OpenStack Client Configuation Library
Project description
================
os-client-config
================
`os-client-config` is a library for collecting client configuration for
using an OpenStack cloud in a consistent and comprehensive manner. It
will find cloud config for as few as 1 cloud and as many as you want to
put in a config file. It will read environment variables and config files,
and it also contains some vendor specific default values so that you don't
have to know extra info to use OpenStack
* If you have a config file, you will get the clouds listed in it
* If you have environment variables, you will get a cloud named `envvars`
* If you have neither, you will get a cloud named `defaults` with base defaults
Environment Variables
---------------------
`os-client-config` honors all of the normal `OS_*` variables. It does not
provide backwards compatibility to service-specific variables such as
`NOVA_USERNAME`.
If you have OpenStack environment variables set, `os-client-config` will produce
a cloud config object named `envvars` containing your values from the
environment. If you don't like the name `envvars`, that's ok, you can override
it by setting `OS_CLOUD_NAME`.
Service specific settings, like the nova service type, are set with the
default service type as a prefix. For instance, to set a special service_type
for trove set
.. code-block:: bash
export OS_DATABASE_SERVICE_TYPE=rax:database
Config Files
------------
`os-client-config` will look for a file called `clouds.yaml` in the following
locations:
* Current Directory
* ~/.config/openstack
* /etc/openstack
The first file found wins.
You can also set the environment variable `OS_CLIENT_CONFIG_FILE` to an
absolute path of a file to look for and that location will be inserted at the
front of the file search list.
The keys are all of the keys you'd expect from `OS_*` - except lower case
and without the OS prefix. So, region name is set with `region_name`.
Service specific settings, like the nova service type, are set with the
default service type as a prefix. For instance, to set a special service_type
for trove (because you're using Rackspace) set:
.. code-block:: yaml
database_service_type: 'rax:database'
Site Specific File Locations
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
In addition to `~/.config/openstack` and `/etc/openstack` - some platforms
have other locations they like to put things. `os-client-config` will also
look in an OS specific config dir
* `USER_CONFIG_DIR`
* `SITE_CONFIG_DIR`
`USER_CONFIG_DIR` is different on Linux, OSX and Windows.
* Linux: `~/.config/openstack`
* OSX: `~/Library/Application Support/openstack`
* Windows: `C:\\Users\\USERNAME\\AppData\\Local\\OpenStack\\openstack`
`SITE_CONFIG_DIR` is different on Linux, OSX and Windows.
* Linux: `/etc/openstack`
* OSX: `/Library/Application Support/openstack`
* Windows: `C:\\ProgramData\\OpenStack\\openstack`
An example config file is probably helpful:
.. code-block:: yaml
clouds:
mordred:
profile: hp
auth:
username: mordred@inaugust.com
password: XXXXXXXXX
project_name: mordred@inaugust.com
region_name: region-b.geo-1
dns_service_type: hpext:dns
compute_api_version: 1.1
monty:
auth:
auth_url: https://region-b.geo-1.identity.hpcloudsvc.com:35357/v2.0
username: monty.taylor@hp.com
password: XXXXXXXX
project_name: monty.taylor@hp.com-default-tenant
region_name: region-b.geo-1
dns_service_type: hpext:dns
infra:
profile: rackspace
auth:
username: openstackci
password: XXXXXXXX
project_id: 610275
regions:
- DFW
- ORD
- IAD
You may note a few things. First, since `auth_url` settings are silly
and embarrassingly ugly, known cloud vendor profile information is included and
may be referenced by name. One of the benefits of that is that `auth_url`
isn't the only thing the vendor defaults contain. For instance, since
Rackspace lists `rax:database` as the service type for trove, `os-client-config`
knows that so that you don't have to. In case the cloud vendor profile is not
available, you can provide one called `clouds-public.yaml`, following the same
location rules previously mentioned for the config files.
`regions` can be a list of regions. When you call `get_all_clouds`,
you'll get a cloud config object for each cloud/region combo.
As seen with `dns_service_type`, any setting that makes sense to be per-service,
like `service_type` or `endpoint` or `api_version` can be set by prefixing
the setting with the default service type. That might strike you funny when
setting `service_type` and it does me too - but that's just the world we live
in.
Auth Settings
-------------
Keystone has auth plugins - which means it's not possible to know ahead of time
which auth settings are needed. `os-client-config` sets the default plugin type
to `password`, which is what things all were before plugins came about. In
order to facilitate validation of values, all of the parameters that exist
as a result of a chosen plugin need to go into the auth dict. For password
auth, this includes `auth_url`, `username` and `password` as well as anything
related to domains, projects and trusts.
Splitting Secrets
-----------------
In some scenarios, such as configuration management controlled environments,
it might be easier to have secrets in one file and non-secrets in another.
This is fully supported via an optional file `secure.yaml` which follows all
the same location rules as `clouds.yaml`. It can contain anything you put
in `clouds.yaml` and will take precedence over anything in the `clouds.yaml`
file.
.. code-block:: yaml
# clouds.yaml
clouds:
internap:
profile: internap
auth:
username: api-55f9a00fb2619
project_name: inap-17037
regions:
- ams01
- nyj01
# secure.yaml
clouds:
internap:
auth:
password: XXXXXXXXXXXXXXXXX
SSL Settings
------------
When the access to a cloud is done via a secure connection, `os-client-config`
will always verify the SSL cert by default. This can be disabled by setting
`verify` to `False`. In case the cert is signed by an unknown CA, a specific
cacert can be provided via `cacert`. **WARNING:** `verify` will always have
precedence over `cacert`, so when setting a CA cert but disabling `verify`, the
cloud cert will never be validated.
Client certs are also configurable. `cert` will be the client cert file
location. In case the cert key is not included within the client cert file,
its file location needs to be set via `key`.
Cache Settings
--------------
Accessing a cloud is often expensive, so it's quite common to want to do some
client-side caching of those operations. To facilitate that, `os-client-config`
understands passing through cache settings to dogpile.cache, with the following
behaviors:
* Listing no config settings means you get a null cache.
* `cache.expiration_time` and nothing else gets you memory cache.
* Otherwise, `cache.class` and `cache.arguments` are passed in
Different cloud behaviors are also differently expensive to deal with. If you
want to get really crazy and tweak stuff, you can specify different expiration
times on a per-resource basis by passing values, in seconds to an expiration
mapping keyed on the singular name of the resource. A value of `-1` indicates
that the resource should never expire.
`os-client-config` does not actually cache anything itself, but it collects
and presents the cache information so that your various applications that
are connecting to OpenStack can share a cache should you desire.
.. code-block:: yaml
cache:
class: dogpile.cache.pylibmc
expiration_time: 3600
arguments:
url:
- 127.0.0.1
expiration:
server: 5
flavor: -1
clouds:
mordred:
profile: hp
auth:
username: mordred@inaugust.com
password: XXXXXXXXX
project_name: mordred@inaugust.com
region_name: region-b.geo-1
dns_service_type: hpext:dns
IPv6
----
IPv6 is the future, and you should always use it if your cloud supports it and
if your local network supports it. Both of those are easily detectable and all
friendly software should do the right thing. However, sometimes you might
exist in a location where you have an IPv6 stack, but something evil has
caused it to not actually function. In that case, there is a config option
you can set to unbreak you `force_ipv4`, or `OS_FORCE_IPV4` boolean
environment variable.
.. code-block:: yaml
client:
force_ipv4: true
clouds:
mordred:
profile: hp
auth:
username: mordred@inaugust.com
password: XXXXXXXXX
project_name: mordred@inaugust.com
region_name: region-b.geo-1
monty:
profile: rax
auth:
username: mordred@inaugust.com
password: XXXXXXXXX
project_name: mordred@inaugust.com
region_name: DFW
The above snippet will tell client programs to prefer returning an IPv4
address.
Per-region settings
-------------------
Sometimes you have a cloud provider that has config that is common to the
cloud, but also with some things you might want to express on a per-region
basis. For instance, Internap provides a public and private network specific
to the user in each region, and putting the values of those networks into
config can make consuming programs more efficient.
To support this, the region list can actually be a list of dicts, and any
setting that can be set at the cloud level can be overridden for that
region.
::
clouds:
internap:
profile: internap
auth:
password: XXXXXXXXXXXXXXXXX
username: api-55f9a00fb2619
project_name: inap-17037
regions:
- name: ams01
values:
external_network: inap-17037-WAN1654
internal_network: inap-17037-LAN4820
- name: nyj01
values:
external_network: inap-17037-WAN7752
internal_network: inap-17037-LAN6745
Usage
-----
The simplest and least useful thing you can do is:
.. code-block:: python
python -m os_client_config.config
Which will print out whatever if finds for your config. If you want to use
it from python, which is much more likely what you want to do, things like:
Get a named cloud.
.. code-block:: python
import os_client_config
cloud_config = os_client_config.OpenStackConfig().get_one_cloud(
'hp', region_name='region-b.geo-1')
print(cloud_config.name, cloud_config.region, cloud_config.config)
Or, get all of the clouds.
.. code-block:: python
import os_client_config
cloud_config = os_client_config.OpenStackConfig().get_all_clouds()
for cloud in cloud_config:
print(cloud.name, cloud.region, cloud.config)
argparse
--------
If you're using os-client-config from a program that wants to process
command line options, there is a registration function to register the
arguments that both os-client-config and keystoneauth know how to deal
with - as well as a consumption argument.
.. code-block:: python
import argparse
import sys
import os_client_config
cloud_config = os_client_config.OpenStackConfig()
parser = argparse.ArgumentParser()
cloud_config.register_argparse_arguments(parser, sys.argv)
options = parser.parse_args()
cloud = cloud_config.get_one_cloud(argparse=options)
Constructing Legacy Client objects
----------------------------------
If all you want to do is get a Client object from a python-*client library,
and you want it to do all the normal things related to clouds.yaml, `OS_`
environment variables, a helper function is provided. The following
will get you a fully configured `novaclient` instance.
.. code-block:: python
import argparse
import os_client_config
nova = os_client_config.make_client('compute')
If you want to do the same thing but also support command line parsing.
.. code-block:: python
import argparse
import os_client_config
nova = os_client_config.make_client(
'compute', options=argparse.ArgumentParser())
If you want to get fancier than that in your python, then the rest of the
API is available to you. But often times, you just want to do the one thing.
os-client-config
================
`os-client-config` is a library for collecting client configuration for
using an OpenStack cloud in a consistent and comprehensive manner. It
will find cloud config for as few as 1 cloud and as many as you want to
put in a config file. It will read environment variables and config files,
and it also contains some vendor specific default values so that you don't
have to know extra info to use OpenStack
* If you have a config file, you will get the clouds listed in it
* If you have environment variables, you will get a cloud named `envvars`
* If you have neither, you will get a cloud named `defaults` with base defaults
Environment Variables
---------------------
`os-client-config` honors all of the normal `OS_*` variables. It does not
provide backwards compatibility to service-specific variables such as
`NOVA_USERNAME`.
If you have OpenStack environment variables set, `os-client-config` will produce
a cloud config object named `envvars` containing your values from the
environment. If you don't like the name `envvars`, that's ok, you can override
it by setting `OS_CLOUD_NAME`.
Service specific settings, like the nova service type, are set with the
default service type as a prefix. For instance, to set a special service_type
for trove set
.. code-block:: bash
export OS_DATABASE_SERVICE_TYPE=rax:database
Config Files
------------
`os-client-config` will look for a file called `clouds.yaml` in the following
locations:
* Current Directory
* ~/.config/openstack
* /etc/openstack
The first file found wins.
You can also set the environment variable `OS_CLIENT_CONFIG_FILE` to an
absolute path of a file to look for and that location will be inserted at the
front of the file search list.
The keys are all of the keys you'd expect from `OS_*` - except lower case
and without the OS prefix. So, region name is set with `region_name`.
Service specific settings, like the nova service type, are set with the
default service type as a prefix. For instance, to set a special service_type
for trove (because you're using Rackspace) set:
.. code-block:: yaml
database_service_type: 'rax:database'
Site Specific File Locations
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
In addition to `~/.config/openstack` and `/etc/openstack` - some platforms
have other locations they like to put things. `os-client-config` will also
look in an OS specific config dir
* `USER_CONFIG_DIR`
* `SITE_CONFIG_DIR`
`USER_CONFIG_DIR` is different on Linux, OSX and Windows.
* Linux: `~/.config/openstack`
* OSX: `~/Library/Application Support/openstack`
* Windows: `C:\\Users\\USERNAME\\AppData\\Local\\OpenStack\\openstack`
`SITE_CONFIG_DIR` is different on Linux, OSX and Windows.
* Linux: `/etc/openstack`
* OSX: `/Library/Application Support/openstack`
* Windows: `C:\\ProgramData\\OpenStack\\openstack`
An example config file is probably helpful:
.. code-block:: yaml
clouds:
mordred:
profile: hp
auth:
username: mordred@inaugust.com
password: XXXXXXXXX
project_name: mordred@inaugust.com
region_name: region-b.geo-1
dns_service_type: hpext:dns
compute_api_version: 1.1
monty:
auth:
auth_url: https://region-b.geo-1.identity.hpcloudsvc.com:35357/v2.0
username: monty.taylor@hp.com
password: XXXXXXXX
project_name: monty.taylor@hp.com-default-tenant
region_name: region-b.geo-1
dns_service_type: hpext:dns
infra:
profile: rackspace
auth:
username: openstackci
password: XXXXXXXX
project_id: 610275
regions:
- DFW
- ORD
- IAD
You may note a few things. First, since `auth_url` settings are silly
and embarrassingly ugly, known cloud vendor profile information is included and
may be referenced by name. One of the benefits of that is that `auth_url`
isn't the only thing the vendor defaults contain. For instance, since
Rackspace lists `rax:database` as the service type for trove, `os-client-config`
knows that so that you don't have to. In case the cloud vendor profile is not
available, you can provide one called `clouds-public.yaml`, following the same
location rules previously mentioned for the config files.
`regions` can be a list of regions. When you call `get_all_clouds`,
you'll get a cloud config object for each cloud/region combo.
As seen with `dns_service_type`, any setting that makes sense to be per-service,
like `service_type` or `endpoint` or `api_version` can be set by prefixing
the setting with the default service type. That might strike you funny when
setting `service_type` and it does me too - but that's just the world we live
in.
Auth Settings
-------------
Keystone has auth plugins - which means it's not possible to know ahead of time
which auth settings are needed. `os-client-config` sets the default plugin type
to `password`, which is what things all were before plugins came about. In
order to facilitate validation of values, all of the parameters that exist
as a result of a chosen plugin need to go into the auth dict. For password
auth, this includes `auth_url`, `username` and `password` as well as anything
related to domains, projects and trusts.
Splitting Secrets
-----------------
In some scenarios, such as configuration management controlled environments,
it might be easier to have secrets in one file and non-secrets in another.
This is fully supported via an optional file `secure.yaml` which follows all
the same location rules as `clouds.yaml`. It can contain anything you put
in `clouds.yaml` and will take precedence over anything in the `clouds.yaml`
file.
.. code-block:: yaml
# clouds.yaml
clouds:
internap:
profile: internap
auth:
username: api-55f9a00fb2619
project_name: inap-17037
regions:
- ams01
- nyj01
# secure.yaml
clouds:
internap:
auth:
password: XXXXXXXXXXXXXXXXX
SSL Settings
------------
When the access to a cloud is done via a secure connection, `os-client-config`
will always verify the SSL cert by default. This can be disabled by setting
`verify` to `False`. In case the cert is signed by an unknown CA, a specific
cacert can be provided via `cacert`. **WARNING:** `verify` will always have
precedence over `cacert`, so when setting a CA cert but disabling `verify`, the
cloud cert will never be validated.
Client certs are also configurable. `cert` will be the client cert file
location. In case the cert key is not included within the client cert file,
its file location needs to be set via `key`.
Cache Settings
--------------
Accessing a cloud is often expensive, so it's quite common to want to do some
client-side caching of those operations. To facilitate that, `os-client-config`
understands passing through cache settings to dogpile.cache, with the following
behaviors:
* Listing no config settings means you get a null cache.
* `cache.expiration_time` and nothing else gets you memory cache.
* Otherwise, `cache.class` and `cache.arguments` are passed in
Different cloud behaviors are also differently expensive to deal with. If you
want to get really crazy and tweak stuff, you can specify different expiration
times on a per-resource basis by passing values, in seconds to an expiration
mapping keyed on the singular name of the resource. A value of `-1` indicates
that the resource should never expire.
`os-client-config` does not actually cache anything itself, but it collects
and presents the cache information so that your various applications that
are connecting to OpenStack can share a cache should you desire.
.. code-block:: yaml
cache:
class: dogpile.cache.pylibmc
expiration_time: 3600
arguments:
url:
- 127.0.0.1
expiration:
server: 5
flavor: -1
clouds:
mordred:
profile: hp
auth:
username: mordred@inaugust.com
password: XXXXXXXXX
project_name: mordred@inaugust.com
region_name: region-b.geo-1
dns_service_type: hpext:dns
IPv6
----
IPv6 is the future, and you should always use it if your cloud supports it and
if your local network supports it. Both of those are easily detectable and all
friendly software should do the right thing. However, sometimes you might
exist in a location where you have an IPv6 stack, but something evil has
caused it to not actually function. In that case, there is a config option
you can set to unbreak you `force_ipv4`, or `OS_FORCE_IPV4` boolean
environment variable.
.. code-block:: yaml
client:
force_ipv4: true
clouds:
mordred:
profile: hp
auth:
username: mordred@inaugust.com
password: XXXXXXXXX
project_name: mordred@inaugust.com
region_name: region-b.geo-1
monty:
profile: rax
auth:
username: mordred@inaugust.com
password: XXXXXXXXX
project_name: mordred@inaugust.com
region_name: DFW
The above snippet will tell client programs to prefer returning an IPv4
address.
Per-region settings
-------------------
Sometimes you have a cloud provider that has config that is common to the
cloud, but also with some things you might want to express on a per-region
basis. For instance, Internap provides a public and private network specific
to the user in each region, and putting the values of those networks into
config can make consuming programs more efficient.
To support this, the region list can actually be a list of dicts, and any
setting that can be set at the cloud level can be overridden for that
region.
::
clouds:
internap:
profile: internap
auth:
password: XXXXXXXXXXXXXXXXX
username: api-55f9a00fb2619
project_name: inap-17037
regions:
- name: ams01
values:
external_network: inap-17037-WAN1654
internal_network: inap-17037-LAN4820
- name: nyj01
values:
external_network: inap-17037-WAN7752
internal_network: inap-17037-LAN6745
Usage
-----
The simplest and least useful thing you can do is:
.. code-block:: python
python -m os_client_config.config
Which will print out whatever if finds for your config. If you want to use
it from python, which is much more likely what you want to do, things like:
Get a named cloud.
.. code-block:: python
import os_client_config
cloud_config = os_client_config.OpenStackConfig().get_one_cloud(
'hp', region_name='region-b.geo-1')
print(cloud_config.name, cloud_config.region, cloud_config.config)
Or, get all of the clouds.
.. code-block:: python
import os_client_config
cloud_config = os_client_config.OpenStackConfig().get_all_clouds()
for cloud in cloud_config:
print(cloud.name, cloud.region, cloud.config)
argparse
--------
If you're using os-client-config from a program that wants to process
command line options, there is a registration function to register the
arguments that both os-client-config and keystoneauth know how to deal
with - as well as a consumption argument.
.. code-block:: python
import argparse
import sys
import os_client_config
cloud_config = os_client_config.OpenStackConfig()
parser = argparse.ArgumentParser()
cloud_config.register_argparse_arguments(parser, sys.argv)
options = parser.parse_args()
cloud = cloud_config.get_one_cloud(argparse=options)
Constructing Legacy Client objects
----------------------------------
If all you want to do is get a Client object from a python-*client library,
and you want it to do all the normal things related to clouds.yaml, `OS_`
environment variables, a helper function is provided. The following
will get you a fully configured `novaclient` instance.
.. code-block:: python
import argparse
import os_client_config
nova = os_client_config.make_client('compute')
If you want to do the same thing but also support command line parsing.
.. code-block:: python
import argparse
import os_client_config
nova = os_client_config.make_client(
'compute', options=argparse.ArgumentParser())
If you want to get fancier than that in your python, then the rest of the
API is available to you. But often times, you just want to do the one thing.
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