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var crypto = require('crypto');
// This alphabet uses `A-Za-z0-9_-` symbols.
// The order of characters is optimized for better gzip and brotli compression.
// Same as in non-secure/index.js
const urlAlphabet =
'useandom-26T198340PX75pxJACKVERYMINDBUSHWOLF_GQZbfghjklqvwyzrict';
// It is best to make fewer, larger requests to the crypto module to
// avoid system call overhead. So, random numbers are generated in a
// pool. The pool is a Buffer that is larger than the initial random
// request size by this multiplier. The pool is enlarged if subsequent
// requests exceed the maximum buffer size.
const POOL_SIZE_MULTIPLIER = 128;
let pool, poolOffset;
let fillPool = bytes => {
if (!pool || pool.length < bytes) {
pool = Buffer.allocUnsafe(bytes * POOL_SIZE_MULTIPLIER);
crypto.randomFillSync(pool);
poolOffset = 0;
} else if (poolOffset + bytes > pool.length) {
crypto.randomFillSync(pool);
poolOffset = 0;
}
poolOffset += bytes;
};
let random = bytes => {
// `-=` convert `bytes` to number to prevent `valueOf` abusing
fillPool((bytes -= 0));
return pool.subarray(poolOffset - bytes, poolOffset)
};
let customRandom = (alphabet, defaultSize, getRandom) => {
// First, a bitmask is necessary to generate the ID. The bitmask makes bytes
// values closer to the alphabet size. The bitmask calculates the closest
// `2^31 - 1` number, which exceeds the alphabet size.
// For example, the bitmask for the alphabet size 30 is 31 (00011111).
let mask = (2 << (31 - Math.clz32((alphabet.length - 1) | 1))) - 1;
// Though, the bitmask solution is not perfect since the bytes exceeding
// the alphabet size are refused. Therefore, to reliably generate the ID,
// the random bytes redundancy has to be satisfied.
// Note: every hardware random generator call is performance expensive,
// because the system call for entropy collection takes a lot of time.
// So, to avoid additional system calls, extra bytes are requested in advance.
// Next, a step determines how many random bytes to generate.
// The number of random bytes gets decided upon the ID size, mask,
// alphabet size, and magic number 1.6 (using 1.6 peaks at performance
// according to benchmarks).
let step = Math.ceil((1.6 * mask * defaultSize) / alphabet.length);
return (size = defaultSize) => {
let id = '';
while (true) {
let bytes = getRandom(step);
// A compact alternative for `for (let i = 0; i < step; i++)`.
let i = step;
while (i--) {
// Adding `|| ''` refuses a random byte that exceeds the alphabet size.
id += alphabet[bytes[i] & mask] || '';
if (id.length === size) return id
}
}
}
};
let customAlphabet = (alphabet, size = 21) =>
customRandom(alphabet, size, random);
let nanoid = (size = 21) => {
// `-=` convert `size` to number to prevent `valueOf` abusing
fillPool((size -= 0));
let id = '';
// We are reading directly from the random pool to avoid creating new array
for (let i = poolOffset - size; i < poolOffset; i++) {
// It is incorrect to use bytes exceeding the alphabet size.
// The following mask reduces the random byte in the 0-255 value
// range to the 0-63 value range. Therefore, adding hacks, such
// as empty string fallback or magic numbers, is unneccessary because
// the bitmask trims bytes down to the alphabet size.
id += urlAlphabet[pool[i] & 63];
}
return id
};
exports.customAlphabet = customAlphabet;
exports.customRandom = customRandom;
exports.nanoid = nanoid;
exports.random = random;
exports.urlAlphabet = urlAlphabet;