roles to be granted.
Defaults to Admin role.
domain: Keystone v3 domain the user will be created in. Defaults
to the Default domain.
Keystone requires a database. By default, a local sqlite database is used. The charm supports relations to a shared-db via mysql-shared interface. When a new data store is configured, the charm ensures the minimum administrator credentials exist (as configured via charm configuration)
There are two mutually exclusive high availability options: using virtual IP(s) or DNS. In both cases, a relationship to hacluster is required which provides the corosync back end HA functionality.
To use virtual IP(s) the clustered nodes must be on the same subnet such that the VIP is a valid IP on the subnet for one of the node's interfaces and each node has an interface in said subnet. The VIP becomes a highly-available API endpoint.
At a minimum, the config option 'vip' must be set in order to use virtual IP HA. If multiple networks are being used, a VIP should be provided for each network, separated by spaces. Optionally, vip_iface or vip_cidr may be specified.
To use DNS high availability there are several prerequisites. However, DNS HA does not require the clustered nodes to be on the same subnet. Currently the DNS HA feature is only available for MAAS 2.0 or greater environments. MAAS 2.0 requires Juju 2.0 or greater. The clustered nodes must have static or "reserved" IP addresses registered in MAAS. The DNS hostname(s) must be pre-registered in MAAS before use with DNS HA.
At a minimum, the config option 'dns-ha' must be set to true and at least one of 'os-public-hostname', 'os-internal-hostname' or 'os-internal-hostname' must be set in order to use DNS HA. One or more of the above hostnames may be set.
The charm will throw an exception in the following circumstances: If neither 'vip' nor 'dns-ha' is set and the charm is related to hacluster If both 'vip' and 'dns-ha' are set as they are mutually exclusive If 'dns-ha' is set and none of the os-{admin,internal,public}-hostname(s) are set
Support for SSL and https endpoint is provided via a set of configuration options on the charm. There are two types supported;
use-https - if enabled this option tells Keystone to configure the identity endpoint as https. Under this model the keystone charm will either use the CA as provided by the user (see ssl_* options below) or will generate its own and sync across peers. The cert will be distributed to all service endpoints which will be configured to use https.
https-service-endpoints - if enabled this option tells Keystone to configure ALL endpoints as https. Under this model the keystone charm will either use the CA as provided by the user (see ssl_* options below) or will generate its own and sync across peers. The cert will be distributed to all service endpoints which will be configured to use https as well as configuring themselves to be used as https.
When configuring the charms to use SSL there are two means of configuring a CA. The user can provide their own using the options ssl_ca, ssl_cert, ssl_key which are available on all endpoint charms or, if not provided, the keystone charm will automatically generate a CA and certs to distribute to endpoints.
When the charm configures itself as a CA (generally only recommended for test purposes) it will elect an "ssl-cert-master" whose duty is to generate the CA and certs and ensure they are distributed across all peers. This leader is distinct from the charm leader as elected by Juju so that if the Juju leader switches we still have the ability to know which unit held the last-known-good copy of CA/cert data. If the Juju leader switches the charm should eventually work it out and migrate the ssl-cert-master to the new leader unit.
One side-effect of this is that if the unit currently elected as ssl-cert-master goes down, the remaining peer units or indeed any new units will not be able to sync the ssl data of the master or re-elect a new master. This does currently require manual intervention to resolve. If no action is taken, it will be assumed that this unit may come back at some point and therefore must be known to be in-sync with the rest before continuing.
It is possible to check which unit is the ssl-cert-master with:
~$ juju run --unit keystone/0 "relation-ids cluster" cluster:6 ~$ juju run --unit keystone/0 "relation-get -r cluster:6 ssl-cert-master keystone/0" keystone/0
If the master unit goes down and you want to manually migrate it to another unit (that you are 100% sure holds an authoritative copy of the ssl certs) you can do:
~$ juju run --unit keystone/0 "relation-set -r cluster:6 ssl-cert-master=keystone/1"
Where keystone/1 is known to hold a good copy of the CA/cert info and is preferrably also the cluster leader.
This charm supports the use of Juju Network Spaces, allowing the charm to be bound to network space configurations managed directly by Juju. This is only supported with Juju 2.0 and above.
API endpoints can be bound to distinct network spaces supporting the network separation of public, internal and admin endpoints.
Access to the underlying MySQL instance can also be bound to a specific space using the shared-db relation.
To use this feature, use the --bind option when deploying the charm:
juju deploy keystone --bind "public=public-space internal=internal-space admin=admin-space shared-db=internal-space"
alternatively these can also be provided as part of a juju native bundle configuration:
keystone:
charm: cs:xenial/keystone
num_units: 1
bindings:
public: public-space
admin: admin-space
internal: internal-space
shared-db: internal-space
NOTE: Spaces must be configured in the underlying provider prior to attempting to use them.
NOTE: Existing deployments using os-*-network configuration options will continue to function; these options are preferred over any network space binding provided if set.