# frozen_string_literal: true module SuperSettings # This is the model for interacting with settings. This class provides methods for finding, validating, and # updating settings. # # This class does not deal with actually persisting settings to and fetching them from a data store. # You need to specify the storage engine you want to use with the +storage+ class method. This gem # ships with storage engines for ActiveRecord, Redis, and HTTP (microservice). See the SuperSettings::Storage # class for more details. class Setting LAST_UPDATED_CACHE_KEY = "SuperSettings.last_updated_at" STRING = "string" INTEGER = "integer" FLOAT = "float" BOOLEAN = "boolean" DATETIME = "datetime" ARRAY = "array" VALUE_TYPES = [STRING, INTEGER, FLOAT, BOOLEAN, DATETIME, ARRAY].freeze ARRAY_DELIMITER = /[\n\r]+/.freeze NOT_SET = Object.new.freeze private_constant :NOT_SET # Exception raised if you try to save with invalid data. class InvalidRecordError < StandardError end include Attributes # The changed_by attribute is used to temporarily store an identifier for the user # who made a change to a setting to be stored in the history table. This value is optional # and is cleared after the record is saved. attr_accessor :changed_by @storage = NOT_SET @after_save_blocks = [] class << self # Set a cache to use for caching values. This feature is optional. The cache must respond # to +delete(key)+ and +fetch(key, &block)+. If you are running in a Rails environment, # you can use +Rails.cache+ or any ActiveSupport::Cache::Store object. attr_accessor :cache # Set the storage class to use for persisting data. attr_writer :storage attr_reader :after_save_blocks # @return [Class] The storage class to use for persisting data. # @api private def storage if @storage == NOT_SET if defined?(ActiveRecord) && defined?(::SuperSettings::Storage::ActiveRecordStorage) ::SuperSettings::Storage::ActiveRecordStorage else raise ArgumentError.new("No storage class defined for #{name}") end else @storage end end # Add a block of code that will be called when a setting is saved. The block will be # called with a Setting object. The object will have been saved, but the `changes` # hash will still be set indicating what was changed. You can define multiple after_save blocks. # # @yieldparam setting [SuperSetting::Setting] def after_save(&block) after_save_blocks << block end # Create a new setting with the specified attributes. # # @param attributes [Hash] hash of attribute names and values # @return [Setting] def create!(attributes) setting = new(attributes) storage.with_connection do setting.save! end setting end # Get all the settings. This will even return settings that have been marked as deleted. # If you just want current settings, then call #active instead. # # @return [Array] def all storage.with_connection do storage.all.collect { |record| new(record) } end end # Get all the current settings. # # @return [Array] def active storage.with_connection do storage.active.collect { |record| new(record) } end end # Get all settings that have been updated since the specified time stamp. # # @param time [Time] # @return [Array] def updated_since(time) storage.with_connection do storage.updated_since(time).collect { |record| new(record) } end end # Get a setting by its unique key. # # @return Setting def find_by_key(key) record = storage.with_connection { storage.find_by_key(key) } if record new(record) end end # Return the maximum updated at value from all the rows. This is used in the caching # scheme to determine if data needs to be reloaded from the database. # # @return [Time] def last_updated_at fetch_from_cache(LAST_UPDATED_CACHE_KEY) do storage.with_connection { storage.last_updated_at } end end # Bulk update settings in a single database transaction. No changes will be saved # if there are any invalid records. # # @example # # SuperSettings.bulk_update([ # { # key: "setting-key", # value: "foobar", # value_type: "string", # description: "A sample setting" # }, # { # key: "setting-to-delete", # deleted: true # } # ]) # # @param params [Array] Array of hashes with setting attributes. Each hash must include # a "key" element to identify the setting. To update a key, it must also include at least # one of "value", "value_type", or "description". If one of these attributes is present in # the hash, it will be updated. If a setting with the given key does not exist, it will be created. # A setting may also be deleted by providing the attribute "deleted: true". # @return [Array] Boolean indicating if update succeeded, Array of settings affected by the update; # if the settings were not updated, the +errors+ on the settings that failed validation will be filled. def bulk_update(params, changed_by = nil) all_valid, settings = update_settings(params, changed_by) if all_valid storage.with_connection do storage.transaction do settings.each do |setting| setting.save! end end end clear_last_updated_cache end [all_valid, settings] end # Determine the value type from a value. # # @return [String] def value_type(value) case value when Integer INTEGER when Numeric FLOAT when TrueClass, FalseClass BOOLEAN when Time, Date DATETIME when Array ARRAY else STRING end end # Clear the last updated timestamp from the cache. # # @api private def clear_last_updated_cache cache&.delete(Setting::LAST_UPDATED_CACHE_KEY) end private # Updates settings in memory from an array of parameters. # # @param params [Array] Each hash must contain a "key" element and may contain elements # for "value", "value_type", "description", and "deleted". # @param changed_by [String] Value to be stored in the history for each setting # @return [Array] The first value is a boolean indicating if all the settings are valid, # the second is an array of settings with their attributes updated in memory and ready to be saved. def update_settings(params, changed_by) changed = {} all_valid = true params.each do |setting_params| setting_params = stringify_keys(setting_params) next if Coerce.blank?(setting_params["key"]) next if ["value_type", "value", "description", "deleted"].all? { |name| Coerce.blank?(setting_params[name]) } key = setting_params["key"] setting = changed[key] || Setting.find_by_key(key) unless setting next if Coerce.present?(setting_params["delete"]) setting = Setting.new(key: setting_params["key"]) end if Coerce.boolean(setting_params["deleted"]) setting.deleted = true setting.changed_by = changed_by else setting.value_type = setting_params["value_type"] if setting_params.include?("value_type") setting.value = setting_params["value"] if setting_params.include?("value") setting.description = setting_params["description"] if setting_params.include?("description") setting.deleted = false if setting.deleted? setting.changed_by = changed_by all_valid &= setting.valid? end changed[setting.key] = setting end [all_valid, changed.values] end def fetch_from_cache(key, &block) if cache cache.fetch(key, expires_in: 60, &block) else block.call end end def stringify_keys(hash) transformed = {} hash.each do |key, value| transformed[key.to_s] = value end transformed end end # @param attributes [Hash] def initialize(attributes = {}) @changes = {} @errors = {} if attributes.is_a?(Storage) @record = attributes else @record = self.class.storage.new self.attributes = attributes self.value_type ||= STRING end end # Get the unique key for the setting. # # @return [String] def key @record.key end # Set the value of the setting. The value will be coerced to a string for storage. # # @param val [Object] def key=(val) val = val&.to_s will_change!(:key, val) unless key == val @record.key = val end # The value of a setting coerced to the appropriate class depending on its value type. # # @return [Object] def value if deleted? nil else coerce(raw_value) end end # Set the value of the setting. # # @param val [Object] def value=(val) val = serialize(val) unless val.is_a?(Array) val = val.join("\n") if val.is_a?(Array) self.raw_value = val end # Get the type of value being stored in the setting. # # @return [String] one of string, integer, float, boolean, datetime, or array. def value_type @record.value_type end # Set the value type of the setting. # # @param val [String] one of string, integer, float, boolean, datetime, or array. def value_type=(val) val = val&.to_s will_change!(:value_type, val) unless value_type == val @record.value_type = val end # Get the description for the setting. # # @return [String] def description @record.description end # Set the description of the setting. # # @param val [String] def description=(val) val = val&.to_s val = nil if val&.empty? will_change!(:description, val) unless description == val @record.description = val end # Return true if the setting has been marked as deleted. # # @return [Boolean] def deleted? @record.deleted? end alias_method :deleted, :deleted? # Set the deleted flag on the setting. Deleted settings are not visible but are not actually # removed from the data store. # # @param val [Boolean] def deleted=(val) val = Coerce.boolean(val) will_change!(:deleted, val) unless deleted? == val @record.deleted = val end # Get the time the setting was first created. # # @return [Time] def created_at @record.created_at end # Set the time when the setting was created. # # @param val [Time, DateTime] def created_at=(val) val = Coerce.time(val) will_change!(:created_at, val) unless created_at == val @record.created_at = val end # Get the time the setting was last updated. # # @return [Time] def updated_at @record.updated_at end # Set the time when the setting was last updated. # # @param val [Time, DateTime] def updated_at=(val) val = Coerce.time(val) will_change!(:updated_at, val) unless updated_at == val @record.updated_at = val end # Return true if the setting has a string value type. # # @return [Boolean] def string? value_type == STRING end # Return true if the setting has an integer value type. # # @return [Boolean] def integer? value_type == INTEGER end # Return true if the setting has a float value type. # @return [Boolean] def float? value_type == FLOAT end # Return true if the setting has a boolean value type. # @return [Boolean] def boolean? value_type == BOOLEAN end # Return true if the setting has a datetime value type. # @return [Boolean] def datetime? value_type == DATETIME end # Return true if the setting has an array value type. # @return [Boolean] def array? value_type == ARRAY end # Save the setting to the data storage engine. # # @return [void] def save! record_value_change unless valid? raise InvalidRecordError.new(errors.values.join("; ")) end timestamp = Time.now self.created_at ||= timestamp self.updated_at = timestamp unless updated_at && changed?(:updated_at) self.class.storage.with_connection do self.class.storage.transaction do @record.save! end begin self.class.clear_last_updated_cache call_after_save_callbacks ensure clear_changes end end nil end # Return true if the record has been stored in the data storage engine. # # @return [Boolean] def persisted? @record.persisted? end # Return true if the record has valid data. # # @return [Boolean] def valid? validate! @errors.empty? end # Return hash of errors generated from the last call to +valid?+ # # @return [Hash>] attr_reader :errors # Mark the record as deleted. The record will not actually be deleted since it's still needed # for caching purposes, but it will no longer be returned by queries. # # @return [void] def delete! update!(deleted: true) end # Update the setting attributes and save it. # # @param attributes [Hash] # @return [void] def update!(attributes) self.attributes = attributes save! end # Return array of history items reflecting changes made to the setting over time. Items # should be returned in reverse chronological order so that the most recent changes are first. # # @return [Array] def history(limit: nil, offset: 0) @record.history(limit: limit, offset: offset) end # Serialize to a hash that is used for rendering JSON responses. # # @return [Hash] def as_json(options = nil) attributes = { key: key, value: value, value_type: value_type, description: description, created_at: created_at, updated_at: updated_at } attributes[:deleted] = true if deleted? attributes end # Serialize to a JSON string. # # @return [String] def to_json(options = nil) as_json.to_json(options) end # Get hash of attribute changes. The hash keys are the names of attributes that # have changed and the values are an array with [old value, new value]. The keys # will be one of key, raw_value, value_type, description, deleted, created_at, or updated_at. # # @return [Hash] def changes @changes.dup end private # Coerce a value for the appropriate value type. def coerce(value) return nil if value.respond_to?(:empty?) ? value.empty? : value.to_s.empty? case value_type when Setting::STRING value.freeze when Setting::INTEGER Integer(value) when Setting::FLOAT Float(value) when Setting::BOOLEAN Coerce.boolean(value) when Setting::DATETIME Coerce.time(value).freeze when Setting::ARRAY if value.is_a?(String) value.split(Setting::ARRAY_DELIMITER).map(&:freeze).freeze else Array(value).reject { |v| v.respond_to?(:empty?) ? v.empty? : v.to_s.empty? }.collect { |v| v.to_s.freeze }.freeze end else value.freeze end rescue ArgumentError nil end # Format the value so it can be saved as a string in the database. def serialize(value) if value.nil? || value.to_s.empty? nil elsif value.is_a?(Time) || value.is_a?(DateTime) value.utc.iso8601(6) else coerce(value.to_s) end end # Update the histories association whenever the value or key is changed. def record_value_change return unless changed?(:raw_value) || changed?(:deleted) || changed?(:key) recorded_value = (deleted? ? nil : raw_value) @record.create_history(value: recorded_value, deleted: deleted?, changed_by: changed_by, created_at: Time.now) end def clear_changes @changes = {} self.changed_by = nil end def will_change!(attribute, value) attribute = attribute.to_s change = @changes[attribute] unless change change = [send(attribute)] @changes[attribute] = change end change[1] = value # rubocop:disable Lint/UselessSetterCall end def changed?(attribute) @changes.include?(attribute.to_s) end def raw_value=(val) val = val&.to_s val = nil if val&.empty? will_change!(:raw_value, val) unless raw_value == val @raw_value = val @record.raw_value = val end def raw_value @record.raw_value end def validate! if key.to_s.empty? add_error(:key, "cannot be empty") elsif key.to_s.size > 190 add_error(:key, "must be less than 190 characters") end add_error(:value_type, "must be one of #{Setting::VALUE_TYPES.join(", ")}") unless Setting::VALUE_TYPES.include?(value_type) add_error(:value, "must be less than 4096 characters") if raw_value.to_s.size > 4096 if !raw_value.nil? && coerce(raw_value).nil? if value_type == Setting::INTEGER add_error(:value, "must be an integer") elsif value_type == Setting::FLOAT add_error(:value, "must be a number") elsif value_type == Setting::DATETIME add_error(:value, "is not a valid datetime") end end end def add_error(attribute, message) attribute = attribute.to_s attribute_errors = @errors[attribute] unless attribute_errors attribute_errors = [] @errors[attribute] = attribute_errors end attribute_errors << "#{attribute.tr("_", " ")} #{message}" end def call_after_save_callbacks self.class.after_save_blocks.each do |block| block.call(self) end end end end