This is the Shopify fork of SoundCloud's LHM. The following description, originally from SoundCloud (with minor updates by Shopify), gives some of the flavor around its original creation, and its choice of name...
Rails-style database migrations are a useful way to evolve your database schema in an agile manner. Most Rails projects start like this, and at first, making changes is fast and easy.
That is, until your tables grow to millions or billions of records. At this point,
the locking nature of ALTER TABLE
may take your site down for hours or more
while critical tables are migrated. In order to avoid this, developers begin
to design around the problem by introducing join tables or moving the data
into another layer. Development gets less and less agile as tables grow and
grow. To make the problem worse, adding or changing indices to optimize data
access becomes just as difficult.
Side effects may include black holes and universe implosion.
There are few things that can be done at the server or engine level. It is
possible to change default values in an ALTER TABLE
without locking the
table. InnoDB provides facilities for online index creation, but that only
solves half the problem.
At SoundCloud we started having migration pains quite a while ago, and after looking around for third party solutions, we decided to create our own. We called it Large Hadron Migrator, and it is a Ruby Gem that provides facilities for online ActiveRecord migrations.
The Large Hadron Collider at CERN near Geneva, Switzerland.
The basic idea is to perform the migration online while the system is live, without locking the table. In contrast to OAK and the facebook tool, we only use a copy table and triggers.
LHM is a test-driven Ruby solution which can easily be dropped into an ActiveRecord
migration. It presumes a single auto-incremented numeric primary key called id
as
per the Rails convention. Unlike Matt Freels's table_migrator
solution,
it does not require the presence of an indexed updated_at
column.
LHM currently only works with MySQL databases and requires an established ActiveRecord connection.
Due to the Chunker implementation, LHM requires that the table to migrate has a
a single integer numeric key column named id
.
Install it via gem install lhm-shopify
or by adding gem "lhm-shopify"
to your Gemfile
.
You can invoke LHM directly from a plain Ruby file after connecting ActiveRecord to your MySQL instance:
require 'lhm'
ActiveRecord::Base.establish_connection(
:adapter => 'mysql',
:host => '127.0.0.1',
:database => 'lhm'
)
# and migrate
Lhm.change_table :users do |m|
m.add_column :arbitrary, "INT(12)"
m.add_index [:arbitrary_id, :created_at]
m.ddl("alter table %s add column flag tinyint(1)" % m.name)
end
To use LHM from an ActiveRecord::Migration
in a Rails project, add it to your
Gemfile
, then invoke as follows:
require 'lhm'
class MigrateUsers < ActiveRecord::Migration
def self.up
Lhm.change_table :users do |m|
m.add_column :arbitrary, "INT(12)"
m.add_index [:arbitrary_id, :created_at]
m.ddl("alter table %s add column flag tinyint(1)" % m.name)
end
end
def self.down
Lhm.change_table :users do |m|
m.remove_index [:arbitrary_id, :created_at]
m.remove_column :arbitrary
end
end
end
Note: LHM does not delete the old, leftover table. This is intentional, in order to prevent accidental data loss. After successful or failed LHM migrations, these leftover tables must be cleaned up.
LHM can recover from connection loss. However, when used in conjunction with ProxySQL, there are multiple ways that
connection loss could induce data loss (if triggered by a failover). Therefore it will perform additional checks to
ensure that the MySQL host stays consistent across the schema migrations if the feature is enabled.
This is done by tagging every query with /*maintenance:lhm*/
, which will be recognized by ProxySQL.
However, to get this feature working, a new ProxySQL query rule must be added.
{
rule_id = <rule id>
active = 1
match_pattern = "maintenance:lhm"
destination_hostgroup = <MySQL writer's hostgroup>
}
This will ensure that all relevant queries are forwarded to the current writer.
Also, ProxySQL disables multiplexing for select
on @@
variables.
Therefore, the following rules must be added to ensure that queries (even if tagged with /*maintenance:lhm*/
) get
forwarded to the right target.
{
rule_id = <rule id>
active = 1
match_digest = "@@global\.server_id"
multiplex = 2
},
{
rule_id = <rule id>
active = 1
match_digest = "@@global\.hostname"
multiplex = 2
}
Once these changes are added to the ProxySQL configuration (either through .cnf
or dynamically through the admin interface),
the feature can be enabled. This is done by adding this flag when providing options to the migration:
Lhm.change_table(..., options: {reconnect_with_consistent_host: true}) do |t|
...
end
Note: This feature is disabled by default
LHM uses a throttling mechanism to read data in your original table. By default, 2,000 rows are read each 0.1 second. If you want to change that behaviour, you can pass an instance of a throttler with the throttler
option. In this example, 1,000 rows will be read with a 10 second delay between each processing:
my_throttler = Lhm::Throttler::Time.new(stride: 1000, delay: 10)
Lhm.change_table :users, throttler: my_throttler do |m|
...
end
Lhm uses by default the time throttler, however a better solution is to throttle the copy of the data depending on the time that the slaves are behind. To use the SlaveLag throttler:
Lhm.change_table :users, throttler: :slave_lag_throttler do |m|
...
end
Or to set that as default throttler, use the following (for instance in a Rails initializer):
Lhm.setup_throttler(:slave_lag_throttler)
If you don't have access to connect directly to your replicas, you can also throttle based on the number of threads running in MySQL, as a proxy for "is this operation causing excessive load":
my_throttler = Lhm::Throttler::ThreadsRunning.new(stride: 100_000)
Lhm.change_table :users, throttler: my_throttler do |m|
...
end
# or use default settings:
Lhm.change_table :users, throttler: :threads_running_throttler do |m|
...
end
Or to set that as default throttler, use the following (for instance in a Rails initializer):
Lhm.setup_throttler(:threads_running_throttler)
There are two different table rename strategies available: LockedSwitcher
and
AtomicSwitcher
.
The LockedSwitcher
strategy locks the table being migrated and issues two ALTER TABLE
statements. The AtomicSwitcher
uses a single atomic RENAME TABLE
query and is the favored solution.
LHM chooses AtomicSwitcher
if no strategy is specified, unless your version of MySQL is
affected by binlog bug #39675. If your version is
affected, LHM will raise an error if you don't specify a strategy. You're recommended
to use the LockedSwitcher
in these cases to avoid replication issues.
To specify the strategy in your migration:
Lhm.change_table :users, :atomic_switch => true do |m|
...
end
For instances where you want to limit the data that is migrated to the new table by some conditions, you may tell the migration to filter by a set of conditions:
Lhm.change_table(:sounds) do |m|
m.filter("inner join users on users.`id` = sounds.`user_id` and sounds.`public` = 1")
end
Note that this SQL will be inserted into the copy directly after the FROM
clause
so be sure to use INNER JOIN
or OUTER JOIN
syntax and not comma-joins. These
conditions will not affect the triggers, so any modifications to the table
during the run will happen on the new table as well.
If an LHM migration is interrupted, it may leave behind the temporary tables and/or triggers used in the migration. If the migration is re-started, the unexpected presence of these tables will cause an error.
In this case, Lhm.cleanup
can be used to drop any orphaned LHM temporary tables or triggers.
To see what LHM tables/triggers are found:
Lhm.cleanup
To remove any LHM tables/triggers found:
Lhm.cleanup(true)
Optionally, only remove tables up to a specific time, if you want to retain previous migrations.
Rails:
Lhm.cleanup(true, until: 1.day.ago)
Ruby:
Lhm.cleanup(true, until: Time.now - 86400)
To run the tests:
bundle exec rake unit # unit tests
bundle exec rake integration # integration tests
bundle exec rake unit # all tests
You can run an individual test as follows:
bundle exec rake unit TEST=spec/integration/atomic_switcher_spec.rb
You can check the code coverage reporting for an individual test as follows:
rm -rf coverage
COV=1 bundle exec rake unit TEST=spec/integration/atomic_switcher_spec.rb
open coverage/index.html
To check the code coverage for all tests:
rm -rf coverage
COV=1 bundle exec rake unit && bundle exec rake integration
open coverage/index.html
When creating a PR for a new version, make sure that th version has been bumped in lib/lhm/version.rb
. Then run the following code snippet to ensure the everything is consistent, otherwise
the gem will not publish.
bundle install
bundle update
bundle exec appraisals install
The integration tests rely on a replication configuration for MySQL which is being proxied by an instance of ProxySQL. It is important that every container is running to execute the integration test suite.
The license is included as LICENSE in this directory.