This repo contains a set of Python scripts that you can use to manage GoodData.CN and GoodData Cloud workspaces in a declarative way. Here is when you might want to use it:
- Version Control System (e.g. Git) integration for versioning, collaboration, CI/CD etc.
- Moving metadata between different environments (e.g. production, staging, development).
This project is built using GoodData Python SDK. Make sure you have Python 3.7 or newer on your machine.
In terminal, navigate to the root folder of this repository and run python -m pip install -r requirements.txt.
This will install all necessary dependencies for the CLI scripts that we are going to use.
This repository contains two scripts that you can run to sync between declarative definitions in the local files and GoodData.CN or GoodData Cloud server.
scripts/pull.pywill fetch all data sources, workspaces and user groups from GoodData server and store it in YAML files undergooddata_layouts.scripts/push.pywill load all YAML files fromgooddata_layoutsfolder and push them to your GoodData server instance.
Given you have GoodData.CN Docker image running at http://localhost:3000,
you can simply execute in your console:
python ./scripts/push.py`The script will push the metadata from gooddata_layouts folder to your GoodData.CN server. You should see newly created assets in your
browser if you navigate to http://localhost:3000.
Note, this is a destructive operation. Any data source configurations, workspaces or user groups that you might have on GoodData.CN will be deleted. Consider running a fresh GoodData.CN instance for this test.
We are using GoodData.CN built-in Postgres server with an example database for this setup. If you want to try this out with GoodData Cloud, you'll need to update the data source configuration to point to our Snowflake demo setup, as GoodData Cloud does not have a built-in Postgres server.
gooddata_layoutsfolder contains an example definitions that you can use as a starting point.scriptsfolder contains Python scripts to handle metadata sync betweengooddata_layoutsfolder and GoodData server..github/workflows/cd.yamlcontains an example CD pipeline that updates production server every time there is a new commit to master branch of this repository.
We are using environment variables to pass all necessary info to the Python scripts.
GD_HOST- A URL of your GoodData server instance, including protocol and port. For example,https://example.gooddata.comorhttp://localhost:300.GD_TOKEN- A Token to be used to authenticate with GoodData server. You can obtain the token from GoodData web UI.GD_CREDENTIALS- A path to the file with data source passwords and tokens. Read more about the file purpose and format below. Defaults tocredentials.${GD_ENV}.yaml.GD_ENV- Optional, an environment name to use for autoloading env variables. Defaults todevelopment. See description below.GD_TEST_DATA_SOURCES- Optional, defaults toTrue. A boolean variable that defines if we should test data sources connectivity from GoodData server before pushing the metadata.
While it's perfectly fine to fill the env variables every time you need to pull or push the metadata, it is much more convenient to store these variables into files, specially if you need to pull / push between different GoodData server instances.
Our Python scripts support loading variables from the .env files. By default, the script will check if there is a
.env.development file in the project root and if it's there - load the variables from file. You can create more of
such .env.* files (.env.production, .env.staging etc.) and switch between them by defining GD_ENV variable.
For example, if you have defined .env.development and .env.production and want to propagate changes from dev to prod
env, you could run the following commands:
python ./scripts/pull.py # "development" is the default GD_ENV
GD_ENV=production python ./scripts/push.py # explicitly select production envRefer to .env.development for an example.
We do not recommend putting your env files to version control system or otherwise share them publicly, as they may contain credentials, such as GoodData.CN API Token. We are including
.env.developmenthere as an example because it contains a well-known default GoodData.CN token.
GD_CREDENTIALS env variable contains a path to the file where your data source credentials are stored. You can either
provide the variable explicitly, or it will be derived from the GD_ENV as credentials.${GD_ENV}.yaml.
For example, if your environment is set to development, autogenerated GD_CREDENTIALS path would be credentials.development.yaml.
Contents of the credentials file look like this:
data_sources:
data_source_1: passwd
data_source_2: ./path/to/big_query/token.jsonEvery entry in the data_sources object consists of the data source id as a key and either a password or a path to the JSON token (for BigQuery database).
Since credential files contain sensitive data, make sure not to put the contents of the file to the version control system. Consider removing
!credentials.development.yamlline from.gitignoreonce you start using the setup with your own data sources.
You can find an example of the CI/CD pipeline in the .github/workflows/cd.yaml file.
The configuration is rather simple. Every time there a new commit to the master branch, GitHub Actions will execute
python ./scripts/push.py to push the new changes to the production server.
Using our configuration file as an example, you can set up any other pipeline (CircleCI, Bitbucket Pipelines, Jenkins etc.). Few steps to keep in mind:
- Configure your pipeline to be executed on every commit to the main branch.
- Make sure that the environment you're running in supports Python 3.7+ (e.g. by specifying the correct Docker image for your pipeline).
- Checkout repo on the master branch and navigate to the project root folder.
- Install Python dependencies by executing
python -m pip install -r requirements.txt. - Ensure environment variables are defined according to the docs above. Make sure to use best practices for storing credentials for your pipeline. For example, in GitHub we are using Secrets to store data source credentials.
- Execute
python ./scripts/push.pyto push new changes to the production server.
NOTE. Current setup will override any changes done on production server through our Web UI. If you want to allow some level of self-service to your users, you would need to define a more complex workflow. With some scripting, it should be relatively easy to verify if there are changes on server since last upload. Then, you can either notify a more technical user about the need to merge changes or even do that automatically to some extent.
- Make sure the environment is prepared according to the instruction above.
- Run
python ./scripts/pull.pycommand. Make sure you've selected the correct environment withGD_ENVvariable.
The script will create gooddata_layouts folder and populate it with corresponding YAML files. Next, you can commit the new definitions to you VCS.
By default, we only manage the user groups, but not users. That's because we expect you to have a different set of users on your dev, QA and production environment anyway. On top of that, storing user in VCS might not be the best idea, as this is the data that changes rather often in most cases.
However, if you only manage a handful of predefined users and have the same SSO provider on all your environments,
you can edit python scripts to sync users. For example, in pull.py you can add the following
line into main function after the line that loads user groups:
sdk.catalog_user.store_declarative_users(temp_path)And a similar snippet has to be added to push.py:
sdk.catalog_user.load_and_put_declarative_users(temp_path)This project is set up to manage all of your metadata at once. If you want to handle only a subset of your workspaces or have different data sources for different environments, you would have to edit Python scripts accordingly.
Refer to Python SDK documentation for more details.
Copyright 2022 GoodData Corporation. For more information, please see LICENSE.