module ActiveRecord class IrreversibleMigration < ActiveRecordError#:nodoc: end class DuplicateMigrationVersionError < ActiveRecordError#:nodoc: def initialize(version) super("Multiple migrations have the version number #{version}") end end # Migrations can manage the evolution of a schema used by several physical databases. It's a solution # to the common problem of adding a field to make a new feature work in your local database, but being unsure of how to # push that change to other developers and to the production server. With migrations, you can describe the transformations # in self-contained classes that can be checked into version control systems and executed against another database that # might be one, two, or five versions behind. # # Example of a simple migration: # # class AddSsl < ActiveRecord::Migration # def self.up # add_column :accounts, :ssl_enabled, :boolean, :default => 1 # end # # def self.down # remove_column :accounts, :ssl_enabled # end # end # # This migration will add a boolean flag to the accounts table and remove it again, if you're backing out of the migration. # It shows how all migrations have two class methods +up+ and +down+ that describes the transformations required to implement # or remove the migration. These methods can consist of both the migration specific methods, like add_column and remove_column, # but may also contain regular Ruby code for generating data needed for the transformations. # # Example of a more complex migration that also needs to initialize data: # # class AddSystemSettings < ActiveRecord::Migration # def self.up # create_table :system_settings do |t| # t.column :name, :string # t.column :label, :string # t.column :value, :text # t.column :type, :string # t.column :position, :integer # end # # SystemSetting.create :name => "notice", :label => "Use notice?", :value => 1 # end # # def self.down # drop_table :system_settings # end # end # # This migration first adds the system_settings table, then creates the very first row in it using the Active Record model # that relies on the table. It also uses the more advanced create_table syntax where you can specify a complete table schema # in one block call. # # == Available transformations # # * create_table(name, options) Creates a table called +name+ and makes the table object available to a block # that can then add columns to it, following the same format as add_column. See example above. The options hash is for # fragments like "DEFAULT CHARSET=UTF-8" that are appended to the create table definition. # * drop_table(name): Drops the table called +name+. # * rename_table(old_name, new_name): Renames the table called +old_name+ to +new_name+. # * add_column(table_name, column_name, type, options): Adds a new column to the table called +table_name+ # named +column_name+ specified to be one of the following types: # :string, :text, :integer, :float, :datetime, :timestamp, :time, :date, :binary, :boolean. A default value can be specified # by passing an +options+ hash like { :default => 11 }. # * rename_column(table_name, column_name, new_column_name): Renames a column but keeps the type and content. # * change_column(table_name, column_name, type, options): Changes the column to a different type using the same # parameters as add_column. # * remove_column(table_name, column_name): Removes the column named +column_name+ from the table called +table_name+. # * add_index(table_name, column_name, index_type): Add a new index with the name of the column on the column. Specify an optional index_type (e.g. UNIQUE). # * remove_index(table_name, column_name): Remove the index called the same as the column. # # == Irreversible transformations # # Some transformations are destructive in a manner that cannot be reversed. Migrations of that kind should raise # an IrreversibleMigration exception in their +down+ method. # # == Running migrations from within Rails # # The Rails package has several tools to help create and apply migrations. # # To generate a new migration, use script/generate migration MyNewMigration # where MyNewMigration is the name of your migration. The generator will # create a file nnn_my_new_migration.rb in the db/migrate/ # directory, where nnn is the next largest migration number. # You may then edit the self.up and self.down methods of # n MyNewMigration. # # To run migrations against the currently configured database, use # rake migrate. This will update the database by running all of the # pending migrations, creating the schema_info table if missing. # # To roll the database back to a previous migration version, use # rake migrate VERSION=X where X is the version to which # you wish to downgrade. If any of the migrations throw an # IrreversibleMigration exception, that step will fail and you'll # have some manual work to do. # # == Database support # # Migrations are currently supported in MySQL, PostgreSQL, SQLite, # SQL Server, Sybase, and Oracle (all supported databases except DB2). # # == More examples # # Not all migrations change the schema. Some just fix the data: # # class RemoveEmptyTags < ActiveRecord::Migration # def self.up # Tag.find(:all).each { |tag| tag.destroy if tag.pages.empty? } # end # # def self.down # # not much we can do to restore deleted data # raise IrreversibleMigration # end # end # # Others remove columns when they migrate up instead of down: # # class RemoveUnnecessaryItemAttributes < ActiveRecord::Migration # def self.up # remove_column :items, :incomplete_items_count # remove_column :items, :completed_items_count # end # # def self.down # add_column :items, :incomplete_items_count # add_column :items, :completed_items_count # end # end # # And sometimes you need to do something in SQL not abstracted directly by migrations: # # class MakeJoinUnique < ActiveRecord::Migration # def self.up # execute "ALTER TABLE `pages_linked_pages` ADD UNIQUE `page_id_linked_page_id` (`page_id`,`linked_page_id`)" # end # # def self.down # execute "ALTER TABLE `pages_linked_pages` DROP INDEX `page_id_linked_page_id`" # end # end # # == Using a model after changing its table # # Sometimes you'll want to add a column in a migration and populate it immediately after. In that case, you'll need # to make a call to Base#reset_column_information in order to ensure that the model has the latest column data from # after the new column was added. Example: # # class AddPeopleSalary < ActiveRecord::Migration # def self.up # add_column :people, :salary, :integer # Person.reset_column_information # Person.find(:all).each do |p| # p.salary = SalaryCalculator.compute(p) # end # end # end # # == Controlling verbosity # # By default, migrations will describe the actions they are taking, writing # them to the console as they happen, along with benchmarks describing how # long each step took. # # You can quiet them down by setting ActiveRecord::Migration.verbose = false. # # You can also insert your own messages and benchmarks by using the #say_with_time # method: # # def self.up # ... # say_with_time "Updating salaries..." do # Person.find(:all).each do |p| # p.salary = SalaryCalculator.compute(p) # end # end # ... # end # # The phrase "Updating salaries..." would then be printed, along with the # benchmark for the block when the block completes. class Migration @@verbose = true cattr_accessor :verbose class << self def up_using_benchmarks #:nodoc: migrate(:up) end def down_using_benchmarks #:nodoc: migrate(:down) end # Execute this migration in the named direction def migrate(direction) return unless respond_to?(direction) case direction when :up then announce "migrating" when :down then announce "reverting" end result = nil time = Benchmark.measure { result = send("real_#{direction}") } case direction when :up then announce "migrated (%.4fs)" % time.real; write when :down then announce "reverted (%.4fs)" % time.real; write end result end # Because the method added may do an alias_method, it can be invoked # recursively. We use @ignore_new_methods as a guard to indicate whether # it is safe for the call to proceed. def singleton_method_added(sym) #:nodoc: return if @ignore_new_methods begin @ignore_new_methods = true case sym when :up, :down klass = (class << self; self; end) klass.send(:alias_method, "real_#{sym}", sym) klass.send(:alias_method, sym, "#{sym}_using_benchmarks") end ensure @ignore_new_methods = false end end def write(text="") puts(text) if verbose end def announce(message) text = "#{name}: #{message}" write "== %s %s" % [ text, "=" * (75 - text.length) ] end def say(message, subitem=false) write "#{subitem ? " ->" : "--"} #{message}" end def say_with_time(message) say(message) result = nil time = Benchmark.measure { result = yield } say "%.4fs" % time.real, :subitem result end def suppress_messages save = verbose self.verbose = false yield ensure self.verbose = save end def method_missing(method, *arguments, &block) say_with_time "#{method}(#{arguments.map { |a| a.inspect }.join(", ")})" do arguments[0] = Migrator.proper_table_name(arguments.first) unless arguments.empty? || method == :execute ActiveRecord::Base.connection.send(method, *arguments, &block) end end end end class Migrator#:nodoc: class << self def migrate(migrations_path, target_version = nil) Base.connection.initialize_schema_information case when target_version.nil?, current_version < target_version up(migrations_path, target_version) when current_version > target_version down(migrations_path, target_version) when current_version == target_version return # You're on the right version end end def up(migrations_path, target_version = nil) self.new(:up, migrations_path, target_version).migrate end def down(migrations_path, target_version = nil) self.new(:down, migrations_path, target_version).migrate end def schema_info_table_name Base.table_name_prefix + "schema_info" + Base.table_name_suffix end def current_version (Base.connection.select_one("SELECT version FROM #{schema_info_table_name}") || {"version" => 0})["version"].to_i end def proper_table_name(name) # Use the ActiveRecord objects own table_name, or pre/suffix from ActiveRecord::Base if name is a symbol/string name.table_name rescue "#{ActiveRecord::Base.table_name_prefix}#{name}#{ActiveRecord::Base.table_name_suffix}" end end def initialize(direction, migrations_path, target_version = nil) raise StandardError.new("This database does not yet support migrations") unless Base.connection.supports_migrations? @direction, @migrations_path, @target_version = direction, migrations_path, target_version Base.connection.initialize_schema_information end def current_version self.class.current_version end def migrate migration_classes.each do |(version, migration_class)| Base.logger.info("Reached target version: #{@target_version}") and break if reached_target_version?(version) next if irrelevant_migration?(version) Base.logger.info "Migrating to #{migration_class} (#{version})" migration_class.migrate(@direction) set_schema_version(version) end end private def migration_classes migrations = migration_files.inject([]) do |migrations, migration_file| load(migration_file) version, name = migration_version_and_name(migration_file) assert_unique_migration_version(migrations, version.to_i) migrations << [ version.to_i, migration_class(name) ] end down? ? migrations.sort.reverse : migrations.sort end def assert_unique_migration_version(migrations, version) if !migrations.empty? && migrations.transpose.first.include?(version) raise DuplicateMigrationVersionError.new(version) end end def migration_files files = Dir["#{@migrations_path}/[0-9]*_*.rb"].sort_by do |f| migration_version_and_name(f).first.to_i end down? ? files.reverse : files end def migration_class(migration_name) migration_name.camelize.constantize end def migration_version_and_name(migration_file) return *migration_file.scan(/([0-9]+)_([_a-z0-9]*).rb/).first end def set_schema_version(version) Base.connection.update("UPDATE #{self.class.schema_info_table_name} SET version = #{down? ? version.to_i - 1 : version.to_i}") end def up? @direction == :up end def down? @direction == :down end def reached_target_version?(version) (up? && version.to_i - 1 == @target_version) || (down? && version.to_i == @target_version) end def irrelevant_migration?(version) (up? && version.to_i <= current_version) || (down? && version.to_i > current_version) end end end