Fast SHA-1 digest hash based on Uint8Array, pure JavaScript.
import {createHash} from "sha1-uint8array";
const text = "";
const hex = createHash().update(text).digest("hex");
// => "da39a3ee5e6b4b0d3255bfef95601890afd80709"
const data = new Uint8Array(0);
const hash = createHash().update(data).digest();
// => <Uint8Array da 39 a3 ee 5e 6b 4b 0d 32 55 bf ef 95 60 18 90 af d8 07 09>See TypeScript declaration sha1-uint8array.d.ts for detail.
Both ES Modules and CommonJS supported.
const {createHash} = require("sha1-uint8array");It has a better compatibility with Node.js's crypto module in its smaller footprint.
| module | string IN | Uint8Array IN | TypedArray IN | hex OUT | Uint8Array OUT | minified |
|---|---|---|---|---|---|---|
| crypto | ✅ OK | ✅ OK | ✅ OK | ✅ OK | ✅ OK | - |
| sha1-uint8array | ✅ OK | ✅ OK | ✅ OK | ✅ OK | ✅ OK | 3KB |
| hash.js | ✅ OK | ✅ OK | 🚫 NO | ✅ OK | ✅ OK | 17KB |
| jssha | ✅ OK | ✅ OK | 🚫 NO | ✅ OK | ✅ OK | 10KB |
| crypto-js | ✅ OK | 🚫 NO | 🚫 NO | ✅ OK | 🚫 NO | 109KB |
| jshashes | ✅ OK | 🚫 NO | 🚫 NO | ✅ OK | 🚫 NO | 23KB |
| sha.js | ✅ OK | ✅ OK | 🚫 NO | ✅ OK | ✅ OK | 26KB |
| create-hash | ✅ OK | ✅ OK | 🚫 NO | ✅ OK | ✅ OK | 95KB |
| tiny-sha1 | 🚫 NO | ✅ OK | 🚫 NO | ✅ OK | 🚫 NO | 2KB |
| crypto.subtle.digest() | 🚫 NO | ✅ OK | ✅ OK | 🚫 NO | 🚫 NO | - |
The W3C standard crypto.subtle.digest() API has a different interface which
returns
Promise<ArrayBuffer>.
It runs well both on Node.js and browsers.
Node.js's native crypto module definitely runs faster than any others on Node.js, though.
| module | version | node.js V14 | Chrome 87 | Safari 14 |
|---|---|---|---|---|
| crypto | - | 69ms 👍 | N/A | N/A |
| sha1-uint8array | 0.10.0 | 251ms | 352ms 👍 | 202ms 👍 |
| hash.js | 1.1.7 | 500ms | 619ms | 882ms |
| jssha | 3.2.0 | 720ms | 799ms | 747ms |
| crypto-js | 4.0.0 | 765ms | 842ms | 991ms |
| jshashes | 1.0.8 | 674ms | 1,498ms | 721ms |
| sha.js | 2.4.11 | 361ms | 964ms | 3,487ms |
The benchmark above shows milliseconds for 20,000 times of
SHA-1 hex hash digest generation for approx 1KB string as input.
It is tested on macOS 10.15.7 Intel Core i7 3.2GHz.
You could run the benchmark as below.
git clone https://github.com/kawanet/sha1-uint8array.git
cd sha1-uint8array
npm install
npm run build
# run the benchmark on Node.js
REPEAT=10000 ./node_modules/.bin/mocha test/99.benchmark.js
# run tests and the benchmark on browser
make -C browser
open browser/test.html- The minified build of the library is also available for Web browsers via jsDelivr CDN.
- https://cdn.jsdelivr.net/npm/sha1-uint8array/dist/sha1-uint8array.min.js
- Live Demo https://kawanet.github.io/sha1-uint8array/
<script src="https://cdn.jsdelivr.net/npm/sha1-uint8array/dist/sha1-uint8array.min.js"></script>
<script>
const text = "";
const hex = SHA1.createHash().update(text).digest("hex");
// => "da39a3ee5e6b4b0d3255bfef95601890afd80709"
const data = new Uint8Array(0);
const hash = SHA1.createHash().update(data).digest();
// => <Uint8Array da 39 a3 ee 5e 6b 4b 0d 32 55 bf ef 95 60 18 90 af d8 07 09>
</script>It works great with
browserify
via browser property of package.json of your app if you needs
crypto.createHash("sha1").update(data).digest("hex"); syntax only.
{
"browser": {
"crypto": "sha1-uint8array/dist/sha1-uint8array.min.js"
},
"devDependencies": {
"browserify": "^17.0.0",
"sha1-uint8array": "^0.10.0"
}
}It costs only less than 3KB, whereas browserify's default crypto polyfill
costs more than 300KB huge even after minified.
// On Node.js, this loads Node.js's native crypto module which is faster.
// On browsers, this uses sha1-uint8array.min.js which is small and fast.
const crypto = require("crypto");
const hash = crypto.createHash("sha1").update("").digest("hex");
// => "da39a3ee5e6b4b0d3255bfef95601890afd80709"- https://www.npmjs.com/package/sha1-uint8array
- https://www.npmjs.com/package/sha256-uint8array
- https://github.com/kawanet/sha1-uint8array
- https://github.com/kawanet/sha1-uint8array/blob/main/types/sha1-uint8array.d.ts
Copyright (c) 2020-2023 Yusuke Kawasaki
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