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schemachange

schemachange

Looking for snowchange? You've found the right spot. snowchange has been renamed to schemachange.

pytest PyPI

Overview

schemachange is a simple python based tool to manage all of your Snowflake objects. It follows an Imperative-style approach to Database Change Management (DCM) and was inspired by the Flyway database migration tool. When combined with a version control system and a CI/CD tool, database changes can be approved and deployed through a pipeline using modern software delivery practices. As such schemachange plays a critical role in enabling Database (or Data) DevOps.

DCM tools (also known as Database Migration, Schema Change Management, or Schema Migration tools) follow one of two approaches: Declarative or Imperative. For a background on Database DevOps, including a discussion on the differences between the Declarative and Imperative approaches, please read the Embracing Agile Software Delivery and DevOps with Snowflake blog post.

For the complete list of changes made to schemachange check out the CHANGELOG.

To learn more about making a contribution to schemachange, please see our Contributing guide.

Please note that schemachange is a community-developed tool, not an official Snowflake offering. It comes with no support or warranty.

Table of Contents

  1. Overview
  2. Project Structure
    1. Folder Structure
  3. Change Scripts
    1. Versioned Script Naming
    2. Repeatable Script Naming
    3. Always Script Naming
    4. Script Requirements
    5. Using Variables in Scripts
      1. Secrets filtering
    6. Jinja templating engine
    7. Gotchas
  4. Change History Table
  5. Authentication
    1. Password Authentication
    2. External OAuth Authentication
    3. External Browser Authentication
    4. Okta Authentication
    5. Private Key Authentication
  6. Configuration
    1. YAML Config File
      1. Yaml Jinja support
    2. connections.toml File
  7. Commands
    1. deploy
    2. render
  8. Running schemachange
    1. Prerequisites
    2. Running the Script
  9. Integrating With DevOps
    1. Sample DevOps Process Flow
    2. Using in a CI/CD Pipeline
  10. Maintainers
  11. Third Party Packages
  12. Legal

Project Structure

Folder Structure

schemachange expects a directory structure like the following to exist:

(project_root)
|
|-- folder_1
    |-- V1.1.1__first_change.sql
    |-- V1.1.2__second_change.sql
    |-- R__sp_add_sales.sql
    |-- R__fn_get_timezone.sql
|-- folder_2
    |-- folder_3
        |-- V1.1.3__third_change.sql
        |-- R__fn_sort_ascii.sql

The schemachange folder structure is very flexible. The project_root folder is specified with the -f or --root-folder argument. schemachange only pays attention to the filenames, not the paths. Therefore, under the project_root folder you are free to arrange the change scripts any way you see fit. You can have as many subfolders (and nested subfolders) as you would like.

Change Scripts

Versioned Script Naming

Versioned change scripts follow a similar naming convention to that used by Flyway Versioned Migrations. The script name must follow this pattern (image taken from Flyway docs):

Flyway naming conventions

With the following rules for each part of the filename:

  • Prefix: The letter 'V' for versioned change
  • Version: A unique version number with dots or underscores separating as many number parts as you like
  • Separator: __ (two underscores)
  • Description: An arbitrary description with words separated by underscores or spaces (can not include two underscores)
  • Suffix: .sql or .sql.jinja

For example, a script name that follows this convention is: V1.1.1__first_change.sql. As with Flyway, the unique version string is very flexible. You just need to be consistent and always use the same convention, like 3 sets of numbers separated by periods. Here are a few valid version strings:

  • 1.1
  • 1_1
  • 1.2.3
  • 1_2_3

Every script within a database folder must have a unique version number. schemachange will check for duplicate version numbers and throw an error if it finds any. This helps to ensure that developers who are working in parallel don't accidentally (re-)use the same version number.

Repeatable Script Naming

Repeatable change scripts follow a similar naming convention to that used by Flyway Versioned Migrations. The script name must follow this pattern (image taken from Flyway docs:

Flyway naming conventions

e.g:

  • R__sp_add_sales.sql
  • R__fn_get_timezone.sql
  • R__fn_sort_ascii.sql

All repeatable change scripts are applied each time the utility is run, if there is a change in the file. Repeatable scripts could be used for maintaining code that always needs to be applied in its entirety. e.g. stores procedures, functions and view definitions etc.

Just like Flyway, within a single migration run, repeatable scripts are always applied after all pending versioned scripts have been executed. Repeatable scripts are applied in alphabetical order of their description.

Always Script Naming

Always change scripts are executed with every run of schemachange. This is an addition to the implementation of Flyway Versioned Migrations. The script name must follow this pattern:

A__Some_description.sql

e.g.

  • A__add_user.sql
  • A__assign_roles.sql

This type of change script is useful for an environment set up after cloning. Always scripts are applied always last.

Script Requirements

schemachange is designed to be very lightweight and not impose too many limitations. Each change script can have any number of SQL statements within it and must supply the necessary context, like database and schema names. The context can be supplied by using an explicit USE <DATABASE> command or by naming all objects with a three-part name (<database name>.<schema name>.<object name>). schemachange will simply run the contents of each script against the target Snowflake account, in the correct order. After each script, Schemachange will execute "reset" the context ( role, warehouse, database, schema) to the values used to configure the connector.

Using Variables in Scripts

schemachange supports the jinja engine for a variable replacement strategy. One important use of variables is to support multiple environments (dev, test, prod) in a single Snowflake account by dynamically changing the database name during deployment. To use a variable in a change script, use this syntax anywhere in the script: {{ variable1 }}.

To pass variables to schemachange, check out the Configuration section below. You can either use the --vars command line parameter or the YAML config file schemachange-config.yml. For the command line version you can pass variables like this: --vars '{"variable1": "value", "variable2": "value2"}'. This parameter accepts a flat JSON object formatted as a string.

Nested objects and arrays don't make sense at this point and aren't supported.

schemachange will replace any variable placeholders before running your change script code and will throw an error if it finds any variable placeholders that haven't been replaced.

Secrets filtering

While many CI/CD tools already have the capability to filter secrets, it is best that any tool also does not output secrets to the console or logs. Schemachange implements secrets filtering in a number of areas to ensure secrets are not writen to the console or logs. The only exception is the render command which will display secrets.

A secret is just a standard variable that has been tagged as a secret. This is determined using a naming convention and either of the following will tag a variable as a secret:

  1. The variable name has the word secret in it.
       config-version: 1
       vars:
          bucket_name: S3://......  # not a secret
          secret_key: 567576D8E  # a secret
  2. The variable is a child of a key named secrets.
       config-version: 1
       vars:
       secrets:
          my_key: 567576D8E # a secret
       aws:
          bucket_name: S3://......  # not a secret
          secrets:
             encryption_key: FGDSUUEHDHJK # a secret
             us_east_1:
                encryption_key: sdsdsd # a secret

Jinja templating engine

schemachange uses the Jinja templating engine internally and supports: expressions, macros, includes and template inheritance.

These files can be stored in the root-folder but schemachange also provides a separate modules folder --modules-folder. This allows common logic to be stored outside of the main changes scripts. The demo/citibike_demo_jinja has a simple example that demonstrates this.

The Jinja auto-escaping feature is disabled in schemachange, this feature in Jinja is currently designed for where the output language is HTML/XML. So if you are using schemachange with untrusted inputs you will need to handle this within your change scripts.

Gotchas

Within change scripts:

Change History Table

schemachange records all applied changes scripts to the change history table. By default, schemachange will attempt to log all activities to the METADATA.SCHEMACHANGE.CHANGE_HISTORY table. The name and location of the change history table can be overriden via a command line argument (-c or --change-history-table) or the schemachange-config.yml file ( change-history-table). The value passed to the parameter can have a one, two, or three part name (e.g. " TABLE_NAME", or "SCHEMA_NAME.TABLE_NAME", or " DATABASE_NAME.SCHEMA_NAME.TABLE_NAME"). This can be used to support multiple environments (dev, test, prod) or multiple subject areas within the same Snowflake account.

By default, schemachange will not try to create the change history table, and it will fail if the table does not exist. This behavior can be altered by passing in the --create-change-history-table argument or adding create-change-history-table: true to the schemachange-config.yml file. Even with the --create-change-history-table parameter, schemachange will not attempt to create the database for the change history table. That must be created before running schemachange.

The structure of the CHANGE_HISTORY table is as follows:

Column Name Type Example
VERSION VARCHAR 1.1.1
DESCRIPTION VARCHAR First change
SCRIPT VARCHAR V1.1.1__first_change.sql
SCRIPT_TYPE VARCHAR V
CHECKSUM VARCHAR 38e5ba03b1a6d2...
EXECUTION_TIME NUMBER 4
STATUS VARCHAR Success
INSTALLED_BY VARCHAR SNOWFLAKE_USER
INSTALLED_ON TIMESTAMP_LTZ 2020-03-17 12:54:33.056 -0700

A new row will be added to this table every time a change script has been applied to the database. schemachange will use this table to identify which changes have been applied to the database and will not apply the same version more than once.

Here is the current schema DDL for the change history table (found in the schemachange/cli.py script), in case you choose to create it manually and not use the --create-change-history-table parameter:

CREATE TABLE IF NOT EXISTS SCHEMACHANGE.CHANGE_HISTORY
(
    VERSION        VARCHAR,
    DESCRIPTION    VARCHAR,
    SCRIPT         VARCHAR,
    SCRIPT_TYPE    VARCHAR,
    CHECKSUM       VARCHAR,
    EXECUTION_TIME NUMBER,
    STATUS         VARCHAR,
    INSTALLED_BY   VARCHAR,
    INSTALLED_ON   TIMESTAMP_LTZ
)

Authentication

Schemachange supports the many of the authentication methods supported by the Snowflake Python Connector. The authenticator can be set by setting an authenticator in the connections.toml file

The following authenticators are supported:

If an authenticator is unsupported, an exception will be raised.

Password Authentication

Password authentication is the default authenticator. Supplying snowflake as your authenticator will set it explicitly. A password must be supplied in the connections.toml file

External OAuth Authentication

External OAuth authentication can be selected by supplying oauth as your authenticator. A token_file_path must be supplied in the connections.toml file

Schemachange no longer supports the --oauth-config option. Prior to the 4.0 release, this library supported supplying an --oauth-config that would be used to fetch an OAuth token via the requests library. This required Schemachange to keep track of connection arguments that could otherwise be passed directly to the Snowflake Python connector. Maintaining this logic in Schemachange added unnecessary complication to the repo and prevented access to recent connector parameterization features offered by the Snowflake connector.

External Browser Authentication

External browser authentication can be selected by supplying externalbrowser as your authenticator. The client will be prompted to authenticate in a browser that pops up. Refer to the documentation to cache the token to minimize the number of times the browser pops up to authenticate the user.

Okta Authentication

External browser authentication can be selected by supplying your Okta endpoint as your authenticator (e.g. https://<org_name>.okta.com). For clients that do not have a browser, can use the popular SaaS Idp option to connect via Okta. A password must be supplied in the connections.toml file

** NOTE**: Please disable Okta MFA for the user who uses Native SSO authentication with client drivers. Please consult your Okta administrator for more information.

Private Key Authentication

External browser authentication can be selected by supplying snowflake_jwt as your authenticator. The filepath to a Snowflake user-encrypted private key must be supplied as private-key in the connections.toml file. If the private key file is password protected, supply the password as private_key_file_pwd in the connections.toml file. If the variable is not set, the Snowflake Python connector will assume the private key is not encrypted.

Configuration

As of version 4.0, Snowflake connection parameters must be supplied via a connections.toml file. Command-line and yaml arguments will still be supported with a deprecation warning until support is completely dropped.

Schemachange-specific parameters can be supplied in two different ways (in order of priority):

  1. Command Line Arguments
  2. YAML config file

Note: As of 4.0, vars provided via command-line argument will be merged with vars provided via YAML config. Previously, one overwrote the other completely

Please see Usage Notes for the account Parameter (for the connect Method) for more details on how to structure the account name.

connections.toml File

A `connections.toml filepath can be supplied in the following ways (in order of priority):

  1. The --connections-file-path command-line argument
  2. The connections-file-path YAML value

A connection name can be supplied in the following ways (in order of priority):

  1. The SNOWFLAKE_DEFAULT_CONNECTION_NAME environment variable
  2. The --connection-name command-line argument
  3. The connection-name YAML value

YAML Config File

By default, Schemachange expects the YAML config file to be named schemachange-config.yml, located in the current working directory. The YAML file name can be overridden with the --config-file-name command-line argument. The folder can be overridden by using the --config-folder command-line argument

Here is the list of available configurations in the schemachange-config.yml file:

config-version: 1

# The root folder for the database change scripts
root-folder: '/path/to/folder'

# The modules folder for jinja macros and templates to be used across multiple scripts.
modules-folder: null

# Override the default connections.toml file path at snowflake.connector.constants.CONNECTIONS_FILE (OS specific)
connections-file-path: null

# Override the default connections.toml connection name. Other connection-related values will override these connection values.
connection-name: null

# Used to override the default name of the change history table (the default is METADATA.SCHEMACHANGE.CHANGE_HISTORY)
change-history-table: null

# Define values for the variables to replaced in change scripts. vars supplied via the command line will be merged into YAML-supplied vars
vars:
  var1: 'value1'
  var2: 'value2'
  secrets:
    var3: 'value3' # This is considered a secret and will not be displayed in any output

# Create the change history schema and table, if they do not exist (the default is False)
create-change-history-table: false

# Enable autocommit feature for DML commands (the default is False)
autocommit: false

# Display verbose debugging details during execution (the default is False)
verbose: false

# Run schemachange in dry run mode (the default is False)
dry-run: false

# A string to include in the QUERY_TAG that is attached to every SQL statement executed
query-tag: 'QUERY_TAG'

Yaml Jinja support

The YAML config file supports the jinja templating language and has a custom function "env_var" to access environmental variables. Jinja variables are unavailable and not yet loaded since they are supplied by the YAML file. Customisation of the YAML file can only happen through values passed via environment variables.

env_var

Provides access to environmental variables. The function can be used two different ways.

Return the value of the environmental variable if it exists, otherwise return the default value.

{{ env_var('<environmental_variable>', 'default') }}

Return the value of the environmental variable if it exists, otherwise raise an error.

{{ env_var('<environmental_variable>') }}

Commands

Schemachange supports a few subcommands. If the subcommand is not provided it defaults to deploy. This behaviour keeps compatibility with versions prior to 3.2.

deploy

This is the main command that runs the deployment process.

usage: schemachange deploy [-h] [--config-folder CONFIG_FOLDER] [--config-file-name CONFIG_FILE_NAME] [-f ROOT_FOLDER] [-m MODULES_FOLDER] [--connections-file-path CONNECTIONS_FILE_PATH] [--connection-name CONNECTION_NAME] [-c CHANGE_HISTORY_TABLE] [--vars VARS] [--create-change-history-table] [-ac] [-v] [--dry-run] [--query-tag QUERY_TAG]
Parameter Description
-h, --help Show the help message and exit
--config-folder CONFIG_FOLDER The folder to look in for the schemachange config file (the default is the current working directory)
--config-file-name CONFIG_FILE_NAME The file name of the schemachange config file. (the default is schemachange-config.yml)
-f ROOT_FOLDER, --root-folder ROOT_FOLDER The root folder for the database change scripts. The default is the current directory.
-m MODULES_FOLDER, --modules-folder MODULES_FOLDER The modules folder for jinja macros and templates to be used across mutliple scripts
--connections-file-path CONNECTIONS_FILE_PATH Override the default connections.toml file path at snowflake.connector.constants.CONNECTIONS_FILE (OS specific)
--connection-name CONNECTION_NAME Override the default connections.toml connection name. Other connection-related values will override these connection values.
-c CHANGE_HISTORY_TABLE, --change-history-table CHANGE_HISTORY_TABLE Used to override the default name of the change history table (which is METADATA.SCHEMACHANGE.CHANGE_HISTORY)
--vars VARS Define values for the variables to replaced in change scripts, given in JSON format. Vars supplied via the command line will be merged with YAML-supplied vars (e.g. '{"variable1": "value1", "variable2": "value2"}')
--create-change-history-table Create the change history table if it does not exist. The default is 'False'.
-ac, --autocommit Enable autocommit feature for DML commands. The default is 'False'.
-v, --verbose Display verbose debugging details during execution. The default is 'False'.
--dry-run Run schemachange in dry run mode. The default is 'False'.
--query-tag A string to include in the QUERY_TAG that is attached to every SQL statement executed.

render

This subcommand is used to render a single script to the console. It is intended to support the development and troubleshooting of script that use features from the jinja template engine.

usage: schemachange render [-h] [--config-folder CONFIG_FOLDER] [-f ROOT_FOLDER] [-m MODULES_FOLDER] [--vars VARS] [-v] script

Parameter Description
--config-folder CONFIG_FOLDER The folder to look in for the schemachange-config.yml file (the default is the current working directory)
-f ROOT_FOLDER, --root-folder ROOT_FOLDER The root folder for the database change scripts
-m MODULES_FOLDER, --modules-folder MODULES_FOLDER The modules folder for jinja macros and templates to be used across multiple scripts
--vars VARS Define values for the variables to replaced in change scripts, given in JSON format (e.g. {"variable1": "value1", "variable2": "value2"})
-v, --verbose Display verbose debugging details during execution (the default is False)

Running schemachange

Prerequisites

In order to run schemachange you must have the following:

  • You will need to have a recent version of python 3 installed
  • You will need to have the latest Snowflake Python driver installed
  • You will need to create the change history table used by schemachange in Snowflake ( see Change History Table above for more details)
    • First, you will need to create a database to store your change history table (schemachange will not help you with this). For your convenience, initialize.sql file has been provided to get you started. Feel free to align the script to your organizations RBAC implementation. The setup_schemachange_schema.sql file is provided to set up the target schema that will host the change history table for each of the demo projects in this repo. Use it as a means to test the required permissions and connectivity in your local setup.
    • Second, you will need to create the change history schema and table. You can do this manually ( see Change History Table above for the DDL) or have schemachange create them by running it with the --create-change-history-table parameter (just make sure the Snowflake user you're running schemachange with has privileges to create a schema and table in that database)
  • You will need to create (or choose) a user account that has privileges to apply the changes in your change script
    • Don't forget that this user also needs the SELECT and INSERT privileges on the change history table

Running the Script

schemachange is a single python script located at schemachange/cli.py. It can be executed as follows:

python schemachange/cli.py [-h] [--config-folder CONFIG_FOLDER] [-f ROOT_FOLDER] [-c CHANGE_HISTORY_TABLE] [--vars VARS] [--create-change-history-table] [-ac] [-v] [--dry-run] [--query-tag QUERY_TAG] [--connections-file-path] [--connection-name]

Or if installed via pip, it can be executed as follows:

schemachange [-h] [--config-folder CONFIG_FOLDER] [-f ROOT_FOLDER] [-c CHANGE_HISTORY_TABLE] [--vars VARS] [--create-change-history-table] [-ac] [-v] [--dry-run] [--query-tag QUERY_TAG] [--connections-file-path] [--connection-name]

The demo folder in this project repository contains three schemachange demo projects for you to try out. These demos showcase the basics and a couple of advanced examples based on the standard Snowflake Citibike demo which can be found in the Snowflake Hands-on Lab. Check out each demo listed below

  • Basics Demo: Used to test the basic schemachange functionality.
  • Citibike Demo: Used to show a simple example of building a database and loading data using schemachange.
  • Citibike Jinja Demo: Extends the citibike demo to showcase the use of macros and jinja templating.

The Citibike data for this demo comes from the NYC Citi Bike bike share program.

To get started with schemachange and these demo scripts follow these steps:

  1. Make sure you've completed the Prerequisites steps above
  2. Get a copy of this schemachange repository (either via a clone or download)
  3. Open a shell and change directory to your copy of the schemachange repository
  4. Run schemachange (see Running the Script above) with your Snowflake account details and respective demo project as the root folder (make sure you use the full path)

Integrating With DevOps

Sample DevOps Process Flow

Here is a sample DevOps development lifecycle with schemachange:

schemachange DevOps process

Using in a CI/CD Pipeline

If your build agent has a recent version of python 3 installed, the script can be run like so:

pip install schemachange --upgrade
schemachange [-h] [-f ROOT_FOLDER] [-c CHANGE_HISTORY_TABLE] [--vars VARS] [--create-change-history-table] [-ac] [-v] [--dry-run] [--query-tag QUERY_TAG] [--connections-file-path] [--connection-name]

Or if you prefer docker, run like so:

docker run -it --rm \
  --name schemachange-script \
  -v "$PWD":/usr/src/schemachange \
  -w /usr/src/schemachange \
  -e ROOT_FOLDER \
  -e $CONNECTION_NAME \
  python:3 /bin/bash -c "pip install schemachange --upgrade && schemachange -f $ROOT_FOLDER --connections-file-path connections.toml --connection-name $CONNECTION_NAME"

Either way, don't forget to configure a connections.toml file for connection parameters

Maintainers

  • James Weakley (@jamesweakley)
  • Jeremiah Hansen (@jeremiahhansen)

This is a community-developed tool, not an official Snowflake offering. It comes with no support or warranty. However, feel free to raise a GitHub issue if you find a bug or would like a new feature.

Third Party Packages

The current functionality in schemachange would not be possible without the following third party packages and all those that maintain and have contributed.

Name License Author URL
Jinja2 BSD License Armin Ronacher https://palletsprojects.com/p/jinja/
PyYAML MIT License Kirill Simonov https://pyyaml.org/
pandas BSD License The Pandas Development Team https://pandas.pydata.org
pytest MIT License Holger Krekel, Bruno Oliveira, Ronny Pfannschmidt, Floris Bruynooghe, Brianna Laugher, Florian Bruhin and others https://docs.pytest.org/en/latest/
snowflake-connector-python Apache Software License Snowflake, Inc https://www.snowflake.com/

Legal

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this tool except in compliance with the License. You may obtain a copy of the License at: http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an " AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.