pkijs/build/RSAPrivateKey.js

Public Key Infrastructure (PKI) is the basis of how identity and key management is performed on the web today. PKIjs is a pure JavaScript library implementing the formats that are used in PKI applications. It is built on WebCrypto and aspires to make it p

"use strict";

Object.defineProperty(exports, "__esModule", {
	value: true
});

var _createClass = function () { function defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps); if (staticProps) defineProperties(Constructor, staticProps); return Constructor; }; }();

var _asn1js = require("asn1js");

var asn1js = _interopRequireWildcard(_asn1js);

var _pvutils = require("pvutils");

var _OtherPrimeInfo = require("./OtherPrimeInfo.js");

var _OtherPrimeInfo2 = _interopRequireDefault(_OtherPrimeInfo);

function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }

function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } else { var newObj = {}; if (obj != null) { for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) newObj[key] = obj[key]; } } newObj.default = obj; return newObj; } }

function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } }

//**************************************************************************************
/**
 * Class from RFC3447
 */
var RSAPrivateKey = function () {
	//**********************************************************************************
	/**
  * Constructor for RSAPrivateKey class
  * @param {Object} [parameters={}]
  * @property {Object} [schema] asn1js parsed value
  */
	function RSAPrivateKey() {
		var parameters = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {};

		_classCallCheck(this, RSAPrivateKey);

		//region Internal properties of the object
		/**
   * @type {number}
   * @description version
   */
		this.version = (0, _pvutils.getParametersValue)(parameters, "version", RSAPrivateKey.defaultValues("version"));
		/**
   * @type {Integer}
   * @description modulus
   */
		this.modulus = (0, _pvutils.getParametersValue)(parameters, "modulus", RSAPrivateKey.defaultValues("modulus"));
		/**
   * @type {Integer}
   * @description publicExponent
   */
		this.publicExponent = (0, _pvutils.getParametersValue)(parameters, "publicExponent", RSAPrivateKey.defaultValues("publicExponent"));
		/**
   * @type {Integer}
   * @description privateExponent
   */
		this.privateExponent = (0, _pvutils.getParametersValue)(parameters, "privateExponent", RSAPrivateKey.defaultValues("privateExponent"));
		/**
   * @type {Integer}
   * @description prime1
   */
		this.prime1 = (0, _pvutils.getParametersValue)(parameters, "prime1", RSAPrivateKey.defaultValues("prime1"));
		/**
   * @type {Integer}
   * @description prime2
   */
		this.prime2 = (0, _pvutils.getParametersValue)(parameters, "prime2", RSAPrivateKey.defaultValues("prime2"));
		/**
   * @type {Integer}
   * @description exponent1
   */
		this.exponent1 = (0, _pvutils.getParametersValue)(parameters, "exponent1", RSAPrivateKey.defaultValues("exponent1"));
		/**
   * @type {Integer}
   * @description exponent2
   */
		this.exponent2 = (0, _pvutils.getParametersValue)(parameters, "exponent2", RSAPrivateKey.defaultValues("exponent2"));
		/**
   * @type {Integer}
   * @description coefficient
   */
		this.coefficient = (0, _pvutils.getParametersValue)(parameters, "coefficient", RSAPrivateKey.defaultValues("coefficient"));

		if ("otherPrimeInfos" in parameters)
			/**
    * @type {Array.<OtherPrimeInfo>}
    * @description otherPrimeInfos
    */
			this.otherPrimeInfos = (0, _pvutils.getParametersValue)(parameters, "otherPrimeInfos", RSAPrivateKey.defaultValues("otherPrimeInfos"));
		//endregion

		//region If input argument array contains "schema" for this object
		if ("schema" in parameters) this.fromSchema(parameters.schema);
		//endregion
		//region If input argument array contains "json" for this object
		if ("json" in parameters) this.fromJSON(parameters.json);
		//endregion
	}
	//**********************************************************************************
	/**
  * Return default values for all class members
  * @param {string} memberName String name for a class member
  */


	_createClass(RSAPrivateKey, [{
		key: "fromSchema",

		//**********************************************************************************
		/**
   * Convert parsed asn1js object into current class
   * @param {!Object} schema
   */
		value: function fromSchema(schema) {
			//region Check the schema is valid
			var asn1 = asn1js.compareSchema(schema, schema, RSAPrivateKey.schema({
				names: {
					version: "version",
					modulus: "modulus",
					publicExponent: "publicExponent",
					privateExponent: "privateExponent",
					prime1: "prime1",
					prime2: "prime2",
					exponent1: "exponent1",
					exponent2: "exponent2",
					coefficient: "coefficient",
					otherPrimeInfo: {
						names: {
							blockName: "otherPrimeInfos"
						}
					}
				}
			}));

			if (asn1.verified === false) throw new Error("Object's schema was not verified against input data for RSAPrivateKey");
			//endregion

			//region Get internal properties from parsed schema
			this.version = asn1.result.version.valueBlock.valueDec;
			this.modulus = asn1.result.modulus.convertFromDER(256);
			this.publicExponent = asn1.result.publicExponent;
			this.privateExponent = asn1.result.privateExponent.convertFromDER(256);
			this.prime1 = asn1.result.prime1.convertFromDER(128);
			this.prime2 = asn1.result.prime2.convertFromDER(128);
			this.exponent1 = asn1.result.exponent1.convertFromDER(128);
			this.exponent2 = asn1.result.exponent2.convertFromDER(128);
			this.coefficient = asn1.result.coefficient.convertFromDER(128);

			if ("otherPrimeInfos" in asn1.result) this.otherPrimeInfos = Array.from(asn1.result.otherPrimeInfos, function (element) {
				return new _OtherPrimeInfo2.default({ schema: element });
			});
			//endregion
		}
		//**********************************************************************************
		/**
   * Convert current object to asn1js object and set correct values
   * @returns {Object} asn1js object
   */

	}, {
		key: "toSchema",
		value: function toSchema() {
			//region Create array for output sequence
			var outputArray = [];

			outputArray.push(new asn1js.Integer({ value: this.version }));
			outputArray.push(this.modulus.convertToDER());
			outputArray.push(this.publicExponent);
			outputArray.push(this.privateExponent.convertToDER());
			outputArray.push(this.prime1.convertToDER());
			outputArray.push(this.prime2.convertToDER());
			outputArray.push(this.exponent1.convertToDER());
			outputArray.push(this.exponent2.convertToDER());
			outputArray.push(this.coefficient.convertToDER());

			if ("otherPrimeInfos" in this) {
				outputArray.push(new asn1js.Sequence({
					value: Array.from(this.otherPrimeInfos, function (element) {
						return element.toSchema();
					})
				}));
			}
			//endregion

			//region Construct and return new ASN.1 schema for this object
			return new asn1js.Sequence({
				value: outputArray
			});
			//endregion
		}
		//**********************************************************************************
		/**
   * Convertion for the class to JSON object
   * @returns {Object}
   */

	}, {
		key: "toJSON",
		value: function toJSON() {
			var jwk = {
				n: (0, _pvutils.toBase64)((0, _pvutils.arrayBufferToString)(this.modulus.valueBlock.valueHex), true, true, true),
				e: (0, _pvutils.toBase64)((0, _pvutils.arrayBufferToString)(this.publicExponent.valueBlock.valueHex), true, true, true),
				d: (0, _pvutils.toBase64)((0, _pvutils.arrayBufferToString)(this.privateExponent.valueBlock.valueHex), true, true, true),
				p: (0, _pvutils.toBase64)((0, _pvutils.arrayBufferToString)(this.prime1.valueBlock.valueHex), true, true, true),
				q: (0, _pvutils.toBase64)((0, _pvutils.arrayBufferToString)(this.prime2.valueBlock.valueHex), true, true, true),
				dp: (0, _pvutils.toBase64)((0, _pvutils.arrayBufferToString)(this.exponent1.valueBlock.valueHex), true, true, true),
				dq: (0, _pvutils.toBase64)((0, _pvutils.arrayBufferToString)(this.exponent2.valueBlock.valueHex), true, true, true),
				qi: (0, _pvutils.toBase64)((0, _pvutils.arrayBufferToString)(this.coefficient.valueBlock.valueHex), true, true, true)
			};

			if ("otherPrimeInfos" in this) jwk.oth = Array.from(this.otherPrimeInfos, function (element) {
				return element.toJSON();
			});

			return jwk;
		}
		//**********************************************************************************
		/**
   * Convert JSON value into current object
   * @param {Object} json
   */

	}, {
		key: "fromJSON",
		value: function fromJSON(json) {
			if ("n" in json) this.modulus = new asn1js.Integer({ valueHex: (0, _pvutils.stringToArrayBuffer)((0, _pvutils.fromBase64)(json.n, true, true)) });else throw new Error("Absent mandatory parameter \"n\"");

			if ("e" in json) this.publicExponent = new asn1js.Integer({ valueHex: (0, _pvutils.stringToArrayBuffer)((0, _pvutils.fromBase64)(json.e, true, true)) });else throw new Error("Absent mandatory parameter \"e\"");

			if ("d" in json) this.privateExponent = new asn1js.Integer({ valueHex: (0, _pvutils.stringToArrayBuffer)((0, _pvutils.fromBase64)(json.d, true, true)) });else throw new Error("Absent mandatory parameter \"d\"");

			if ("p" in json) this.prime1 = new asn1js.Integer({ valueHex: (0, _pvutils.stringToArrayBuffer)((0, _pvutils.fromBase64)(json.p, true, true)) });else throw new Error("Absent mandatory parameter \"p\"");

			if ("q" in json) this.prime2 = new asn1js.Integer({ valueHex: (0, _pvutils.stringToArrayBuffer)((0, _pvutils.fromBase64)(json.q, true, true)) });else throw new Error("Absent mandatory parameter \"q\"");

			if ("dp" in json) this.exponent1 = new asn1js.Integer({ valueHex: (0, _pvutils.stringToArrayBuffer)((0, _pvutils.fromBase64)(json.dp, true, true)) });else throw new Error("Absent mandatory parameter \"dp\"");

			if ("dq" in json) this.exponent2 = new asn1js.Integer({ valueHex: (0, _pvutils.stringToArrayBuffer)((0, _pvutils.fromBase64)(json.dq, true, true)) });else throw new Error("Absent mandatory parameter \"dq\"");

			if ("qi" in json) this.coefficient = new asn1js.Integer({ valueHex: (0, _pvutils.stringToArrayBuffer)((0, _pvutils.fromBase64)(json.qi, true, true)) });else throw new Error("Absent mandatory parameter \"qi\"");

			if ("oth" in json) this.otherPrimeInfos = Array.from(json.oth, function (element) {
				return new _OtherPrimeInfo2.default({ json: element });
			});
		}
		//**********************************************************************************

	}], [{
		key: "defaultValues",
		value: function defaultValues(memberName) {
			switch (memberName) {
				case "version":
					return 0;
				case "modulus":
					return new asn1js.Integer();
				case "publicExponent":
					return new asn1js.Integer();
				case "privateExponent":
					return new asn1js.Integer();
				case "prime1":
					return new asn1js.Integer();
				case "prime2":
					return new asn1js.Integer();
				case "exponent1":
					return new asn1js.Integer();
				case "exponent2":
					return new asn1js.Integer();
				case "coefficient":
					return new asn1js.Integer();
				case "otherPrimeInfos":
					return [];
				default:
					throw new Error("Invalid member name for RSAPrivateKey class: " + memberName);
			}
		}
		//**********************************************************************************
		/**
   * Return value of asn1js schema for current class
   * @param {Object} parameters Input parameters for the schema
   * @returns {Object} asn1js schema object
   */

	}, {
		key: "schema",
		value: function schema() {
			var parameters = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {};

			//RSAPrivateKey ::= Sequence {
			//    version           Version,
			//    modulus           Integer,  -- n
			//    publicExponent    Integer,  -- e
			//    privateExponent   Integer,  -- d
			//    prime1            Integer,  -- p
			//    prime2            Integer,  -- q
			//    exponent1         Integer,  -- d mod (p-1)
			//    exponent2         Integer,  -- d mod (q-1)
			//    coefficient       Integer,  -- (inverse of q) mod p
			//    otherPrimeInfos   OtherPrimeInfos OPTIONAL
			//}
			//
			//OtherPrimeInfos ::= Sequence SIZE(1..MAX) OF OtherPrimeInfo

			/**
    * @type {Object}
    * @property {string} [blockName]
    * @property {string} [version]
    * @property {string} [modulus]
    * @property {string} [publicExponent]
    * @property {string} [privateExponent]
    * @property {string} [prime1]
    * @property {string} [prime2]
    * @property {string} [exponent1]
    * @property {string} [exponent2]
    * @property {string} [coefficient]
    * @property {string} [otherPrimeInfosName]
    * @property {Object} [otherPrimeInfo]
    */
			var names = (0, _pvutils.getParametersValue)(parameters, "names", {});

			return new asn1js.Sequence({
				name: names.blockName || "",
				value: [new asn1js.Integer({ name: names.version || "" }), new asn1js.Integer({ name: names.modulus || "" }), new asn1js.Integer({ name: names.publicExponent || "" }), new asn1js.Integer({ name: names.privateExponent || "" }), new asn1js.Integer({ name: names.prime1 || "" }), new asn1js.Integer({ name: names.prime2 || "" }), new asn1js.Integer({ name: names.exponent1 || "" }), new asn1js.Integer({ name: names.exponent2 || "" }), new asn1js.Integer({ name: names.coefficient || "" }), new asn1js.Sequence({
					optional: true,
					value: [new asn1js.Repeated({
						name: names.otherPrimeInfosName || "",
						value: _OtherPrimeInfo2.default.schema(names.otherPrimeInfo || {})
					})]
				})]
			});
		}
	}]);

	return RSAPrivateKey;
}();
//**************************************************************************************


exports.default = RSAPrivateKey;
//# sourceMappingURL=RSAPrivateKey.js.map