// deno-lint-ignore-file no-undef // Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. import os from "node:os"; import { assert, assertEquals, assertNotEquals, assertThrows, } from "@std/assert/mod.ts"; Deno.test({ name: "build architecture is a string", fn() { assertEquals(typeof os.arch(), "string"); }, }); Deno.test({ name: "build architecture", fn() { if (Deno.build.arch == "x86_64") { assertEquals(os.arch(), "x64"); } else if (Deno.build.arch == "aarch64") { assertEquals(os.arch(), "arm64"); } else { throw new Error("unreachable"); } }, }); Deno.test({ name: "os machine (arch)", fn() { if (Deno.build.arch == "aarch64") { assertEquals(os.machine(), "arm64"); } else { assertEquals(os.machine(), Deno.build.arch); } }, }); Deno.test({ name: "home directory is a string", fn() { assertEquals(typeof os.homedir(), "string"); }, }); Deno.test({ name: "tmp directory is a string", fn() { assertEquals(typeof os.tmpdir(), "string"); }, }); Deno.test({ name: "hostname is a string", fn() { assertEquals(typeof os.hostname(), "string"); }, }); Deno.test({ name: "platform is a string", fn() { assertEquals(typeof os.platform(), "string"); }, }); Deno.test({ name: "release is a string", fn() { assertEquals(typeof os.release(), "string"); }, }); Deno.test({ name: "type is a string", fn() { assertEquals(typeof os.type(), "string"); }, }); Deno.test({ name: "getPriority(): PID must be a 32 bit integer", fn() { assertThrows( () => { os.getPriority(3.15); }, Error, "pid must be 'an integer'", ); assertThrows( () => { os.getPriority(9999999999); }, Error, "must be >= -2147483648 && <= 2147483647", ); }, }); Deno.test({ name: "setPriority(): PID must be a 32 bit integer", fn() { assertThrows( () => { os.setPriority(3.15, 0); }, Error, "pid must be 'an integer'", ); assertThrows( () => { os.setPriority(9999999999, 0); }, Error, "pid must be >= -2147483648 && <= 2147483647", ); }, }); Deno.test({ name: "setPriority(): priority must be an integer between -20 and 19", fn() { assertThrows( () => { os.setPriority(0, 3.15); }, Error, "priority must be 'an integer'", ); assertThrows( () => { os.setPriority(0, -21); }, Error, "priority must be >= -20 && <= 19", ); assertThrows( () => { os.setPriority(0, 20); }, Error, "priority must be >= -20 && <= 19", ); assertThrows( () => { os.setPriority(0, 9999999999); }, Error, "priority must be >= -20 && <= 19", ); }, }); Deno.test({ name: "setPriority(): if only one argument specified, then this is the priority, NOT the pid", fn() { assertThrows( () => { os.setPriority(3.15); }, Error, "priority must be 'an integer'", ); assertThrows( () => { os.setPriority(-21); }, Error, "priority must be >= -20 && <= 19", ); assertThrows( () => { os.setPriority(20); }, Error, "priority must be >= -20 && <= 19", ); assertThrows( () => { os.setPriority(9999999999); }, Error, "priority must be >= -20 && <= 19", ); }, }); Deno.test({ name: "EOL is as expected", fn() { assert(os.EOL == "\r\n" || os.EOL == "\n"); }, }); Deno.test({ name: "Endianness is determined", fn() { assert(["LE", "BE"].includes(os.endianness())); }, }); Deno.test({ name: "Load average is an array of 3 numbers", fn() { const result = os.loadavg(); assert(result.length == 3); assertEquals(typeof result[0], "number"); assertEquals(typeof result[1], "number"); assertEquals(typeof result[2], "number"); }, }); Deno.test({ name: "Primitive coercion works as expected", fn() { assertEquals(`${os.arch}`, os.arch()); assertEquals(`${os.endianness}`, os.endianness()); assertEquals(`${os.platform}`, os.platform()); }, }); Deno.test({ name: "Total memory amount should be greater than 0", fn() { assert(os.totalmem() > 0); }, }); Deno.test({ name: "Free memory amount should be greater than 0", fn() { assert(os.freemem() > 0); }, }); Deno.test({ name: "Uptime should be greater than 0", fn() { assert(os.uptime() > 0); }, }); Deno.test({ name: "os.cpus()", fn() { assertEquals(os.cpus().length, navigator.hardwareConcurrency); for (const cpu of os.cpus()) { assert(cpu.model.length > 0); assert(cpu.speed >= 0); assert(cpu.times.user > 0); assert(cpu.times.sys > 0); assert(cpu.times.idle > 0); } }, }); Deno.test({ name: "os.setPriority() & os.getPriority()", // disabled because os.getPriority() doesn't work without sudo ignore: true, fn() { const child = new Deno.Command(Deno.execPath(), { args: ["eval", "while (true) { console.log('foo') }"], }).spawn(); const originalPriority = os.getPriority(child.pid); assertNotEquals(originalPriority, os.constants.priority.PRIORITY_HIGH); os.setPriority(child.pid, os.constants.priority.PRIORITY_HIGH); assertEquals( os.getPriority(child.pid), os.constants.priority.PRIORITY_HIGH, ); os.setPriority(child.pid, originalPriority); assertEquals(os.getPriority(child.pid), originalPriority); child.kill(); }, }); Deno.test({ name: "os.setPriority() throw os permission denied error & os.getPriority() doesn't", async fn() { const child = new Deno.Command(Deno.execPath(), { args: ["eval", "while (true) { console.log('foo') }"], }).spawn(); assertThrows( () => os.setPriority(child.pid, os.constants.priority.PRIORITY_HIGH), Deno.errors.PermissionDenied, ); os.getPriority(child.pid); child.kill(); await child.status; }, }); // Gets the diff in log_10 scale function diffLog10(a: number, b: number): number { return Math.abs(Math.log10(a) - Math.log10(b)); } Deno.test({ name: "os.freemem() is equivalent of Deno.systemMemoryInfo().free except on linux", ignore: Deno.build.os === "linux", fn() { const diff = diffLog10(os.freemem(), Deno.systemMemoryInfo().free); assert(diff < 1); }, }); Deno.test({ name: "os.freemem() is equivalent of Deno.systemMemoryInfo().available on linux", ignore: Deno.build.os !== "linux", fn() { const diff = diffLog10(os.freemem(), Deno.systemMemoryInfo().available); assert(diff < 1); }, });