v1.2.1
WebAssembly port of Ed25519 signatures and X25519 key exchange
Repository
Current version released
a year ago
Berith
WebAssembly port of Ed25519 signatures and X25519 key exchange
npm i @hazae41/berith
Node Package π¦ β’ Deno Module π¦ β’ Next.js CodeSandbox πͺ£
Algorithms
- Ed25519 from Dalek (ed25519-dalek)
- X25519 from Dalek (ed25519-dalek)
Features
- Reproducible building
- Pre-bundled and streamed
- Zero-copy memory slices
Benchmark
Deno
git clone https://github.com/hazae41/berith && cd berith && npm i && npm run bench:deno
cpu: Apple M1 Max
runtime: deno 1.30.3 (aarch64-apple-darwin)
file:///src/deno/bench/mod.bench.ts
benchmark time (avg) (min β¦ max) p75 p99 p995
---------------------------------------------------------------------- -----------------------------
@hazae41/berith (unserialized) 325.78 Β΅s/iter (316.04 Β΅s β¦ 491.04 Β΅s) 326.21 Β΅s 348.62 Β΅s 364.54 Β΅s
@hazae41/berith (serialized) 368.3 Β΅s/iter (359.12 Β΅s β¦ 537.71 Β΅s) 368.79 Β΅s 399.92 Β΅s 406.54 Β΅s
@noble/curves 0.7.0 1.9 ms/iter (1.73 ms β¦ 2.3 ms) 1.96 ms 2.26 ms 2.28 ms
summary
@hazae41/berith (unserialized)
1.13x faster than @hazae41/berith (serialized)
5.85x faster than @noble/curves 0.7.0
Node
git clone https://github.com/hazae41/berith && cd berith && npm i && npm run bench:node
cpu: Apple M1 Max
runtime: node v18.12.1 (aarch64-apple-darwin)
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β (index) β average β minimum β maximum β
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β @hazae41/berith (unserialized) β '281.68 ΞΌs/iter' β '273.83 ΞΌs' β '875.92 ΞΌs' β
β @hazae41/berith (serialized) β '318.67 ΞΌs/iter' β '311.29 ΞΌs' β '938.87 ΞΌs' β
β @noble/curves 0.7.0 β '1.99 ms/iter' β '1.82 ms' β '5.91 ms' β
β supercop.wasm 5.0.1 β '187.96 ΞΌs/iter' β '179.21 ΞΌs' β '734.29 ΞΌs' β
β node:crypto (unserialized) β '152.67 ΞΌs/iter' β '144.96 ΞΌs' β '2.86 ms' β
β node:crypto (serialized) β '555.61 ΞΌs/iter' β '549.42 ΞΌs' β '1.20 ms' β
ββββββββββββββββββββββββββββββββββ΄βββββββββββββββββββ΄ββββββββββββββ΄ββββββββββββββ
Summary
- @hazae41/berith (unserialized) is 1.13x faster than @hazae41/berith (serialized)
- @hazae41/berith (unserialized) is 7.06x faster than @noble/curves 0.7.0
- @hazae41/berith (unserialized) is 0.67x faster than supercop.wasm 5.0.1
- @hazae41/berith (unserialized) is 0.54x faster than node:crypto (unserialized)
- @hazae41/berith (unserialized) is 1.97x faster than node:crypto (serialized)
Usage
Ed25519 (EdDSA over Curve25519)
import { Berith, Ed25519Keypair } from "@hazae41/berith";
// Wait for WASM to load
Berith.initSyncBundledOnce();
// Generate an identity
const keypair = new Ed25519Keypair();
const identity = keypair.public(); // Ed25519PublicKey
// Define bytes to sign
const bytes = new TextEncoder().encode("hello world"); // Uint8Array
// Sign and verify
const proof = keypair.sign(bytes); // Ed25519Signature
const verified = identity.verify(bytes, proof); // boolean
You can serialize and deserialize to Uint8Array
const bytes = new Ed25519Keypair().to_bytes().copy();
const keypair = Ed25519Keypair.from_bytes(bytes);
const bytes = keypair.public().to_bytes().copy();
const identity = Ed25519PublicKey.from_bytes(bytes);
const bytes = keypair.sign(input).to_bytes().copy();
const proof = Ed25519Signature.from_bytes(bytes);
X25519 (ECDH over Curve25519)
import { Berith, X25519StaticSecret } from "@hazae41/berith";
// Wait for WASM to load
Berith.initSyncBundledOnce();
// Generate secret x for Alice
const secretx = new X25519StaticSecret()
// Generate secret y for Bob
const secrety = new X25519StaticSecret()
// Get public X for Alice to send to Bob
const publicx = secretx.to_public()
// Get public Y for Bob to send to Alice
const publicy = secrety.to_public()
// Alice computes the shared key S from x and Y
const sharedx = secretx.diffie_hellman(publicy)
// Bob computes the shared key S from y and X
const sharedy = secrety.diffie_hellman(publicx)
// S is the same for Alice and Bob
console.log("S (Alice)", sharedx.to_bytes().copy())
console.log("S (Bob", sharedy.to_bytes().copy())
Building
Unreproducible building
You need to install Rust
Then, install wasm-pack
cargo install wasm-pack
Finally, do a clean install and build
npm ci && npm run build
Reproducible building
You can build the exact same bytecode using Docker, just be sure youβre on a linux/amd64
host
docker compose up --build
Then check that all the files are the same using git status
git status --porcelain
If the output is empty then the bytecode is the same as the one I commited
Automated checks
Each time I commit to the repository, the GitHubβs CI does the following:
- Clone the repository
- Reproduce the build using
docker compose up --build
- Throw an error if the
git status --porcelain
output is not empty
Each time I release a new version tag on GitHub, the GitHubβs CI does the following:
- Clone the repository
- Do not reproduce the build, as itβs already checked by the task above
- Throw an error if there is a
npm diff
between the cloned repository and the same version tag on NPM
If a version is present on NPM but not on GitHub, do not use!