UUID can be suboptimal for many uses-cases because:
- It isn't the most character efficient way of encoding 128 bits of randomness
- UUID v1/v2 is impractical in many environments, as it requires access to a unique, stable MAC address
- UUID v3/v5 requires a unique seed and produces randomly distributed IDs, which can cause fragmentation in many data structures
- UUID v4 provides no other information than randomness which can cause fragmentation in many data structures
Instead, herein is proposed ULID:
- 128-bit compatibility with UUID
- 1.21e+24 unique ULIDs per millisecond
- Lexicographically sortable!
- Canonically encoded as a 26 character string, as opposed to the 36 character UUID
- Uses Crockford's base32 for better efficiency and readability (5 bits per character)
- Case insensitive
- No special characters (URL safe)
- Monotonic sort order (correctly detects and handles the same millisecond)
<script src="https://unpkg.com/ulid@{{VERSION_NUMBER}}/dist/index.umd.js"></script>
<script>
ULID.ulid()
</script>npm install --save ulid
TypeScript, ES6+, Babel, Webpack, Rollup, etc.. environments
import { ulid } from 'ulid'
ulid() // 01ARZ3NDEKTSV4RRFFQ69G5FAVCommonJS environments
const ULID = require('ulid')
ULID.ulid()AMD (RequireJS) environments
define(['ULID'] , function (ULID) {
ULID.ulid()
});To generate a ULID, simply run the function!
import { ulid } from 'ulid'
ulid() // 01ARZ3NDEKTSV4RRFFQ69G5FAVYou can also input a seed time which will consistently give you the same string for the time component. This is useful for migrating to ulid.
ulid(1469918176385) // 01ARYZ6S41TSV4RRFFQ69G5FAVTo generate monotonically increasing ULIDs, create a monotonic counter.
Note that the same seed time is being passed in for this example to demonstrate its behaviour when generating multiple ULIDs within the same millisecond
import { monotonicFactory } from 'ulid'
const ulid = monotonicFactory()
// Strict ordering for the same timestamp, by incrementing the least-significant random bit by 1
ulid(150000) // 000XAL6S41ACTAV9WEVGEMMVR8
ulid(150000) // 000XAL6S41ACTAV9WEVGEMMVR9
ulid(150000) // 000XAL6S41ACTAV9WEVGEMMVRA
ulid(150000) // 000XAL6S41ACTAV9WEVGEMMVRB
ulid(150000) // 000XAL6S41ACTAV9WEVGEMMVRC
// Even if a lower timestamp is passed (or generated), it will preserve sort order
ulid(100000) // 000XAL6S41ACTAV9WEVGEMMVRDulid automatically detects a suitable (cryptographically-secure) PRNG. In the browser it will use crypto.getRandomValues and on node it will use crypto.randomBytes.
By default, ulid will not use Math.random, because that is insecure. To allow the use of Math.random, you'll have to use factory and detectPrng.
import { factory, detectPrng } from 'ulid'
const prng = detectPrng(true) // pass `true` to allow insecure
const ulid = factory(prng)
ulid() // 01BXAVRG61YJ5YSBRM51702F6MTo use your own pseudo-random number generator, import the factory, and pass it your generator function.
import { factory } from 'ulid'
import prng from 'somewhere'
const ulid = factory(prng)
ulid() // 01BXAVRG61YJ5YSBRM51702F6MYou can also pass in a prng to the monotonicFactory function.
import { monotonicFactory } from 'ulid'
import prng from 'somewhere'
const ulid = monotonicFactory(prng)
ulid() // 01BXAVRG61YJ5YSBRM51702F6MRefer to ulid/spec
Refer to ulid/spec
npm test
npm run perf
ulid
336,331,131 op/s » encodeTime
102,041,736 op/s » encodeRandom
17,408 op/s » generate
Suites: 1
Benches: 3
Elapsed: 7,285.75 ms