wasm-lz4-fast

https://github.com/lz4/lz4 compiled to WebAssembly. For now only decompression is supported. PRs welcome!

Usage no npm install needed!

<script type="module">
  import wasmLz4Fast from 'https://cdn.skypack.dev/wasm-lz4-fast';
</script>

README

wasm-lz4

https://github.com/lz4/lz4 compiled to WebAssembly. For now only decompression is supported. PRs welcome!

API

wasm-lz4 exports a single function:

export default (buffer: Buffer, destinationByteSize: number) => Buffer

Here is an example of using the module:

import fs from 'fs'
import decompress from 'wasm-lz4';

const compressedBytes = fs.readFileSync('compressed.lz4');

// currently you need to know the exact expected size of the output buffer
// so the wasm runtime can allocate enough bytes to decompress into
// TODO: this should not be necessary...it's exposed in the lz4 C code
const outputBytes = compressedBytes * 10;
const decompressedBytes = decompress(compressedBytes, outputBytes);

Using the module in a browser

Emscripten compiled WebAssembly modules are built in 2 parts: a .js side and a .wasm side. In the browser the .js side needs to download the .wasm side from the server so it can compile it. There is more information available in the emscripten documentation.

Usage with Webpack

We require the wasm-lz4.wasm module in our locateFile definition, so that module bundling with dynamic paths is possible. So if you are using Webpack, you can add the following entry:

...
rules : [
  ...
  {
    test: /\.wasm$/,
    type: "javascript/auto",
    use: {
      loader: "file-loader",
      options: {
        name: "[name]-[hash].[ext]",
      },
    },
  },
  ...
]
...

The javascript/auto type setting tells Webpack to bypass its default importing logic, and just import the file as-is. Hopefully this hack will go away with improved WebAssembly support in webpack.

Asynchronous loading & compiling

After the .wasm binary is loaded (via fetch in the browser or require in node) it must be compiled by the WebAssembly runtime. If you call decompress before it is finished compiling it will throw an error indicating it isn't ready yet. To wait for the module to be loaded you can do something like the following:

import decompress from 'wasm-lz4'

async function doWork() {
  await decompress.isLoaded;
  decompress(buffer, outputByteLength);
}

Developing locally

Building

Step 1

First, and most importantly, you need to install emscripten and activate it into your terminal environment. Follow these instructions.

IMPORTANT: For now we only support emscripten 1.37. So run these commands instead of the ones in the guide above:

./emsdk install sdk-1.37.40-64bit
./emsdk activate sdk-1.37.40-64bit
source ./emsdk_env.sh

Step 2

Next, clone the module recursively as it includes lz4 as a git submodule:

$ git clone git@github.com:cruise-automation/wasm-lz4.git --recursive

Step 3

Run npm run build to invoke emcc and compile the code in wasm-lz4.c as well as the required lz4 source files from the lz4 git submodule.

Step 4

To run the tests, run npm install followed by npm test.

To run the tests in Docker, first make sure Docker is installed, and then run npm run docker:test.