55

I want to test that certain conditions hold after running a migration I've written. What's the current best way to do that?

To make this concrete: I made a migration that adds a column to a model, and gives it a default value. But I forgot to update all the pre-existing instances of that model to have that default value for the new column. None of my existing tests will catch that, because they all start with a fresh database and add new data, which will have the default. But if I push to production, I know things will break, and I want my tests to tell me that.

I've found http://spin.atomicobject.com/2007/02/27/migration-testing-in-rails/, but haven't tried it. It's very old. Is that the state-of-the-art?

19

Peter Marklund has an example gist of testing a migration here: https://gist.github.com/700194 (in rspec).

Note migrations have changed since his example to use instance methods instead of class methods.

Here's a summary:

  1. Create a migration as usual
  2. Create a file to put your migration test in. Suggestions: test/unit/import_legacy_devices_migration_test.rb or spec/migrations/import_legacy_devices_migration_spec.rb NOTE: you probably need to explicitly load the migration file as rails will probably not load it for you. Something like this should do: require File.join(Rails.root, 'db', 'migrate', '20101110154036_import_legacy_devices')
  3. Migrations are (like everything in ruby), just a class. Test the up and down methods. If your logic is complex, I suggest refactoring out bits of logic to smaller methods that will be easier to test.
  4. Before calling up, set up some some data as it would be before your migration, and assert that it's state is what you expect afterward.

I hope this helps.

UPDATE: Since posting this, I posted on my blog an example migration test.

UPDATE: Here's an idea for testing migrations even after they've been run in development.

EDIT: I've updated my proof-of-concept to a full spec file using the contrived example from my blog post.

# spec/migrations/add_email_at_utc_hour_to_users_spec.rb
require 'spec_helper'

migration_file_name = Dir[Rails.root.join('db/migrate/*_add_email_at_utc_hour_to_users.rb')].first
require migration_file_name


describe AddEmailAtUtcHourToUsers do

  # This is clearly not very safe or pretty code, and there may be a
  # rails api that handles this. I am just going for a proof of concept here.
  def migration_has_been_run?(version)
    table_name = ActiveRecord::Migrator.schema_migrations_table_name
    query = "SELECT version FROM %s WHERE version = '%s'" % [table_name, version]
    ActiveRecord::Base.connection.execute(query).any?
  end

  let(:migration) { AddEmailAtUtcHourToUsers.new }


  before do
    # You could hard-code the migration number, or find it from the filename...
    if migration_has_been_run?('20120425063641')
      # If this migration has already been in our current database, run down first
      migration.down
    end
  end


  describe '#up' do
    before { migration.up; User.reset_column_information }

    it 'adds the email_at_utc_hour column' do
      User.columns_hash.should have_key('email_at_utc_hour')
    end
  end
end
  • This sounds like part of an answer, but normally, the setup clones the database structure from an up-to-date development database, and here we need to start from an earlier state — ideally one in which the new migration has never been run (as opposed to having been run and reverted). What is a convenient way of getting the test database into the appropriate state? – Steve Jorgensen Mar 22 '13 at 17:47
  • @SteveJorgensen That's a good question. When I write migration tests, I generally TDD them, and then delete them after I've actually run the migration. They don't get to stick around to continue as a regression test, because as you say, once you've migrated, the tests reflect the new migrated state, and the migration test fails. So sorry, I've never dealt with having to set up the database like that. I've got an idea though, and I will update my answer as soon as I've gotten a chance to tinker with it. – Amiel Martin Mar 23 '13 at 1:08
  • some Google searching brought me to an interesting relevant article: spin.atomicobject.com/2007/02/27/migration-testing-in-rails – Steve Jorgensen Mar 23 '13 at 8:30
  • 1
    Uhhh - but the OP already referenced that. – Steve Jorgensen Mar 23 '13 at 19:21
  • 3
    Note - if you're using a reversible migration with def change..., then you have to replace migration.down and migration.up with migration.migrate(:down) and migration.migrate(:up). This should work for up and down too. – Tim Diggins Dec 27 '13 at 16:33
4

I just create an instance of the class, then call up or down on on it.

For example:

require Rails.root.join(
  'db',
  'migrate',
  '20170516191414_create_identities_ad_accounts_from_ad_account_identity'
)

describe CreateIdentitiesAdAccountsFromAdAccountIdentity do
  subject(:migration) { described_class.new }

  it 'properly creates identities_ad_accounts from ad account identities' do
    create_list :ad_account, 3, identity_id: create(:identity).id

    expect { suppress_output { migration.up } }
      .to change { IdentitiesAdAccount.count }.from(0).to(3)
  end
end
3

I made a migration that adds a column to a model, and gives it a default value. But I forgot to update all the pre-existing instances of that model to have that default value for the new column.

Based on this statement, you are just trying to test that an "old" model, has the default, correct?

Theoretically you are testing if rails works. I.e., "Does rails set a default value to a newly added column"

Adding a column and setting a default value will be there in the "old" records of your database.

So, you don't need to update the other records to reflect the default setting, then. In theory there is nothing to test, as rails has tested that for you. Lastly, the reason to use defaults is so that you don't have to update the previous instances to use that default, right?

0

I don't know Rails, but I think the approach is the same independently from the tooling I use the following approach:

  • make sure deployed versions of database scripts are apropiatly tagged/labeled in Version Control
  • based on that you need at least three scripts: a script that creates the old version from scratch (1), a script that creates the new version from scratch (2) and a script that creates the new version from the old version (3).
  • create two db instances/schemata. In one run script 2, in the other run script 1 followed by script 3
  • compare the results in the two databases, using sql queries against the data dictionary.

For testing also the effect on actual data, load test data into the databases after executing script 2 and between 1 and 3. Again run sql queries, compare the results

0

You could consider running isolated portions of your test suite with specific settings against copies of your production data (with e.g. something like yaml_db).

It's a bit meta, and if you know what the potential problems are with your new migrations you'd likely be better off just enhancing them to cover your specific needs, but it's possible.

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