When an OpenStack cloud is deployed, the REST API of each service is presented as a series of endpoints. These endpoints are the admin URL, the internal URL, and the external URL.
Kolla offers two options for assigning these endpoints to network addresses: - Combined - Where all three endpoints share the same IP address - Separate - Where the external URL is assigned to an IP address that is different than the IP address shared by the internal and admin URLs
The configuration parameters related to these options are: - kolla_internal_vip_address - network_interface - kolla_external_vip_address - kolla_external_vip_interface
For the combined option, set the two variables below, while allowing the other two to accept their default values. In this configuration all REST API requests, internal and external, will flow over the same network.
kolla_internal_vip_address: "10.10.10.254"
network_interface: "eth0"
For the separate option, set these four variables. In this configuration the internal and external REST API requests can flow over separate networks.
kolla_internal_vip_address: "10.10.10.254"
network_interface: "eth0"
kolla_external_vip_address: "10.10.20.254"
kolla_external_vip_interface: "eth1"
When addressing a server on the internet, it is more common to use
a name, like www.example.net
, instead of an address like
10.10.10.254
. If you prefer to use names to address the endpoints
in your kolla deployment use the variables:
kolla_internal_fqdn: inside.mykolla.example.net
kolla_external_fqdn: mykolla.example.net
Provisions must be taken outside of kolla for these names to map to the
configured IP addresses. Using a DNS server or the /etc/hosts
file
are two ways to create this mapping.
RabbitMQ doesn’t work with IP address, hence the IP address of
api_interface
should be resolvable by hostnames to make sure that
all RabbitMQ Cluster hosts can resolve each others hostname beforehand.
An additional endpoint configuration option is to enable or disable TLS protection for the external VIP. TLS allows a client to authenticate the OpenStack service endpoint and allows for encryption of the requests and responses.
Note
The kolla_internal_vip_address and kolla_external_vip_address must be different to enable TLS on the external network.
The configuration variables that control TLS networking are:
The default for TLS is disabled, to enable TLS networking:
kolla_enable_tls_external: "yes"
kolla_external_fqdn_cert: "{{ node_config_directory }}/certificates/mycert.pem"
Note
TLS authentication is based on certificates that have been signed by trusted Certificate Authorities. Examples of commercial CAs are Comodo, Symantec, GoDaddy, and GlobalSign. Letsencrypt.org is a CA that will provide trusted certificates at no charge. Many company’s IT departments will provide certificates within that company’s domain. If using a trusted CA is not possible for your situation, you can use OpenSSL to create your own company’s domain or see the section below about kolla generated self-signed certificates.
Two certificate files are required to use TLS securely with authentication.
These two files will be provided by your Certificate Authority. These
two files are the server certificate with private key and the CA certificate
with any intermediate certificates. The server certificate needs to be
installed with the kolla deployment and is configured with the
kolla_external_fqdn_cert
parameter. If the server certificate provided
is not already trusted by the client, then the CA certificate file will
need to be distributed to the client.
When using TLS to connect to a public endpoint, an OpenStack client will have settings similar to this:
export OS_PROJECT_DOMAIN_ID=default
export OS_USER_DOMAIN_ID=default
export OS_PROJECT_NAME=demo
export OS_USERNAME=demo
export OS_PASSWORD=demo-password
export OS_AUTH_URL=https://mykolla.example.net:5000
# os_cacert is optional for trusted certificates
export OS_CACERT=/etc/pki/mykolla-cacert.crt
export OS_IDENTITY_API_VERSION=3
Note
Self-signed certificates should never be used in production.
It is not always practical to get a certificate signed by a well-known trust CA, for example a development or internal test kolla deployment. In these cases it can be useful to have a self-signed certificate to use.
For convenience, the kolla-ansible
command will generate the necessary
certificate files based on the information in the globals.yml
configuration file:
kolla-ansible certificates
The files haproxy.pem and haproxy-ca.pem will be generated and stored
in the /etc/kolla/certificates/
directory.
Note
As of now kolla only supports config overrides for ini based configs.
An operator can change the location where custom config files are read from by
editing /etc/kolla/globals.yml
and adding the following line.
# The directory to merge custom config files the kolla's config files
node_custom_config: "/etc/kolla/config"
Kolla allows the operator to override configuration of services. Kolla will
look for a file in /etc/kolla/config/<< service name >>/<< config file >>
.
This can be done per-project, per-service or per-service-on-specified-host.
For example to override scheduler_max_attempts in nova scheduler, the operator
needs to create /etc/kolla/config/nova/nova-scheduler.conf
with content:
[DEFAULT]
scheduler_max_attempts = 100
If the operator wants to configure compute node cpu and ram allocation ratio
on host myhost, the operator needs to create file
/etc/kolla/config/nova/myhost/nova.conf
with content:
[DEFAULT]
cpu_allocation_ratio = 16.0
ram_allocation_ratio = 5.0
Kolla allows the operator to override configuration globally for all services.
It will look for a file called /etc/kolla/config/global.conf
.
For example to modify database pool size connection for all services, the
operator needs to create /etc/kolla/config/global.conf
with content:
[database]
max_pool_size = 100
In case the operators want to customize policy.json
file, they should
create a full policy file for specific project in the same directory like above
and Kolla will overwrite default policy file with it. Be aware, with some
projects are keeping full policy file in source code, operators just need to
copy it but with some others are defining default rules in codebase, they have
to generate it.
For example to overwrite policy.json
file of Neutron project, the operator
needs to grab policy.json
from Neutron project source code, update rules
and then put it to /etc/kolla/config/neutron/policy.json
.
Note
Currently kolla-ansible only support JSON and YAML format for policy file.
The operator can make these changes after services were already deployed by using following command:
kolla-ansible reconfigure
If a development environment doesn’t have a free IP address available for VIP configuration, the host’s IP address may be used here by disabling HAProxy by adding:
enable_haproxy: "no"
Note this method is not recommended and generally not tested by the Kolla community, but included since sometimes a free IP is not available in a testing environment.
It is possible to use an external Elasticsearch/Kibana environment. To do this first disable the deployment of the central logging.
enable_central_logging: "no"
Now you can use the parameter elasticsearch_address
to configure the
address of the external Elasticsearch environment.
It is sometimes required to use a different than default port
for service(s) in Kolla. It is possible with setting
<service>_port
in globals.yml
file. For example:
database_port: 3307
As <service>_port
value is saved in different services’ configuration so
it’s advised to make above change before deploying.
By default, Fluentd is used as a syslog server to collect Swift and HAProxy
logs. When Fluentd is disabled or you want to use an external syslog server,
You can set syslog parameters in globals.yml
file. For example:
syslog_server: "172.29.9.145"
syslog_udp_port: "514"
You can also set syslog facility names for Swift and HAProxy logs.
By default, Swift and HAProxy use local0
and local1
, respectively.
syslog_swift_facility: "local0"
syslog_haproxy_facility: "local1"
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