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denoland-deno/tools/release/npm/install_api.cjs

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// @ts-check
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
"use strict";
const fs = require("fs");
const os = require("os");
const path = require("path");
/** @type {string | undefined} */
let cachedIsMusl = undefined;
module.exports = {
runInstall() {
const denoFileName = os.platform() === "win32" ? "deno.exe" : "deno";
const targetExecutablePath = path.join(
__dirname,
denoFileName,
);
if (fs.existsSync(targetExecutablePath)) {
return targetExecutablePath;
}
const target = getTarget();
const sourcePackagePath = path.dirname(
require.resolve("@deno/" + target + "/package.json"),
);
const sourceExecutablePath = path.join(sourcePackagePath, denoFileName);
if (!fs.existsSync(sourceExecutablePath)) {
throw new Error(
"Could not find executable for @deno/" + target + " at " +
sourceExecutablePath,
);
}
try {
if (process.env.DPRINT_SIMULATED_READONLY_FILE_SYSTEM === "1") {
console.warn("Simulating readonly file system for testing.");
throw new Error("Throwing for testing purposes.");
}
// in order to make things faster the next time we run and to allow the
// deno vscode extension to easily pick this up, copy the executable
// into the deno package folder
hardLinkOrCopy(sourceExecutablePath, targetExecutablePath);
if (os.platform() !== "win32") {
// chomd +x
chmodX(targetExecutablePath);
}
return targetExecutablePath;
} catch (err) {
// this may fail on readonly file systems... in this case, fall
// back to using the resolved package path
if (process.env.DENO_DEBUG === "1") {
console.warn(
"Failed to copy executable from " +
sourceExecutablePath + " to " + targetExecutablePath +
". Using resolved package path instead.",
err,
);
}
// use the path found in the specific package
try {
chmodX(sourceExecutablePath);
} catch (_err) {
// ignore
}
return sourceExecutablePath;
}
},
};
/** @filePath {string} */
function chmodX(filePath) {
const perms = fs.statSync(filePath).mode;
fs.chmodSync(filePath, perms | 0o111);
}
function getTarget() {
const platform = os.platform();
if (platform === "linux") {
return platform + "-" + getArch() + "-" + getLinuxFamily();
} else {
return platform + "-" + getArch();
}
}
function getArch() {
const arch = os.arch();
if (arch !== "arm64" && arch !== "x64") {
throw new Error(
"Unsupported architecture " + os.arch() +
". Only x64 and aarch64 binaries are available.",
);
}
return arch;
}
function getLinuxFamily() {
if (getIsMusl()) {
throw new Error(
"Musl is not supported. It's one of our priorities. Please upvote this issue: https://github.com/denoland/deno/issues/3711",
);
// return "musl";
}
return "glibc";
function getIsMusl() {
// code adapted from https://github.com/lovell/detect-libc
// Copyright Apache 2.0 license, the detect-libc maintainers
if (cachedIsMusl == null) {
cachedIsMusl = innerGet();
}
return cachedIsMusl;
function innerGet() {
try {
if (os.platform() !== "linux") {
return false;
}
return isProcessReportMusl() || isConfMusl();
} catch (err) {
// just in case
console.warn("Error checking if musl.", err);
return false;
}
}
function isProcessReportMusl() {
if (!process.report) {
return false;
}
const rawReport = process.report.getReport();
const report = typeof rawReport === "string"
? JSON.parse(rawReport)
: rawReport;
if (!report || !(report.sharedObjects instanceof Array)) {
return false;
}
return report.sharedObjects.some((o) =>
o.includes("libc.musl-") || o.includes("ld-musl-")
);
}
function isConfMusl() {
const output = getCommandOutput();
const [_, ldd1] = output.split(/[\r\n]+/);
return ldd1 && ldd1.includes("musl");
}
function getCommandOutput() {
try {
const command =
"getconf GNU_LIBC_VERSION 2>&1 || true; ldd --version 2>&1 || true";
return require("child_process").execSync(command, { encoding: "utf8" });
} catch (_err) {
return "";
}
}
}
}
/**
* @param sourcePath {string}
* @param destinationPath {string}
*/
function hardLinkOrCopy(sourcePath, destinationPath) {
try {
fs.linkSync(sourcePath, destinationPath);
} catch {
atomicCopyFile(sourcePath, destinationPath);
}
}
/**
* @param sourcePath {string}
* @param destinationPath {string}
*/
function atomicCopyFile(sourcePath, destinationPath) {
const crypto = require("crypto");
const rand = crypto.randomBytes(4).toString("hex");
const tempFilePath = destinationPath + "." + rand;
fs.copyFileSync(sourcePath, tempFilePath);
try {
fs.renameSync(tempFilePath, destinationPath);
} catch (err) {
// will maybe throw when another process had already done this
// so just ignore and delete the created temporary file
try {
fs.unlinkSync(tempFilePath);
} catch (_err2) {
// ignore
}
throw err;
}
}