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denoland-deno/ext/node/polyfills/internal/crypto/cipher.ts
Luca Casonato fc02303842
fix(ext/node): ed25519 signing and cipheriv autopadding fixes (#24957)
- Return auth tag for GCM ciphers from auto padding shortcircuit
- Use _ring_ for ed25519 signing

---------

Co-authored-by: Divy Srivastava <dj.srivastava23@gmail.com>
2024-08-09 12:58:20 +02:00

489 lines
12 KiB
TypeScript

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
// Copyright Joyent, Inc. and Node.js contributors. All rights reserved. MIT license.
// TODO(petamoriken): enable prefer-primordials for node polyfills
// deno-lint-ignore-file prefer-primordials
import { core } from "ext:core/mod.js";
const {
encode,
} = core;
import {
op_node_cipheriv_encrypt,
op_node_cipheriv_final,
op_node_cipheriv_set_aad,
op_node_cipheriv_take,
op_node_create_cipheriv,
op_node_create_decipheriv,
op_node_decipheriv_decrypt,
op_node_decipheriv_final,
op_node_decipheriv_set_aad,
op_node_decipheriv_take,
op_node_private_decrypt,
op_node_private_encrypt,
op_node_public_encrypt,
} from "ext:core/ops";
import { Buffer } from "node:buffer";
import { notImplemented } from "ext:deno_node/_utils.ts";
import type { TransformOptions } from "ext:deno_node/_stream.d.ts";
import { Transform } from "ext:deno_node/_stream.mjs";
import {
getArrayBufferOrView,
KeyObject,
} from "ext:deno_node/internal/crypto/keys.ts";
import type { BufferEncoding } from "ext:deno_node/_global.d.ts";
import type {
BinaryLike,
Encoding,
} from "ext:deno_node/internal/crypto/types.ts";
import { getDefaultEncoding } from "ext:deno_node/internal/crypto/util.ts";
import {
isAnyArrayBuffer,
isArrayBufferView,
} from "ext:deno_node/internal/util/types.ts";
export function isStringOrBuffer(
val: unknown,
): val is string | Buffer | ArrayBuffer | ArrayBufferView {
return typeof val === "string" ||
isArrayBufferView(val) ||
isAnyArrayBuffer(val) ||
Buffer.isBuffer(val);
}
const NO_TAG = new Uint8Array();
export type CipherCCMTypes =
| "aes-128-ccm"
| "aes-192-ccm"
| "aes-256-ccm"
| "chacha20-poly1305";
export type CipherGCMTypes = "aes-128-gcm" | "aes-192-gcm" | "aes-256-gcm";
export type CipherOCBTypes = "aes-128-ocb" | "aes-192-ocb" | "aes-256-ocb";
export type CipherKey = BinaryLike | KeyObject;
export interface CipherCCMOptions extends TransformOptions {
authTagLength: number;
}
export interface CipherGCMOptions extends TransformOptions {
authTagLength?: number | undefined;
}
export interface CipherOCBOptions extends TransformOptions {
authTagLength: number;
}
export interface Cipher extends ReturnType<typeof Transform> {
update(
data: string,
inputEncoding?: Encoding,
outputEncoding?: Encoding,
): string;
final(outputEncoding?: BufferEncoding): string;
setAutoPadding(autoPadding?: boolean): this;
}
export type Decipher = Cipher;
export interface CipherCCM extends Cipher {
setAAD(
buffer: ArrayBufferView,
options: {
plaintextLength: number;
},
): this;
getAuthTag(): Buffer;
}
export interface CipherGCM extends Cipher {
setAAD(
buffer: ArrayBufferView,
options?: {
plaintextLength: number;
},
): this;
getAuthTag(): Buffer;
}
export interface CipherOCB extends Cipher {
setAAD(
buffer: ArrayBufferView,
options?: {
plaintextLength: number;
},
): this;
getAuthTag(): Buffer;
}
export interface DecipherCCM extends Decipher {
setAuthTag(buffer: ArrayBufferView): this;
setAAD(
buffer: ArrayBufferView,
options: {
plaintextLength: number;
},
): this;
}
export interface DecipherGCM extends Decipher {
setAuthTag(buffer: ArrayBufferView): this;
setAAD(
buffer: ArrayBufferView,
options?: {
plaintextLength: number;
},
): this;
}
export interface DecipherOCB extends Decipher {
setAuthTag(buffer: ArrayBufferView): this;
setAAD(
buffer: ArrayBufferView,
options?: {
plaintextLength: number;
},
): this;
}
function toU8(input: string | Uint8Array): Uint8Array {
return typeof input === "string" ? encode(input) : input;
}
export class Cipheriv extends Transform implements Cipher {
/** CipherContext resource id */
#context: number;
/** plaintext data cache */
#cache: BlockModeCache;
#needsBlockCache: boolean;
#authTag?: Buffer;
#autoPadding = true;
constructor(
cipher: string,
key: CipherKey,
iv: BinaryLike | null,
options?: TransformOptions,
) {
super({
transform(chunk, encoding, cb) {
this.push(this.update(chunk, encoding));
cb();
},
final(cb) {
this.push(this.final());
cb();
},
...options,
});
this.#cache = new BlockModeCache(false);
this.#context = op_node_create_cipheriv(cipher, toU8(key), toU8(iv));
this.#needsBlockCache =
!(cipher == "aes-128-gcm" || cipher == "aes-256-gcm");
if (this.#context == 0) {
throw new TypeError("Unknown cipher");
}
}
final(encoding: string = getDefaultEncoding()): Buffer | string {
const buf = new Buffer(16);
if (this.#cache.cache.byteLength == 0) {
const maybeTag = op_node_cipheriv_take(this.#context);
if (maybeTag) this.#authTag = Buffer.from(maybeTag);
return encoding === "buffer" ? Buffer.from([]) : "";
}
if (!this.#autoPadding && this.#cache.cache.byteLength != 16) {
throw new Error("Invalid final block size");
}
const maybeTag = op_node_cipheriv_final(
this.#context,
this.#autoPadding,
this.#cache.cache,
buf,
);
if (maybeTag) {
this.#authTag = Buffer.from(maybeTag);
return encoding === "buffer" ? Buffer.from([]) : "";
}
return encoding === "buffer" ? buf : buf.toString(encoding);
}
getAuthTag(): Buffer {
return this.#authTag!;
}
setAAD(
buffer: ArrayBufferView,
_options?: {
plaintextLength: number;
},
): this {
op_node_cipheriv_set_aad(this.#context, buffer);
return this;
}
setAutoPadding(autoPadding?: boolean): this {
this.#autoPadding = !!autoPadding;
return this;
}
update(
data: string | Buffer | ArrayBufferView,
inputEncoding?: Encoding,
outputEncoding: Encoding = getDefaultEncoding(),
): Buffer | string {
// TODO(kt3k): throw ERR_INVALID_ARG_TYPE if data is not string, Buffer, or ArrayBufferView
let buf = data;
if (typeof data === "string" && typeof inputEncoding === "string") {
buf = Buffer.from(data, inputEncoding);
}
let output;
if (!this.#needsBlockCache) {
output = Buffer.allocUnsafe(buf.length);
op_node_cipheriv_encrypt(this.#context, buf, output);
return outputEncoding === "buffer"
? output
: output.toString(outputEncoding);
}
this.#cache.add(buf);
const input = this.#cache.get();
if (input === null) {
output = Buffer.alloc(0);
} else {
output = Buffer.allocUnsafe(input.length);
op_node_cipheriv_encrypt(this.#context, input, output);
}
return outputEncoding === "buffer"
? output
: output.toString(outputEncoding);
}
}
/** Caches data and output the chunk of multiple of 16.
* Used by CBC, ECB modes of block ciphers */
class BlockModeCache {
cache: Uint8Array;
// The last chunk can be padded when decrypting.
#lastChunkIsNonZero: boolean;
constructor(lastChunkIsNotZero = false) {
this.cache = new Uint8Array(0);
this.#lastChunkIsNonZero = lastChunkIsNotZero;
}
add(data: Uint8Array) {
const cache = this.cache;
this.cache = new Uint8Array(cache.length + data.length);
this.cache.set(cache);
this.cache.set(data, cache.length);
}
/** Gets the chunk of the length of largest multiple of 16.
* Used for preparing data for encryption/decryption */
get(): Uint8Array | null {
let len = this.cache.length;
if (this.#lastChunkIsNonZero) {
// Reduces the available chunk length by 1 to keep the last chunk
len -= 1;
}
if (len < 16) {
return null;
}
len = Math.floor(len / 16) * 16;
const out = this.cache.subarray(0, len);
this.cache = this.cache.subarray(len);
return out;
}
}
export class Decipheriv extends Transform implements Cipher {
/** DecipherContext resource id */
#context: number;
#autoPadding = true;
/** ciphertext data cache */
#cache: BlockModeCache;
#needsBlockCache: boolean;
#authTag?: BinaryLike;
constructor(
cipher: string,
key: CipherKey,
iv: BinaryLike | null,
options?: TransformOptions,
) {
super({
transform(chunk, encoding, cb) {
this.push(this.update(chunk, encoding));
cb();
},
final(cb) {
this.push(this.final());
cb();
},
...options,
});
this.#cache = new BlockModeCache(true);
this.#context = op_node_create_decipheriv(cipher, toU8(key), toU8(iv));
this.#needsBlockCache =
!(cipher == "aes-128-gcm" || cipher == "aes-256-gcm");
if (this.#context == 0) {
throw new TypeError("Unknown cipher");
}
}
final(encoding: string = getDefaultEncoding()): Buffer | string {
if (!this.#needsBlockCache || this.#cache.cache.byteLength === 0) {
op_node_decipheriv_take(this.#context);
return encoding === "buffer" ? Buffer.from([]) : "";
}
if (this.#cache.cache.byteLength != 16) {
throw new Error("Invalid final block size");
}
let buf = new Buffer(16);
op_node_decipheriv_final(
this.#context,
this.#autoPadding,
this.#cache.cache,
buf,
this.#authTag || NO_TAG,
);
buf = buf.subarray(0, 16 - buf.at(-1)); // Padded in Pkcs7 mode
return encoding === "buffer" ? buf : buf.toString(encoding);
}
setAAD(
buffer: ArrayBufferView,
_options?: {
plaintextLength: number;
},
): this {
op_node_decipheriv_set_aad(this.#context, buffer);
return this;
}
setAuthTag(buffer: BinaryLike, _encoding?: string): this {
this.#authTag = buffer;
return this;
}
setAutoPadding(autoPadding?: boolean): this {
this.#autoPadding = Boolean(autoPadding);
return this;
}
update(
data: string | Buffer | ArrayBufferView,
inputEncoding?: Encoding,
outputEncoding: Encoding = getDefaultEncoding(),
): Buffer | string {
// TODO(kt3k): throw ERR_INVALID_ARG_TYPE if data is not string, Buffer, or ArrayBufferView
let buf = data;
if (typeof data === "string" && typeof inputEncoding === "string") {
buf = Buffer.from(data, inputEncoding);
}
let output;
if (!this.#needsBlockCache) {
output = Buffer.allocUnsafe(buf.length);
op_node_decipheriv_decrypt(this.#context, buf, output);
return outputEncoding === "buffer"
? output
: output.toString(outputEncoding);
}
this.#cache.add(buf);
const input = this.#cache.get();
if (input === null) {
output = Buffer.alloc(0);
} else {
output = new Buffer(input.length);
op_node_decipheriv_decrypt(this.#context, input, output);
}
return outputEncoding === "buffer"
? output
: output.toString(outputEncoding);
}
}
export function privateEncrypt(
privateKey: ArrayBufferView | string | KeyObject,
buffer: ArrayBufferView | string | KeyObject,
): Buffer {
const { data } = prepareKey(privateKey);
const padding = privateKey.padding || 1;
buffer = getArrayBufferOrView(buffer, "buffer");
return op_node_private_encrypt(data, buffer, padding);
}
export function privateDecrypt(
privateKey: ArrayBufferView | string | KeyObject,
buffer: ArrayBufferView | string | KeyObject,
): Buffer {
const { data } = prepareKey(privateKey);
const padding = privateKey.padding || 1;
buffer = getArrayBufferOrView(buffer, "buffer");
return op_node_private_decrypt(data, buffer, padding);
}
export function publicEncrypt(
publicKey: ArrayBufferView | string | KeyObject,
buffer: ArrayBufferView | string | KeyObject,
): Buffer {
const { data } = prepareKey(publicKey);
const padding = publicKey.padding || 1;
buffer = getArrayBufferOrView(buffer, "buffer");
return op_node_public_encrypt(data, buffer, padding);
}
export function prepareKey(key) {
// TODO(@littledivy): handle these cases
// - node KeyObject
// - web CryptoKey
if (isStringOrBuffer(key)) {
return { data: getArrayBufferOrView(key, "key") };
} else if (typeof key == "object") {
const { key: data, encoding } = key;
if (!isStringOrBuffer(data)) {
throw new TypeError("Invalid key type");
}
return { data: getArrayBufferOrView(data, "key", encoding) };
}
throw new TypeError("Invalid key type");
}
export function publicDecrypt() {
notImplemented("crypto.publicDecrypt");
}
export default {
privateDecrypt,
privateEncrypt,
publicDecrypt,
publicEncrypt,
Cipheriv,
Decipheriv,
prepareKey,
};