# frozen_string_literal: true require "cgi" module Stripe module Util # Options that a user is allowed to specify. OPTS_USER_SPECIFIED = Set[ :api_key, :idempotency_key, :stripe_account, :stripe_version ].freeze # Options that should be copyable from one StripeObject to another # including options that may be internal. OPTS_COPYABLE = ( OPTS_USER_SPECIFIED + Set[:api_base] ).freeze # Options that should be persisted between API requests. This includes # client, which is an object containing an HTTP client to reuse. OPTS_PERSISTABLE = ( OPTS_USER_SPECIFIED + Set[:client] - Set[:idempotency_key] ).freeze def self.objects_to_ids(obj) case obj when APIResource obj.id when Hash res = {} obj.each { |k, v| res[k] = objects_to_ids(v) unless v.nil? } res when Array obj.map { |v| objects_to_ids(v) } else obj end end def self.object_classes @object_classes ||= Stripe::ObjectTypes.object_names_to_classes end def self.object_name_matches_class?(object_name, klass) Util.object_classes[object_name] == klass end # Converts a hash of fields or an array of hashes into a +StripeObject+ or # array of +StripeObject+s. These new objects will be created as a concrete # type as dictated by their `object` field (e.g. an `object` value of # `charge` would create an instance of +Charge+), but if `object` is not # present or of an unknown type, the newly created instance will fall back # to being a +StripeObject+. # # ==== Attributes # # * +data+ - Hash of fields and values to be converted into a StripeObject. # * +opts+ - Options for +StripeObject+ like an API key that will be reused # on subsequent API calls. def self.convert_to_stripe_object(data, opts = {}) opts = normalize_opts(opts) case data when Array data.map { |i| convert_to_stripe_object(i, opts) } when Hash # Try converting to a known object class. If none available, fall back # to generic StripeObject object_classes.fetch(data[:object], StripeObject) .construct_from(data, opts) else data end end def self.log_error(message, data = {}) config = data.delete(:config) || Stripe.config logger = config.logger || Stripe.logger if !logger.nil? || !config.log_level.nil? && config.log_level <= Stripe::LEVEL_ERROR log_internal(message, data, color: :cyan, level: Stripe::LEVEL_ERROR, logger: Stripe.logger, out: $stderr) end end def self.log_info(message, data = {}) config = data.delete(:config) || Stripe.config logger = config.logger || Stripe.logger if !logger.nil? || !config.log_level.nil? && config.log_level <= Stripe::LEVEL_INFO log_internal(message, data, color: :cyan, level: Stripe::LEVEL_INFO, logger: Stripe.logger, out: $stdout) end end def self.log_debug(message, data = {}) config = data.delete(:config) || Stripe.config logger = config.logger || Stripe.logger if !logger.nil? || !config.log_level.nil? && config.log_level <= Stripe::LEVEL_DEBUG log_internal(message, data, color: :blue, level: Stripe::LEVEL_DEBUG, logger: Stripe.logger, out: $stdout) end end def self.symbolize_names(object) case object when Hash new_hash = {} object.each do |key, value| key = (begin key.to_sym rescue StandardError key end) || key new_hash[key] = symbolize_names(value) end new_hash when Array object.map { |value| symbolize_names(value) } else object end end # Encodes a hash of parameters in a way that's suitable for use as query # parameters in a URI or as form parameters in a request body. This mainly # involves escaping special characters from parameter keys and values (e.g. # `&`). def self.encode_parameters(params) Util.flatten_params(params) .map { |k, v| "#{url_encode(k)}=#{url_encode(v)}" }.join("&") end # Encodes a string in a way that makes it suitable for use in a set of # query parameters in a URI or in a set of form parameters in a request # body. def self.url_encode(key) CGI.escape(key.to_s). # Don't use strict form encoding by changing the square bracket control # characters back to their literals. This is fine by the server, and # makes these parameter strings easier to read. gsub("%5B", "[").gsub("%5D", "]") end def self.flatten_params(params, parent_key = nil) result = [] # do not sort the final output because arrays (and arrays of hashes # especially) can be order sensitive, but do sort incoming parameters params.each do |key, value| calculated_key = parent_key ? "#{parent_key}[#{key}]" : key.to_s if value.is_a?(Hash) result += flatten_params(value, calculated_key) elsif value.is_a?(Array) result += flatten_params_array(value, calculated_key) else result << [calculated_key, value] end end result end def self.flatten_params_array(value, calculated_key) result = [] value.each_with_index do |elem, i| if elem.is_a?(Hash) result += flatten_params(elem, "#{calculated_key}[#{i}]") elsif elem.is_a?(Array) result += flatten_params_array(elem, calculated_key) else result << ["#{calculated_key}[#{i}]", elem] end end result end # `Time.now` can be unstable in cases like an administrator manually # updating its value or a reconcilation via NTP. For this reason, prefer # the use of the system's monotonic clock especially where comparing times # to calculate an elapsed duration. # # Shortcut for getting monotonic time, mostly for purposes of line length # and test stubbing. Returns time in seconds since the event used for # monotonic reference purposes by the platform (e.g. system boot time). def self.monotonic_time Process.clock_gettime(Process::CLOCK_MONOTONIC) end def self.normalize_id(id) if id.is_a?(Hash) # overloaded id params_hash = id.dup id = params_hash.delete(:id) else params_hash = {} end [id, params_hash] end # The secondary opts argument can either be a string or hash # Turn this value into an api_key and a set of headers def self.normalize_opts(opts) case opts when String { api_key: opts } when Hash check_api_key!(opts.fetch(:api_key)) if opts.key?(:api_key) # Explicitly use dup here instead of clone to avoid preserving freeze # state on input params. opts.dup else raise TypeError, "normalize_opts expects a string or a hash" end end def self.check_string_argument!(key) raise TypeError, "argument must be a string" unless key.is_a?(String) key end def self.check_api_key!(key) raise TypeError, "api_key must be a string" unless key.is_a?(String) key end # Normalizes header keys so that they're all lower case and each # hyphen-delimited section starts with a single capitalized letter. For # example, `request-id` becomes `Request-Id`. This is useful for extracting # certain key values when the user could have set them with a variety of # diffent naming schemes. def self.normalize_headers(headers) headers.each_with_object({}) do |(k, v), new_headers| k = k.to_s.tr("_", "-") if k.is_a?(Symbol) k = k.split("-").reject(&:empty?).map(&:capitalize).join("-") new_headers[k] = v end end # Generates a Dashboard link to inspect a request ID based off of a request # ID value and an API key, which is used to attempt to extract whether the # environment is livemode or testmode. def self.request_id_dashboard_url(request_id, api_key) env = !api_key.nil? && api_key.start_with?("sk_live") ? "live" : "test" "https://dashboard.stripe.com/#{env}/logs/#{request_id}" end # Constant time string comparison to prevent timing attacks # Code borrowed from ActiveSupport def self.secure_compare(str_a, str_b) return false unless str_a.bytesize == str_b.bytesize l = str_a.unpack "C#{str_a.bytesize}" res = 0 str_b.each_byte { |byte| res |= byte ^ l.shift } res.zero? end # # private # COLOR_CODES = { black: 0, light_black: 60, red: 1, light_red: 61, green: 2, light_green: 62, yellow: 3, light_yellow: 63, blue: 4, light_blue: 64, magenta: 5, light_magenta: 65, cyan: 6, light_cyan: 66, white: 7, light_white: 67, default: 9, }.freeze private_constant :COLOR_CODES # Uses an ANSI escape code to colorize text if it's going to be sent to a # TTY. def self.colorize(val, color, isatty) return val unless isatty mode = 0 # default foreground = 30 + COLOR_CODES.fetch(color) background = 40 + COLOR_CODES.fetch(:default) "\033[#{mode};#{foreground};#{background}m#{val}\033[0m" end private_class_method :colorize # Turns an integer log level into a printable name. def self.level_name(level) case level when LEVEL_DEBUG then "debug" when LEVEL_ERROR then "error" when LEVEL_INFO then "info" else level end end private_class_method :level_name def self.log_internal(message, data = {}, color:, level:, logger:, out:) data_str = data.reject { |_k, v| v.nil? } .map do |(k, v)| format("%s=%s", key: colorize(k, color, logger.nil? && !out.nil? && out.isatty), value: wrap_logfmt_value(v)) end.join(" ") if !logger.nil? # the library's log levels are mapped to the same values as the # standard library's logger logger.log(level, format("message=%s %s", message: wrap_logfmt_value(message), data_str: data_str)) elsif out.isatty out.puts format("%s %s %s", level: colorize(level_name(level)[0, 4].upcase, color, out.isatty), message: message, data_str: data_str) else out.puts format("message=%s level=%s %s", message: wrap_logfmt_value(message), level: level_name(level), data_str: data_str) end end private_class_method :log_internal # Wraps a value in double quotes if it looks sufficiently complex so that # it can be read by logfmt parsers. def self.wrap_logfmt_value(val) # If value is any kind of number, just allow it to be formatted directly # to a string (this will handle integers or floats). return val if val.is_a?(Numeric) # Hopefully val is a string, but protect in case it's not. val = val.to_s if %r{[^\w\-/]} =~ val # If the string contains any special characters, escape any double # quotes it has, remove newlines, and wrap the whole thing in quotes. format(%("%s"), value: val.gsub('"', '\"').delete("\n")) else # Otherwise use the basic value if it looks like a standard set of # characters (and allow a few special characters like hyphens, and # slashes) val end end private_class_method :wrap_logfmt_value end end