// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license. // // We want to test many ops in deno which have different behavior depending on // the permissions set. These tests can specify which permissions they expect, // which appends a special string like "permW1N0" to the end of the test name. // Here we run several copies of deno with different permissions, filtering the // tests by the special string. permW1N0 means allow-write but not allow-net. // See tools/unit_tests.py for more details. import * as testing from "../../std/testing/mod.ts"; import { assert, assertEquals } from "../../std/testing/asserts.ts"; export { assert, assertThrows, assertEquals, assertMatch, assertNotEquals, assertStrictEq, assertStrContains, unreachable } from "../../std/testing/asserts.ts"; interface TestPermissions { read?: boolean; write?: boolean; net?: boolean; env?: boolean; run?: boolean; hrtime?: boolean; } export interface Permissions { read: boolean; write: boolean; net: boolean; env: boolean; run: boolean; hrtime: boolean; } const isGranted = async (name: Deno.PermissionName): Promise => (await Deno.permissions.query({ name })).state === "granted"; async function getProcessPermissions(): Promise { return { run: await isGranted("run"), read: await isGranted("read"), write: await isGranted("write"), net: await isGranted("net"), env: await isGranted("env"), hrtime: await isGranted("hrtime") }; } const processPerms = await getProcessPermissions(); function permissionsMatch( processPerms: Permissions, requiredPerms: Permissions ): boolean { for (const permName in processPerms) { if (processPerms[permName] !== requiredPerms[permName]) { return false; } } return true; } export const permissionCombinations: Map = new Map(); function permToString(perms: Permissions): string { const r = perms.read ? 1 : 0; const w = perms.write ? 1 : 0; const n = perms.net ? 1 : 0; const e = perms.env ? 1 : 0; const u = perms.run ? 1 : 0; const h = perms.hrtime ? 1 : 0; return `permR${r}W${w}N${n}E${e}U${u}H${h}`; } function registerPermCombination(perms: Permissions): void { const key = permToString(perms); if (!permissionCombinations.has(key)) { permissionCombinations.set(key, perms); } } function normalizeTestPermissions(perms: TestPermissions): Permissions { return { read: !!perms.read, write: !!perms.write, net: !!perms.net, run: !!perms.run, env: !!perms.env, hrtime: !!perms.hrtime }; } export function testPerm( perms: TestPermissions, fn: testing.TestFunction ): void { const normalizedPerms = normalizeTestPermissions(perms); registerPermCombination(normalizedPerms); if (!permissionsMatch(processPerms, normalizedPerms)) { return; } testing.test(fn); } export function test(fn: testing.TestFunction): void { testPerm( { read: false, write: false, net: false, env: false, run: false, hrtime: false }, fn ); } function extractNumber(re: RegExp, str: string): number | undefined { const match = str.match(re); if (match) { return Number.parseInt(match[1]); } } export function parseUnitTestOutput( rawOutput: Uint8Array, print: boolean ): { actual?: number; expected?: number; resultOutput?: string } { const decoder = new TextDecoder(); const output = decoder.decode(rawOutput); let expected, actual, result; for (const line of output.split("\n")) { if (!expected) { // expect "running 30 tests" expected = extractNumber(/running (\d+) tests/, line); } else if (line.indexOf("test result:") !== -1) { result = line; } if (print) { console.log(line); } } // Check that the number of expected tests equals what was reported at the // bottom. if (result) { // result should be a string like this: // "test result: ok. 1 passed; 0 failed; 0 ignored; 0 measured; ..." actual = extractNumber(/(\d+) passed/, result); } return { actual, expected, resultOutput: result }; } test(function permissionsMatches(): void { assert( permissionsMatch( { read: true, write: false, net: false, env: false, run: false, hrtime: false }, normalizeTestPermissions({ read: true }) ) ); assert( permissionsMatch( { read: false, write: false, net: false, env: false, run: false, hrtime: false }, normalizeTestPermissions({}) ) ); assertEquals( permissionsMatch( { read: false, write: true, net: true, env: true, run: true, hrtime: true }, normalizeTestPermissions({ read: true }) ), false ); assertEquals( permissionsMatch( { read: true, write: false, net: true, env: false, run: false, hrtime: false }, normalizeTestPermissions({ read: true }) ), false ); assert( permissionsMatch( { read: true, write: true, net: true, env: true, run: true, hrtime: true }, { read: true, write: true, net: true, env: true, run: true, hrtime: true } ) ); }); testPerm({ read: true }, async function parsingUnitTestOutput(): Promise { const cwd = Deno.cwd(); const testDataPath = `${cwd}/tools/testdata/`; let result; // This is an example of a successful unit test output. result = parseUnitTestOutput( await Deno.readFile(`${testDataPath}/unit_test_output1.txt`), false ); assertEquals(result.actual, 96); assertEquals(result.expected, 96); // This is an example of a silently dying unit test. result = parseUnitTestOutput( await Deno.readFile(`${testDataPath}/unit_test_output2.txt`), false ); assertEquals(result.actual, undefined); assertEquals(result.expected, 96); // This is an example of compiling before successful unit tests. result = parseUnitTestOutput( await Deno.readFile(`${testDataPath}/unit_test_output3.txt`), false ); assertEquals(result.actual, 96); assertEquals(result.expected, 96); // Check what happens on empty output. result = parseUnitTestOutput(new TextEncoder().encode("\n\n\n"), false); assertEquals(result.actual, undefined); assertEquals(result.expected, undefined); });