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Developing on Metadata Ingestion

If you just want to use metadata ingestion, check the user-centric guide. This document is for developers who want to develop and possibly contribute to the metadata ingestion framework.

Also take a look at the guide to adding a source.

Getting Started

Requirements

  1. Python 3.7+ must be installed in your host environment.
  2. Java8 (gradle won't work with newer versions)
  3. On MacOS: brew install librdkafka
  4. On Debian/Ubuntu: sudo apt install librdkafka-dev python3-dev python3-venv
  5. On Fedora (if using LDAP source integration): sudo yum install openldap-devel

Set up your Python environment

From the repository root:

cd metadata-ingestion
../gradlew :metadata-ingestion:installDev
source venv/bin/activate
datahub version # should print "DataHub CLI version: unavailable (installed in develop mode)"

Common setup issues

Common issues (click to expand):

datahub command not found with PyPI install

If you've already run the pip install, but running datahub in your command line doesn't work, then there is likely an issue with your PATH setup and Python.

The easiest way to circumvent this is to install and run via Python, and use python3 -m datahub in place of datahub.

python3 -m pip install --upgrade acryl-datahub
python3 -m datahub --help
Wheel issues e.g. "Failed building wheel for avro-python3" or "error: invalid command 'bdist_wheel'"

This means Python's wheel is not installed. Try running the following commands and then retry.

pip install --upgrade pip wheel setuptools
pip cache purge
Failure to install confluent_kafka: "error: command 'x86_64-linux-gnu-gcc' failed with exit status 1"

This sometimes happens if there's a version mismatch between the Kafka's C library and the Python wrapper library. Try running pip install confluent_kafka==1.5.0 and then retrying.

Using Plugins in Development

The syntax for installing plugins is slightly different in development. For example:

- pip install 'acryl-datahub[bigquery,datahub-rest]'
+ pip install -e '.[bigquery,datahub-rest]'

Architecture

metadata ingestion framework layout

The architecture of this metadata ingestion framework is heavily inspired by Apache Gobblin (also originally a LinkedIn project!). We have a standardized format - the MetadataChangeEvent - and sources and sinks which respectively produce and consume these objects. The sources pull metadata from a variety of data systems, while the sinks are primarily for moving this metadata into DataHub.

Code layout

  • The CLI interface is defined in entrypoints.py and in the cli directory.
  • The high level interfaces are defined in the API directory.
  • The actual sources and sinks have their own directories. The registry files in those directories import the implementations.
  • The metadata models are created using code generation, and eventually live in the ./src/datahub/metadata directory. However, these files are not checked in and instead are generated at build time. See the codegen script for details.
  • Tests live in the tests directory. They're split between smaller unit tests and larger integration tests.

Code style

We use black, isort, flake8, and mypy to ensure consistent code style and quality.

# Assumes: pip install -e '.[dev]' and venv is activated
black src/ tests/
isort src/ tests/
flake8 src/ tests/
mypy src/ tests/

or you can run from root of the repository

./gradlew :metadata-ingestion:lintFix

Some other notes:

  • Prefer mixin classes over tall inheritance hierarchies.
  • Write type annotations wherever possible.
  • Use typing.Protocol to make implicit interfaces explicit.
  • If you ever find yourself copying and pasting large chunks of code, there's probably a better way to do it.
  • Prefer a standalone helper method over a @staticmethod.
  • You probably should not be defining a __hash__ method yourself. Using @dataclass(frozen=True) is a good way to get a hashable class.
  • Avoid global state. In sources, this includes instance variables that effectively function as "global" state for the source.
  • Avoid defining functions within other functions. This makes it harder to read and test the code.
  • When interacting with external APIs, parse the responses into a dataclass rather than operating directly on the response object.

Dependency Management

The vast majority of our dependencies are not required by the "core" package but instead can be optionally installed using Python "extras". This allows us to keep the core package lightweight. We should be deliberate about adding new dependencies to the core framework.

Where possible, we should avoid pinning version dependencies. The acryl-datahub package is frequently used as a library and hence installed alongside other tools. If you need to restrict the version of a dependency, use a range like >=1.2.3,<2.0.0 or a negative constraint like >=1.2.3, !=1.2.7 instead. Every upper bound and negative constraint should be accompanied by a comment explaining why it's necessary.

Caveat: Some packages like Great Expectations and Airflow frequently make breaking changes. For such packages, it's ok to add a "defensive" upper bound with the current latest version, accompanied by a comment. It's critical that we revisit these upper bounds at least once a month and broaden them if possible.

Guidelines for Ingestion Configs

We use pydantic to define the ingestion configs. In order to ensure that the configs are consistent and easy to use, we have a few guidelines:

Naming

  • Most important point: we should match the terminology of the source system. For example, snowflake shouldn’t have a host_port, it should have an account_id.
  • We should prefer slightly more verbose names when the alternative isn’t descriptive enough. For example client_id or tenant_id over a bare id and access_secret over a bare secret.
  • AllowDenyPatterns should be used whenever we need to filter a list. The pattern should always apply to the fully qualified name of the entity. These configs should be named *_pattern, for example table_pattern.
  • Avoid *_only configs like profile_table_level_only in favor of profile_table_level and profile_column_level. include_tables and include_views are a good example.

Content

  • All configs should have a description.
  • When using inheritance or mixin classes, make sure that the fields and documentation is applicable in the base class. The bigquery_temp_table_schema field definitely shouldn’t be showing up in every single source’s profiling config!
  • Set reasonable defaults!
    • The configs should not contain a default that you’d reasonably expect to be built in. As a bad example, the Postgres source’s schema_pattern has a default deny pattern containing information_schema. This means that if the user overrides the schema_pattern, they’ll need to manually add the information_schema to their deny patterns. This is a bad, and the filtering should’ve been handled automatically by the source’s implementation, not added at runtime by its config.

Coding

  • Use a single pydantic validator per thing to validate - we shouldn’t have validation methods that are 50 lines long.
  • Use SecretStr for passwords, auth tokens, etc.
  • When doing simple field renames, use the pydantic_renamed_field helper.
  • When doing field deprecations, use the pydantic_removed_field helper.
  • Validator methods must only throw ValueError, TypeError, or AssertionError. Do not throw ConfigurationError from validators.
  • Set hidden_from_docs for internal-only config flags. However, needing this often indicates a larger problem with the code structure. The hidden field should probably be a class attribute or an instance variable on the corresponding source.

Testing

# Follow standard install from source procedure - see above.

# Install, including all dev requirements.
pip install -e '.[dev]'

# For running integration tests, you can use
pip install -e '.[integration-tests]'

# Run the full testing suite
pytest -vv

# Run unit tests.
pytest -m 'not integration and not slow_integration'

# Run Docker-based integration tests.
pytest -m 'integration'

# Run Docker-based slow integration tests.
pytest -m 'slow_integration'

# You can also run these steps via the gradle build:
../gradlew :metadata-ingestion:lint
../gradlew :metadata-ingestion:lintFix
../gradlew :metadata-ingestion:testQuick
../gradlew :metadata-ingestion:testFull
../gradlew :metadata-ingestion:check
# Run all tests in a single file
../gradlew :metadata-ingestion:testSingle -PtestFile=tests/unit/test_airflow.py
# Run all tests under tests/unit
../gradlew :metadata-ingestion:testSingle -PtestFile=tests/unit

Updating golden test files

If you made some changes that require generating new "golden" data files for use in testing a specific ingestion source, you can run the following to re-generate them:

pytest tests/integration/<source>/<source>.py --update-golden-files

For example,

pytest tests/integration/dbt/test_dbt.py --update-golden-files