oslo-config-generator is a utility for generating sample config files in a
variety of formats. Sample config files list all of the available options,
along with their help string, type, deprecated aliases and defaults. These
sample files can be used as config files for oslo.config itself (ini
) or
by configuration management tools (json
, yaml
).
New in version 1.4.0.
Changed in version 4.3.0: The oslo-config-generator --format
parameter was added, which
allows outputting in additional formats.
oslo-config-generator
--namespace <namespace> [--namespace <namespace> ...]
[--output-file <output-file>]
[--wrap-width <wrap-width>]
[--format <format>]
[--minimal]
[--summarize]
Option namespace under oslo.config.opts
in which to query for options.
Path of the file to write to.
stdout
The maximum length of help lines.
70
Desired format for the output. ini
is the only format that can be used
directly with oslo.config. json
and yaml
are intended for
third-party tools that want to write config files based on the sample config
data. For more information, refer to Generating Machine Readable Configs.
ini, json, yaml
Generate a minimal required configuration.
Only output summaries of help text to config files. Retain longer help text for Sphinx documents.
For example, to generate a sample config file for oslo.messaging you would run:
$ oslo-config-generator --namespace oslo.messaging > oslo.messaging.conf
To generate a sample config file for an application myapp
that has its own
options and uses oslo.messaging, you would list both namespaces:
$ oslo-config-generator --namespace myapp \
--namespace oslo.messaging > myapp.conf
To generate a sample config file for oslo.messaging in JSON format, you would run:
$ oslo-config-generator --namespace oslo.messaging \
--format json > oslo.messaging.conf
The oslo-config-generator --namespace
option specifies an entry point
name registered under the oslo.config.opts
entry point namespace. For
example, in the oslo.messaging setup.cfg
we have:
[entry_points]
oslo.config.opts =
oslo.messaging = oslo.messaging.opts:list_opts
The callable referenced by the entry point should take no arguments and return
a list of (group, [opt_1, opt_2])
tuples, where group
is either a group
name as a string or an OptGroup
object. Passing the OptGroup
object
allows the consumer of the list_opts
method to access and publish group
help. An example, using both styles:
from oslo_config import cfg
opts1 = [
cfg.StrOpt('foo'),
cfg.StrOpt('bar'),
]
opts2 = [
cfg.StrOpt('baz'),
]
baz_group = cfg.OptGroup(name='baz_group'
title='Baz group options',
help='Baz group help text')
cfg.CONF.register_group(baz_group)
cfg.CONF.register_opts(opts1, group='blaa')
cfg.CONF.register_opts(opts2, group=baz_group)
def list_opts():
# Allows the generation of the help text for
# the baz_group OptGroup object. No help
# text is generated for the 'blaa' group.
return [('blaa', opts1), (baz_group, opts2)]
Note
You should return the original options, not a copy, because the default update hooks depend on the original option object being returned.
The module holding the entry point must be importable, even if the
dependencies of that module are not installed. For example, driver
modules that define options but have optional dependencies on
third-party modules must still be importable if those modules are not
installed. To accomplish this, the optional dependency can either be
imported using oslo.utils.importutils.try_import()
or the option
definitions can be placed in a file that does not try to import the
optional dependency.
Occasionally applications need to override the defaults for options defined in libraries. At runtime this is done using an API within the library. Since the config generator cannot guarantee the order in which namespaces will be imported, we can’t ensure that application code can change the option defaults before the generator loads the options from a library. Instead, a separate optional processing hook is provided for applications to register a function to update default values after all options are loaded.
The hooks are registered in a separate entry point namespace
(oslo.config.opts.defaults
), using the same entry point name as
the application’s list_opts()
function.
[entry_points]
oslo.config.opts.defaults =
keystone = keystone.common.config:update_opt_defaults
Warning
Never, under any circumstances, register an entry point using a name owned by another project. Doing so causes unexpected interplay between projects within the config generator and will result in failure to generate the configuration file or invalid values showing in the sample.
In this case, the name of the entry point for the default override
function must match the name of one of the entry points defining
options for the application in order to be detected and
used. Applications that have multiple list_opts functions should use
one that is present in the inputs for the config generator where
the changed defaults need to appear. For example, if an application
defines foo.api
to list the API-related options, and needs to
override the defaults in the oslo.middleware.cors
library, the
application should register foo.api
under
oslo.config.opts.defaults
and point to a function within the
application code space that changes the defaults for
oslo.middleware.cors
.
The update function should take no arguments. It should invoke the
public set_defaults()
functions in any libraries for which it
has option defaults to override, just as the application does during
its normal startup process.
from oslo_log import log
def update_opt_defaults():
log.set_defaults(
default_log_levels=log.get_default_log_levels() + ['noisy=WARN'],
)
All deployment tools have to solve a similar problem: how to generate the config files for each service at deployment time. To help with this problem, oslo-config-generator can generate machine-readable sample config files that output the same data as the INI files used by oslo.config itself, but in a YAML or JSON format that can be more easily consumed by deployment tools.
Important
The YAML and JSON-formatted files generated by oslo-config-generator cannot be used by oslo.config itself - they are only for use by other tools.
For example, some YAML-formatted output might look like so:
generator_options:
config_dir: []
config_file: []
format_: yaml
minimal: false
namespace:
- keystone
output_file: null
summarize: false
wrap_width: 70
options:
DEFAULT:
help: ''
opts:
- advanced: false
choices: []
default: null
deprecated_for_removal: false
deprecated_opts: []
deprecated_reason: null
deprecated_since: null
dest: admin_token
help: Using this feature is *NOT* recommended. Instead, use the `keystone-manage
bootstrap` command. The value of this option is treated as a "shared secret"
that can be used to bootstrap Keystone through the API. This "token" does
not represent a user (it has no identity), and carries no explicit authorization
(it effectively bypasses most authorization checks). If set to `None`, the
value is ignored and the `admin_token` middleware is effectively disabled.
However, to completely disable `admin_token` in production (highly recommended,
as it presents a security risk), remove `AdminTokenAuthMiddleware` (the `admin_token_auth`
filter) from your paste application pipelines (for example, in `keystone-paste.ini`).
max: null
metavar: null
min: null
mutable: false
name: admin_token
namespace: keystone
positional: false
required: false
sample_default: null
secret: true
short: null
type: string value
- ...
...
deprecated_options:
DEFAULT:
- name: bind_host
replacement_group: eventlet_server
replacement_name: public_bind_host
where the top-level keys are:
generator_options
The options passed to the oslo-config-generator tool itself
options
All options registered in the provided namespace(s). These are grouped under the
OptGroup
they are assigned to which defaults toDEFAULT
if unset.For information on the various attributes of each option, refer to
oslo_config.cfg.Opt
and its subclasses.
deprecated_options
All deprecated options registered in the provided namespace(s). Like
options
, these options are grouped byOptGroup
.
A single codebase might have multiple programs, each of which use a subset of the total set of options registered by the codebase. In that case, you can register multiple entry points:
[entry_points]
oslo.config.opts =
nova.common = nova.config:list_common_opts
nova.api = nova.config:list_api_opts
nova.compute = nova.config:list_compute_opts
and generate a config file specific to each program:
$ oslo-config-generator --namespace oslo.messaging \
--namespace nova.common \
--namespace nova.api > nova-api.conf
$ oslo-config-generator --namespace oslo.messaging \
--namespace nova.common \
--namespace nova.compute > nova-compute.conf
To make this more convenient, you can use config files to describe your config files:
$ cat > config-generator/api.conf <<EOF
[DEFAULT]
output_file = etc/nova/nova-api.conf
namespace = oslo.messaging
namespace = nova.common
namespace = nova.api
EOF
$ cat > config-generator/compute.conf <<EOF
[DEFAULT]
output_file = etc/nova/nova-compute.conf
namespace = oslo.messaging
namespace = nova.common
namespace = nova.compute
EOF
$ oslo-config-generator --config-file config-generator/api.conf
$ oslo-config-generator --config-file config-generator/compute.conf
The default runtime values of configuration options are not always the most
suitable values to include in sample config files - for example, rather than
including the IP address or hostname of the machine where the config file
was generated, you might want to include something like 10.0.0.1
. To
facilitate this, options can be supplied with a sample_default
attribute:
cfg.StrOpt('base_dir'
default=os.getcwd(),
sample_default='/usr/lib/myapp')
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