import * as asn1js from "asn1js"; import { getParametersValue, clearProps } from "pvutils"; import AlgorithmIdentifier from "./AlgorithmIdentifier.js"; //************************************************************************************** /** * Class from RFC5652 */ export default class EncryptedContentInfo { //********************************************************************************** /** * Constructor for EncryptedContentInfo class * @param {Object} [parameters={}] * @param {Object} [parameters.schema] asn1js parsed value to initialize the class from */ constructor(parameters = {}) { //region Internal properties of the object /** * @type {string} * @desc contentType */ this.contentType = getParametersValue(parameters, "contentType", EncryptedContentInfo.defaultValues("contentType")); /** * @type {AlgorithmIdentifier} * @desc contentEncryptionAlgorithm */ this.contentEncryptionAlgorithm = getParametersValue(parameters, "contentEncryptionAlgorithm", EncryptedContentInfo.defaultValues("contentEncryptionAlgorithm")); if("encryptedContent" in parameters) { /** * @type {OctetString} * @desc encryptedContent (!!!) could be contructive or primitive value (!!!) */ this.encryptedContent = parameters.encryptedContent; if((this.encryptedContent.idBlock.tagClass === 1) && (this.encryptedContent.idBlock.tagNumber === 4)) { //region Divide OCTETSTRING value down to small pieces if(this.encryptedContent.idBlock.isConstructed === false) { const constrString = new asn1js.OctetString({ idBlock: { isConstructed: true }, isConstructed: true }); let offset = 0; let length = this.encryptedContent.valueBlock.valueHex.byteLength; while(length > 0) { const pieceView = new Uint8Array(this.encryptedContent.valueBlock.valueHex, offset, ((offset + 1024) > this.encryptedContent.valueBlock.valueHex.byteLength) ? (this.encryptedContent.valueBlock.valueHex.byteLength - offset) : 1024); const _array = new ArrayBuffer(pieceView.length); const _view = new Uint8Array(_array); for(let i = 0; i < _view.length; i++) _view[i] = pieceView[i]; constrString.valueBlock.value.push(new asn1js.OctetString({ valueHex: _array })); length -= pieceView.length; offset += pieceView.length; } this.encryptedContent = constrString; } //endregion } } //endregion //region If input argument array contains "schema" for this object if("schema" in parameters) this.fromSchema(parameters.schema); //endregion } //********************************************************************************** /** * Return default values for all class members * @param {string} memberName String name for a class member */ static defaultValues(memberName) { switch(memberName) { case "contentType": return ""; case "contentEncryptionAlgorithm": return new AlgorithmIdentifier(); case "encryptedContent": return new asn1js.OctetString(); default: throw new Error(`Invalid member name for EncryptedContentInfo class: ${memberName}`); } } //********************************************************************************** /** * Compare values with default values for all class members * @param {string} memberName String name for a class member * @param {*} memberValue Value to compare with default value */ static compareWithDefault(memberName, memberValue) { switch(memberName) { case "contentType": return (memberValue === ""); case "contentEncryptionAlgorithm": return ((memberValue.algorithmId === "") && (("algorithmParams" in memberValue) === false)); case "encryptedContent": return (memberValue.isEqual(EncryptedContentInfo.defaultValues(memberName))); default: throw new Error(`Invalid member name for EncryptedContentInfo class: ${memberName}`); } } //********************************************************************************** /** * Return value of pre-defined ASN.1 schema for current class * * ASN.1 schema: * ```asn1 * EncryptedContentInfo ::= SEQUENCE { * contentType ContentType, * contentEncryptionAlgorithm ContentEncryptionAlgorithmIdentifier, * encryptedContent [0] IMPLICIT EncryptedContent OPTIONAL } * * Comment: Strange, but modern crypto engines create "encryptedContent" as "[0] EXPLICIT EncryptedContent" * * EncryptedContent ::= OCTET STRING * ``` * * @param {Object} parameters Input parameters for the schema * @returns {Object} asn1js schema object */ static schema(parameters = {}) { /** * @type {Object} * @property {string} [blockName] * @property {string} [contentType] * @property {string} [contentEncryptionAlgorithm] * @property {string} [encryptedContent] */ const names = getParametersValue(parameters, "names", {}); return (new asn1js.Sequence({ name: (names.blockName || ""), value: [ new asn1js.ObjectIdentifier({ name: (names.contentType || "") }), AlgorithmIdentifier.schema(names.contentEncryptionAlgorithm || {}), // The CHOICE we need because "EncryptedContent" could have either "constructive" // or "primitive" form of encoding and we need to handle both variants new asn1js.Choice({ value: [ new asn1js.Constructed({ name: (names.encryptedContent || ""), idBlock: { tagClass: 3, // CONTEXT-SPECIFIC tagNumber: 0 // [0] }, value: [ new asn1js.Repeated({ value: new asn1js.OctetString() }) ] }), new asn1js.Primitive({ name: (names.encryptedContent || ""), idBlock: { tagClass: 3, // CONTEXT-SPECIFIC tagNumber: 0 // [0] } }) ] }) ] })); } //********************************************************************************** /** * Convert parsed asn1js object into current class * @param {!Object} schema */ fromSchema(schema) { //region Clear input data first clearProps(schema, [ "contentType", "contentEncryptionAlgorithm", "encryptedContent" ]); //endregion //region Check the schema is valid const asn1 = asn1js.compareSchema(schema, schema, EncryptedContentInfo.schema({ names: { contentType: "contentType", contentEncryptionAlgorithm: { names: { blockName: "contentEncryptionAlgorithm" } }, encryptedContent: "encryptedContent" } }) ); if(asn1.verified === false) throw new Error("Object's schema was not verified against input data for EncryptedContentInfo"); //endregion //region Get internal properties from parsed schema this.contentType = asn1.result.contentType.valueBlock.toString(); this.contentEncryptionAlgorithm = new AlgorithmIdentifier({ schema: asn1.result.contentEncryptionAlgorithm }); if("encryptedContent" in asn1.result) { this.encryptedContent = asn1.result.encryptedContent; this.encryptedContent.idBlock.tagClass = 1; // UNIVERSAL this.encryptedContent.idBlock.tagNumber = 4; // OCTETSTRING (!!!) The value still has instance of "in_window.org.pkijs.asn1.ASN1_CONSTRUCTED / ASN1_PRIMITIVE" } //endregion } //********************************************************************************** /** * Convert current object to asn1js object and set correct values * @returns {Object} asn1js object */ toSchema() { //region Create array for output sequence const sequenceLengthBlock = { isIndefiniteForm: false }; const outputArray = []; outputArray.push(new asn1js.ObjectIdentifier({ value: this.contentType })); outputArray.push(this.contentEncryptionAlgorithm.toSchema()); if("encryptedContent" in this) { sequenceLengthBlock.isIndefiniteForm = this.encryptedContent.idBlock.isConstructed; const encryptedValue = this.encryptedContent; encryptedValue.idBlock.tagClass = 3; // CONTEXT-SPECIFIC encryptedValue.idBlock.tagNumber = 0; // [0] encryptedValue.lenBlock.isIndefiniteForm = this.encryptedContent.idBlock.isConstructed; outputArray.push(encryptedValue); } //endregion //region Construct and return new ASN.1 schema for this object return (new asn1js.Sequence({ lenBlock: sequenceLengthBlock, value: outputArray })); //endregion } //********************************************************************************** /** * Convertion for the class to JSON object * @returns {Object} */ toJSON() { const _object = { contentType: this.contentType, contentEncryptionAlgorithm: this.contentEncryptionAlgorithm.toJSON() }; if("encryptedContent" in this) _object.encryptedContent = this.encryptedContent.toJSON(); return _object; } //********************************************************************************** } //**************************************************************************************