Merge pull request #16 from PeculiarVentures/update

Update
This commit is contained in:
Miroshin Stepan 2020-03-15 12:34:44 +03:00 committed by GitHub
commit ae9ac92c9e
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GPG Key ID: 4AEE18F83AFDEB23
41 changed files with 1623 additions and 318 deletions

30
.eslintrc.json Normal file
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@ -0,0 +1,30 @@
{
"parser": "@typescript-eslint/parser",
"plugins": [
"@typescript-eslint"
],
"extends": [
"eslint:recommended",
"plugin:@typescript-eslint/eslint-recommended",
"plugin:@typescript-eslint/recommended",
"plugin:import/errors",
"plugin:import/warnings",
"plugin:import/typescript"
],
"rules": {
"@typescript-eslint/ban-ts-ignore": 0,
"@typescript-eslint/camelcase": 0,
"@typescript-eslint/explicit-function-return-type": 0,
"@typescript-eslint/interface-name-prefix": 0,
"@typescript-eslint/no-explicit-any": 0,
"@typescript-eslint/semi": 1,
"semi": "off",
"import/order": ["error", {
"groups": ["builtin", "external", "internal"],
"alphabetize": {
"order": "asc",
"caseInsensitive": true
}
}]
}
}

1389
package-lock.json generated

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@ -18,8 +18,8 @@
"clear": "rimraf build/*",
"rebuild": "npm run clear && npm run build",
"build:module": "rollup -c",
"lint": "tslint -p .",
"lint:fix": "tslint --fix -p .",
"lint": "eslint . --ext .ts",
"lint:fix": "eslint --fix . --ext .ts",
"prepub": "npm run lint && npm run rebuild",
"pub": "npm version patch && npm publish",
"postpub": "git push && git push --tags origin master",
@ -47,18 +47,21 @@
"url": "https://github.com/PeculiarVentures/webcrypto/issues"
},
"homepage": "https://github.com/PeculiarVentures/webcrypto#readme",
"banner": "// Copyright (c) 2019, Peculiar Ventures, All rights reserved.",
"banner": "// Copyright (c) 2020, Peculiar Ventures, All rights reserved.",
"devDependencies": {
"@types/mocha": "^5.2.7",
"@types/node": "^12.12.29",
"@types/mocha": "^7.0.2",
"@types/node": "^12.12.30",
"@typescript-eslint/eslint-plugin": "^2.23.0",
"@typescript-eslint/parser": "^2.23.0",
"coveralls": "^3.0.9",
"mocha": "^6.2.2",
"eslint": "^6.8.0",
"eslint-plugin-import": "^2.20.1",
"mocha": "^7.1.0",
"nyc": "^14.1.1",
"rimraf": "^3.0.2",
"rollup": "^1.32.1",
"rollup-plugin-typescript2": "^0.25.3",
"rollup": "^2.0.6",
"rollup-plugin-typescript2": "^0.26.0",
"ts-node": "^8.6.2",
"tslint": "^5.20.1",
"typescript": "^3.8.3"
},
"dependencies": {
@ -87,5 +90,10 @@
},
"engines": {
"node": ">=10.12.0"
},
"mocha": {
"require": "ts-node/register",
"extension": ["ts"],
"files": "test/**/*.ts"
}
}

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@ -1,4 +1,4 @@
import { AsnIntegerConverter, AsnParser, AsnProp, AsnPropTypes, AsnSerializer, IAsnConverter } from "@peculiar/asn1-schema";
import { AsnIntegerConverter, AsnProp, AsnPropTypes, AsnSerializer } from "@peculiar/asn1-schema";
import { IJsonConvertible } from "@peculiar/json-schema";
import { Convert } from "pvtsutils";
import { EcPublicKey } from "./ec_public_key";

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@ -1,4 +1,4 @@
import { AsnIntegerArrayBufferConverter, AsnProp, AsnPropTypes, IAsnConverter } from "@peculiar/asn1-schema";
import { AsnProp, AsnPropTypes, IAsnConverter } from "@peculiar/asn1-schema";
// @ts-ignore
import * as asn1 from "asn1js";

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@ -1,2 +1,2 @@
export { CryptoKey } from "./keys";
export { CryptoKey } from "webcrypto-core";
export { Crypto } from "./crypto";

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@ -7,7 +7,7 @@ export class CryptoKey extends core.CryptoKey {
public algorithm: KeyAlgorithm = { name: "" };
@JsonProp({ name: "ext", type: JsonPropTypes.Boolean, optional: true })
public extractable: boolean = false;
public extractable = false;
public type: KeyType = "secret";
@ -15,8 +15,8 @@ export class CryptoKey extends core.CryptoKey {
public usages: KeyUsage[] = [];
@JsonProp({ type: JsonPropTypes.String })
protected kty: string = "oct";
protected kty = "oct";
@JsonProp({ type: JsonPropTypes.String })
protected alg: string = "";
protected alg = "";
}

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@ -1,4 +1,5 @@
import * as core from "webcrypto-core";
import { getCryptoKey, setCryptoKey } from "../storage";
import { AesCrypto } from "./crypto";
import { AesCryptoKey } from "./key";
@ -13,28 +14,29 @@ export class AesCbcProvider extends core.AesCbcProvider {
extractable,
keyUsages);
return key;
return setCryptoKey(key);
}
public async onEncrypt(algorithm: Algorithm, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.encrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.encrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onDecrypt(algorithm: Algorithm, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.decrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.decrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: AesCryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return AesCrypto.exportKey(format, key);
return AesCrypto.exportKey(format, getCryptoKey(key) as AesCryptoKey);
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
return AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
const key = await AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof AesCryptoKey)) {
if (!(getCryptoKey(key) instanceof AesCryptoKey)) {
throw new TypeError("key: Is not a AesCryptoKey");
}
}

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@ -1,5 +1,6 @@
import * as crypto from "crypto";
import * as core from "webcrypto-core";
import { setCryptoKey, getCryptoKey } from "../storage";
import { AesCrypto } from "./crypto";
import { AesCryptoKey } from "./key";
@ -34,6 +35,35 @@ function xor(a: Buffer, b: Buffer) {
return output;
}
function aes(key: Buffer, message: Buffer) {
const cipher = crypto.createCipheriv(`aes${key.length << 3}`, key, zero);
const result = cipher.update(message);
cipher.final();
return result;
}
function getMessageBlock(message: Buffer, blockIndex: number) {
const block = Buffer.alloc(blockSize);
const start = blockIndex * blockSize;
const end = start + blockSize;
message.copy(block, 0, start, end);
return block;
}
function getPaddedMessageBlock(message: Buffer, blockIndex: number) {
const block = Buffer.alloc(blockSize);
const start = blockIndex * blockSize;
const end = message.length;
block.fill(0);
message.copy(block, 0, start, end);
block[end - start] = 0x80;
return block;
}
function generateSubkeys(key: Buffer) {
const l = aes(key, zero);
@ -50,19 +80,11 @@ function generateSubkeys(key: Buffer) {
return { subkey1, subkey2 };
}
function aes(key: Buffer, message: Buffer) {
const cipher = crypto.createCipheriv(`aes${key.length << 3}`, key, zero);
const result = cipher.update(message);
cipher.final();
return result;
}
function aesCmac(key: Buffer, message: Buffer) {
const subkeys = generateSubkeys(key);
let blockCount = Math.ceil(message.length / blockSize);
let lastBlockCompleteFlag: boolean;
let lastBlock: Buffer;
let lastBlockIndex: number;
if (blockCount === 0) {
blockCount = 1;
@ -70,7 +92,7 @@ function aesCmac(key: Buffer, message: Buffer) {
} else {
lastBlockCompleteFlag = (message.length % blockSize === 0);
}
lastBlockIndex = blockCount - 1;
const lastBlockIndex = blockCount - 1;
if (lastBlockCompleteFlag) {
lastBlock = xor(getMessageBlock(message, lastBlockIndex), subkeys.subkey1);
@ -89,28 +111,6 @@ function aesCmac(key: Buffer, message: Buffer) {
return aes(key, y);
}
function getMessageBlock(message: Buffer, blockIndex: number) {
const block = new Buffer(blockSize);
const start = blockIndex * blockSize;
const end = start + blockSize;
message.copy(block, 0, start, end);
return block;
}
function getPaddedMessageBlock(message: Buffer, blockIndex: number) {
const block = new Buffer(blockSize);
const start = blockIndex * blockSize;
const end = message.length;
block.fill(0);
message.copy(block, 0, start, end);
block[end - start] = 0x80;
return block;
}
export class AesCmacProvider extends core.AesCmacProvider {
public async onGenerateKey(algorithm: AesKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
@ -122,11 +122,11 @@ export class AesCmacProvider extends core.AesCmacProvider {
extractable,
keyUsages);
return key;
return setCryptoKey(key);
}
public async onSign(algorithm: AesCmacParams, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
const result = aesCmac(key.data, Buffer.from(data));
const result = aesCmac(getCryptoKey(key).data, Buffer.from(data));
return new Uint8Array(result).buffer;
}
@ -136,16 +136,17 @@ export class AesCmacProvider extends core.AesCmacProvider {
}
public async onExportKey(format: KeyFormat, key: AesCryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return AesCrypto.exportKey(format, key);
return AesCrypto.exportKey(format, getCryptoKey(key) as AesCryptoKey);
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
return AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
const res = await AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
return setCryptoKey(res);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof AesCryptoKey)) {
if (!(getCryptoKey(key) instanceof AesCryptoKey)) {
throw new TypeError("key: Is not a AesCryptoKey");
}
}

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@ -1,4 +1,5 @@
import * as core from "webcrypto-core";
import { setCryptoKey, getCryptoKey } from "../storage";
import { AesCrypto } from "./crypto";
import { AesCryptoKey } from "./key";
@ -13,28 +14,29 @@ export class AesCtrProvider extends core.AesCtrProvider {
extractable,
keyUsages);
return key;
return setCryptoKey(key);
}
public async onEncrypt(algorithm: AesCtrParams, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.encrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.encrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onDecrypt(algorithm: AesCtrParams, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.decrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.decrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: AesCryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return AesCrypto.exportKey(format, key);
return AesCrypto.exportKey(format, getCryptoKey(key) as AesCryptoKey);
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
return AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
const res = await AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
return setCryptoKey(res);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof AesCryptoKey)) {
if (!(getCryptoKey(key) instanceof AesCryptoKey)) {
throw new TypeError("key: Is not a AesCryptoKey");
}
}

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@ -1,4 +1,5 @@
import * as core from "webcrypto-core";
import { setCryptoKey, getCryptoKey } from "../storage";
import { AesCrypto } from "./crypto";
import { AesCryptoKey } from "./key";
@ -13,28 +14,29 @@ export class AesEcbProvider extends core.AesEcbProvider {
extractable,
keyUsages);
return key;
return setCryptoKey(key);
}
public async onEncrypt(algorithm: Algorithm, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.encrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.encrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onDecrypt(algorithm: Algorithm, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.decrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.decrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: AesCryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return AesCrypto.exportKey(format, key);
return AesCrypto.exportKey(format, getCryptoKey(key) as AesCryptoKey);
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
return AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
const res = await AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
return setCryptoKey(res);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof AesCryptoKey)) {
if (!(getCryptoKey(key) instanceof AesCryptoKey)) {
throw new TypeError("key: Is not a AesCryptoKey");
}
}

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@ -1,4 +1,5 @@
import * as core from "webcrypto-core";
import { setCryptoKey, getCryptoKey } from "../storage";
import { AesCrypto } from "./crypto";
import { AesCryptoKey } from "./key";
@ -13,28 +14,29 @@ export class AesGcmProvider extends core.AesGcmProvider {
extractable,
keyUsages);
return key;
return setCryptoKey(key);
}
public async onEncrypt(algorithm: AesGcmParams, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.encrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.encrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onDecrypt(algorithm: AesGcmParams, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.decrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.decrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: AesCryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return AesCrypto.exportKey(format, key);
return AesCrypto.exportKey(format, getCryptoKey(key) as AesCryptoKey);
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
return AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
const res = await AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
return setCryptoKey(res);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof AesCryptoKey)) {
if (!(getCryptoKey(key) instanceof AesCryptoKey)) {
throw new TypeError("key: Is not a AesCryptoKey");
}
}

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@ -1,11 +1,12 @@
import * as core from "webcrypto-core";
import { setCryptoKey, getCryptoKey } from "../storage";
import { AesCrypto } from "./crypto";
import { AesCryptoKey } from "./key";
export class AesKwProvider extends core.AesKwProvider {
public async onGenerateKey(algorithm: AesKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
return await AesCrypto.generateKey(
const res = await AesCrypto.generateKey(
{
name: this.name,
length: algorithm.length,
@ -13,27 +14,29 @@ export class AesKwProvider extends core.AesKwProvider {
extractable,
keyUsages,
);
return setCryptoKey(res);
}
public async onExportKey(format: KeyFormat, key: AesCryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return AesCrypto.exportKey(format, key);
return AesCrypto.exportKey(format, getCryptoKey(key) as AesCryptoKey);
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
return AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
const res = await AesCrypto.importKey(format, keyData, { name: algorithm.name }, extractable, keyUsages);
return setCryptoKey(res);
}
public async onEncrypt(algorithm: Algorithm, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.encrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.encrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public async onDecrypt(algorithm: Algorithm, key: AesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return AesCrypto.decrypt(algorithm, key, new Uint8Array(data));
return AesCrypto.decrypt(algorithm, getCryptoKey(key) as AesCryptoKey, new Uint8Array(data));
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof AesCryptoKey)) {
if (!(getCryptoKey(key) instanceof AesCryptoKey)) {
throw new TypeError("key: Is not a AesCryptoKey");
}
}

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@ -1,11 +1,9 @@
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import crypto, { CipherGCM, DecipherGCM } from "crypto";
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { AesCryptoKey } from "./key";
const WRONG_KEY_TYPE = `Key must be instance of ${AesCryptoKey.name}`;
export class AesCrypto {
public static AES_KW_IV = Buffer.from("A6A6A6A6A6A6A6A6", "hex");

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@ -1,5 +1,5 @@
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import crypto from "crypto";
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import * as core from "webcrypto-core";
import { DesParams } from "webcrypto-core";
import { CryptoKey } from "../../keys";

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@ -1,5 +1,6 @@
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { setCryptoKey, getCryptoKey } from "../storage";
import { DesCrypto } from "./crypto";
import { DesCryptoKey } from "./key";
@ -11,7 +12,7 @@ export class DesCbcProvider extends core.DesProvider {
public ivSize = 8;
public name = "DES-CBC";
public async onGenerateKey(algorithm: core.DesKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
public async onGenerateKey(algorithm: core.DesKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<core.CryptoKey> {
const key = await DesCrypto.generateKey(
{
name: this.name,
@ -20,32 +21,32 @@ export class DesCbcProvider extends core.DesProvider {
extractable,
keyUsages);
return key;
return setCryptoKey(key);
}
public async onEncrypt(algorithm: DesCbcParams, key: DesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return DesCrypto.encrypt(algorithm, key, new Uint8Array(data));
return DesCrypto.encrypt(algorithm, getCryptoKey(key) as DesCryptoKey, new Uint8Array(data));
}
public async onDecrypt(algorithm: DesCbcParams, key: DesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return DesCrypto.decrypt(algorithm, key, new Uint8Array(data));
return DesCrypto.decrypt(algorithm, getCryptoKey(key) as DesCryptoKey, new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: CryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return DesCrypto.exportKey(format, key);
return DesCrypto.exportKey(format, getCryptoKey(key) as DesCryptoKey);
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<core.CryptoKey> {
const key = await DesCrypto.importKey(format, keyData, { name: this.name, length: this.keySizeBits }, extractable, keyUsages);
if (key.data.length !== (this.keySizeBits >> 3)) {
throw new core.OperationError("keyData: Wrong key size");
}
return key;
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof DesCryptoKey)) {
if (!(getCryptoKey(key) instanceof DesCryptoKey)) {
throw new TypeError("key: Is not a DesCryptoKey");
}
}

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@ -1,5 +1,6 @@
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { setCryptoKey, getCryptoKey } from "../storage";
import { DesCrypto } from "./crypto";
import { DesCryptoKey } from "./key";
@ -11,7 +12,7 @@ export class DesEde3CbcProvider extends core.DesProvider {
public ivSize = 8;
public name = "DES-EDE3-CBC";
public async onGenerateKey(algorithm: core.DesKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
public async onGenerateKey(algorithm: core.DesKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<core.CryptoKey> {
const key = await DesCrypto.generateKey(
{
name: this.name,
@ -20,32 +21,32 @@ export class DesEde3CbcProvider extends core.DesProvider {
extractable,
keyUsages);
return key;
return setCryptoKey(key);
}
public async onEncrypt(algorithm: DesEde3CbcParams, key: DesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return DesCrypto.encrypt(algorithm, key, new Uint8Array(data));
return DesCrypto.encrypt(algorithm, getCryptoKey(key) as DesCryptoKey, new Uint8Array(data));
}
public async onDecrypt(algorithm: DesEde3CbcParams, key: DesCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return DesCrypto.decrypt(algorithm, key, new Uint8Array(data));
return DesCrypto.decrypt(algorithm, getCryptoKey(key) as DesCryptoKey, new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: CryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return DesCrypto.exportKey(format, key);
return DesCrypto.exportKey(format, getCryptoKey(key) as DesCryptoKey);
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: Algorithm, extractable: boolean, keyUsages: KeyUsage[]): Promise<core.CryptoKey> {
const key = await DesCrypto.importKey(format, keyData, { name: this.name, length: this.keySizeBits }, extractable, keyUsages);
if (key.data.length !== (this.keySizeBits >> 3)) {
throw new core.OperationError("keyData: Wrong key size");
}
return key;
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof DesCryptoKey)) {
if (!(getCryptoKey(key) instanceof DesCryptoKey)) {
throw new TypeError("key: Is not a DesCryptoKey");
}
}

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@ -1,6 +1,6 @@
import crypto from "crypto";
import { AsnParser, AsnSerializer } from "@peculiar/asn1-schema";
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import crypto from "crypto";
import * as core from "webcrypto-core";
import * as asn from "../../asn";
import { ObjectIdentifier } from "../../asn";
@ -116,9 +116,10 @@ export class EcCrypto {
case "pkcs8":
case "spki":
return new Uint8Array(key.data).buffer;
case "raw":
case "raw": {
const publicKeyInfo = AsnParser.parse(key.data, asn.PublicKeyInfo);
return publicKeyInfo.publicKey;
}
default:
throw new core.OperationError("format: Must be 'jwk', 'raw', pkcs8' or 'spki'");
}
@ -126,7 +127,7 @@ export class EcCrypto {
public static async importKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: EcKeyImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
switch (format.toLowerCase()) {
case "jwk":
case "jwk": {
const jwk = keyData as JsonWebKey;
if (jwk.d) {
const asnKey = JsonParser.fromJSON(keyData, { targetSchema: asn.EcPrivateKey });
@ -135,6 +136,7 @@ export class EcCrypto {
const asnKey = JsonParser.fromJSON(keyData, { targetSchema: asn.EcPublicKey });
return this.importPublicKey(asnKey, algorithm, extractable, keyUsages);
}
}
case "raw": {
const asnKey = new asn.EcPublicKey(keyData as ArrayBuffer);
return this.importPublicKey(asnKey, algorithm, extractable, keyUsages);

View File

@ -1,5 +1,6 @@
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { setCryptoKey, getCryptoKey } from "../storage";
import { EcCrypto } from "./crypto";
import { EcPrivateKey } from "./private_key";
import { EcPublicKey } from "./public_key";
@ -7,7 +8,7 @@ import { EcPublicKey } from "./public_key";
export class EcdhProvider extends core.EcdhProvider {
public async onGenerateKey(algorithm: EcKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKeyPair> {
const key = await EcCrypto.generateKey(
const keys = await EcCrypto.generateKey(
{
...algorithm,
name: this.name,
@ -15,27 +16,31 @@ export class EcdhProvider extends core.EcdhProvider {
extractable,
keyUsages);
return key;
return {
privateKey: setCryptoKey(keys.privateKey as CryptoKey),
publicKey: setCryptoKey(keys.publicKey as CryptoKey),
};
}
public async onExportKey(format: KeyFormat, key: CryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return EcCrypto.exportKey(format, key);
return EcCrypto.exportKey(format, getCryptoKey(key));
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: EcKeyImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: EcKeyImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<core.CryptoKey> {
const key = await EcCrypto.importKey(format, keyData, {...algorithm, name: this.name}, extractable, keyUsages);
return key;
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof EcPrivateKey || key instanceof EcPublicKey)) {
const internalKey = getCryptoKey(key);
if (!(internalKey instanceof EcPrivateKey || internalKey instanceof EcPublicKey)) {
throw new TypeError("key: Is not EC CryptoKey");
}
}
public async onDeriveBits(algorithm: EcdhKeyDeriveParams, baseKey: CryptoKey, length: number): Promise<ArrayBuffer> {
const bits = await EcCrypto.deriveBits(algorithm, baseKey, length);
const bits = await EcCrypto.deriveBits({...algorithm, public: getCryptoKey(algorithm.public)}, getCryptoKey(baseKey), length);
return bits;
}

View File

@ -1,5 +1,5 @@
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { setCryptoKey, getCryptoKey } from "../storage";
import { EcCrypto } from "./crypto";
import { EcPrivateKey } from "./private_key";
import { EcPublicKey } from "./public_key";
@ -9,7 +9,7 @@ export class EcdsaProvider extends core.EcdsaProvider {
public namedCurves = ["P-256", "P-384", "P-521", "K-256"];
public async onGenerateKey(algorithm: EcKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKeyPair> {
const key = await EcCrypto.generateKey(
const keys = await EcCrypto.generateKey(
{
...algorithm,
name: this.name,
@ -17,29 +17,33 @@ export class EcdsaProvider extends core.EcdsaProvider {
extractable,
keyUsages);
return key;
return {
privateKey: setCryptoKey(keys.privateKey as EcPrivateKey),
publicKey: setCryptoKey(keys.publicKey as EcPublicKey),
};
}
public async onSign(algorithm: EcdsaParams, key: EcPrivateKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return EcCrypto.sign(algorithm, key, new Uint8Array(data));
return EcCrypto.sign(algorithm, getCryptoKey(key) as EcPrivateKey, new Uint8Array(data));
}
public async onVerify(algorithm: EcdsaParams, key: EcPublicKey, signature: ArrayBuffer, data: ArrayBuffer): Promise<boolean> {
return EcCrypto.verify(algorithm, key, new Uint8Array(signature), new Uint8Array(data));
return EcCrypto.verify(algorithm, getCryptoKey(key) as EcPublicKey, new Uint8Array(signature), new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: CryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return EcCrypto.exportKey(format, key);
return EcCrypto.exportKey(format, getCryptoKey(key));
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: EcKeyImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
const key = await EcCrypto.importKey(format, keyData, { ...algorithm, name: this.name }, extractable, keyUsages);
return key;
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof EcPrivateKey || key instanceof EcPublicKey)) {
const internalKey = getCryptoKey(key);
if (!(internalKey instanceof EcPrivateKey || internalKey instanceof EcPublicKey)) {
throw new TypeError("key: Is not EC CryptoKey");
}
}

View File

@ -29,14 +29,14 @@ export class EcPrivateKey extends AsymmetricKey implements IJsonConvertible {
}
public fromJSON(json: JsonWebKey) {
if (!json.alg) {
throw new core.OperationError(`Cannot get named curve from JWK. Property 'alg' is required`);
if (!json.crv) {
throw new core.OperationError(`Cannot get named curve from JWK. Property 'crv' is required`);
}
const keyInfo = new asn.PrivateKeyInfo();
keyInfo.privateKeyAlgorithm.algorithm = "1.2.840.10045.2.1";
keyInfo.privateKeyAlgorithm.parameters = AsnSerializer.serialize(
new ObjectIdentifier(getOidByNamedCurve(json.crv!)),
new ObjectIdentifier(getOidByNamedCurve(json.crv)),
);
const key = JsonParser.fromJSON(json, { targetSchema: asn.EcPrivateKey });
keyInfo.privateKey = AsnSerializer.serialize(key);

View File

@ -1,5 +1,6 @@
import { AsnParser, AsnSerializer } from "@peculiar/asn1-schema";
import { IJsonConvertible, JsonParser, JsonSerializer } from "@peculiar/json-schema";
import * as core from "webcrypto-core";
import * as asn from "../../asn";
import { ObjectIdentifier } from "../../asn";
import { AsymmetricKey } from "../../keys/asymmetric";
@ -29,12 +30,16 @@ export class EcPublicKey extends AsymmetricKey implements IJsonConvertible {
}
public fromJSON(json: JsonWebKey) {
if (!json.crv) {
throw new core.OperationError(`Cannot get named curve from JWK. Property 'crv' is required`);
}
const key = JsonParser.fromJSON(json, { targetSchema: asn.EcPublicKey });
const keyInfo = new asn.PublicKeyInfo();
keyInfo.publicKeyAlgorithm.algorithm = "1.2.840.10045.2.1";
keyInfo.publicKeyAlgorithm.parameters = AsnSerializer.serialize(
new ObjectIdentifier(getOidByNamedCurve(json.crv!)),
new ObjectIdentifier(getOidByNamedCurve(json.crv)),
);
keyInfo.publicKey = AsnSerializer.toASN(key).valueHex;

View File

@ -1,6 +1,7 @@
import crypto from "crypto";
import * as core from "webcrypto-core";
import { BufferSourceConverter, CryptoKey } from "webcrypto-core";
import { setCryptoKey, getCryptoKey } from "../storage";
import { HkdfCryptoKey } from "./key";
export class HkdfProvider extends core.HkdfProvider {
@ -15,7 +16,7 @@ export class HkdfProvider extends core.HkdfProvider {
key.algorithm = { name: this.name };
key.extractable = extractable;
key.usages = keyUsages;
return key;
return setCryptoKey(key);
}
public async onDeriveBits(params: HkdfParams, baseKey: HkdfCryptoKey, length: number): Promise<ArrayBuffer> {
@ -26,7 +27,7 @@ export class HkdfProvider extends core.HkdfProvider {
const info = BufferSourceConverter.toUint8Array(params.info);
const PRK = crypto.createHmac(hash, BufferSourceConverter.toUint8Array(params.salt))
.update(BufferSourceConverter.toUint8Array(baseKey.data))
.update(BufferSourceConverter.toUint8Array(getCryptoKey(baseKey).data))
.digest();
const blocks = [Buffer.alloc(0)];
@ -44,7 +45,7 @@ export class HkdfProvider extends core.HkdfProvider {
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof HkdfCryptoKey)) {
if (!(getCryptoKey(key) instanceof HkdfCryptoKey)) {
throw new TypeError("key: Is not HKDF CryptoKey");
}
}

View File

@ -1,6 +1,7 @@
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import crypto from "crypto";
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import * as core from "webcrypto-core";
import { setCryptoKey, getCryptoKey } from "../storage";
import { HmacCryptoKey } from "./key";
export class HmacProvider extends core.HmacProvider {
@ -16,12 +17,12 @@ export class HmacProvider extends core.HmacProvider {
key.usages = keyUsages;
key.data = crypto.randomBytes(length >> 3);
return key;
return setCryptoKey(key);
}
public async onSign(algorithm: Algorithm, key: HmacCryptoKey, data: ArrayBuffer): Promise<ArrayBuffer> {
const hash = key.algorithm.hash.name.replace("-", "");
const hmac = crypto.createHmac(hash, key.data)
const hmac = crypto.createHmac(hash, getCryptoKey(key).data)
.update(Buffer.from(data)).digest();
return new Uint8Array(hmac).buffer;
@ -29,7 +30,7 @@ export class HmacProvider extends core.HmacProvider {
public async onVerify(algorithm: Algorithm, key: HmacCryptoKey, signature: ArrayBuffer, data: ArrayBuffer): Promise<boolean> {
const hash = key.algorithm.hash.name.replace("-", "");
const hmac = crypto.createHmac(hash, key.data)
const hmac = crypto.createHmac(hash, getCryptoKey(key).data)
.update(Buffer.from(data)).digest();
return hmac.compare(Buffer.from(signature)) === 0;
@ -58,15 +59,15 @@ export class HmacProvider extends core.HmacProvider {
key.extractable = extractable;
key.usages = keyUsages;
return key;
return setCryptoKey(key);
}
public async onExportKey(format: KeyFormat, key: HmacCryptoKey): Promise<JsonWebKey | ArrayBuffer> {
switch (format.toLowerCase()) {
case "jwk":
return JsonSerializer.toJSON(key);
return JsonSerializer.toJSON(getCryptoKey(key));
case "raw":
return new Uint8Array(key.data).buffer;
return new Uint8Array(getCryptoKey(key).data).buffer;
default:
throw new core.OperationError("format: Must be 'jwk' or 'raw'");
}
@ -74,7 +75,7 @@ export class HmacProvider extends core.HmacProvider {
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof HmacCryptoKey)) {
if (!(getCryptoKey(key) instanceof HmacCryptoKey)) {
throw new TypeError("key: Is not HMAC CryptoKey");
}
}

View File

@ -1,5 +1,4 @@
import { JsonProp } from "@peculiar/json-schema";
import * as core from "webcrypto-core";
import { JsonBase64UrlConverter } from "../../converters";
import { CryptoKey } from "../../keys";

View File

@ -1,4 +1,3 @@
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
export class PbkdfCryptoKey extends CryptoKey {

View File

@ -1,5 +1,6 @@
import crypto from "crypto";
import * as core from "webcrypto-core";
import { setCryptoKey, getCryptoKey } from "../storage";
import { PbkdfCryptoKey } from "./key";
export class Pbkdf2Provider extends core.Pbkdf2Provider {
@ -8,7 +9,7 @@ export class Pbkdf2Provider extends core.Pbkdf2Provider {
return new Promise<ArrayBuffer>((resolve, reject) => {
const salt = core.BufferSourceConverter.toArrayBuffer(algorithm.salt);
const hash = (algorithm.hash as Algorithm).name.replace("-", "");
crypto.pbkdf2(baseKey.data, Buffer.from(salt), algorithm.iterations, length >> 3, hash, (err, derivedBits) => {
crypto.pbkdf2(getCryptoKey(baseKey).data, Buffer.from(salt), algorithm.iterations, length >> 3, hash, (err, derivedBits) => {
if (err) {
reject(err);
} else {
@ -25,14 +26,14 @@ export class Pbkdf2Provider extends core.Pbkdf2Provider {
key.algorithm = { name: this.name };
key.extractable = false;
key.usages = keyUsages;
return key;
return setCryptoKey(key);
}
throw new core.OperationError("format: Must be 'raw'");
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof PbkdfCryptoKey)) {
if (!(getCryptoKey(key) instanceof PbkdfCryptoKey)) {
throw new TypeError("key: Is not PBKDF CryptoKey");
}
}

View File

@ -1,6 +1,6 @@
import crypto from "crypto";
import { AsnParser, AsnSerializer } from "@peculiar/asn1-schema";
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import crypto from "crypto";
import * as core from "webcrypto-core";
import * as asn from "../../asn";
import { CryptoKey } from "../../keys";
@ -74,7 +74,7 @@ export class RsaCrypto {
public static async importKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: RsaHashedImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
switch (format.toLowerCase()) {
case "jwk":
case "jwk": {
const jwk = keyData as JsonWebKey;
if (jwk.d) {
const asnKey = JsonParser.fromJSON(keyData, { targetSchema: asn.RsaPrivateKey });
@ -83,6 +83,7 @@ export class RsaCrypto {
const asnKey = JsonParser.fromJSON(keyData, { targetSchema: asn.RsaPublicKey });
return this.importPublicKey(asnKey, algorithm, extractable, keyUsages);
}
}
case "spki": {
const keyInfo = AsnParser.parse(new Uint8Array(keyData as ArrayBuffer), asn.PublicKeyInfo);
const asnKey = AsnParser.parse(keyInfo.publicKey, asn.RsaPublicKey);

View File

@ -1,10 +1,12 @@
/* eslint-disable @typescript-eslint/no-non-null-assertion */
import * as core from "webcrypto-core";
export function getJwkAlgorithm(algorithm: RsaHashedKeyAlgorithm) {
switch (algorithm.name.toUpperCase()) {
case "RSA-OAEP":
case "RSA-OAEP": {
const mdSize = /(\d+)$/.exec(algorithm.hash.name)![1];
return `RSA-OAEP${mdSize !== "1" ? `-${mdSize}` : ""}`;
}
case "RSASSA-PKCS1-V1_5":
return `RS${/(\d+)$/.exec(algorithm.hash.name)![1]}`;
case "RSA-PSS":

View File

@ -1,7 +1,7 @@
import * as crypto from "crypto";
import { Convert } from "pvtsutils";
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { setCryptoKey, getCryptoKey } from "../storage";
import { RsaCrypto } from "./crypto";
import { RsaPrivateKey } from "./private_key";
import { RsaPublicKey } from "./public_key";
@ -15,7 +15,7 @@ export class RsaEsProvider extends core.ProviderCrypto {
};
public async onGenerateKey(algorithm: RsaKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKeyPair> {
const key = await RsaCrypto.generateKey(
const keys = await RsaCrypto.generateKey(
{
...algorithm,
name: this.name,
@ -23,7 +23,10 @@ export class RsaEsProvider extends core.ProviderCrypto {
extractable,
keyUsages);
return key;
return {
privateKey: setCryptoKey(keys.privateKey as RsaPrivateKey),
publicKey: setCryptoKey(keys.publicKey as RsaPublicKey),
};
}
public checkGenerateKeyParams(algorithm: RsaKeyGenParams) {
@ -62,17 +65,18 @@ export class RsaEsProvider extends core.ProviderCrypto {
}
public async onExportKey(format: KeyFormat, key: CryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return RsaCrypto.exportKey(format, key);
return RsaCrypto.exportKey(format, getCryptoKey(key));
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: RsaHashedImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
const key = await RsaCrypto.importKey(format, keyData, { ...algorithm, name: this.name }, extractable, keyUsages);
return key;
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof RsaPrivateKey || key instanceof RsaPublicKey)) {
const internalKey = getCryptoKey(key);
if (!(internalKey instanceof RsaPrivateKey || internalKey instanceof RsaPublicKey)) {
throw new TypeError("key: Is not RSA CryptoKey");
}
}
@ -82,7 +86,7 @@ export class RsaEsProvider extends core.ProviderCrypto {
private toCryptoOptions(key: RsaPrivateKey | RsaPublicKey) {
const type = key.type.toUpperCase();
return {
key: `-----BEGIN ${type} KEY-----\n${key.data.toString("base64")}\n-----END ${type} KEY-----`,
key: `-----BEGIN ${type} KEY-----\n${getCryptoKey(key).data.toString("base64")}\n-----END ${type} KEY-----`,
// @ts-ignore
padding: crypto.constants.RSA_PKCS1_PADDING,
};

View File

@ -1,7 +1,7 @@
import crypto from "crypto";
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { ShaCrypto } from "../sha/crypto";
import { setCryptoKey, getCryptoKey } from "../storage";
import { RsaCrypto } from "./crypto";
import { RsaPrivateKey } from "./private_key";
import { RsaPublicKey } from "./public_key";
@ -16,7 +16,7 @@ import { RsaPublicKey } from "./public_key";
export class RsaOaepProvider extends core.RsaOaepProvider {
public async onGenerateKey(algorithm: RsaHashedKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKeyPair> {
const key = await RsaCrypto.generateKey(
const keys = await RsaCrypto.generateKey(
{
...algorithm,
name: this.name,
@ -24,13 +24,17 @@ export class RsaOaepProvider extends core.RsaOaepProvider {
extractable,
keyUsages);
return key;
return {
privateKey: setCryptoKey(keys.privateKey as RsaPrivateKey),
publicKey: setCryptoKey(keys.publicKey as RsaPublicKey),
};
}
public async onEncrypt(algorithm: RsaOaepParams, key: RsaPublicKey, data: ArrayBuffer): Promise<ArrayBuffer> {
const internalKey = getCryptoKey(key) as RsaPublicKey;
const dataView = new Uint8Array(data);
const keySize = Math.ceil(key.algorithm.modulusLength >> 3);
const hashSize = ShaCrypto.size(key.algorithm.hash) >> 3;
const keySize = Math.ceil(internalKey.algorithm.modulusLength >> 3);
const hashSize = ShaCrypto.size(internalKey.algorithm.hash) >> 3;
const dataLength = dataView.byteLength;
const psLength = keySize - dataLength - 2 * hashSize - 2;
@ -44,7 +48,7 @@ export class RsaOaepProvider extends core.RsaOaepProvider {
dataBlock.set(dataView, hashSize + psLength + 1);
const labelHash = crypto.createHash(key.algorithm.hash.name.replace("-", ""))
const labelHash = crypto.createHash(internalKey.algorithm.hash.name.replace("-", ""))
.update(core.BufferSourceConverter.toUint8Array(algorithm.label || new Uint8Array(0)))
.digest();
dataBlock.set(labelHash, 0);
@ -52,22 +56,22 @@ export class RsaOaepProvider extends core.RsaOaepProvider {
crypto.randomFillSync(seed);
const dataBlockMask = this.mgf1(key.algorithm.hash, seed, dataBlock.length);
const dataBlockMask = this.mgf1(internalKey.algorithm.hash, seed, dataBlock.length);
for (let i = 0; i < dataBlock.length; i++) {
dataBlock[i] ^= dataBlockMask[i];
}
const seedMask = this.mgf1(key.algorithm.hash, dataBlock, seed.length);
const seedMask = this.mgf1(internalKey.algorithm.hash, dataBlock, seed.length);
for (let i = 0; i < seed.length; i++) {
seed[i] ^= seedMask[i];
}
if (!key.pem) {
key.pem = `-----BEGIN PUBLIC KEY-----\n${key.data.toString("base64")}\n-----END PUBLIC KEY-----`;
if (!internalKey.pem) {
internalKey.pem = `-----BEGIN PUBLIC KEY-----\n${internalKey.data.toString("base64")}\n-----END PUBLIC KEY-----`;
}
const pkcs0 = crypto.publicEncrypt({
key: key.pem,
key: internalKey.pem,
padding: crypto.constants.RSA_NO_PADDING,
}, Buffer.from(message));
@ -75,20 +79,21 @@ export class RsaOaepProvider extends core.RsaOaepProvider {
}
public async onDecrypt(algorithm: RsaOaepParams, key: RsaPrivateKey, data: ArrayBuffer): Promise<ArrayBuffer> {
const keySize = Math.ceil(key.algorithm.modulusLength >> 3);
const hashSize = ShaCrypto.size(key.algorithm.hash) >> 3;
const internalKey = getCryptoKey(key) as RsaPrivateKey;
const keySize = Math.ceil(internalKey.algorithm.modulusLength >> 3);
const hashSize = ShaCrypto.size(internalKey.algorithm.hash) >> 3;
const dataLength = data.byteLength;
if (dataLength !== keySize) {
throw new Error("Bad data");
}
if (!key.pem) {
key.pem = `-----BEGIN PRIVATE KEY-----\n${key.data.toString("base64")}\n-----END PRIVATE KEY-----`;
if (!internalKey.pem) {
internalKey.pem = `-----BEGIN PRIVATE KEY-----\n${internalKey.data.toString("base64")}\n-----END PRIVATE KEY-----`;
}
let pkcs0 = crypto.privateDecrypt({
key: key.pem,
key: internalKey.pem,
padding: crypto.constants.RSA_NO_PADDING,
}, Buffer.from(data));
const z = pkcs0[0];
@ -99,17 +104,17 @@ export class RsaOaepProvider extends core.RsaOaepProvider {
throw new Error("Decryption failed");
}
const seedMask = this.mgf1(key.algorithm.hash, dataBlock, seed.length);
const seedMask = this.mgf1(internalKey.algorithm.hash, dataBlock, seed.length);
for (let i = 0; i < seed.length; i++) {
seed[i] ^= seedMask[i];
}
const dataBlockMask = this.mgf1(key.algorithm.hash, seed, dataBlock.length);
const dataBlockMask = this.mgf1(internalKey.algorithm.hash, seed, dataBlock.length);
for (let i = 0; i < dataBlock.length; i++) {
dataBlock[i] ^= dataBlockMask[i];
}
const labelHash = crypto.createHash(key.algorithm.hash.name.replace("-", ""))
const labelHash = crypto.createHash(internalKey.algorithm.hash.name.replace("-", ""))
.update(core.BufferSourceConverter.toUint8Array(algorithm.label || new Uint8Array(0)))
.digest();
for (let i = 0; i < hashSize; i++) {
@ -138,17 +143,18 @@ export class RsaOaepProvider extends core.RsaOaepProvider {
}
public async onExportKey(format: KeyFormat, key: CryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return RsaCrypto.exportKey(format, key);
return RsaCrypto.exportKey(format, getCryptoKey(key));
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: RsaHashedImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
const key = await RsaCrypto.importKey(format, keyData, { ...algorithm, name: this.name }, extractable, keyUsages);
return key;
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof RsaPrivateKey || key instanceof RsaPublicKey)) {
const internalKey = getCryptoKey(key);
if (!(internalKey instanceof RsaPrivateKey || internalKey instanceof RsaPublicKey)) {
throw new TypeError("key: Is not RSA CryptoKey");
}
}
@ -159,7 +165,7 @@ export class RsaOaepProvider extends core.RsaOaepProvider {
* @param seed
* @param length
*/
protected mgf1(algorithm: Algorithm, seed: Uint8Array, length: number = 0) {
protected mgf1(algorithm: Algorithm, seed: Uint8Array, length = 0) {
const hashSize = ShaCrypto.size(algorithm) >> 3;
const mask = new Uint8Array(length);
const counter = new Uint8Array(4);

View File

@ -1,5 +1,5 @@
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { setCryptoKey, getCryptoKey } from "../storage";
import { RsaCrypto } from "./crypto";
import { RsaPrivateKey } from "./private_key";
import { RsaPublicKey } from "./public_key";
@ -7,7 +7,7 @@ import { RsaPublicKey } from "./public_key";
export class RsaPssProvider extends core.RsaPssProvider {
public async onGenerateKey(algorithm: RsaHashedKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKeyPair> {
const key = await RsaCrypto.generateKey(
const keys = await RsaCrypto.generateKey(
{
...algorithm,
name: this.name,
@ -15,29 +15,33 @@ export class RsaPssProvider extends core.RsaPssProvider {
extractable,
keyUsages);
return key;
return {
privateKey: setCryptoKey(keys.privateKey as RsaPrivateKey),
publicKey: setCryptoKey(keys.publicKey as RsaPublicKey),
};
}
public async onSign(algorithm: RsaPssParams, key: RsaPrivateKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return RsaCrypto.sign(algorithm, key, new Uint8Array(data));
return RsaCrypto.sign(algorithm, getCryptoKey(key) as RsaPrivateKey, new Uint8Array(data));
}
public async onVerify(algorithm: RsaPssParams, key: RsaPublicKey, signature: ArrayBuffer, data: ArrayBuffer): Promise<boolean> {
return RsaCrypto.verify(algorithm, key, new Uint8Array(signature), new Uint8Array(data));
return RsaCrypto.verify(algorithm, getCryptoKey(key) as RsaPublicKey, new Uint8Array(signature), new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: CryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return RsaCrypto.exportKey(format, key);
return RsaCrypto.exportKey(format, getCryptoKey(key));
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: RsaHashedImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
const key = await RsaCrypto.importKey(format, keyData, {...algorithm, name: this.name}, extractable, keyUsages);
return key;
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof RsaPrivateKey || key instanceof RsaPublicKey)) {
const internalKey = getCryptoKey(key);
if (!(internalKey instanceof RsaPrivateKey || internalKey instanceof RsaPublicKey)) {
throw new TypeError("key: Is not RSA CryptoKey");
}
}

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@ -1,5 +1,5 @@
import * as core from "webcrypto-core";
import { CryptoKey } from "../../keys";
import { setCryptoKey, getCryptoKey } from "../storage";
import { RsaCrypto } from "./crypto";
import { RsaPrivateKey } from "./private_key";
import { RsaPublicKey } from "./public_key";
@ -7,7 +7,7 @@ import { RsaPublicKey } from "./public_key";
export class RsaSsaProvider extends core.RsaSsaProvider {
public async onGenerateKey(algorithm: RsaHashedKeyGenParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKeyPair> {
const key = await RsaCrypto.generateKey(
const keys = await RsaCrypto.generateKey(
{
...algorithm,
name: this.name,
@ -15,29 +15,33 @@ export class RsaSsaProvider extends core.RsaSsaProvider {
extractable,
keyUsages);
return key;
return {
privateKey: setCryptoKey(keys.privateKey as RsaPrivateKey),
publicKey: setCryptoKey(keys.publicKey as RsaPublicKey),
};
}
public async onSign(algorithm: Algorithm, key: RsaPrivateKey, data: ArrayBuffer): Promise<ArrayBuffer> {
return RsaCrypto.sign(algorithm, key, new Uint8Array(data));
return RsaCrypto.sign(algorithm, getCryptoKey(key) as RsaPrivateKey, new Uint8Array(data));
}
public async onVerify(algorithm: Algorithm, key: RsaPublicKey, signature: ArrayBuffer, data: ArrayBuffer): Promise<boolean> {
return RsaCrypto.verify(algorithm, key, new Uint8Array(signature), new Uint8Array(data));
return RsaCrypto.verify(algorithm, getCryptoKey(key) as RsaPublicKey, new Uint8Array(signature), new Uint8Array(data));
}
public async onExportKey(format: KeyFormat, key: CryptoKey): Promise<JsonWebKey | ArrayBuffer> {
return RsaCrypto.exportKey(format, key);
return RsaCrypto.exportKey(format, getCryptoKey(key));
}
public async onImportKey(format: KeyFormat, keyData: JsonWebKey | ArrayBuffer, algorithm: RsaHashedImportParams, extractable: boolean, keyUsages: KeyUsage[]): Promise<CryptoKey> {
const key = await RsaCrypto.importKey(format, keyData, {...algorithm, name: this.name}, extractable, keyUsages);
return key;
return setCryptoKey(key);
}
public checkCryptoKey(key: CryptoKey, keyUsage?: KeyUsage) {
super.checkCryptoKey(key, keyUsage);
if (!(key instanceof RsaPrivateKey || key instanceof RsaPublicKey)) {
const internalKey = getCryptoKey(key);
if (!(internalKey instanceof RsaPrivateKey || internalKey instanceof RsaPublicKey)) {
throw new TypeError("key: Is not RSA CryptoKey");
}
}

21
src/mechs/storage.ts Normal file
View File

@ -0,0 +1,21 @@
import * as core from "webcrypto-core";
import { CryptoKey as InternalCryptoKey } from "../keys";
const keyStorage = new WeakMap<core.CryptoKey, InternalCryptoKey>();
export function getCryptoKey(key: core.CryptoKey) {
const res = keyStorage.get(key);
if (!res) {
throw new core.OperationError("Cannot get CryptoKey from secure storage");
}
return res;
}
export function setCryptoKey(value: InternalCryptoKey) {
const key = core.CryptoKey.create(value.algorithm, value.type, value.extractable, value.usages);
Object.freeze(key);
keyStorage.set(key, value);
return key;
}

View File

@ -1,6 +1,6 @@
import assert from "assert";
import { AsnParser, AsnSerializer } from "@peculiar/asn1-schema";
import { JsonParser, JsonSerializer } from "@peculiar/json-schema";
import assert from "assert";
import * as asn from "../src/asn";
context("ASN", () => {

View File

@ -1,4 +1,3 @@
import assert from "assert";
import * as core from "webcrypto-core";
import { Crypto } from "../src";
import { DesCbcParams } from "../src/mechs";

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@ -150,9 +150,10 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
params.forEach((param) => {
context(param.name, () => {
//#region Generate key
if (param.actions.generateKey) {
const generateKey = param.actions.generateKey;
if (generateKey) {
context("Generate Key", () => {
param.actions.generateKey!.forEach((action, index) => {
generateKey.forEach((action, index) => {
wrapTest(async () => {
const algorithm = Object.assign({}, action.algorithm);
algorithm.name = algorithm.name.toLowerCase();
@ -184,9 +185,10 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
//#endregion
//#region encrypt
if (param.actions.encrypt) {
const encrypt = param.actions.encrypt;
if (encrypt) {
context("Encrypt/Decrypt", () => {
param.actions.encrypt!.forEach((action, index) => {
encrypt.forEach((action, index) => {
wrapTest(async () => {
// import keys
const keys = await getKeys(crypto, action.key);
@ -212,9 +214,10 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
//#endregion
//#region Import/Export
if (param.actions.import) {
const importFn = param.actions.import;
if (importFn) {
context("Import/Export", () => {
param.actions.import!.forEach((action, index) => {
importFn.forEach((action, index) => {
wrapTest(async () => {
const importedKey = await crypto.subtle.importKey(
action.format,
@ -223,7 +226,7 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
action.extractable,
action.keyUsages);
// Can't continue if key is not exctractable.
// Can't continue if key is not extractable.
if (!action.extractable) {
return;
}
@ -244,9 +247,10 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
//#endregion
//#region Sign/Verify
if (param.actions.sign) {
const sign = param.actions.sign;
if (sign) {
context("Sign/Verify", () => {
param.actions.sign!.forEach((action, index) => {
sign.forEach((action, index) => {
wrapTest(async () => {
// import keys
const keys = await getKeys(crypto, action.key);
@ -275,9 +279,10 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
//#endregion
//#region Derive bits
if (param.actions.deriveBits) {
const deriveBits = param.actions.deriveBits;
if (deriveBits) {
context("Derive bits", () => {
param.actions.deriveBits!.forEach((action, index) => {
deriveBits.forEach((action, index) => {
wrapTest(async () => {
// import keys
const keys = await getKeys(crypto, action.key);
@ -295,9 +300,10 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
//#endregion
//#region Derive key
if (param.actions.deriveKey) {
const deriveKey = param.actions.deriveKey;
if (deriveKey) {
context("Derive key", () => {
param.actions.deriveKey!.forEach((action, index) => {
deriveKey.forEach((action, index) => {
wrapTest(async () => {
// import keys
const keys = await getKeys(crypto, action.key);
@ -320,9 +326,10 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
//#endregion
//#region Digest
if (param.actions.digest) {
const digest = param.actions.digest;
if (digest) {
context("Digest", () => {
param.actions.digest!.forEach((action, index) => {
digest.forEach((action, index) => {
wrapTest(async () => {
const hash = await crypto.subtle.digest(action.algorithm, action.data);
assert.equal(Convert.ToHex(hash), Convert.ToHex(action.hash));
@ -333,9 +340,10 @@ export function testCrypto(crypto: Crypto, params: ITestParams[]) {
//#endregion
//#region Wrap/Unwrap key
if (param.actions.wrapKey) {
const wrapKey = param.actions.wrapKey;
if (wrapKey) {
context("Wrap/Unwrap key", () => {
param.actions.wrapKey!.forEach((action, index) => {
wrapKey.forEach((action, index) => {
wrapTest(async () => {
const wKey = (await getKeys(crypto, action.wKey)).privateKey;
const key = await getKeys(crypto, action.key);

View File

@ -1,4 +1,3 @@
import { Convert } from "pvtsutils";
import { Crypto } from "../src";
import { testCrypto } from "./helper";

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@ -1,2 +0,0 @@
--require ts-node/register
test/**/*.ts

View File

@ -1,6 +1,6 @@
import { Convert } from "pvtsutils";
import { Crypto } from "../src";
import { ITestGenerateKeyAction, testCrypto } from "./helper";
import { testCrypto } from "./helper";
context("SHA", () => {

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@ -1,15 +0,0 @@
{
"defaultSeverity": "error",
"extends": [
"tslint:recommended"
],
"jsRules": {},
"rules": {
"max-line-length": false,
"no-bitwise": false,
"object-literal-sort-keys": false,
"no-namespace": false,
"max-classes-per-file": false
},
"rulesDirectory": []
}