Skip to main content

A simple migration utility for Fauna DB.

Project description

Fluctuate

coverage report Latest Release

Fluctuate is a simple migration utility for Fauna DB written in Python. It doesn't aim to be as full featured as something like fauna-schema-migrate, but aims to provide a foundation to set up your Fauna dabatases as code.

Table of contents

[[TOC]]

Installation

Install with the usual Python package manager. Here's an example with pip:

pip install fluctuate

Ensure it installed correctly by running:

fluctuate --version

If you would like to use the AWS SecretsManager integration for retrieval of the fauna secret key, you will need to install the aws_secrets_manager extra. Here's an example with pip:

pip install fluctuate[aws_secrets_manager]

Creating migrations

Fluctuate will automatically search for migrations when invoked. It looks for a Python module named "fluctuate_migrations" that has a module level attribute called "migrations" somewhere on or under the current working directory.

To define your projects migrations, create a file named fluctuate_migrations.py in a subfolder of your project along with an __init__.py within that subfolder. Within fluctuate_migrations.py you need to create a tuple or list of Migrations named "migrations" that defines your migrations. An example from our test suite is below:

# fluctuate_migrations.py
from fauna import fql
from faunadb import query

from fluctuate.migrations import Migration

migrations = (
    Migration(
        name="test_migration_1",
        namespace="cli_test",
        migration=query.create_collection(
            {"name": "test_collection_1", "history_days": 0}
        ),
        reverse_migration=query.delete(query.collection("test_collection_1")),
    ),
    Migration(
        name="test_migration_2",
        namespace="cli_test",
        migration=query.create_collection(
            {"name": "test_collection_2", "history_days": 0}
        ),
        reverse_migration=query.delete(query.collection("test_collection_2")),
    ),
    Migration(
        name="test_migration_3",
        namespace="cli_test",
        migration=query.create_database({"name": "test_database_1"}),
        reverse_migration=query.delete(query.database("test_database_1")),
    ),
    Migration(
        name="test_migration_4",
        namespace="cli_test",
        migration=fql(
            """
            Collection.create({name: "test_collection_3", history_days: 0})
            """
        ),
        reverse_migration=fql('Collection.byName("test_collection_3").delete()'),
        child_database="test_database_1",
    ),
    Migration(
        name="test_migration_5",
        namespace="cli_test",
        migration=fql('Database.create({name: "test_database_2"})'),
        reverse_migration=fql('Database.byName("test_database_2").delete()'),
        child_database="test_database_1",
    ),
    Migration(
        name="test_migration_6",
        namespace="cli_test",
        migration=query.create_collection(
            {"name": "test_collection_4", "history_days": 0}
        ),
        reverse_migration=query.delete(query.collection("test_collection_4")),
        child_database="test_database_1/test_database_2",
    ),
    Migration(
        name="test_migration_7",
        namespace="cli_test",
        migration=query.create_index(
            {
                "name": "test_collection_4_index",
                "source": query.select(
                    "ref", query.get(query.collection("test_collection_4"))
                ),
                "terms": [{"field": ["data", "name"]}],
                "unique": True,
            }
        ),
        reverse_migration=query.delete(query.index("test_collection_4_index")),
        child_database="test_database_1/test_database_2",
    ),
    Migration(
        name="test_migration_8",
        namespace="cli_test",
        migration=fql(
            """
            Collection.create(
                {
                    name: "test_collection_5",
                    history_days: 0,
                    indexes: {by_name: {terms: [{field: "name"}]}},
                    constraints: [{unique: ["name"]}]
                }
            )
            """
        ),
        reverse_migration=fql('Collection.byName("test_collection_5").delete()'),
        child_database="test_database_1/test_database_2",
    ),
)

Let's walk through this example. First a bit about migrations. Each Migration has 5 fields, the first 4 of which are required:

  1. name: This is the migration name, and needs to be unique within the migration's namespace
  2. namespace: This is the namespace under which the migration resides. You should uniquely namespace your application's migrations so as not to clash with any other application's migrations that may also be applied to your database.
  3. migration: This is the FQLv4 or FQLv10 query used to create your schema documents, be it collections, indexes, UDFs, or otherwise.
  4. reverse_migration: This is the FQLv4 or FQLv10 query that will be used to undo whatever the FQL in the migration did, so it should be the opposite operation.
  5. (OPTIONAL) child_database: This defines the child database to which this migration should be applied. Fluctuate will attempt to log into this database and apply the migrations there. Nested child databases should be specified in the same format used for scoped keys. If no child database is defined, the migrations apply to the database the current key in use provides access to.

In the example above, there are a total of 8 migrations to be preformed. The first 3 migrations apply to the top level database, which is the database the key used to run the migration has access to. Then the next 2 migrations are applied to "test_database_1" which is created by migration number 3. Finally, the last 3 migrations are applied to "test_database_2" which is nested under "test_database_1" and was created in the 5th migration.

In this example we applied each schema document in a separate migration, but as the migration field can be any arbitrary FQL, all schema documents could be created in one migration. This tool does not impose an opinion on how to lay out your migrations. Both FQLv4 and FQLv10 migrations are supported and can be used interchangeably.

Each migration is applied in a single transaction to write both the migration and the record that keeps track of the applied migrations. If the migration is written in FQLv4, a FQLv4 client will be used to apply it. If the migration is written in FQLv10, a FQLv10 client will be used to apply it. You need to be aware of the caveats of schema documents when referring to them within the same migration. There is also the constraint of not being able to use any schema documents created within the same transaction. This constraint is present in both FQLv4 and FQLv10.

Applying migrations

The fluctuate migrate command is used to apply all unapplied migrations. As migrations are applied to your databases, their application is recorded in a separate collection. This is referred to when applying migrations to ensure the same migration is not applied twice. Migrations are applied in the order they are defined in the migrations tuple or list.

Each migration, and the recording of the application of that migration, are applied in a single transaction. If a migration fails, the transaction rolls back and no changes from that migration will be applied. Any migrations that were already successfully applied will remain applied. A unique constraint ensures that the same migration in the same namespace can only be applied once.

This tool will attempt to create a collection named "fluctuate_migrations" and an index named "fluctuate_migrations_unique_name_and_namespace" on all databases this is used on. If a collection and/or index with these names already exist, running this tool will fail.

Unapplying migrations

The fluctuate unmigrate command is used to unapply migrations. This is a destructive operation so it should be run with care. A target migration to unapply up to can be provided, otherwise all applied migrations will be unapplied. Migrations are unapplied in the reverse order from how they are defined in the migrations tuple or list.

Using the example above, if the following is run:

fluctuate unmigrate --key some_key --target test_cli.test_migration_5

Then the reverse_migrations for test_cli.test_migration_8, test_cli.test_migration_7, and test_cli.test_migration_6 are run, removing test_collection_5, the test_collection_4_index, and test_collection_4 from test_database_2. Then the reverse migration for test_cli.test_migration_5 is run deleting test_database_2 from test_database_1.

Unapplying a migration, and the recording of unapplying that migration, is done in a single transaction. If a reverse migration fails, the transaction rolls back and no changes from that migration will be reversed. Any migrations that were already successfully unapplied will remain unapplied.

Specifying Fauna DB credentials

Both commands above require access to a FaunaDB database in order to operate. A key can be specified directly when invoking the command using --key or the key can be fetched from AWS SecretsManager by specifying --secret-arn with the ARN of the secret to read. Usage of --secret-arn requires installation of the aws_secrets_manager extra and configuration of AWS credentials. See the command help message for more details.

Both of these arguments can be specified with the environment variables FLUCTUATE_KEY and FLUCTUATE_SECRET_ARN, respectively.

Fluctuate supports the usage of scoped keys as credentials, but the scoped key must have sufficient access to perform the migration operations or migrating will fail.

When applying migrations to a child database, Fluctuate creates a scoped key from the key provided to the command. By default this scoped key uses the admin role. However, if the key provided to the command is itself a scoped key, the role of that scoped key will be used instead.

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

fluctuate-4.0.0.tar.gz (16.7 kB view details)

Uploaded Source

Built Distribution

fluctuate-4.0.0-py3-none-any.whl (15.4 kB view details)

Uploaded Python 3

File details

Details for the file fluctuate-4.0.0.tar.gz.

File metadata

  • Download URL: fluctuate-4.0.0.tar.gz
  • Upload date:
  • Size: 16.7 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: poetry/1.8.3 CPython/3.11.2 Linux/5.15.154+

File hashes

Hashes for fluctuate-4.0.0.tar.gz
Algorithm Hash digest
SHA256 c9e019f841e64d98d081040a7ac881f262500d397d4305b7443bb3ecb732a847
MD5 1e02c3285f9d436326acebcfa04eb599
BLAKE2b-256 eb5a33bbcdf3a36039ece91deb58603a7610b47b35e53995a70bfd508eb33a7b

See more details on using hashes here.

File details

Details for the file fluctuate-4.0.0-py3-none-any.whl.

File metadata

  • Download URL: fluctuate-4.0.0-py3-none-any.whl
  • Upload date:
  • Size: 15.4 kB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? No
  • Uploaded via: poetry/1.8.3 CPython/3.11.2 Linux/5.15.154+

File hashes

Hashes for fluctuate-4.0.0-py3-none-any.whl
Algorithm Hash digest
SHA256 23b82db7a21ae957b8bae08173aca1508452c55997c5fc1b76aa20c37f9fa570
MD5 70c120c83965f03e65c680daf98146ee
BLAKE2b-256 edd0a4546c5ac7d1a52b0deca6d1f7871ba7a8814ebd58798a56084e02470af8

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page