js-nacl
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1.4.0 • Public • Published

js-nacl: Pure-Javascript High-level API to Emscripten-compiled libsodium routines

A high-level Javascript API wrapping an Emscripten-compiled libsodium, a cryptographic library based on NaCl. Includes both in-browser and node.js support.

The paper "The security impact of a new cryptographic library" is an excellent summary of the motivation behind the NaCl API and library design.

Using this library in the browser requires support for the newish window.crypto.getRandomValues API.

WARNING: This code will not run in Safari version 5.1.x; or, at least, will not run when Safari's Javascript debug mode is disabled. Symptoms include corruption during hash calculation, failures when unboxing, and failures when producing and verifying signatures. Safari 7.0 seems to be just fine, however. I don't know exactly at which version Safari started working: I don't have access to enough of a range of systems. The code has run fine on Chrome and Firefox across all the versions I've tried.

Changes

Version 1.4.0: Updated from libsodium stable-2018-11-19 to 1.0.18-stable.

Version 1.3.2: The Emscripten-compiled code is now configured so that it no longer adds a listener to the uncaughtException when running in node.js. See issue #46.

Version 1.3.1: Correct a minor packaging error.

Version 1.3.0: Updated from libsodium 1.0.11 to stable-2018-11-19. Added crypto_box_seal and crypto_box_seal_open. Switched from using the Emscripten SDK to using a Dockerized Emscripten to produce the built version of the library. Because this enables WASM by default, the approach to handling of requested_total_memory is now different; see below.

Version 1.2.2: Updated from libsodium 1.0.10 to 1.0.11.

Version 1.2.1: Repaired a mistake where I had failed to export the new names crypto_sign_seed_keypair and crypto_box_seed_keypair.

Version 1.2.0: js-nacl is now based around libsodium rather than the plain NaCl tarball. Functions crypto_sign_keypair_from_seed and crypto_box_keypair_from_seed have been renamed to their libsodium names, crypto_sign_seed_keypair and crypto_box_seed_keypair respectively; the old names are still available as aliases, though deprecated, to be removed in a future version.

Version 1.1.0: API change. The nacl_factory.instantiate function now expects a callback as its first argument. It calls the callback with the nacl instance containing the API functions, and returns no useful value.

Version 0.5.0: API change. Instead of being provided with a module nacl, with API functions available directly, library importers are given nacl_factory with a single function instantiate, which returns a nacl instance containing the API functions.

NPM Package

This library is registered on npmjs.org. To install it:

npm install js-nacl

Building the library

The git checkout includes a pre-compiled version of the library, so you won't need Emscripten unless you want to change something about the underlying C-language library itself.

Essentially, the source checkout contains everything you will need to use the library in both the browser and in node.js.

If you do find yourself wanting to build the library, see the instructions in BUILDING.md.

Using the library

In the browser, include the lib/nacl_factory.js script:

<script src="lib/nacl_factory.js"></script>
...
<script>
  nacl_factory.instantiate(function (nacl) {
    alert(nacl.to_hex(nacl.random_bytes(16)));
  });
</script>

In node.js, require the lib/nacl_factory.js module:

var nacl_factory = require("./lib/nacl_factory.js");
nacl_factory.instantiate(function (nacl) {
  ...
  console.log(nacl.to_hex(nacl.random_bytes(16)));
});

Or if you have installed the library via npm,

var nacl_factory = require("js-nacl");
nacl_factory.instantiate(function (nacl) {
  ...
  console.log(nacl.to_hex(nacl.random_bytes(16)));
});

In addition, since version 1.3.0, the instantiate function returns a Promise that yields the nacl object.

Instantiating the NaCl module

Pass nacl_factory.instantiate a callback function expecting a single argument, the nacl module instance.

The nacl_factory.instantiate function expects also a second optional argument, a dictionary of optional configuration values.

Each call to nacl_factory.instantiate() creates an entirely fresh module instance, complete with its own private heap area. Since v1.3.0: The heap should automatically grow as required, and should no longer require manual ahead-of-time configuration.

It's fine to instantiate the module more than once in a single program, though beware of the large amount of memory potentially taken up by each instance. The memory assigned to each module instance will not be released until the instance is garbage collected.

If you notice memory leaks across multiple uses of a single module instance, please report them, with a test case if at all possible.

Strings vs. Binary Data

The library enforces a strict distinction between strings and binary data. Binary data is represented using instances of Uint8Array.

nacl.to_hex(Uint8Array) → String

Returns a lower-case hexadecimal representation of the given binary data.

nacl.from_hex(String) → Uint8Array

Converts a lower- or upper-case hexadecimal representation of binary data into the equivalent Uint8Array.

nacl.encode_utf8(String) → Uint8Array

Returns the binary equivalent of the argument, encoded using UTF-8.

nacl.encode_latin1(String) → Uint8Array

Returns the binary equivalent of the argument, encoded using Latin1 (an 8-bit clean encoding). If any of the character codes in the argument string are greater than 255, an exception is thrown.

nacl.decode_utf8(Uint8Array) → String

Decodes the binary data in the argument using the UTF-8 encoding, producing the corresponding string.

nacl.decode_latin1(Uint8Array) → String

Decodes the binary data in the argument using the Latin1 8-bit clean encoding, producing the corresponding string.

Hashing: crypto_hash

Follows the NaCl crypto_hash API.

nacl.crypto_hash(Uint8Array) → Uint8Array

Computes the SHA-512 hash of its argument.

While SHA-512 is recommended, the SHA-256 function is also available, as nacl.crypto\_hash\_sha256.

nacl.crypto_hash_string(String) → Uint8Array

Encodes its argument using nacl.encode_utf8, and then calls crypto_hash.

Public-key authenticated encryption: crypto_box

Follows the NaCl crypto_box API.

You do not need to perform any padding of any arguments to these functions; the API given here is most similar to the "C++" API in the NaCl documentation.

Make sure to follow the instructions regarding nonce selection given in the "Security model" section of the NaCl API documentation!

senderKeypair = nacl.crypto_box_keypair();
recipientKeypair = nacl.crypto_box_keypair();
message = nacl.encode_utf8("Hello!");

nonce = nacl.crypto_box_random_nonce();
packet = nacl.crypto_box(message, nonce, recipientKeypair.boxPk, senderKeypair.boxSk);

decoded = nacl.crypto_box_open(packet, nonce, senderKeypair.boxPk, recipientKeypair.boxSk);

"Hello!" === nacl.decode_utf8(decoded); // always true

nacl.crypto_box_keypair() → {"boxPk": Uint8Array, "boxSk": Uint8Array}

Creates a fresh random keypair. boxPk is the public key and boxSk is the secret key.

nacl.crypto_box_random_nonce() → Uint8Array

Returns a fresh randomly-chosen nonce suitable for use with crypto_box.

nacl.crypto_box(msgBin, nonceBin, recipientPublicKeyBin, senderSecretKeyBin) → Uint8Array

Places msg in an authenticated, encrypted box that can only be verified and decrypted by the secret key corresponding to recipientPublicKey.

nacl.crypto_box_open(ciphertextBin, nonceBin, senderPublicKeyBin, recipientSecretKeyBin) → Uint8Array

Verifies and decrypts a box from crypto_box. Throws an exception if the verification fails or any of the inputs are invalid.

nacl.crypto_box_precompute(publicKeyBin, secretKeyBin) → {"boxK": Uint8Array}

Precomputes a shared secret between two parties. See the documentation for crypto_box_beforenm at the NaCl website.

nacl.crypto_box_precomputed(msgBin, nonceBin, {"boxK": Uint8Array}) → Uint8Array
nacl.crypto_box_open_precomputed(ciphertextBin, nonceBin, {"boxK": Uint8Array}) → Uint8Array

Precomputed-secret variants of crypto_box and crypto_box_open.

Secret-key authenticated encryption: crypto_secretbox

Follows the NaCl crypto_secretbox API.

You do not need to perform any padding of any arguments to these functions; the API given here is most similar to the "C++" API in the NaCl documentation.

Make sure to follow the instructions regarding nonce selection given in the "Security model" section of the NaCl API documentation!

k = ...;
m = nacl.encode_utf8("message");
n = nacl.crypto_secretbox_random_nonce();
c = nacl.crypto_secretbox(m, n, k);
m1 = nacl.crypto_secretbox_open(c, n, k);
"message" === nacl.decode_utf8(m1); // always true

nacl.crypto_secretbox_random_nonce() → Uint8Array

Returns a fresh randomly-chosen nonce suitable for use with crypto_secretbox.

nacl.crypto_secretbox(msgBin, nonceBin, keyBin) → Uint8Array

Places msg in an authenticated, encrypted box that can only be verified and decrypted by someone who knows keyBin. The keyBin Uint8Array must be nacl.crypto_secretbox_KEYBYTES bytes long.

nacl.crypto_secretbox_open(ciphertextBin, nonceBin, keyBin) → Uint8Array

Verifies and decrypts a packet from crypto_secretbox. Throws an exception if the verification fails or any of the inputs are invalid.

Anonymous authenticated encryption: crypto_box_seal

Uses a freshly-created ephemeral box keypair to send an "anonymous" message to a specific recipient, who is identified by their public box key, and who may decrypt the message using the matching box keypair.

nacl.crypto_box_seal(msgBin, recipientPublicKeyBin) → Uint8Array

Places msgBin in an authenticated, encrypted box that can only be verified and decrypted by the secret key corresponding to recipientPublicKeyBin.

nacl.crypto_box_seal_open(ciphertextBin, recipientPublicKeyBin, recipientSecretKeyBin) → Uint8Array

Verifies and decrypts a box from crypto_box_seal. Throws an exception if the verification fails or any of the inputs are invalid. Unlike crypto_box_open, no nonce is required, and the recipient's public key is supplied instead of the sender's. The sender remains anonymous.

Secret-key encryption: crypto_stream

Follows the NaCl crypto_stream API.

Make sure to follow the instructions regarding nonce selection given in the "Security model" section of the NaCl API documentation!

Since this style of secret-key encryption is symmetric, nacl.crypto_stream_xor is suitable for decryption as well as encryption:

k = ...;
m = nacl.encode_utf8("message");
n = nacl.crypto_stream_random_nonce();
c = nacl.crypto_stream_xor(m, n, k);
m1 = nacl.crypto_stream_xor(c, n, k);
"message" === nacl.decode_utf8(m1); // always true

nacl.crypto_stream_random_nonce() → Uint8Array

Returns a fresh randomly-chosen nonce suitable for use with crypto_stream.

nacl.crypto_stream(lenInt, nonceBin, keyBin) → Uint8Array

Returns a lenInt-byte length keystream based on the given nonce and key. The key must be nacl.crypto_stream_KEYBYTES bytes long.

nacl.crypto_stream_xor(msgBin, nonceBin, keyBin) → Uint8Array

Returns msgBin.length bytes of ciphertext (or plaintext, depending on the contents of msgBin) produced by XORing msgBin with the result of nacl.crypto_stream(msgBin.length, nonceBin, keyBin).

Secret-key single-message authentication: crypto_onetimeauth

Follows the NaCl crypto_onetimeauth API.

Secret-key message authentication: crypto_auth

Follows the NaCl crypto_auth API.

Signatures: crypto_sign

Follows the NaCl crypto_sign API.

Note that this uses the version of Ed25519 from SUPERCOP, and not the old prototype implementation from the nacl 20110221 release.

The SUPERCOP Ed25519 signature scheme used is compatible with libsodium and most other bindings and wrappers of libsodium and nacl.

nacl.crypto_sign_keypair() → {"signPk": Uint8Array, "signSk": Uint8Array}

Creates a fresh random keypair. signPk is the public key and signSk is the secret key.

k = nacl.crypto_sign_keypair();
m = nacl.encode_utf8("message");
signed_m = nacl.crypto_sign(m, k.signSk);
m1 = nacl.crypto_sign_open(signed_m, k.signPk);
"message" === nacl.decode_utf8(m1); // always true

nacl.crypto_sign(msgBin, signerSecretKey) → Uint8Array

Produces a signature-wrapped version of msgBin.

nacl.crypto_sign_open(packetBin, signerPublicKey) → (Uint8Array || null)

Verifies the signature on the given packetBin, and if it is valid, extracts the carried message and returns it. If the signature could not be verified, returns null.

nacl.crypto_sign_detached(msgBin, signerSecretKey) → Uint8Array

WARNING: Experimental. Produces a "detached" signature that, unlike crypto_sign, excludes the actual message body. The result can be used with crypto_sign_verify_detached.

The returned detached signature will be nacl.crypto_sign_BYTES in length.

nacl.crypto_sign_verify_detached(detachedSignatureBin, msgBin, signerPublicKey) → (true || false)

WARNING: Experimental. Given a "detached" signature from crypto_sign_detached, along with the original message and the signer's public signing key, returns true if the signature is valid, and false otherwise.

Derived Keys

WARNING: Experimental

If you see yourself wanting to use these, you will need to know why PBKDF2 and scrypt are of crucial importance.

You might like to explore the use of these functions in tandem with scrypt.crypto_scrypt from js-scrypt.

It is not generally safe to supply (for example) a user's passphrase directly to these procedures without using PBKDF2, scrypt or something similar beforehand.

nacl.crypto_sign_seed_keypair(Uint8Array) → {"signPk": Uint8Array, "signSk": Uint8Array}

Produces a signing keypair from its argument. A given binary input will always produce the same keypair as output.

The input must be 32 bytes long. As Brian Warner puts it, "Ed25519 keys start life as a 32-byte (256-bit) uniformly random binary seed" such as might be produced by sha256, or better yet, PBKDF2 or scrypt.

Make sure to read and understand the warnings relating to passphrases, PBKDF2 and scrypt at the beginning of this section.

Compatible with PyNaCl's crypto_sign_keypair_fromseed and racl's bytes->crypto-sign-keypair.

(Prior to v1.2.0, known as nacl.crypto_sign_keypair_from_seed.)

nacl.crypto_box_seed_keypair(Uint8Array) → {"boxPk": Uint8Array, "boxSk": Uint8Array}

Produces an encrypted authenticated box keypair from its argument. A given binary input will always produce the same keypair as output.

The input may be of any length. The input is hashed once with sha512, and the first 32 bytes of the result are taken as the 32-byte secret key, which is then passed to nacl.crypto_box_keypair_from_raw_sk.

Make sure to read and understand the warnings relating to passphrases, PBKDF2 and scrypt at the beginning of this section.

Compatible with racl's bytes->crypto-box-keypair.

(Prior to v1.2.0, known as nacl.crypto_box_keypair_from_seed.)

nacl.crypto_box_keypair_from_raw_sk(Uint8Array) → {"boxPk": Uint8Array, "boxSk": Uint8Array}

Produces an encrypted authenticated box keypair from its argument. A given binary input will always produce the same keypair as output.

The input must be 32 bytes long, and could be a random 32-byte value, or the output of sha256, or better yet, the output of PBKDF2 or scrypt.

Make sure to read and understand the warnings relating to passphrases, PBKDF2 and scrypt at the beginning of this section.

Compatible with racl's crypto-box-sk->pk.

Low-level tools

nacl.crypto_scalarmult(Uint8Array, Uint8Array) → Uint8Array

Expects two binaries, the first of length nacl.crypto_scalarmult_SCALARBYTES (representing an integer), and the second of length nacl.crypto_scalarmult_BYTES (representing a group element). The two are multiplied using the underlying NaCl crypto_scalarmult primitive, and the resulting nacl.crypto_scalarmult_BYTES-length group element binary is returned.

nacl.crypto_scalarmult_base(Uint8Array) → Uint8Array

As nacl.crypto_scalarmult, but multiplies the nacl.crypto_scalarmult_SCALARBYTES-length argument by a standard group element, returning the result.

License

js-nacl is written by Tony Garnock-Jones tonygarnockjones@gmail.com and is licensed under the MIT license:

Copyright © 2013-2018 Tony Garnock-Jones.

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

js-nacl relies on libsodium, which is released under the ISC license:

Copyright (c) 2013-2018 Frank Denis

Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies.

THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

libsodium in turn relies on NaCl itself, which is public domain code by Daniel J. Bernstein and others.

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