depot/third_party/nixpkgs/pkgs/applications/editors/pulsar/update.mjs
Default email 87f9c27ba9 Project import generated by Copybara.
GitOrigin-RevId: fe2ecaf706a5907b5e54d979fbde4924d84b65fc
2023-04-12 14:48:02 +02:00

89 lines
3.4 KiB
JavaScript
Executable file

#!/usr/bin/env nix-shell
/*
#!nix-shell -i node -p nodejs-18_x
*/
import { promises as fs } from 'node:fs';
import { promisify } from 'node:util';
import { exec as _exec } from 'node:child_process';
const exec = promisify(_exec);
const constants = {
githubUrl: "https://api.github.com/repos/pulsar-edit/pulsar/releases",
sha256FileURL: (newVersion) => `https://github.com/pulsar-edit/pulsar/releases/download/v${newVersion}/SHA256SUMS.txt`,
x86_64FileName: (newVersion) => `Linux.pulsar-${newVersion}.tar.gz`,
aarch64FileName: (newVersion) => `ARM.Linux.pulsar-${newVersion}-arm64.tar.gz`,
};
async function getLatestVersion() {
const requestResult = await fetch(constants.githubUrl);
if (!requestResult.ok) {
console.error("Failed to fetch releases");
console.error(requestResult);
process.exit(1);
};
let jsonResult = await requestResult.json();
jsonResult = jsonResult.filter((release) => !release.prerelease && !release.draft);
if (jsonResult.length == 0) {
console.error("No releases found");
process.exit(1);
}
return jsonResult[0].tag_name.replace(/^v/, '');
}
async function getSha256Sum(hashFileContent, targetFile) {
// The upstream file has a fomat like this:
// 0000000000000000000000000000000000000000000000000000000000000000 targetFile
let sha256 = hashFileContent.
split('\n').
filter((line) => line.endsWith(targetFile))[0].
split(' ')[0];
return "sha256-" + Buffer.from(sha256, 'hex').toString('base64');
}
async function getSha256Sums(newVersion) {
// Upstream provides a file with the hashes of the files, but it's not in the SRI format, and it refers to the compressed tarball
// So let's just use nix-prefetch-url to get the hashes of the decompressed tarball, and `nix hash to-sri` to convert them to SRI format
const hashFileUrl = constants.sha256FileURL(newVersion);
const hashFileContent = await fetch(hashFileUrl).then((response) => response.text());
let x86_64;
let aarch64;
console.log("Getting new hashes");
let promises = [
getSha256Sum(hashFileContent, constants.x86_64FileName(newVersion)).then((hash) => { x86_64 = hash; }),
getSha256Sum(hashFileContent, constants.aarch64FileName(newVersion)).then((hash) => { aarch64 = hash; }),
];
await Promise.all(promises);
return { x86_64, aarch64 };
}
async function updateFile(newVersion, sha256Sums, currentFile) {
// There is some assumptions in how the file is formatted, but nothing egregious
let newFile = currentFile.replace(/version = "(.*)";/, `version = "${newVersion}";`);
newFile = newFile.replace(/x86_64-linux\.hash = "(.*)";/, `x86_64-linux.hash = "${sha256Sums.x86_64}";`);
newFile = newFile.replace(/aarch64-linux\.hash = "(.*)";/, `aarch64-linux.hash = "${sha256Sums.aarch64}";`);
await fs.writeFile('default.nix', newFile);
};
let currentFile = await fs.readFile('default.nix', 'utf8');
let currentVersion = currentFile.match(/version = "(.*)";/)[1];
const newVersion = await getLatestVersion();
if (currentVersion === newVersion) {
console.error("Already up to date");
process.exit(0);
}
console.log("New version: " + newVersion);
const sha256Sums = await getSha256Sums(newVersion);
console.log(sha256Sums)
if (!sha256Sums.x86_64 || !sha256Sums.aarch64) {
console.error("Failed to find sha256 sums for the 2 files");
process.exit(1);
}
updateFile(newVersion, sha256Sums, currentFile);