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import * as asn1js from "asn1js";
import * as pvutils from "pvutils";
import * as common from "./common";
import { AlgorithmIdentifier, AlgorithmIdentifierJson, AlgorithmIdentifierSchema } from "./AlgorithmIdentifier";
import { ECPublicKey } from "./ECPublicKey";
import { RSAPublicKey } from "./RSAPublicKey";
import * as Schema from "./Schema";
import { PkiObject, PkiObjectParameters } from "./PkiObject";
import { AsnError } from "./errors";
import { EMPTY_STRING } from "./constants";
const ALGORITHM = "algorithm";
const SUBJECT_PUBLIC_KEY = "subjectPublicKey";
const CLEAR_PROPS = [ALGORITHM, SUBJECT_PUBLIC_KEY];
export interface IPublicKeyInfo {
/**
* Algorithm identifier
*/
algorithm: AlgorithmIdentifier;
/**
* Subject public key value
*/
subjectPublicKey: asn1js.BitString;
/**
* Parsed public key value
*/
parsedKey?: ECPublicKey | RSAPublicKey;
}
export type PublicKeyInfoParameters = PkiObjectParameters & Partial<IPublicKeyInfo> & { json?: JsonWebKey; };
export interface PublicKeyInfoJson {
algorithm: AlgorithmIdentifierJson;
subjectPublicKey: asn1js.BitStringJson;
}
export type PublicKeyInfoSchema = Schema.SchemaParameters<{
algorithm?: AlgorithmIdentifierSchema;
subjectPublicKey?: string;
}>;
/**
* Represents the PublicKeyInfo structure described in [RFC5280](https://datatracker.ietf.org/doc/html/rfc5280)
*/
export class PublicKeyInfo extends PkiObject implements IPublicKeyInfo {
public static override CLASS_NAME = "PublicKeyInfo";
public algorithm!: AlgorithmIdentifier;
public subjectPublicKey!: asn1js.BitString;
private _parsedKey?: ECPublicKey | RSAPublicKey | null;
public get parsedKey(): ECPublicKey | RSAPublicKey | undefined {
if (this._parsedKey === undefined) {
switch (this.algorithm.algorithmId) {
// TODO Use fabric
case "1.2.840.10045.2.1": // ECDSA
if ("algorithmParams" in this.algorithm) {
if (this.algorithm.algorithmParams.constructor.blockName() === asn1js.ObjectIdentifier.blockName()) {
try {
this._parsedKey = new ECPublicKey({
namedCurve: this.algorithm.algorithmParams.valueBlock.toString(),
schema: this.subjectPublicKey.valueBlock.valueHexView
});
}
catch (ex) {
// nothing
} // Could be a problems during recognition of internal public key data here. Let's ignore them.
}
}
break;
case "1.2.840.113549.1.1.1": // RSA
{
const publicKeyASN1 = asn1js.fromBER(this.subjectPublicKey.valueBlock.valueHexView);
if (publicKeyASN1.offset !== -1) {
try {
this._parsedKey = new RSAPublicKey({ schema: publicKeyASN1.result });
}
catch (ex) {
// nothing
} // Could be a problems during recognition of internal public key data here. Let's ignore them.
}
}
break;
default:
}
this._parsedKey ||= null;
}
return this._parsedKey || undefined;
}
public set parsedKey(value: ECPublicKey | RSAPublicKey | undefined) {
this._parsedKey = value;
}
/**
* Initializes a new instance of the {@link PublicKeyInfo} class
* @param parameters Initialization parameters
*/
constructor(parameters: PublicKeyInfoParameters = {}) {
super();
this.algorithm = pvutils.getParametersValue(parameters, ALGORITHM, PublicKeyInfo.defaultValues(ALGORITHM));
this.subjectPublicKey = pvutils.getParametersValue(parameters, SUBJECT_PUBLIC_KEY, PublicKeyInfo.defaultValues(SUBJECT_PUBLIC_KEY));
const parsedKey = pvutils.getParametersValue(parameters, "parsedKey", null);
if (parsedKey) {
this.parsedKey = parsedKey;
}
if (parameters.json) {
this.fromJSON(parameters.json);
}
if (parameters.schema) {
this.fromSchema(parameters.schema);
}
}
/**
* Returns default values for all class members
* @param memberName String name for a class member
* @returns Default value
*/
public static override defaultValues(memberName: typeof ALGORITHM): AlgorithmIdentifier;
public static override defaultValues(memberName: typeof SUBJECT_PUBLIC_KEY): asn1js.BitString;
public static override defaultValues(memberName: string): any {
switch (memberName) {
case ALGORITHM:
return new AlgorithmIdentifier();
case SUBJECT_PUBLIC_KEY:
return new asn1js.BitString();
default:
return super.defaultValues(memberName);
}
}
/**
* @inheritdoc
* @asn ASN.1 schema
* ```asn
* SubjectPublicKeyInfo ::= Sequence {
* algorithm AlgorithmIdentifier,
* subjectPublicKey BIT STRING }
*```
*/
public static override schema(parameters: PublicKeyInfoSchema = {}): Schema.SchemaType {
const names = pvutils.getParametersValue<NonNullable<typeof parameters.names>>(parameters, "names", {});
return (new asn1js.Sequence({
name: (names.blockName || EMPTY_STRING),
value: [
AlgorithmIdentifier.schema(names.algorithm || {}),
new asn1js.BitString({ name: (names.subjectPublicKey || EMPTY_STRING) })
]
}));
}
public fromSchema(schema: Schema.SchemaType): void {
// Clear input data first
pvutils.clearProps(schema, CLEAR_PROPS);
// Check the schema is valid
const asn1 = asn1js.compareSchema(schema,
schema,
PublicKeyInfo.schema({
names: {
algorithm: {
names: {
blockName: ALGORITHM
}
},
subjectPublicKey: SUBJECT_PUBLIC_KEY
}
})
);
AsnError.assertSchema(asn1, this.className);
//#region Get internal properties from parsed schema
this.algorithm = new AlgorithmIdentifier({ schema: asn1.result.algorithm });
this.subjectPublicKey = asn1.result.subjectPublicKey;
//#endregion
}
public toSchema(): asn1js.Sequence {
return (new asn1js.Sequence({
value: [
this.algorithm.toSchema(),
this.subjectPublicKey
]
}));
}
public toJSON(): PublicKeyInfoJson | JsonWebKey {
//#region Return common value in case we do not have enough info fo making JWK
if (!this.parsedKey) {
return {
algorithm: this.algorithm.toJSON(),
subjectPublicKey: this.subjectPublicKey.toJSON(),
};
}
//#endregion
//#region Making JWK
const jwk: JsonWebKey = {};
switch (this.algorithm.algorithmId) {
case "1.2.840.10045.2.1": // ECDSA
jwk.kty = "EC";
break;
case "1.2.840.113549.1.1.1": // RSA
jwk.kty = "RSA";
break;
default:
}
const publicKeyJWK = this.parsedKey.toJSON();
Object.assign(jwk, publicKeyJWK);
return jwk;
//#endregion
}
/**
* Converts JSON value into current object
* @param json JSON object
*/
public fromJSON(json: any): void {
if ("kty" in json) {
switch (json.kty.toUpperCase()) {
case "EC":
this.parsedKey = new ECPublicKey({ json });
this.algorithm = new AlgorithmIdentifier({
algorithmId: "1.2.840.10045.2.1",
algorithmParams: new asn1js.ObjectIdentifier({ value: this.parsedKey.namedCurve })
});
break;
case "RSA":
this.parsedKey = new RSAPublicKey({ json });
this.algorithm = new AlgorithmIdentifier({
algorithmId: "1.2.840.113549.1.1.1",
algorithmParams: new asn1js.Null()
});
break;
default:
throw new Error(`Invalid value for "kty" parameter: ${json.kty}`);
}
this.subjectPublicKey = new asn1js.BitString({ valueHex: this.parsedKey.toSchema().toBER(false) });
}
}
public async importKey(publicKey: CryptoKey, crypto = common.getCrypto(true)): Promise<void> {
try {
if (!publicKey) {
throw new Error("Need to provide publicKey input parameter");
}
const exportedKey = await crypto.exportKey("spki", publicKey);
const asn1 = asn1js.fromBER(exportedKey);
try {
this.fromSchema(asn1.result);
}
catch (exception) {
throw new Error("Error during initializing object from schema");
}
} catch (e) {
const message = e instanceof Error ? e.message : `${e}`;
throw new Error(`Error during exporting public key: ${message}`);
}
}
}
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