"use strict"; /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ Object.defineProperty(exports, "__esModule", { value: true }); const assert = require("assert"); const path = require("path"); const promises_1 = require("fs/promises"); const cross_spawn_promise_1 = require("@malept/cross-spawn-promise"); const MACHO_PREFIX = 'Mach-O '; const MACHO_64_MAGIC_LE = 0xfeedfacf; const MACHO_UNIVERSAL_MAGIC_LE = 0xbebafeca; const MACHO_ARM64_CPU_TYPE = new Set([ 0x0c000001, 0x0100000c, ]); const MACHO_X86_64_CPU_TYPE = new Set([ 0x07000001, 0x01000007, ]); async function read(file, buf, offset, length, position) { let filehandle; try { filehandle = await (0, promises_1.open)(file); await filehandle.read(buf, offset, length, position); } finally { await filehandle?.close(); } } async function checkMachOFiles(appPath, arch) { const visited = new Set(); const invalidFiles = []; const header = Buffer.alloc(8); const file_header_entry_size = 20; const checkx86_64Arch = (arch === 'x64'); const checkArm64Arch = (arch === 'arm64'); const checkUniversalArch = (arch === 'universal'); const traverse = async (p) => { p = await (0, promises_1.realpath)(p); if (visited.has(p)) { return; } visited.add(p); const info = await (0, promises_1.stat)(p); if (info.isSymbolicLink()) { return; } if (info.isFile()) { let fileOutput = ''; try { fileOutput = await (0, cross_spawn_promise_1.spawn)('file', ['--brief', '--no-pad', p]); } catch (e) { if (e instanceof cross_spawn_promise_1.ExitCodeError) { /* silently accept error codes from "file" */ } else { throw e; } } if (fileOutput.startsWith(MACHO_PREFIX)) { console.log(`Verifying architecture of ${p}`); read(p, header, 0, 8, 0).then(_ => { const header_magic = header.readUInt32LE(); if (header_magic === MACHO_64_MAGIC_LE) { const cpu_type = header.readUInt32LE(4); if (checkUniversalArch) { invalidFiles.push(p); } else if (checkArm64Arch && !MACHO_ARM64_CPU_TYPE.has(cpu_type)) { invalidFiles.push(p); } else if (checkx86_64Arch && !MACHO_X86_64_CPU_TYPE.has(cpu_type)) { invalidFiles.push(p); } } else if (header_magic === MACHO_UNIVERSAL_MAGIC_LE) { const num_binaries = header.readUInt32BE(4); assert.equal(num_binaries, 2); const file_entries_size = file_header_entry_size * num_binaries; const file_entries = Buffer.alloc(file_entries_size); read(p, file_entries, 0, file_entries_size, 8).then(_ => { for (let i = 0; i < num_binaries; i++) { const cpu_type = file_entries.readUInt32LE(file_header_entry_size * i); if (!MACHO_ARM64_CPU_TYPE.has(cpu_type) && !MACHO_X86_64_CPU_TYPE.has(cpu_type)) { invalidFiles.push(p); } } }); } }); } } if (info.isDirectory()) { for (const child of await (0, promises_1.readdir)(p)) { await traverse(path.resolve(p, child)); } } }; await traverse(appPath); return invalidFiles; } const archToCheck = process.argv[2]; assert(process.env['APP_PATH'], 'APP_PATH not set'); assert(archToCheck === 'x64' || archToCheck === 'arm64' || archToCheck === 'universal', `Invalid architecture ${archToCheck} to check`); checkMachOFiles(process.env['APP_PATH'], archToCheck).then(invalidFiles => { if (invalidFiles.length > 0) { console.error('\x1b[31mThe following files are built for the wrong architecture:\x1b[0m'); for (const file of invalidFiles) { console.error(`\x1b[31m${file}\x1b[0m`); } process.exit(1); } else { console.log('\x1b[32mAll files are valid\x1b[0m'); } }).catch(err => { console.error(err); process.exit(1); }); //# sourceMappingURL=verify-macho.js.map