# frozen_string_literal: true # A service class that backfills the changes to the default sidebar categories and tags site settings. # # When a category/tag is removed from the site settings, the `SidebarSectionLink` records associated with the category/tag # are deleted. # # When a category/tag is added to the site settings, a `SidebarSectionLink` record for the associated category/tag are # created for all users that do not already have a `SidebarSectionLink` record for the category/tag. class SidebarSiteSettingsBackfiller def initialize(setting_name, previous_value:, new_value:) @setting_name = setting_name @linkable_klass, previous_ids, new_ids = case setting_name when "default_navigation_menu_categories" [Category, previous_value.split("|"), new_value.split("|")] when "default_navigation_menu_tags" klass = Tag [ klass, klass.where(name: previous_value.split("|")).pluck(:id), klass.where(name: new_value.split("|")).pluck(:id), ] else raise "Invalid setting_name" end @added_ids = new_ids - previous_ids @removed_ids = previous_ids - new_ids end def backfill! DistributedMutex.synchronize("backfill_sidebar_site_settings_#{@setting_name}") do SidebarSectionLink.where( linkable_type: @linkable_klass.to_s, linkable_id: @removed_ids, ).delete_all User .real .where(staged: false) .select(:id) .find_in_batches do |users| rows = [] users.each do |user| @added_ids.each do |linkable_id| rows << { user_id: user[:id], linkable_type: @linkable_klass.to_s, linkable_id: linkable_id, } end end SidebarSectionLink.insert_all(rows) if rows.present? end end end def number_of_users_to_backfill select_statements = [] select_statements.push(<<~SQL) if @removed_ids.present? SELECT sidebar_section_links.user_id FROM sidebar_section_links WHERE sidebar_section_links.linkable_type = '#{@linkable_klass}' AND sidebar_section_links.linkable_id IN (#{@removed_ids.join(",")}) SQL if @added_ids.present? # Returns the ids of users that will receive the new additions by excluding the users that already have the additions # Note that we want to avoid doing a left outer join against the "sidebar_section_links" table as PG will end up having # to do a full table join for both tables first which is less efficient and can be slow on large sites. select_statements.push(<<~SQL) SELECT users.id FROM users WHERE users.id NOT IN ( SELECT DISTINCT(sidebar_section_links.user_id) FROM sidebar_section_links WHERE sidebar_section_links.linkable_type = '#{@linkable_klass}' AND sidebar_section_links.linkable_id IN (#{@added_ids.join(",")}) ) AND users.id > 0 AND NOT users.staged SQL end return 0 if select_statements.blank? DB.query_single(<<~SQL)[0] SELECT COUNT(*) FROM (#{select_statements.join("\nUNION DISTINCT\n")}) AS user_ids SQL end end