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Web Crypto

The Web Crypto API is designed based on the standard Web API Web Crypto API. The Web Crypto API provides a set of functions for common cryptographic operations. Performing cryptographic operations by using the Web Crypto API is significantly faster than performing them purely in JavaScript.
Note:
The Crypto object cannot be constructed directly. It is globally injected during the runtime of edge functions. Directly use the global crypto instance.

Overview

// Perform encoding.
const encodeContent = new TextEncoder().encode('hello world');
// Use crypto to perform SHA-256 hashing. The resulting hash is a promise that fulfills with an ArrayBuffer.
const sha256Content = await crypto.subtle.digest(
{ name: 'SHA-256' },
encodeContent
);
const result = new Uint8Array(sha256Content);

Attributes

// crypto.subtle
readonly subtle: SubtleCrypto;
The Web Crypto API supports common cryptographic operations, such as hashing, signature signing and verification, and encryption and decryption. For more information, see SubtleCrypto.

Methods

getRandomValues

crypto.getRandomValues(buffer: TypedArray): TypedArray;
The getRandomValues() method generates a random value, fills the buffer with the random value, and returns the buffer.

Parameters

Parameter
Type
Required
Description
buffer
Yes
The buffer of random values. The value cannot exceed 65,536 bytes in length. For more information, see TypedArray.

randomUUID

crypto.randomUUID(): string;
The randomUUID() method generates a new random (version 4) UUID.

SubtleCrypto

The SubtleCrypto API supports common cryptographic operations, such as hashing, signature signing and verification, and encryption and decryption. For more information, see SubtleCrypto.
Note:
SubtleCrypto methods are classified into the following types based on features:
Encryption methods: encrypt/decrypt, sign/verify, and digest. Such methods can be used to implement security-related features such as privacy and identity verification.
Key management methods: generateKey, deriveKey, and importKey/exportKey. Such methods can be used to manage keys.

digest

crypto.subtle.digest(algorithm: string | object, data: ArrayBuffer): Promise<ArrayBuffer>;
The decrypt() method returns a Promise object that fulfills with the generated data digest (hash). For more information, see SubtleCrypto.digest.

encrypt

crypto.subtle.encrypt(algorithm: object, key: CryptoKey, data: ArrayBuffer): Promise<ArrayBuffer>;
The encrypt() method returns a Promise object that fulfills with the encrypted data. For more information, see SubtleCrypto.encrypt.
For the RSA-OAEP algorithm, the data length must not exceed modulusLength/8 - (2 * hLen) - 2, where hLen is determined as follows:
SHA-1: hLen = 20 bytes
SHA-256: hLen = 32 bytes
SHA-384: hLen = 48 bytes
SHA-512: hLen = 64 bytes
For the AES-CTR, AES-CBC++++, and AES-GCM algorithms, the data length is limited to 1 MB.

decrypt

crypto.subtle.decrypt(algorithm: object, key: CryptoKey, data: ArrayBuffer): Promise<ArrayBuffer>;
The decrypt() method returns a Promise object that fulfills with the decrypted data. For more information, see SubtleCrypto.decrypt.
For the RSA-OAEP algorithm, the data length is modulusLength/8.
For the AES-CTR, AES-CBC++++, and AES-GCM algorithms, the data length is limited to 1 MB.

sign

crypto.subtle.sign(algorithm: string | object, key: CryptoKey, data: ArrayBuffer): Promise<ArrayBuffer>;
The sign() method returns a Promise object that fulfills with the signature. For more information, see SubtleCrypto.sign.

verify

crypto.subtle.verify(algorithm: string | object, key: CryptoKey, signature: BufferSource, data: ArrayBuffer): Promise<boolean>;
The verify() method returns a Promise object that fulfills with the signature verification result. For more information, see SubtleCrypto.verify.

generateKey

crypto.subtle.generateKey(algorithm: object, extractable: boolean, keyUsages: Array<string>): Promise<CryptoKey | CryptoKeyPair>;
The generateKey() method returns a Promise object that fulfills with a CryptoKey or a CryptoKeyPair. For more information, see SubtleCrypto.generateKey.

deriveKey

crypto.subtle.deriveKey(algorithm: object, baseKey: CryptoKey, derivedKeyAlgorithm: object, extractable: boolean, keyUsages: Array<string>): Promise<CryptoKey>;
The deriveKey() method returns a Promise object that fulfills with a CryptoKey. For more information, see SubtleCrypto.deriveKey.

importKey

crypto.subtle.importKey(format: string, keyData: BufferSource, algorithm: string | object, extractable: boolean, keyUsages: Array<string>): Promise<CryptoKey>;
The importKey() method returns a Promise object that fulfills with a CryptoKey. For more information, see SubtleCrypto.importKey.

exportKey

crypto.subtle.exportKey(format: string, key: CryptoKey): Promise<ArrayBuffer>;
The exportKey() method returns a Promise object that fulfills with an ArrayBuffer containing the key. For more information, see SubtleCrypto.exportKey.

deriveBits

crypto.subtle.deriveBits(algorithm: object, baseKey: CryptoKey, length: integer): Promise<ArrayBuffer>;
The deriveBits() method returns a Promise object that fulfills with an ArrayBuffer of pseudo-random bits. For more information, see SubtleCrypto.deriveBits.

wrapKey

crypto.subtle.wrapKey(format: string, key: CryptoKey, wrappingKey: CryptoKey, wrapAlgo: string | object): Promise<ArrayBuffer>;;
The wrapKey() method returns a Promise object that fulfills with an ArrayBuffer containing the wrapped key. For more information, see SubtleCrypto.wrapKey.

unwrapKey

crypto.subtle.unwrapKey(format: string, wrappedKey: ArrayBuffer, unwrappingKey: CryptoKey, unwrapAlgo: string | object, unwrappedKeyAlgo: string | object, extractable: boolean, keyUsages: Array<string>): Promise<CryptoKey>;
The unwrapKey() method returns a Promise object that fulfills with the unwrapped CryptoKey. For more information, see SubtleCrypto.unwrapKey.

CryptoKey

A CryptoKey represents a key that is generated by using an encryption algorithm. For more information, see CryptoKey. The CryptoKey object cannot be constructed directly. You can use the following methods to generate CryptoKey objects:
The following table describes the CryptoKey attributes.
Attribute
Type
Read-only
Description
type
string
Yes
The type of the key.
extractable
boolean
Yes
Specifies whether the key can be exported.
algorithm
object
Yes
The algorithm for which this key can be used and the associated parameters.
usages
Array<string>
Yes
The usage of the key.

CryptoKeyPair

A CryptoKeyPair represents a key pair that is generated by using an encryption algorithm. For more information, see CryptoKeyPair. The CryptoKeyPair object cannot be constructed directly. You can use the following method to generate CryptoKeyPair objects:
The following table describes the CryptoKeyPair attributes.
Attribute
Type
Read-only
Description
privateKey
Yes
The private key. For encryption and decryption algorithms, this key is used for decryption. For signature signing and verification algorithms, this key is used for signature signing.
publicKey
Yes
The public key. For encryption and decryption algorithms, this key is used for encryption. For signature signing and verification algorithms, this key is used for signature verification.

Supported Algorithms

Edge Functions supports all algorithms that are defined in the WebCrypto specification. The following table describes the algorithms.
Algorithm
encrypt() decrypt()
sign() verify()
wrapKey() unwrapKey()
deriveKey() deriveBits()
generateKey()
importKey()
exportKey()
digest()
RSASSA-PKCS1-v1_5
-
-
-
-
RSA-PSS
-
-
-
-
RSA-OAEP
-
-
-
ECDSA
-
-
-
-
ECDH
-
-
-
-
HMAC
-
-
-
-
AES-CTR
-
-
-
AES-CBC
-
-
-
AES-GCM
-
-
-
AES-KW
-
-
-
-
HKDF
-
-
-
-
-
-
PBKDF2
-
-
-
-
-
-
SHA-1
-
-
-
-
-
-
-
SHA-256
-
-
-
-
-
-
-
SHA-384
-
-
-
-
-
-
-
SHA-512
-
-
-
-
-
-
-
MD5
-
-
-
-
-
-
-

Sample Code

function uint8ArrayToHex(arr) {
return Array.prototype.map.call(arr, (x) => ((`0${x.toString(16)}`).slice(-2))).join('');
}

async function handleEvent(event) {
const encodeArr = TextEncoder().encode('hello world');
// Execute MD5.
const md5Buffer = await crypto.subtle.digest({ name: 'MD5' }, encodeArr);
// Generate a hexadecimal string.
const md5Str = uint8ArrayToHex(new Uint8Array(md5Buffer));

const response = new Response(md5Str);
return response;
}

addEventListener('fetch', async (event) => {
event.respondWith(handleEvent(event));
});

References