hidden-machine
Compile JavaScript into a native addon for Node.js secured by libsodium
$ npm install hidden-machineIn your package.json, add the following "prepublish" script:
...
"main": "index.js",
"scripts": {
"install": "node-gyp-build",
"prepublish": "hidden-machine lib/index.js -o . --key=$SHARED_APP_KEY"
}
...where lib/ is the entry path to your module code ./ is the
output directory for a C file and a binding.gyp file, and index.js
exports look something like:
module.exports = (key) => require('node-gyp-build')(__dirname).initialize(key)and the calling code calls require('your-hidden-module')(Buffer.from(sharedApplicationKey, 'hex')).
where sharedApplicationKey can be generated with by running the following:
$ hidden-machine --keygen ## use --json for JSON output
...
hidden-machine: publicKey= f4e6a97ae2a2d568de4f9b4144e736cd71ab338881cee6c44a48ced4cd66b504
hidden-machine: secretKey= 3f9632bc7dc125fe399ed2f7739233274428bc96bdb8ece9ba5937a988fb5b4df4e6a97ae2a2d568de4f9b4144e736cd71ab338881cee6c44a48ced4cd66b504
hidden-machine: secret= 211536a908a2e650f00c38867c9a4696a1d073323a0c2ac6a1a8f4012265f82a
hidden-machine: key= 3f9632bc7dc125fe399ed2f7739233274428bc96bdb8ece9ba5937a988fb5b4dand can be used when publishing or packing your module:
$ SHARED_APP_KEY=3f9632bc7dc125fe399ed2f7739233274428bc96bdb8ece9ba5937a988fb5b4d npm publish # or packconst sharedApplicationKey = generateSharedApplicationKey()
const keyPair = getKeyPair()
require('hidden-machine')('/path/to/input.js', {
publicKey: keyPair.publicKey,
secretKey: keyPair.secretKey,
key: sharedApplicationKey,
}).then((result) => {
for (const step of result.steps) {
if ('Compiler' === step.name) {
console.log(step.output)
}
}
}){ # auto generated: Tue Mar 19 2019 19:47:54 GMT-0400 (Eastern Daylight Time)
"targets": [{
"target_name": "module",
"sources": [
"module.c"
],
"variables": {
"target_arch%": "<!(node -p \"require('hidden-machine/arch')\")>"
},
"cflags": [
"<!(node -p \"require('hidden-machine/cflags')\")"
],
"xcode_settings": {
"OTHER_CFLAGS": [ "<!(node -p \"require('hidden-machine/cflags')\")" ]
},
"libraries": [
"<!(node -p \"require('hidden-machine/libraries/sodium')\")"
],
"include_dirs": [
"<!(node -p \"require('hidden-machine/include/sodium')\")",
"<!(node -p \"require('hidden-machine/include/napi')\")",
"<!(node -p \"require('hidden-machine/include')\")"
],
"conditions": [
["OS != 'mac' and OS != 'win'", {
"link_settings": {
"libraries": [
"-Wl,<!(node -p \"require('hidden-machine/ldflags')\")"
]
}
}]
]
}]
}require('hidden-machine')(input, opts)
Compile input entry module into a native module with the following options:
An optional public key to use for encryption.
An optional secret key corresponding to the given public key to use for encryption.
A shared secret value that is a blake2b hashed and used as the seed for public and secret key generation.
The initial nonce value used for each crypto_secretbox_easy on each
buffer segment.
An optional initial seed value. If this is given, the secret is ignored.
An optional shared secret key that is used for encryption for each
crypto_secretbox_easy call.
Everything is passed directly to ncc including:
opts.compile.build- Compiler output directory. (default:build/)opts.compile.output- Optional build path prefix. (default: ``)
opts.bundle.concurrency- The number of concurrent tasks the bundler will for each input target.
- Example HTTP server compiled with hidden-machine
- A hidden machine to wish a secret happy birthday to @vipyne
MIT