var assert = require('nanoassert') var randombytes_buf = require('./randombytes').randombytes_buf var blake2b = require('blake2b') module.exports.crypto_kdf_PRIMITIVE = 'blake2b' module.exports.crypto_kdf_BYTES_MIN = 16 module.exports.crypto_kdf_BYTES_MAX = 64 module.exports.crypto_kdf_CONTEXTBYTES = 8 module.exports.crypto_kdf_KEYBYTES = 32 function STORE64_LE(dest, int) { var mul = 1 var i = 0 dest[0] = int & 0xFF while (++i < 8 && (mul *= 0x100)) { dest[i] = (int / mul) & 0xFF } } module.exports.crypto_kdf_derive_from_key = function crypto_kdf_derive_from_key (subkey, subkey_id, ctx, key) { assert(subkey.length >= module.exports.crypto_kdf_BYTES_MIN, 'subkey must be at least crypto_kdf_BYTES_MIN') assert(subkey_id >= 0 && subkey_id <= 0x1fffffffffffff, 'subkey_id must be safe integer') assert(ctx.length >= module.exports.crypto_kdf_CONTEXTBYTES, 'context must be at least crypto_kdf_CONTEXTBYTES') var ctx_padded = new Uint8Array(blake2b.PERSONALBYTES) var salt = new Uint8Array(blake2b.SALTBYTES) ctx_padded.set(ctx, 0, module.exports.crypto_kdf_CONTEXTBYTES) STORE64_LE(salt, subkey_id) var outlen = Math.min(subkey.length, module.exports.crypto_kdf_BYTES_MAX) blake2b(outlen, key.subarray(0, module.exports.crypto_kdf_KEYBYTES), salt, ctx_padded, true) .final(subkey) } module.exports.crypto_kdf_keygen = function crypto_kdf_keygen (out) { assert(out.length >= module.exports.crypto_kdf_KEYBYTES, 'out.length must be crypto_kdf_KEYBYTES') randombytes_buf(out.subarray(0, module.exports.crypto_kdf_KEYBYTES)) }