A library for simplifying the configuration of Python applications at all stages of deployment.
Project description
Opset
A library for simplifying the configuration of Python applications at all stages of deployment.
Opset is a config manager that let you manage your configuration via YAML file or environment variables. The general principle of Opset is that you want to hold your secrets and manage your configurations via configuration files when doing local development and via environment variables when your app is deployed. It is however possible to also handle local development through environment variables if the developer sees fit.
With Opset you define everything that can be tweaked with your application in
one Pydantic model. This way the developers and integrators working with your code will know exactly what setting they
can change on your code base. You can then overwrite the default config with a local config stored in a file called
local.yml
, this file is aimed to be used for local development by your developers and let them easily manage a
configuration file that fits their development need. Finally, you can also have environment variables that have a
matching name to your config that will overwrite your config, letting you use your config in a deployed environment
without having your secret written down in a config file. Opset aims to reconcile the ease of use of a
config file with the added security of environment variables.
This library is available on PyPI under the name Opset. You can install with pip by running pip install opset
.
Table of Contents
- Lexicon
- Architecture Overview
- Usage Guide
- Example Configuration file
- Support for unit tests
- Contributing and getting set up for local development
Lexicon
Term | Definition |
---|---|
config | The config Pydantic model or a configuration file (format: YAML). |
section | A section within a configuration file, a section tend to group different settings together under a logical block. For example a section named redis would encompass all settings related specifically to redis. |
setting | A key within a section in a configuration file. A value is associated with a key and querying the config for a setting within a section will return the value associated with it. |
Architecture Overview
There are three possible config files
Config Name | Purpose |
---|---|
Config Model | This is the user defined config model based on OpsetSettingsModel . |
local.yml | This is a local config that overwrites the default config, this file is not committed to the repository and is meant to be used in a local development environment. |
The content of the default config is loaded first, and if any settings are redefined in local.yml
, the default values
from the model are overwritten by local.yml
.
Environment variables will apply after the local.yml
overwrite of the config settings if they have a matching name. To
do so, the environment variable must be named in the following way:
{APP_NAME_ALL_CAPS}_{SECTION}_{SETTING}
So for the application my-small-project
if we wanted to overwrite the setting port
from the section app
, your
environment variable would need to be named like this:
MY_SMALL_PROJECT_APP_PORT
It is also possible to have nested sections, so following the example above, if you wanted to override the value of
api.weather.host
you could do so using the following environment variable:
MY_SMALL_PROJECT_API_WEATHER_HOST
Usage Guide
To create a new configuration you need to first implement a pydantic model based on OpsetSettingsModel
to represent
your configuration. It can contain sub models all based on OpsetSettingsModel
. Then you can initialize your
configuration by instantiating the Config
class. Your config object will be available in the config
attribute of the
opset config.
Opset will also check for local.yml
. The location needs to be specified when instantiating the Config
object. Your
local.yml
should be added to .gitignore
.
A basic Opset setup will look like this:
from opset import OpsetSettingsMainModel, Config
class MyConfig(OpsetSettingsMainModel):
host: str
port: int = 8080
config = Config("my-app", MyConfig, "my_app.config").config
You would then import your new config
variable where needed in your app.
The Config
class takes the following arguments:
Parameter | Description | Default value | Example |
---|---|---|---|
app_name |
The name of the application, usually the name of the repo. Ex: myproject-example . This will be used for finding the prefix to the environment variables. The name of the app will be uppercased and dashes will be replaced by underscores. |
myproject-example |
|
config_model |
Your implementation of OpsetSettingsModel that defines your configuration. |
||
config_path |
A python path to where the configuration files are. Relative to the application. Ex: tasks.config would mean that the config files are located in the directory config of the directory tasks from the root of the repo. |
tasks.config |
|
setup_logging |
Whether the logging config should be loaded immediately after the config has been loaded. Your configuration modell will need to have the logging attribute of type OpsetLoggingConfig for this to work. Default to True . |
True |
True |
Making the difference between null and empty
The configuration is stored in YAML and follows the YAML standard. As such, it makes a distinction between null
keys
and empty keys.
app:
# this setting's value is declared but not defined
# it will be set to None when accessed unless it is overwritten in local.yml or in an environment variable
api_key: null
# this setting's value is set to an empty string
log_prefix:
Controlling your entry points
The config object is initiated once you create the Config
object, before that, trying to get read
a value from the config will throw an exception. It is very important to have a good idea of what the entry points
are in your application and to create your Config
object as early as possible in your application to avoid issues.
You cannot instantiate Config
more than one time, so make sure the code handling your configuration is only ran once.
Opset + Google Cloud Secret Manager
You need to install opset with the extras gcp
in order to use this feature.
Opset is able to fetch secrets from Google Cloud Secret Manager. You need to be authenticated using gcloud CLI or setting up a service account.
The config value should respect on of these formats
opset+gcp://projects/<my_project>/secrets/<my_secret>
opset+gcp://projects/<my_project>/secrets/<my_secret>/versions/<my_version>
Example
database:
host: opset+gcp://projects/dev-3423/secrets/db_host
It is also possible to create a file .opset.yml
in your project to create mapping for project name.
For instance, with the following config.
gcp_project_mapping:
dev: dev-3423
Opset will be able to map the project name like this.
opset+gcp://projects/dev/secrets/db_host -> opset+gcp://projects/dev-3423/secrets/db_host
Example Configuration file
local.yml
This file is typically defined by developers for their own development and local usage of the app. This file
may contain secrets and as such it must be added to the .gitignore
file.
Example Logging Configuration values
Opset also provides functionality for configuring the logging handlers for your project, this uses
structlog
in the background. This is provided through the aforementioned load_logging_config
function. If you
choose to use this functionality, you will need to add some more values to your configuration files, and you can find
an example of such values here:
logging:
date_format: "iso" # strftime-valid date format, e.g.: "%Y-%M-%d", or "iso" to use the standard ISO format
use_utc: True # Use UTC timezone if true, or local otherwise
min_level: DEBUG # Minimum level to display log for
colors: False # Use colors for log display, defaults to False
disable_processors: False # Disables log processors (additional info at the end of the log record)
logger_overrides: # overwrite min log level of third party loggers
googleapiclient: ERROR
json_format: False # Whether the logs should be formatted as json. Defaults to False.
Log Processors
Since we are using structlog
you can use the Processor feature to add additional info to your log records, this
can be useful to add a request ID, or the hostname of the machine to all your log records without having to pass
anything to your logging calls.
To use this simply define any processors you want by inheriting from the BaseProcessor
class of opset
and pass an instance to the load_logging_config
on your opset config call:
import logging
from flask import Flask
from opset import BaseProcessor, Config, OpsetSettingsMainModel, OpsetLoggingConfig, load_logging_config
from my_app.request_context import get_request_id
class MyConfig(OpsetSettingsMainModel):
host: str
port: int = 8080
logging: OpsetLoggingConfig
class RequestContextProcessor(BaseProcessor):
def __call__(self, logger, name, event_dict):
event_dict["request_id"] = get_request_id()
return event_dict
config = Config("my_app", MyConfig, "my_app.config", setup_logging=False).config # Defer the logging setup
load_logging_config(config.logging, custom_processors=[RequestContextProcessor()]) # Pass your custom processors
app = Flask(__name__)
@app.route("/")
def root():
logging.info("This will include the request ID!")
return "OK"
A processor receives the logger object, the logger name and most importantly the event_dict
which contains all the
info of the log record. So simply add to the event_dict
in your processor and return it.
In local development processors can add some unnecessary noise to the log output, so they can be disabled by setting
logging.disable_processors
to True
in your local.yml
.
By default, Opset enables the built-in HostNameProcessor
, which adds the machine hostname to log records.
It can be disabled by passing use_hostname_processor=False
in the load_logging_config
call.
Log Handlers
Since we are using python's logging
library, you can use custom log handlers to customize how and where the
information is logged when using the logger.
To use this simply define any log handlers you want by inheriting from the Handler
class of logging
and overwriting
the emit
method, and pass an instance to the load_logging_config
call:
import logging
from flask import Flask
from opset import Config, OpsetSettingsMainModel, OpsetLoggingConfig, load_logging_config
from logging import Handler
import json
class MyConfig(OpsetSettingsMainModel):
host: str
port: int = 8080
logging: OpsetLoggingConfig
class LocalFileHandler(Handler):
def __init__(self):
Handler.__init__(self)
def emit(self, record):
"""
Will log the record in the root log.json file
"""
with open("log.json", "w") as fp:
json.dump(record.msg, fp)
config = Config("my_app", MyConfig, "my_app.config", setup_logging=False).config # Defer the logging setup
load_logging_config(config.logging, custom_handlers=[LocalFileHandler()]) # Pass your custom handlers
app = Flask(__name__)
@app.route("/")
def root():
logging.info("Log me in a local file!")
return "OK"
The handler receives the record object, containing all the log information that was processed by the processors. The handler can chose what to do with that information, should it be to log it in a local file, send it to a blob storage, send it to an external tool (ex: Sentry)
Support for unit tests
Opset support unit testing to make sure you can handle the special cases that may come up in your application configuration during unit testing.
setup_unit_test_config
To setup your config for unit tests you will want to import your opset_config object and call setup_unit_test
on it.
This function takes a dictionary of all the configuration you want to overwrite. This call should happen only once in
your unit test setup.
mock_config
The mock_config
contextmanager on the opset config is used to temporarily overwrite your configuration. Like
setup_unit_test
you pass a dictionary of the configurations you want to overwrite.
Contributing and getting set up for local development
To set yourself up for development on Opset, make sure you are using poetry and simply run the following commands from the root directory:
make install
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