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node-aes-gcm

AES GCM module for node.js that takes advantage of GCM authentication

  • 0.1.5
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  • npm
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node-aes-gcm

AES GCM module for node.js using OpenSSL

Installation

node-aes-gcm is available through npm:

$ npm install node-aes-gcm

Rationale

The reason for the existence of this module is that the node.js crypto module does not seem to expose a way to use the ability of GCM (Galois Counter Mode) to perform both encryption and authentication simultaneously. This functionality is available in OpenSSL 1.0+, so this module provides a thin wrapper around OpenSSL to expose this functionality for use in node.js.

GCM is a useful mode to communicate securely with small embedded devices, because of its low operating overhead. When combined with node.js, large scalable systems can be designed. Another advantage is that it is unencumbered by patents.

This module was written for my own use and is not designed to be extremely flexible, but to provide support for the most common use case of GCM in embedded systems. It uses the AES-128 cipher (128-bit key), supports a 96-bit initialization vector (IV), and generates a 128-bit authentication tag. It does include support for additional authenticated data (AAD).

The module exports 2 functions: encrypt and decrypt.

encrypt

encrypt has the following signature:

encrypt(key, iv, plaintext, aad)
  • key is a 16-byte Buffer object containing the AES key used for encryption.
  • iv is a 12-byte Buffer object containing the initialization vector.
  • plaintext is a Buffer object containing the plaintext to be encrypted.
  • aad is a Buffer object containing the additional authenticated data that is not encrypted but is anthenticated by the authentication tag.

All parameters are required. If a parameter is not used (which may often be the case for aad), an empty buffer should be specified (for example: new Buffer([])).

The encrypt function returns an object containing the following items:

{
  ciphertext: Buffer,
  auth_tag: Buffer
}
  • ciphertext is a Buffer object containing the encrypted data.
  • auth_tag is a 16-byte Buffer object containing the authentication tag that is used by the decrypt function to verify the correctness and authenticity of both the encrypted data and the additional authenticated data.

decrypt

decrypt has the following signature:

decrypt(key, iv, ciphertext, aad, auth_tag)
  • key is a 16-byte Buffer object containing the AES key used for encryption.
  • iv is a 12-byte Buffer object containing the initialization vector.
  • ciphertext is a Buffer object containing the ciphertext to be decrypted.
  • aad is a Buffer object containing the additional authenticated data that was used when encryption was done and that is hashed into the authentication tag.
  • auth_tag is a 16-byte Buffer object containing the authentication tag that verifies the correctness and authenticity of both the encrypted data end the additional authenticated data.

All parameters are required. If a parameter is not used (which may often be the case for aad), an empty buffer should be specified (for example: new Buffer([])).

The decrypt function returns an object containing the following items:

{
  plaintext: Buffer,
  auth_ok: Boolean
}
  • plaintext is a Buffer object containing the decrypted data.
  • auth_ok is a Boolean indicating whether the encrypted data and additional authenticated data passed verification (true) or failed (false).

Example

The following example is shows an interactive node session using this module to execute Test Case 3 from the NIST GCM revised spec:

> gcm = require('node-aes-gcm')
{ encrypt: [Function], decrypt: [Function] }
> key = new Buffer([0xfe,0xff,0xe9,0x92,0x86,0x65,0x73,0x1c,0x6d,0x6a,0x8f,0x94,0x67,0x30,0x83,0x08])
<Buffer fe ff e9 92 86 65 73 1c 6d 6a 8f 94 67 30 83 08>
> iv = new Buffer([0xca,0xfe,0xba,0xbe,0xfa,0xce,0xdb,0xad,0xde,0xca,0xf8,0x88])
<Buffer ca fe ba be fa ce db ad de ca f8 88>
> plaintext = new Buffer([0xd9,0x31,0x32,0x25,0xf8,0x84,0x06,0xe5,0xa5,0x59,0x09,0xc5,0xaf,0xf5,0x26,0x9a,0x86,0xa7,0xa9,0x53,0x15,0x34,0xf7,0xda,0x2e,0x4c,0x30,0x3d,0x8a,0x31,0x8a,0x72,0x1c,0x3c,0x0c,0x95,0x95,0x68,0x09,0x53,0x2f,0xcf,0x0e,0x24,0x49,0xa6,0xb5,0x25,0xb1,0x6a,0xed,0xf5,0xaa,0x0d,0xe6,0x57,0xba,0x63,0x7b,0x39,0x1a,0xaf,0xd2,0x55])
<Buffer d9 31 32 25 f8 84 06 e5 a5 59 09 c5 af f5 26 9a 86 a7 a9 53 15 34 f7 da 2e 4c 30 3d 8a 31 8a 72 1c 3c 0c 95 95 68 09 53 2f cf 0e 24 49 a6 b5 25 b1 6a ed ...>
> e = gcm.encrypt(key, iv, plaintext, new Buffer([]))
{ ciphertext: <Buffer 42 83 1e c2 21 77 74 24 4b 72 21 b7 84 d0 d4 9c e3 aa 21 2f 2c 02 a4 e0 35 c1 7e 23 29 ac a1 2e 21 d5 14 b2 54 66 93 1c 7d 8f 6a 5a ac 84 aa 05 1b a3 0b ...>,
  auth_tag: <Buffer 4d 5c 2a f3 27 cd 64 a6 2c f3 5a bd 2b a6 fa b4> }
> d = gcm.decrypt(key, iv, e.ciphertext, new Buffer([]), e.auth_tag)
{ plaintext: <Buffer d9 31 32 25 f8 84 06 e5 a5 59 09 c5 af f5 26 9a 86 a7 a9 53 15 34 f7 da 2e 4c 30 3d 8a 31 8a 72 1c 3c 0c 95 95 68 09 53 2f cf 0e 24 49 a6 b5 25 b1 6a ed ...>,
  auth_ok: true }

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Package last updated on 16 Mar 2015

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