// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. // deno-lint-ignore-file no-console import { dirname, extname, fromFileUrl, join, resolve, toFileUrl, } from "@std/path"; import { wait } from "https://deno.land/x/wait@0.1.13/mod.ts"; export { dirname, extname, fromFileUrl, join, resolve, toFileUrl }; export { existsSync, expandGlobSync, walk } from "@std/fs"; export { TextLineStream } from "@std/streams/text-line-stream"; export { delay } from "@std/async/delay"; export { parse as parseJSONC } from "@std/jsonc/parse"; // [toolName] --version output const versions = { "dlint": "dlint 0.68.0", }; const compressed = new Set(["ld64.lld", "rcodesign"]); export const ROOT_PATH = dirname(dirname(fromFileUrl(import.meta.url))); async function getFilesFromGit(baseDir, args) { const { success, stdout } = await new Deno.Command("git", { stderr: "inherit", args, }).output(); const output = new TextDecoder().decode(stdout); if (!success) { throw new Error("gitLsFiles failed"); } const files = output .split("\0") .filter((line) => line.length > 0) .map((filePath) => { try { return Deno.realPathSync(join(baseDir, filePath)); } catch { return null; } }) .filter((filePath) => filePath !== null); return files; } function gitLsFiles(baseDir, patterns) { baseDir = Deno.realPathSync(baseDir); const cmd = [ "-C", baseDir, "ls-files", "-z", "--exclude-standard", "--cached", "--modified", "--others", "--", ...patterns, ]; return getFilesFromGit(baseDir, cmd); } /** List all files staged for commit */ function gitStaged(baseDir, patterns) { baseDir = Deno.realPathSync(baseDir); const cmd = [ "-C", baseDir, "diff", "--staged", "--diff-filter=ACMR", "--name-only", "-z", "--", ...patterns, ]; return getFilesFromGit(baseDir, cmd); } /** * Recursively list all files in (a subdirectory of) a git worktree. * * Optionally, glob patterns may be specified to e.g. only list files with a * certain extension. * * Untracked files are included, unless they're listed in .gitignore. * * Directory names themselves are not listed (but the files inside are). * * Submodules and their contents are ignored entirely. * * This function fails if the query matches no files. * * If --staged argument was provided when program is run * only staged sources will be returned. */ export async function getSources(baseDir, patterns) { const stagedOnly = Deno.args.includes("--staged"); if (stagedOnly) { return await gitStaged(baseDir, patterns); } else { return await gitLsFiles(baseDir, patterns); } } export function buildMode() { if (Deno.args.includes("--release")) { return "release"; } return "debug"; } export function buildPath() { return join(ROOT_PATH, "target", buildMode()); } const platformDirName = { "windows": "win", "darwin": "mac", "linux": "linux64", }[Deno.build.os]; const executableSuffix = Deno.build.os === "windows" ? ".exe" : ""; async function sanityCheckPrebuiltFile(toolPath) { const stat = await Deno.stat(toolPath); if (stat.size < PREBUILT_MINIMUM_SIZE) { throw new Error( `File size ${stat.size} is less than expected minimum file size ${PREBUILT_MINIMUM_SIZE}`, ); } const file = await Deno.open(toolPath, { read: true }); const buffer = new Uint8Array(1024); let n = 0; while (n < 1024) { n += await file.read(buffer.subarray(n)); } // Mac: OK if (buffer[0] == 0xcf && buffer[1] == 0xfa) { return; } // Windows OK if (buffer[0] == "M".charCodeAt(0) && buffer[1] == "Z".charCodeAt(0)) { return; } // Linux OK if ( buffer[0] == 0x7f && buffer[1] == "E".charCodeAt(0) && buffer[2] == "L".charCodeAt(0) && buffer[3] == "F".charCodeAt(0) ) { return; } throw new Error(`Invalid executable (header was ${buffer.subarray(0, 16)}`); } export async function getPrebuilt(toolName) { const toolPath = getPrebuiltToolPath(toolName); try { await sanityCheckPrebuiltFile(toolPath); const versionOk = await verifyVersion(toolName, toolPath); if (!versionOk) { throw new Error("Version mismatch"); } } catch { await downloadPrebuilt(toolName); } return toolPath; } const PREBUILT_PATH = join(ROOT_PATH, "third_party", "prebuilt"); const PREBUILT_TOOL_DIR = join(PREBUILT_PATH, platformDirName); const PREBUILT_MINIMUM_SIZE = 16 * 1024; const DOWNLOAD_TASKS = {}; export function getPrebuiltToolPath(toolName) { return join(PREBUILT_TOOL_DIR, toolName + executableSuffix); } const commitId = "7a3a6fee951b3381c59aa4c907274957f324ce8c"; const downloadUrl = `https://raw.githubusercontent.com/denoland/deno_third_party/${commitId}/prebuilt/${platformDirName}`; export async function downloadPrebuilt(toolName) { // Ensure only one download per tool happens at a time if (DOWNLOAD_TASKS[toolName]) { return await DOWNLOAD_TASKS[toolName].promise; } const downloadDeferred = DOWNLOAD_TASKS[toolName] = Promise.withResolvers(); const spinner = wait({ text: "Downloading prebuilt tool: " + toolName, interval: 1000, }).start(); const toolPath = getPrebuiltToolPath(toolName); const tempFile = `${toolPath}.temp`; try { await Deno.mkdir(PREBUILT_TOOL_DIR, { recursive: true }); let url = `${downloadUrl}/${toolName}${executableSuffix}`; if (compressed.has(toolName)) { url += ".gz"; } const resp = await fetch(url); if (!resp.ok) { throw new Error(`Non-successful response from ${url}: ${resp.status}`); } const file = await Deno.open(tempFile, { create: true, write: true, mode: 0o755, }); if (compressed.has(toolName)) { await resp.body.pipeThrough(new DecompressionStream("gzip")).pipeTo( file.writable, ); } else { await resp.body.pipeTo(file.writable); } spinner.text = `Checking prebuilt tool: ${toolName}`; await sanityCheckPrebuiltFile(tempFile); if (!await verifyVersion(toolName, tempFile)) { throw new Error( "Didn't get the correct version of the tool after downloading.", ); } spinner.text = `Successfully downloaded: ${toolName}`; try { // necessary on Windows it seems await Deno.remove(toolPath); } catch { // ignore } await Deno.rename(tempFile, toolPath); } catch (e) { spinner.fail(); downloadDeferred.reject(e); throw e; } spinner.succeed(); downloadDeferred.resolve(null); } export async function verifyVersion(toolName, toolPath) { const requiredVersion = versions[toolName]; if (!requiredVersion) { return true; } try { const cmd = new Deno.Command(toolPath, { args: ["--version"], stdout: "piped", stderr: "inherit", }); const output = await cmd.output(); const version = new TextDecoder().decode(output.stdout).trim(); return version == requiredVersion; } catch (e) { console.error(e); return false; } }