lbry-unity/LBRY 3D Viewer/Assets/Editor/LBRY/lbry-format/index.js

194 lines
4.4 KiB
JavaScript
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2019-01-07 00:59:50 +01:00
const fs = require('fs');
const path = require('path');
const tar = require('tar-stream');
const tarPack = tar.pack();
const ZstdCodec = require('zstd-codec').ZstdCodec;
const util = require('util');
const COMPRESSION_LEVEL = 5;
// async readdir
const readdir = async (path, options) => {
return new Promise((resolve) => {
fs.readdir(path, options, (err, files) => {
if(err) {
throw err;
}
resolve(files);
})
})
};
// async readFile
const readFile = util.promisify(fs.readFile);
function generateFirstEntry(options) {
return '{}';
}
function writeFirstEntry(options, tarPack) {
tarPack.entry({ name: '.' }, generateFirstEntry(options), (err) => {
if(err) {
throw err;
}
});
}
function getFileReadStream(options) {
const fileName = options.fileName || 'package.lbry';
return fs.createReadStream(fileName);
}
function getFileWriteStream(options) {
const fileName = options.fileName || 'package.lbry';
return fs.createWriteStream(fileName);
}
async function getZstd() {
return new Promise((resolve, reject) => {
try {
ZstdCodec.run(zstd => {
const Streaming = new zstd.Streaming();
resolve(Streaming);
});
} catch(e) {
reject(e);
}
})
}
async function walkAndRun(runCommand, dir, root) {
let files = await readdir(dir);
for(let file of files) {
const currentPath = path.join(dir, file);
if (fs.statSync(currentPath).isDirectory()) {
walkAndRun(runCommand, currentPath);
} else {
runCommand(currentPath);
}
}
};
async function packDirectory(directory, options = {}) {
const packRoot = directory;
const fileWriteStream = getFileWriteStream(options);
const zstd = await getZstd();
tarPack.pipe(fileWriteStream);
writeFirstEntry(options, tarPack);
walkAndRun(async (file) => {
let contents = await readFile(file);
contents = new Uint8Array(contents);
// Must be chunked to avoid issues with fixed memory limits.
const chunkIterator = (() => {
const chunkSize = 4096;
let position = 0;
const iterator = {
next: function() {
const endIndex = position + chunkSize;
const result = {
value: contents.slice(position, endIndex),
done: endIndex >= contents.length,
};
position = endIndex;
return result;
},
[Symbol.iterator]: function() { return this }
};
return iterator;
})();
contents = zstd.compressChunks(chunkIterator, contents.length, COMPRESSION_LEVEL);
let name = path.relative(packRoot, file);
if(/^\.\//.test(name)) {
name = name.slice(2);
}
const entry = tarPack.entry({ name, size: contents.length }, (err) => {
if(err) {
throw err;
}
});
entry.end(contents);
}, directory, packRoot);
};
async function unpackDirectory(directory, options = {}) {
if(!fs.existsSync(directory)) {
fs.mkdirSync(directory);
}
const fileReadStream = getFileReadStream(options);
const zstd = await getZstd();
const extract = tar.extract();
extract.on('entry', async (header, fileStream, next) => {
fileStream.on('end', () => {
next();
})
if(!/^\./.test(header.name)) {
const writePath = path.join(directory, header.name);
await fs.promises.mkdir(path.dirname(writePath), { recursive: true });
var fileWriteStream = fs.createWriteStream(writePath);
fileStream.pipe(fileWriteStream);
} else {
// Just drain it
fileStream.resume();
}
});
extract.on('finish', () => {
// all entries read
});
fileReadStream.pipe(extract);
}
/*
// DO NOT USE until converted to use `compressChunks`
async function packPaths(root, pathsArray, options = {}) {
const fileWriteStream = getFileWriteStream(options);
const zstd = await getZstd();
tarPack.pipe(fileWriteStream);
writeFirstEntry(options, tarPack);
for(let name of pathsArray) {
let contents = await readFile(path.join(root, name));
contents = new Uint8Array(contents);
contents = zstd.compress(contents, COMPRESSION_LEVEL);
if(/^\.\//.test(name)) {
name = name.slice(2);
}
const entry = tarPack.entry({ name, size: contents.length }, (err) => {
if(err) {
throw err;
}
});
entry.end(contents);
}
tarPack.finalize();
}
*/
module.exports = {
packDirectory,
unpackDirectory,
}