# frozen_string_literal: true module ActiveRecord # See ActiveRecord::Transactions::ClassMethods for documentation. module Transactions extend ActiveSupport::Concern #:nodoc: ACTIONS = [:create, :destroy, :update] included do define_callbacks :commit, :rollback, :before_commit, scope: [:kind, :name] end # = Active Record Transactions # # \Transactions are protective blocks where SQL statements are only permanent # if they can all succeed as one atomic action. The classic example is a # transfer between two accounts where you can only have a deposit if the # withdrawal succeeded and vice versa. \Transactions enforce the integrity of # the database and guard the data against program errors or database # break-downs. So basically you should use transaction blocks whenever you # have a number of statements that must be executed together or not at all. # # For example: # # ActiveRecord::Base.transaction do # david.withdrawal(100) # mary.deposit(100) # end # # This example will only take money from David and give it to Mary if neither # +withdrawal+ nor +deposit+ raise an exception. Exceptions will force a # ROLLBACK that returns the database to the state before the transaction # began. Be aware, though, that the objects will _not_ have their instance # data returned to their pre-transactional state. # # == Different Active Record classes in a single transaction # # Though the #transaction class method is called on some Active Record class, # the objects within the transaction block need not all be instances of # that class. This is because transactions are per-database connection, not # per-model. # # In this example a +balance+ record is transactionally saved even # though #transaction is called on the +Account+ class: # # Account.transaction do # balance.save! # account.save! # end # # The #transaction method is also available as a model instance method. # For example, you can also do this: # # balance.transaction do # balance.save! # account.save! # end # # == Transactions are not distributed across database connections # # A transaction acts on a single database connection. If you have # multiple class-specific databases, the transaction will not protect # interaction among them. One workaround is to begin a transaction # on each class whose models you alter: # # Student.transaction do # Course.transaction do # course.enroll(student) # student.units += course.units # end # end # # This is a poor solution, but fully distributed transactions are beyond # the scope of Active Record. # # == +save+ and +destroy+ are automatically wrapped in a transaction # # Both {#save}[rdoc-ref:Persistence#save] and # {#destroy}[rdoc-ref:Persistence#destroy] come wrapped in a transaction that ensures # that whatever you do in validations or callbacks will happen under its # protected cover. So you can use validations to check for values that # the transaction depends on or you can raise exceptions in the callbacks # to rollback, including after_* callbacks. # # As a consequence changes to the database are not seen outside your connection # until the operation is complete. For example, if you try to update the index # of a search engine in +after_save+ the indexer won't see the updated record. # The #after_commit callback is the only one that is triggered once the update # is committed. See below. # # == Exception handling and rolling back # # Also have in mind that exceptions thrown within a transaction block will # be propagated (after triggering the ROLLBACK), so you should be ready to # catch those in your application code. # # One exception is the ActiveRecord::Rollback exception, which will trigger # a ROLLBACK when raised, but not be re-raised by the transaction block. # # *Warning*: one should not catch ActiveRecord::StatementInvalid exceptions # inside a transaction block. ActiveRecord::StatementInvalid exceptions indicate that an # error occurred at the database level, for example when a unique constraint # is violated. On some database systems, such as PostgreSQL, database errors # inside a transaction cause the entire transaction to become unusable # until it's restarted from the beginning. Here is an example which # demonstrates the problem: # # # Suppose that we have a Number model with a unique column called 'i'. # Number.transaction do # Number.create(i: 0) # begin # # This will raise a unique constraint error... # Number.create(i: 0) # rescue ActiveRecord::StatementInvalid # # ...which we ignore. # end # # # On PostgreSQL, the transaction is now unusable. The following # # statement will cause a PostgreSQL error, even though the unique # # constraint is no longer violated: # Number.create(i: 1) # # => "PG::Error: ERROR: current transaction is aborted, commands # # ignored until end of transaction block" # end # # One should restart the entire transaction if an # ActiveRecord::StatementInvalid occurred. # # == Nested transactions # # #transaction calls can be nested. By default, this makes all database # statements in the nested transaction block become part of the parent # transaction. For example, the following behavior may be surprising: # # User.transaction do # User.create(username: 'Kotori') # User.transaction do # User.create(username: 'Nemu') # raise ActiveRecord::Rollback # end # end # # creates both "Kotori" and "Nemu". Reason is the ActiveRecord::Rollback # exception in the nested block does not issue a ROLLBACK. Since these exceptions # are captured in transaction blocks, the parent block does not see it and the # real transaction is committed. # # In order to get a ROLLBACK for the nested transaction you may ask for a real # sub-transaction by passing requires_new: true. If anything goes wrong, # the database rolls back to the beginning of the sub-transaction without rolling # back the parent transaction. If we add it to the previous example: # # User.transaction do # User.create(username: 'Kotori') # User.transaction(requires_new: true) do # User.create(username: 'Nemu') # raise ActiveRecord::Rollback # end # end # # only "Kotori" is created. # # Most databases don't support true nested transactions. At the time of # writing, the only database that we're aware of that supports true nested # transactions, is MS-SQL. Because of this, Active Record emulates nested # transactions by using savepoints. See # https://dev.mysql.com/doc/refman/en/savepoint.html # for more information about savepoints. # # === \Callbacks # # There are two types of callbacks associated with committing and rolling back transactions: # #after_commit and #after_rollback. # # #after_commit callbacks are called on every record saved or destroyed within a # transaction immediately after the transaction is committed. #after_rollback callbacks # are called on every record saved or destroyed within a transaction immediately after the # transaction or savepoint is rolled back. # # These callbacks are useful for interacting with other systems since you will be guaranteed # that the callback is only executed when the database is in a permanent state. For example, # #after_commit is a good spot to put in a hook to clearing a cache since clearing it from # within a transaction could trigger the cache to be regenerated before the database is updated. # # === Caveats # # If you're on MySQL, then do not use Data Definition Language (DDL) operations in nested # transactions blocks that are emulated with savepoints. That is, do not execute statements # like 'CREATE TABLE' inside such blocks. This is because MySQL automatically # releases all savepoints upon executing a DDL operation. When +transaction+ # is finished and tries to release the savepoint it created earlier, a # database error will occur because the savepoint has already been # automatically released. The following example demonstrates the problem: # # Model.connection.transaction do # BEGIN # Model.connection.transaction(requires_new: true) do # CREATE SAVEPOINT active_record_1 # Model.connection.create_table(...) # active_record_1 now automatically released # end # RELEASE SAVEPOINT active_record_1 # # ^^^^ BOOM! database error! # end # # Note that "TRUNCATE" is also a MySQL DDL statement! module ClassMethods # See the ConnectionAdapters::DatabaseStatements#transaction API docs. def transaction(**options, &block) connection.transaction(**options, &block) end def before_commit(*args, &block) # :nodoc: set_options_for_callbacks!(args) set_callback(:before_commit, :before, *args, &block) end # This callback is called after a record has been created, updated, or destroyed. # # You can specify that the callback should only be fired by a certain action with # the +:on+ option: # # after_commit :do_foo, on: :create # after_commit :do_bar, on: :update # after_commit :do_baz, on: :destroy # # after_commit :do_foo_bar, on: [:create, :update] # after_commit :do_bar_baz, on: [:update, :destroy] # def after_commit(*args, &block) set_options_for_callbacks!(args) set_callback(:commit, :after, *args, &block) end # Shortcut for after_commit :hook, on: [ :create, :update ]. def after_save_commit(*args, &block) set_options_for_callbacks!(args, on: [ :create, :update ]) set_callback(:commit, :after, *args, &block) end # Shortcut for after_commit :hook, on: :create. def after_create_commit(*args, &block) set_options_for_callbacks!(args, on: :create) set_callback(:commit, :after, *args, &block) end # Shortcut for after_commit :hook, on: :update. def after_update_commit(*args, &block) set_options_for_callbacks!(args, on: :update) set_callback(:commit, :after, *args, &block) end # Shortcut for after_commit :hook, on: :destroy. def after_destroy_commit(*args, &block) set_options_for_callbacks!(args, on: :destroy) set_callback(:commit, :after, *args, &block) end # This callback is called after a create, update, or destroy are rolled back. # # Please check the documentation of #after_commit for options. def after_rollback(*args, &block) set_options_for_callbacks!(args) set_callback(:rollback, :after, *args, &block) end private def set_options_for_callbacks!(args, enforced_options = {}) options = args.extract_options!.merge!(enforced_options) args << options if options[:on] fire_on = Array(options[:on]) assert_valid_transaction_action(fire_on) options[:if] = Array(options[:if]) options[:if].unshift(-> { transaction_include_any_action?(fire_on) }) end end def assert_valid_transaction_action(actions) if (actions - ACTIONS).any? raise ArgumentError, ":on conditions for after_commit and after_rollback callbacks have to be one of #{ACTIONS}" end end end # See ActiveRecord::Transactions::ClassMethods for detailed documentation. def transaction(**options, &block) self.class.transaction(**options, &block) end def destroy #:nodoc: with_transaction_returning_status { super } end def save(**) #:nodoc: with_transaction_returning_status { super } end def save!(**) #:nodoc: with_transaction_returning_status { super } end def touch(*, **) #:nodoc: with_transaction_returning_status { super } end def before_committed! # :nodoc: _run_before_commit_callbacks end # Call the #after_commit callbacks. # # Ensure that it is not called if the object was never persisted (failed create), # but call it after the commit of a destroyed object. def committed!(should_run_callbacks: true) #:nodoc: force_clear_transaction_record_state if should_run_callbacks @_committed_already_called = true _run_commit_callbacks end ensure @_committed_already_called = @_trigger_update_callback = @_trigger_destroy_callback = false end # Call the #after_rollback callbacks. The +force_restore_state+ argument indicates if the record # state should be rolled back to the beginning or just to the last savepoint. def rolledback!(force_restore_state: false, should_run_callbacks: true) #:nodoc: if should_run_callbacks _run_rollback_callbacks end ensure restore_transaction_record_state(force_restore_state) clear_transaction_record_state @_trigger_update_callback = @_trigger_destroy_callback = false if force_restore_state end # Executes +method+ within a transaction and captures its return value as a # status flag. If the status is true the transaction is committed, otherwise # a ROLLBACK is issued. In any case the status flag is returned. # # This method is available within the context of an ActiveRecord::Base # instance. def with_transaction_returning_status status = nil connection = self.class.connection ensure_finalize = !connection.transaction_open? connection.transaction do add_to_transaction(ensure_finalize || has_transactional_callbacks?) remember_transaction_record_state status = yield raise ActiveRecord::Rollback unless status end status end def trigger_transactional_callbacks? # :nodoc: (@_new_record_before_last_commit || _trigger_update_callback) && persisted? || _trigger_destroy_callback && destroyed? end private attr_reader :_committed_already_called, :_trigger_update_callback, :_trigger_destroy_callback # Save the new record state and id of a record so it can be restored later if a transaction fails. def remember_transaction_record_state @_start_transaction_state ||= { id: id, new_record: @new_record, previously_new_record: @previously_new_record, destroyed: @destroyed, attributes: @attributes, frozen?: frozen?, level: 0 } @_start_transaction_state[:level] += 1 if _committed_already_called @_new_record_before_last_commit = false else @_new_record_before_last_commit = @_start_transaction_state[:new_record] end end # Clear the new record state and id of a record. def clear_transaction_record_state return unless @_start_transaction_state @_start_transaction_state[:level] -= 1 force_clear_transaction_record_state if @_start_transaction_state[:level] < 1 end # Force to clear the transaction record state. def force_clear_transaction_record_state @_start_transaction_state = nil end # Restore the new record state and id of a record that was previously saved by a call to save_record_state. def restore_transaction_record_state(force_restore_state = false) if restore_state = @_start_transaction_state if force_restore_state || restore_state[:level] <= 1 @new_record = restore_state[:new_record] @previously_new_record = restore_state[:previously_new_record] @destroyed = restore_state[:destroyed] @attributes = restore_state[:attributes].map do |attr| value = @attributes.fetch_value(attr.name) attr = attr.with_value_from_user(value) if attr.value != value attr end @mutations_from_database = nil @mutations_before_last_save = nil if @attributes.fetch_value(@primary_key) != restore_state[:id] @attributes.write_from_user(@primary_key, restore_state[:id]) end freeze if restore_state[:frozen?] end end end # Determine if a transaction included an action for :create, :update, or :destroy. Used in filtering callbacks. def transaction_include_any_action?(actions) actions.any? do |action| case action when :create persisted? && @_new_record_before_last_commit when :update !(@_new_record_before_last_commit || destroyed?) && _trigger_update_callback when :destroy _trigger_destroy_callback end end end # Add the record to the current transaction so that the #after_rollback and #after_commit # callbacks can be called. def add_to_transaction(ensure_finalize = true) self.class.connection.add_transaction_record(self, ensure_finalize) end def has_transactional_callbacks? !_rollback_callbacks.empty? || !_commit_callbacks.empty? || !_before_commit_callbacks.empty? end end end