Cassalog is a schema change management library and tool for Apache Cassandra that can be used with applications running on the JVM.
Just as application code evolves and changes so do database schemas. If you are building an application and intend to support upgrading from one version to another, then managing schema changes is essential. If you are lucky, you might be able to get by with running some simple upgrade scripts to bring the schema up to date with the new version. This likely will not work however if you support multiple upgrade paths. For example, suppose we have versions 1 and 2, and are introducing version 3 of an application. We want to allow upgrading to version 3 from either 1 or 2 in addition to upgrading from 1 to 2.
You could add schema upgrade logic to application code, but that is often a less that ideal solution as it convolutes the code base. Fortunately, there are tool for managing schema changes like Liquibase, Flyway, and Active Record for Ruby on Rails applications. These tools however, are designed specifically for relational databases. I previously spent time trying to patch Liquibase to support Cassandra but found that it was not a good fit. Cassalog is designed solely for use with Cassandra, not for any other database systems.
Cassalog is written in Groovy. There are several reasons for this. First, Groovy offers great interoperability with Java, making it usable and accessible to application running on the JVM. Groovy’s dynamic and meta programming features make it easy to write domain specific languages. Groovy has multi-line strings and string interpolation out of the box, both of which can be really useful for writing schema change scripts. Lastly, with Cassalog schema changes are not written in XML or JSON. Instead they are written as Groovy scripts giving you the full power and flexibility of Groovy.
The Cassalog class is the primary class with which you will interact.
// Groovy
def script = // load schema change script
def session = // obtain DataStax driver Session object
def cassalog = new Cassalog(session: session)
cassalog.execute(script)// Java
URI script = // load schema change script
Session session = // obtain DataStax driver Session object
Cassalog cassalog = new Cassalog();
cassalog.setSession(session);
cassalog.execute(script);And here is what a cassalog script might look like,
createKeyspace {
version '0.1'
name 'my_keyspace'
author 'admin'
description 'Set up a keyspace for unit tests'
}
schemaChange {
version '0.1.1'
author 'admin'
description 'Create table for storing time series data'
cql """
CREATE TABLE metrics (
id uuid,
time timeuuid,
value double,
PRIMARY KEY (id, time)
)
"""
}|
Tip
|
Schema changes are applied in the order that they are declared in the script(s) regardless of the assigned versions. |
-
Tagging
-
Execute arbitrary Groovy / Java code in schema change scripts
-
Pass variables to scripts
-
Changes can stored across multiple scripts
-
Schema change detection
You can specify tags when running Cassalog, e.g.
// Groovy
def script = // load schema change script
def session = // obtain DataStax driver Session object
def cassalog = new Cassalog(session: session)
cassalog.execute(script, ['dev', 'test_data'])// Java
URI script = // load schema change script
Session session = // obtain DataStax driver Session object
Cassalog cassalog = new Cassalog();
cassalog.setSession(session);
cassalog.execute(script, Collections.asList("dev", "test_data"));Cassalog will apply schema changes that have not already been run and that
-
Dot not specify any tags or
-
Specify tags and include the
devandtest_datatags
Cassandra is frequently used for time series data. Suppose we have a metrics table, and we want to generate some sample data for tests.
schemaChange {
version '1.0'
cql """
CREATE TABLE metrics (
id text PRIMARY KEY,
time timestamp,
value double
)
"""
}
testData = []
random = new Random
10.times { i ->
testData << "INSERT INTO metrics (id, time, value) VALUES ('$i', ${new Date().time + 100}, ${random.nextDouble()})"
}
schemaChange {
version '1.0.1'
tags 'test_data'
cql testData
}This script first calls the schemaChange function to create the metrics table.
The next few lines generate a list of INSERT statements with some test data.
Finally, we have another call to schemaChange. It specifies the test_data
tag and passes the testData list to the cql parameter.
You can pass arbitrary variables to scripts, not just strings.
// Groovy
def vars = [
metricIds: ['M1', 'M2', 'M3'],
startDate: new Date()
maxValue: 100,
minValue: 50
]
cassalog.execute(script, vars)// Java
Map<String, ?> vars = ImmutableMap.of(
"metricIds", asList("M1", "M2", "M3"),
"startDate", new Date(),
"maxValue", 100,
"minValue", 50
);
cassalog.execute(script, vars);You can use the include function to store changes in multiple script to
keep your schema changes more modular and better organized.
include '/dbchanges/base_tables.groovy'
include '/dbchanges/seed_data.groovy'The include function currently takes a single string argument that should
specify the absolute path of a script on the classpath or from the configured baseScriptsPath.
baseScriptsPath is an absolute path to where the other include scripts are located e.g. /Users/john/cassalog/scripts.
Cassalog does not store the CQL code associated with each schema change. It computes a hash of the CQL and stores that instead. If the hash in the change log differs from the hash of the CQL in the source script, Cassalog will throw a ChangeSetAlteredException.
You will need to manually resolve the issue that caused the ChangeSetAlteredException. Cassandra does not support transactions like a relational database, so there no rollback functionality to fall back on.
All schema changes are recorded in the change log table, cassalog. The table will be created the first time Cassalog is run. Change log data looks like,
bucket | revision | applied_at | author | description | hash | version | tags
--------+----------+--------------------------+--------+-----------------------------------------------------+
0 | 0 | 2016-01-28 11:09:54-0500 | admin | First table | 0xe361957eeb | 1.0 | {'legacy'}
0 | 1 | 2016-01-28 11:09:54-0500 | admin | Second table | 0xf336e725d4 | 1.1 | {'legacy'}
0 | 2 | 2016-01-28 11:09:55-0500 | admin | Third table | 0xcecef5f840 | 1.2 | {'legacy', 'dev'}
0 | 3 | 2016-01-28 11:09:55-0500 | admin | Fourth table | 0x4b5d24b77c | 1.3 | {'legacy'}
Here is a brief overview of the schema.
CREATE TABLE cassalog (
bucket int,
revision int,
applied_at timestamp,
author text,
description text,
hash blob,
version text,
tags set<text>,
PRIMARY KEY (bucket, revision)
)
author
The username, or email address, etc. of the person making the change. This is
an optional field and can be null.
description
A summary of the changes. This is an optional field and can be null.
hash
Cassalog does not store the CQL statements that it executes. Instead it stores a
hash that uniquely identifies the CQL statement(s). Cassalog generates this
hash value.
version
The version can be an arbitrary string. It should be a unique identifier for the
change; however, Cassalog does not enforce uniqueness. This is a required field.
tags
An optional set of user-supplied tags.
revision
Cassalog assigns a revision number to each change that it applies. It uses the
revision number to keep track of the order in which changes are applied. If the
order of schema changes in a source script is changed, then a
ChangeSetAlteredException will be thrown.
bucket
Cassalog stores multiple rows per physical partition. This is a revision offset.
The bucket size defaults to 100.
Cassandra is built with Maven and requires a JVM version 1.7 or later. Test execution requires a running Cassandra cluster (which can be a single node) with a node listening on 127.0.0.1. Cassandra 2.0 or later should be used.
git clone https://github.com/jsanda/cassalog.git
cd cassalog
mvn install|
Tip
|
If you want to build without having a running Cassandra instance, you can
run mvn install -DskipTests
|
The recommended way to set up Cassandra is by using ccm (Cassandra Cluster Manager).
As Cassalog evolves and looks to support different versions of Cassandra and CQL, ccm is the likely tool of choice to use for testing against different versions.