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DefinitelyTyped/types/node/node-tests.ts

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import * as assert from "assert";
import * as fs from "fs";
import * as events from "events";
import events2 = require("events");
import * as zlib from "zlib";
import * as url from "url";
import * as util from "util";
import * as crypto from "crypto";
import * as tls from "tls";
import * as http from "http";
import * as https from "https";
import * as net from "net";
import * as tty from "tty";
import * as dgram from "dgram";
import * as querystring from "querystring";
import * as path from "path";
import * as readline from "readline";
import * as childProcess from "child_process";
import * as cluster from "cluster";
import * as os from "os";
import * as vm from "vm";
import * as console2 from "console";
import * as string_decoder from "string_decoder";
import * as stream from "stream";
import * as timers from "timers";
import * as repl from "repl";
import * as v8 from "v8";
import * as dns from "dns";
import * as async_hooks from "async_hooks";
// Specifically test buffer module regression.
import { Buffer as ImportedBuffer, SlowBuffer as ImportedSlowBuffer } from "buffer";
//////////////////////////////////////////////////////////
/// Global Tests : https://nodejs.org/api/global.html ///
//////////////////////////////////////////////////////////
namespace global_tests {
{
let x: NodeModule;
let y: NodeModule;
x.children.push(y);
x.parent = require.main;
require.main = y;
}
}
//////////////////////////////////////////////////////////
/// Assert Tests : https://nodejs.org/api/assert.html ///
//////////////////////////////////////////////////////////
namespace assert_tests {
{
assert(1 + 1 - 2 === 0, "The universe isn't how it should.");
assert.deepEqual({ x: { y: 3 } }, { x: { y: 3 } }, "DEEP WENT DERP");
assert.deepStrictEqual({ a: 1 }, { a: 1 }, "uses === comparator");
assert.doesNotThrow(() => {
const b = false;
if (b) { throw new Error("a hammer at your face"); }
}, undefined, "What the...*crunch*");
assert.equal(3, "3", "uses == comparator");
assert.fail('stuff broke');
assert.fail('actual', 'expected', 'message');
assert.fail(1, 2, undefined, '>');
assert.ifError(0);
assert.notDeepStrictEqual({ x: { y: "3" } }, { x: { y: 3 } }, "uses !== comparator");
assert.notEqual(1, 2, "uses != comparator");
assert.notStrictEqual(2, "2", "uses === comparator");
assert.ok(true);
assert.ok(1);
assert.strictEqual(1, 1, "uses === comparator");
assert.throws(() => { throw new Error("a hammer at your face"); }, undefined, "DODGED IT");
}
}
////////////////////////////////////////////////////
/// Events tests : http://nodejs.org/api/events.html
////////////////////////////////////////////////////
namespace events_tests {
let emitter: events.EventEmitter;
let event: string | symbol;
let listener: (...args: any[]) => void;
let any: any;
{
let result: events.EventEmitter;
result = emitter.addListener(event, listener);
result = emitter.on(event, listener);
result = emitter.once(event, listener);
result = emitter.prependListener(event, listener);
result = emitter.prependOnceListener(event, listener);
result = emitter.removeListener(event, listener);
result = emitter.removeAllListeners();
result = emitter.removeAllListeners(event);
result = emitter.setMaxListeners(42);
}
{
let result: number;
result = events.EventEmitter.defaultMaxListeners;
result = events.EventEmitter.listenerCount(emitter, event); // deprecated
result = emitter.getMaxListeners();
result = emitter.listenerCount(event);
}
{
let result: Function[];
result = emitter.listeners(event);
}
{
let result: boolean;
result = emitter.emit(event);
result = emitter.emit(event, any);
result = emitter.emit(event, any, any);
result = emitter.emit(event, any, any, any);
}
{
let result: Array<string | symbol>;
result = emitter.eventNames();
}
{
class Networker extends events.EventEmitter {
constructor() {
super();
this.emit("mingling");
}
}
}
{
new events2();
}
}
////////////////////////////////////////////////////
/// File system tests : http://nodejs.org/api/fs.html
////////////////////////////////////////////////////
namespace fs_tests {
{
fs.writeFile("thebible.txt",
"Do unto others as you would have them do unto you.",
assert.ifError);
fs.write(1234, "test", () => { });
fs.writeFile("Harry Potter",
"\"You be wizzing, Harry,\" jived Dumbledore.",
{
encoding: "ascii"
},
assert.ifError);
fs.writeFile("testfile", "content", "utf8", assert.ifError);
fs.writeFileSync("testfile", "content", "utf8");
fs.writeFileSync("testfile", "content", { encoding: "utf8" });
}
{
fs.appendFile("testfile", "foobar", "utf8", assert.ifError);
fs.appendFile("testfile", "foobar", { encoding: "utf8" }, assert.ifError);
fs.appendFileSync("testfile", "foobar", "utf8");
fs.appendFileSync("testfile", "foobar", { encoding: "utf8" });
}
{
var content: string;
var buffer: Buffer;
var stringOrBuffer: string | Buffer;
var nullEncoding: string | null = null;
var stringEncoding: string | null = 'utf8';
content = fs.readFileSync('testfile', 'utf8');
content = fs.readFileSync('testfile', { encoding: 'utf8' });
stringOrBuffer = fs.readFileSync('testfile', stringEncoding);
stringOrBuffer = fs.readFileSync('testfile', { encoding: stringEncoding });
buffer = fs.readFileSync('testfile');
buffer = fs.readFileSync('testfile', null);
buffer = fs.readFileSync('testfile', { encoding: null });
stringOrBuffer = fs.readFileSync('testfile', nullEncoding);
stringOrBuffer = fs.readFileSync('testfile', { encoding: nullEncoding });
buffer = fs.readFileSync('testfile', { flag: 'r' });
fs.readFile('testfile', 'utf8', (err, data) => content = data);
fs.readFile('testfile', { encoding: 'utf8' }, (err, data) => content = data);
fs.readFile('testfile', stringEncoding, (err, data) => stringOrBuffer = data);
fs.readFile('testfile', { encoding: stringEncoding }, (err, data) => stringOrBuffer = data);
fs.readFile('testfile', (err, data) => buffer = data);
fs.readFile('testfile', null, (err, data) => buffer = data);
fs.readFile('testfile', { encoding: null }, (err, data) => buffer = data);
fs.readFile('testfile', nullEncoding, (err, data) => stringOrBuffer = data);
fs.readFile('testfile', { encoding: nullEncoding }, (err, data) => stringOrBuffer = data);
fs.readFile('testfile', { flag: 'r' }, (err, data) => buffer = data);
}
{
var errno: number;
fs.readFile('testfile', (err, data) => {
if (err && err.errno) {
errno = err.errno;
}
});
}
{
fs.mkdtemp('/tmp/foo-', (err, folder) => {
console.log(folder);
// Prints: /tmp/foo-itXde2
});
}
{
var tempDir: string;
tempDir = fs.mkdtempSync('/tmp/foo-');
}
{
fs.watch('/tmp/foo-', (event, filename) => {
console.log(event, filename);
});
fs.watch('/tmp/foo-', 'utf8', (event, filename) => {
console.log(event, filename);
});
fs.watch('/tmp/foo-', {
recursive: true,
persistent: true,
encoding: 'utf8'
}, (event, filename) => {
console.log(event, filename);
});
}
{
fs.access('/path/to/folder', (err) => { });
fs.access(Buffer.from(''), (err) => { });
fs.access('/path/to/folder', fs.constants.F_OK | fs.constants.R_OK, (err) => { });
fs.access(Buffer.from(''), fs.constants.F_OK | fs.constants.R_OK, (err) => { });
fs.accessSync('/path/to/folder');
fs.accessSync(Buffer.from(''));
fs.accessSync('path/to/folder', fs.constants.W_OK | fs.constants.X_OK);
fs.accessSync(Buffer.from(''), fs.constants.W_OK | fs.constants.X_OK);
}
{
let s: string;
let b: Buffer;
fs.readlink('/path/to/folder', (err, linkString) => s = linkString);
fs.readlink('/path/to/folder', undefined, (err, linkString) => s = linkString);
fs.readlink('/path/to/folder', 'utf8', (err, linkString) => s = linkString);
fs.readlink('/path/to/folder', 'buffer', (err, linkString) => b = linkString);
fs.readlink('/path/to/folder', s, (err, linkString) => typeof linkString === 'string' ? s = linkString : b = linkString);
fs.readlink('/path/to/folder', {}, (err, linkString) => s = linkString);
fs.readlink('/path/to/folder', { encoding: undefined }, (err, linkString) => s = linkString);
fs.readlink('/path/to/folder', { encoding: 'utf8' }, (err, linkString) => s = linkString);
fs.readlink('/path/to/folder', { encoding: 'buffer' }, (err, linkString) => b = linkString);
fs.readlink('/path/to/folder', { encoding: s }, (err, linkString) => typeof linkString === "string" ? s = linkString : b = linkString);
s = fs.readlinkSync('/path/to/folder');
s = fs.readlinkSync('/path/to/folder', undefined);
s = fs.readlinkSync('/path/to/folder', 'utf8');
b = fs.readlinkSync('/path/to/folder', 'buffer');
const v1 = fs.readlinkSync('/path/to/folder', s);
typeof v1 === "string" ? s = v1 : b = v1;
s = fs.readlinkSync('/path/to/folder', {});
s = fs.readlinkSync('/path/to/folder', { encoding: undefined });
s = fs.readlinkSync('/path/to/folder', { encoding: 'utf8' });
b = fs.readlinkSync('/path/to/folder', { encoding: 'buffer' });
const v2 = fs.readlinkSync('/path/to/folder', { encoding: s });
typeof v2 === "string" ? s = v2 : b = v2;
}
{
let s: string;
let b: Buffer;
fs.realpath('/path/to/folder', (err, resolvedPath) => s = resolvedPath);
fs.realpath('/path/to/folder', undefined, (err, resolvedPath) => s = resolvedPath);
fs.realpath('/path/to/folder', 'utf8', (err, resolvedPath) => s = resolvedPath);
fs.realpath('/path/to/folder', 'buffer', (err, resolvedPath) => b = resolvedPath);
fs.realpath('/path/to/folder', s, (err, resolvedPath) => typeof resolvedPath === 'string' ? s = resolvedPath : b = resolvedPath);
fs.realpath('/path/to/folder', {}, (err, resolvedPath) => s = resolvedPath);
fs.realpath('/path/to/folder', { encoding: undefined }, (err, resolvedPath) => s = resolvedPath);
fs.realpath('/path/to/folder', { encoding: 'utf8' }, (err, resolvedPath) => s = resolvedPath);
fs.realpath('/path/to/folder', { encoding: 'buffer' }, (err, resolvedPath) => b = resolvedPath);
fs.realpath('/path/to/folder', { encoding: s }, (err, resolvedPath) => typeof resolvedPath === "string" ? s = resolvedPath : b = resolvedPath);
s = fs.realpathSync('/path/to/folder');
s = fs.realpathSync('/path/to/folder', undefined);
s = fs.realpathSync('/path/to/folder', 'utf8');
b = fs.realpathSync('/path/to/folder', 'buffer');
const v1 = fs.realpathSync('/path/to/folder', s);
typeof v1 === "string" ? s = v1 : b = v1;
s = fs.realpathSync('/path/to/folder', {});
s = fs.realpathSync('/path/to/folder', { encoding: undefined });
s = fs.realpathSync('/path/to/folder', { encoding: 'utf8' });
b = fs.realpathSync('/path/to/folder', { encoding: 'buffer' });
const v2 = fs.realpathSync('/path/to/folder', { encoding: s });
typeof v2 === "string" ? s = v2 : b = v2;
}
}
///////////////////////////////////////////////////////
/// Buffer tests : https://nodejs.org/api/buffer.html
///////////////////////////////////////////////////////
function bufferTests() {
var utf8Buffer = new Buffer('test');
var base64Buffer = new Buffer('', 'base64');
var octets: Uint8Array = null;
var octetBuffer = new Buffer(octets);
var sharedBuffer = new Buffer(octets.buffer);
var copiedBuffer = new Buffer(utf8Buffer);
console.log(Buffer.isBuffer(octetBuffer));
console.log(Buffer.isEncoding('utf8'));
console.log(Buffer.byteLength('xyz123'));
console.log(Buffer.byteLength('xyz123', 'ascii'));
var result1 = Buffer.concat([utf8Buffer, base64Buffer]);
var result2 = Buffer.concat([utf8Buffer, base64Buffer], 9999999);
// Class Methods: Buffer.swap16(), Buffer.swa32(), Buffer.swap64()
{
const buf = Buffer.from([0x1, 0x2, 0x3, 0x4, 0x5, 0x6, 0x7, 0x8]);
buf.swap16();
buf.swap32();
buf.swap64();
}
// Class Method: Buffer.from(array)
{
const buf: Buffer = Buffer.from([0x62, 0x75, 0x66, 0x66, 0x65, 0x72]);
}
// Class Method: Buffer.from(arrayBuffer[, byteOffset[, length]])
{
const arr: Uint16Array = new Uint16Array(2);
arr[0] = 5000;
arr[1] = 4000;
let buf: Buffer;
buf = Buffer.from(arr.buffer);
buf = Buffer.from(arr.buffer, 1);
buf = Buffer.from(arr.buffer, 0, 1);
}
// Class Method: Buffer.from(buffer)
{
const buf1: Buffer = Buffer.from('buffer');
const buf2: Buffer = Buffer.from(buf1);
}
// Class Method: Buffer.from(str[, encoding])
{
const buf1: Buffer = Buffer.from('this is a tést');
const buf2: Buffer = Buffer.from('7468697320697320612074c3a97374', 'hex');
}
// Test that TS 1.6 works with the 'as Buffer' annotation
// on isBuffer.
var a: Buffer | number;
a = new Buffer(10);
if (Buffer.isBuffer(a)) {
a.writeUInt8(3, 4);
}
// write* methods return offsets.
var b = new Buffer(16);
var result: number = b.writeUInt32LE(0, 0);
result = b.writeUInt16LE(0, 4);
result = b.writeUInt8(0, 6);
result = b.writeInt8(0, 7);
result = b.writeDoubleLE(0, 8);
// fill returns the input buffer.
b.fill('a').fill('b');
{
let buffer = new Buffer('123');
let index: number;
index = buffer.indexOf("23");
index = buffer.indexOf("23", 1);
index = buffer.indexOf("23", 1, "utf8");
index = buffer.indexOf(23);
index = buffer.indexOf(buffer);
}
{
let buffer = new Buffer('123');
let index: number;
index = buffer.lastIndexOf("23");
index = buffer.lastIndexOf("23", 1);
index = buffer.lastIndexOf("23", 1, "utf8");
index = buffer.lastIndexOf(23);
index = buffer.lastIndexOf(buffer);
}
{
let buffer = new Buffer('123');
let val: [number, number];
/* comment out for --target es5
for (let entry of buffer.entries()) {
val = entry;
}
*/
}
{
let buffer = new Buffer('123');
let includes: boolean;
includes = buffer.includes("23");
includes = buffer.includes("23", 1);
includes = buffer.includes("23", 1, "utf8");
includes = buffer.includes(23);
includes = buffer.includes(23, 1);
includes = buffer.includes(23, 1, "utf8");
includes = buffer.includes(buffer);
includes = buffer.includes(buffer, 1);
includes = buffer.includes(buffer, 1, "utf8");
}
{
let buffer = new Buffer('123');
let val: number;
/* comment out for --target es5
for (let key of buffer.keys()) {
val = key;
}
*/
}
{
let buffer = new Buffer('123');
let val: number;
/* comment out for --target es5
for (let value of buffer.values()) {
val = value;
}
*/
}
// Imported Buffer from buffer module works properly
{
let b = new ImportedBuffer('123');
b.writeUInt8(0, 6);
let sb = new ImportedSlowBuffer(43);
b.writeUInt8(0, 6);
}
// Buffer has Uint8Array's buffer field (an ArrayBuffer).
{
let buffer = new Buffer('123');
let octets = new Uint8Array(buffer.buffer);
}
}
////////////////////////////////////////////////////
/// Url tests : http://nodejs.org/api/url.html
////////////////////////////////////////////////////
namespace url_tests {
{
url.format(url.parse('http://www.example.com/xyz'));
// https://google.com/search?q=you're%20a%20lizard%2C%20gary
url.format({
protocol: 'https',
host: "google.com",
pathname: 'search',
query: { q: "you're a lizard, gary" }
});
const myURL = new url.URL('https://a:b@你好你好?abc#foo');
url.format(myURL, { fragment: false, unicode: true, auth: false });
}
{
var helloUrl = url.parse('http://example.com/?hello=world', true);
assert.equal(helloUrl.query.hello, 'world');
}
{
let myURL = new url.URL('https://theuser:thepwd@example.org:81/foo/path?query=string#bar');
assert.equal(myURL.hash, '#bar');
assert.equal(myURL.host, 'example.org:81');
assert.equal(myURL.hostname, 'example.org');
assert.equal(myURL.href, 'https://theuser:thepwd@example.org:81/foo/path?query=string#bar');
assert.equal(myURL.origin, 'https://example.org:81');
assert.equal(myURL.password, 'thepwd');
assert.equal(myURL.username, 'theuser');
assert.equal(myURL.pathname, '/foo/path');
assert.equal(myURL.port, "81");
assert.equal(myURL.protocol, "https:");
assert.equal(myURL.search, "?query=string");
assert.equal(myURL.toString(), 'https://theuser:thepwd@example.org:81/foo/path?query=string#bar');
assert(myURL.searchParams instanceof url.URLSearchParams);
myURL.host = 'example.org:82';
myURL.hostname = 'example.com';
myURL.href = 'http://other.com';
myURL.hash = 'baz';
myURL.password = "otherpwd";
myURL.username = "otheruser";
myURL.pathname = "/otherPath";
myURL.port = "82";
myURL.protocol = "http";
myURL.search = "a=b";
assert.equal(myURL.href, 'http://otheruser:otherpwd@other.com:82/otherPath?a=b#baz');
myURL = new url.URL('/foo', 'https://example.org/');
assert.equal(myURL.href, 'https://example.org/foo');
assert.equal(myURL.toJSON(), myURL.href);
}
{
const searchParams = new url.URLSearchParams('abc=123');
assert.equal(searchParams.toString(), 'abc=123');
searchParams.forEach((value: string, name: string): void => {
assert.equal(name, 'abc');
assert.equal(value, '123');
});
assert.equal(searchParams.get('abc'), '123');
searchParams.append('abc', 'xyz');
assert.deepEqual(searchParams.getAll('abc'), ['123', 'xyz']);
const entries = searchParams.entries();
assert.deepEqual(entries.next(), { value: ["abc", "123"], done: false });
assert.deepEqual(entries.next(), { value: ["abc", "xyz"], done: false });
assert.deepEqual(entries.next(), { value: undefined, done: true });
const keys = searchParams.keys();
assert.deepEqual(keys.next(), { value: "abc", done: false });
assert.deepEqual(keys.next(), { value: "abc", done: false });
assert.deepEqual(keys.next(), { value: undefined, done: true });
const values = searchParams.values();
assert.deepEqual(values.next(), { value: "123", done: false });
assert.deepEqual(values.next(), { value: "xyz", done: false });
assert.deepEqual(values.next(), { value: undefined, done: true });
searchParams.set('abc', 'b');
assert.deepEqual(searchParams.getAll('abc'), ['b']);
searchParams.delete('a');
assert(!searchParams.has('a'));
assert.equal(searchParams.get('a'), null);
searchParams.sort();
}
{
const searchParams = new url.URLSearchParams({
user: 'abc',
query: ['first', 'second']
});
assert.equal(searchParams.toString(), 'user=abc&query=first%2Csecond');
assert.deepEqual(searchParams.getAll('query'), ['first,second']);
}
{
// Using an array
let params = new url.URLSearchParams([
['user', 'abc'],
['query', 'first'],
['query', 'second']
]);
assert.equal(params.toString(), 'user=abc&query=first&query=second');
}
}
/////////////////////////////////////////////////////
/// util tests : https://nodejs.org/api/util.html ///
/////////////////////////////////////////////////////
namespace util_tests {
{
// Old and new util.inspect APIs
util.inspect(["This is nice"], false, 5);
util.inspect(["This is nice"], false, null);
util.inspect(["This is nice"], {
colors: true,
depth: 5,
customInspect: false,
showProxy: true,
maxArrayLength: 10,
breakLength: 20
});
util.inspect(["This is nice"], {
colors: true,
depth: null,
customInspect: false,
showProxy: true,
maxArrayLength: null,
breakLength: Infinity
});
assert(typeof util.inspect.custom === 'symbol');
// util.promisify
var readPromised = util.promisify(fs.readFile);
var sampleRead: Promise<any> = readPromised(__filename).then((data: Buffer): void => { }).catch((error: Error): void => { });
assert(typeof util.promisify.custom === 'symbol');
// util.deprecate
const foo = () => {};
// $ExpectType () => void
util.deprecate(foo, 'foo() is deprecated, use bar() instead');
// $ExpectType <T extends Function>(fn: T, message: string) => T
util.deprecate(util.deprecate, 'deprecate() is deprecated, use bar() instead');
}
}
////////////////////////////////////////////////////
/// Stream tests : http://nodejs.org/api/stream.html
////////////////////////////////////////////////////
// http://nodejs.org/api/stream.html#stream_readable_pipe_destination_options
function stream_readable_pipe_test() {
var rs = fs.createReadStream(Buffer.from('file.txt'));
var r = fs.createReadStream('file.txt');
var z = zlib.createGzip({ finishFlush: zlib.constants.Z_FINISH });
var w = fs.createWriteStream('file.txt.gz');
assert(typeof r.bytesRead === 'number');
assert(typeof r.path === 'string');
assert(rs.path instanceof Buffer);
r.pipe(z).pipe(w);
r.close();
rs.close();
}
// helpers
const compressMe = new Buffer("some data");
const compressMeString = "compress me!";
zlib.deflate(compressMe, (err: Error, result: Buffer) => zlib.inflate(result, (err: Error, result: Buffer) => result));
zlib.deflate(compressMe, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => zlib.inflate(result, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => result));
zlib.deflate(compressMeString, (err: Error, result: Buffer) => zlib.inflate(result, (err: Error, result: Buffer) => result));
zlib.deflate(compressMeString, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => zlib.inflate(result, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => result));
const inflated = zlib.inflateSync(zlib.deflateSync(compressMe));
const inflatedString = zlib.inflateSync(zlib.deflateSync(compressMeString));
zlib.deflateRaw(compressMe, (err: Error, result: Buffer) => zlib.inflateRaw(result, (err: Error, result: Buffer) => result));
zlib.deflateRaw(compressMe, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => zlib.inflateRaw(result, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => result));
zlib.deflateRaw(compressMeString, (err: Error, result: Buffer) => zlib.inflateRaw(result, (err: Error, result: Buffer) => result));
zlib.deflateRaw(compressMeString, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => zlib.inflateRaw(result, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => result));
const inflatedRaw: Buffer = zlib.inflateRawSync(zlib.deflateRawSync(compressMe));
const inflatedRawString: Buffer = zlib.inflateRawSync(zlib.deflateRawSync(compressMeString));
zlib.gzip(compressMe, (err: Error, result: Buffer) => zlib.gunzip(result, (err: Error, result: Buffer) => result));
zlib.gzip(compressMe, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => zlib.gunzip(result, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => result));
const gunzipped: Buffer = zlib.gunzipSync(zlib.gzipSync(compressMe));
zlib.unzip(compressMe, (err: Error, result: Buffer) => result);
zlib.unzip(compressMe, { finishFlush: zlib.Z_SYNC_FLUSH }, (err: Error, result: Buffer) => result);
const unzipped: Buffer = zlib.unzipSync(compressMe);
// Simplified constructors
function simplified_stream_ctor_test() {
new stream.Readable({
read(size) {
size.toFixed();
},
destroy(error) {
error.stack;
}
});
new stream.Writable({
write(chunk, enc, cb) {
chunk.slice(1);
enc.charAt(0);
cb();
},
writev(chunks, cb) {
chunks[0].chunk.slice(0);
chunks[0].encoding.charAt(0);
cb();
},
destroy(error) {
error.stack;
}
});
new stream.Duplex({
read(size) {
size.toFixed();
},
write(chunk, enc, cb) {
chunk.slice(1);
enc.charAt(0);
cb();
},
writev(chunks, cb) {
chunks[0].chunk.slice(0);
chunks[0].encoding.charAt(0);
cb();
},
readableObjectMode: true,
writableObjectMode: true
});
new stream.Transform({
transform(chunk, enc, cb) {
chunk.slice(1);
enc.charAt(0);
cb();
},
flush(cb) {
cb();
},
read(size) {
size.toFixed();
},
write(chunk, enc, cb) {
chunk.slice(1);
enc.charAt(0);
cb();
},
writev(chunks, cb) {
chunks[0].chunk.slice(0);
chunks[0].encoding.charAt(0);
cb();
},
destroy(error) {
error.stack;
},
allowHalfOpen: true,
readableObjectMode: true,
writableObjectMode: true
});
}
////////////////////////////////////////////////////////
/// Crypto tests : http://nodejs.org/api/crypto.html ///
////////////////////////////////////////////////////////
namespace crypto_tests {
{
var hmacResult: string = crypto.createHmac('md5', 'hello').update('world').digest('hex');
}
{
let hmac: crypto.Hmac;
(hmac = crypto.createHmac('md5', 'hello')).end('world', 'utf8', () => {
let hash: Buffer | string = hmac.read();
});
}
{
// crypto_cipher_decipher_string_test
let key: Buffer = new Buffer([1, 2, 3, 4, 5, 6, 7, 8, 9, 1, 2, 3, 4, 5, 6, 7]);
let clearText: string = "This is the clear text.";
let cipher: crypto.Cipher = crypto.createCipher("aes-128-ecb", key);
let cipherText: string = cipher.update(clearText, "utf8", "hex");
cipherText += cipher.final("hex");
let decipher: crypto.Decipher = crypto.createDecipher("aes-128-ecb", key);
let clearText2: string = decipher.update(cipherText, "hex", "utf8");
clearText2 += decipher.final("utf8");
assert.equal(clearText2, clearText);
}
{
// crypto_cipher_decipher_buffer_test
let key: Buffer = new Buffer([1, 2, 3, 4, 5, 6, 7, 8, 9, 1, 2, 3, 4, 5, 6, 7]);
let clearText: Buffer = new Buffer([1, 2, 3, 4, 5, 6, 7, 8, 9, 8, 7, 6, 5, 4]);
let cipher: crypto.Cipher = crypto.createCipher("aes-128-ecb", key);
let cipherBuffers: Buffer[] = [];
cipherBuffers.push(cipher.update(clearText));
cipherBuffers.push(cipher.final());
let cipherText: Buffer = Buffer.concat(cipherBuffers);
let decipher: crypto.Decipher = crypto.createDecipher("aes-128-ecb", key);
let decipherBuffers: Buffer[] = [];
decipherBuffers.push(decipher.update(cipherText));
decipherBuffers.push(decipher.final());
let clearText2: Buffer = Buffer.concat(decipherBuffers);
assert.deepEqual(clearText2, clearText);
}
{
let buffer1: Buffer = new Buffer([1, 2, 3, 4, 5]);
let buffer2: Buffer = new Buffer([1, 2, 3, 4, 5]);
let buffer3: Buffer = new Buffer([5, 4, 3, 2, 1]);
assert(crypto.timingSafeEqual(buffer1, buffer2));
assert(!crypto.timingSafeEqual(buffer1, buffer3));
}
{
let buffer: Buffer = new Buffer(10);
crypto.randomFillSync(buffer);
crypto.randomFillSync(buffer, 2);
crypto.randomFillSync(buffer, 2, 3);
crypto.randomFill(buffer, (err: Error, buf: Buffer) => void {});
crypto.randomFill(buffer, 2, (err: Error, buf: Buffer) => void {});
crypto.randomFill(buffer, 2, 3, (err: Error, buf: Buffer) => void {});
let arr: Uint8Array = new Uint8Array(10);
crypto.randomFillSync(arr);
crypto.randomFillSync(arr, 2);
crypto.randomFillSync(arr, 2, 3);
crypto.randomFill(arr, (err: Error, buf: Uint8Array) => void {});
crypto.randomFill(arr, 2, (err: Error, buf: Uint8Array) => void {});
crypto.randomFill(arr, 2, 3, (err: Error, buf: Uint8Array) => void {});
}
}
//////////////////////////////////////////////////
/// TLS tests : http://nodejs.org/api/tls.html ///
//////////////////////////////////////////////////
namespace tls_tests {
{
var ctx: tls.SecureContext = tls.createSecureContext({
key: "NOT REALLY A KEY",
cert: "SOME CERTIFICATE",
});
var blah = ctx.context;
var connOpts: tls.ConnectionOptions = {
host: "127.0.0.1",
port: 55
};
var tlsSocket = tls.connect(connOpts);
}
{
let _server: tls.Server;
let _boolean: boolean;
let _func1 = (err: Error, resp: Buffer) => { };
let _func2 = (err: Error, sessionData: any) => { };
/**
* events.EventEmitter
* 1. tlsClientError
* 2. newSession
* 3. OCSPRequest
* 4. resumeSession
* 5. secureConnection
*/
_server = _server.addListener("tlsClientError", (err, tlsSocket) => {
let _err: Error = err;
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
_server = _server.addListener("newSession", (sessionId, sessionData, callback) => {
let _sessionId: any = sessionId;
let _sessionData: any = sessionData;
let _func1 = callback;
});
_server = _server.addListener("OCSPRequest", (certificate, issuer, callback) => {
let _certificate: Buffer = certificate;
let _issuer: Buffer = issuer;
let _callback: Function = callback;
});
_server = _server.addListener("resumeSession", (sessionId, callback) => {
let _sessionId: any = sessionId;
let _func2 = callback;
});
_server = _server.addListener("secureConnection", (tlsSocket) => {
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
let _err: Error;
let _tlsSocket: tls.TLSSocket;
let _any: any;
let _func: Function;
let _buffer: Buffer;
_boolean = _server.emit("tlsClientError", _err, _tlsSocket);
_boolean = _server.emit("newSession", _any, _any, _func1);
_boolean = _server.emit("OCSPRequest", _buffer, _buffer, _func);
_boolean = _server.emit("resumeSession", _any, _func2);
_boolean = _server.emit("secureConnection", _tlsSocket);
_server = _server.on("tlsClientError", (err, tlsSocket) => {
let _err: Error = err;
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
_server = _server.on("newSession", (sessionId, sessionData, callback) => {
let _sessionId: any = sessionId;
let _sessionData: any = sessionData;
let _func1 = callback;
});
_server = _server.on("OCSPRequest", (certificate, issuer, callback) => {
let _certificate: Buffer = certificate;
let _issuer: Buffer = issuer;
let _callback: Function = callback;
});
_server = _server.on("resumeSession", (sessionId, callback) => {
let _sessionId: any = sessionId;
let _func2 = callback;
});
_server = _server.on("secureConnection", (tlsSocket) => {
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
_server = _server.once("tlsClientError", (err, tlsSocket) => {
let _err: Error = err;
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
_server = _server.once("newSession", (sessionId, sessionData, callback) => {
let _sessionId: any = sessionId;
let _sessionData: any = sessionData;
let _func1 = callback;
});
_server = _server.once("OCSPRequest", (certificate, issuer, callback) => {
let _certificate: Buffer = certificate;
let _issuer: Buffer = issuer;
let _callback: Function = callback;
});
_server = _server.once("resumeSession", (sessionId, callback) => {
let _sessionId: any = sessionId;
let _func2 = callback;
});
_server = _server.once("secureConnection", (tlsSocket) => {
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
_server = _server.prependListener("tlsClientError", (err, tlsSocket) => {
let _err: Error = err;
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
_server = _server.prependListener("newSession", (sessionId, sessionData, callback) => {
let _sessionId: any = sessionId;
let _sessionData: any = sessionData;
let _func1 = callback;
});
_server = _server.prependListener("OCSPRequest", (certificate, issuer, callback) => {
let _certificate: Buffer = certificate;
let _issuer: Buffer = issuer;
let _callback: Function = callback;
});
_server = _server.prependListener("resumeSession", (sessionId, callback) => {
let _sessionId: any = sessionId;
let _func2 = callback;
});
_server = _server.prependListener("secureConnection", (tlsSocket) => {
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
_server = _server.prependOnceListener("tlsClientError", (err, tlsSocket) => {
let _err: Error = err;
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
_server = _server.prependOnceListener("newSession", (sessionId, sessionData, callback) => {
let _sessionId: any = sessionId;
let _sessionData: any = sessionData;
let _func1 = callback;
});
_server = _server.prependOnceListener("OCSPRequest", (certificate, issuer, callback) => {
let _certificate: Buffer = certificate;
let _issuer: Buffer = issuer;
let _callback: Function = callback;
});
_server = _server.prependOnceListener("resumeSession", (sessionId, callback) => {
let _sessionId: any = sessionId;
let _func2 = callback;
});
_server = _server.prependOnceListener("secureConnection", (tlsSocket) => {
let _tlsSocket: tls.TLSSocket = tlsSocket;
});
// close callback parameter is optional
_server = _server.close();
// close callback parameter doesn't specify any arguments, so any
// function is acceptable
_server = _server.close(() => { });
_server = _server.close((...args: any[]) => { });
}
{
let _TLSSocket: tls.TLSSocket;
let _boolean: boolean;
/**
* events.EventEmitter
* 1. close
* 2. error
* 3. listening
* 4. message
*/
_TLSSocket = _TLSSocket.addListener("OCSPResponse", (response) => {
let _response: Buffer = response;
});
_TLSSocket = _TLSSocket.addListener("secureConnect", () => { });
let _buffer: Buffer;
_boolean = _TLSSocket.emit("OCSPResponse", _buffer);
_boolean = _TLSSocket.emit("secureConnect");
_TLSSocket = _TLSSocket.on("OCSPResponse", (response) => {
let _response: Buffer = response;
});
_TLSSocket = _TLSSocket.on("secureConnect", () => { });
_TLSSocket = _TLSSocket.once("OCSPResponse", (response) => {
let _response: Buffer = response;
});
_TLSSocket = _TLSSocket.once("secureConnect", () => { });
_TLSSocket = _TLSSocket.prependListener("OCSPResponse", (response) => {
let _response: Buffer = response;
});
_TLSSocket = _TLSSocket.prependListener("secureConnect", () => { });
_TLSSocket = _TLSSocket.prependOnceListener("OCSPResponse", (response) => {
let _response: Buffer = response;
});
_TLSSocket = _TLSSocket.prependOnceListener("secureConnect", () => { });
}
}
////////////////////////////////////////////////////
/// Http tests : http://nodejs.org/api/http.html ///
////////////////////////////////////////////////////
namespace http_tests {
// http Server
{
var server: http.Server = new http.Server();
// test public props
const maxHeadersCount: number = server.maxHeadersCount;
const timeout: number = server.timeout;
const listening: boolean = server.listening;
const keepAliveTimeout: number = server.keepAliveTimeout;
}
// http IncomingMessage
// http ServerResponse
{
// incoming
var incoming: http.IncomingMessage = new http.IncomingMessage(new net.Socket());
incoming.setEncoding('utf8');
// stream
incoming.pause();
incoming.resume();
// response
var res: http.ServerResponse = new http.ServerResponse(incoming);
// test headers
res.setHeader('Content-Type', 'text/plain');
var bool: boolean = res.hasHeader('Content-Type');
var headers: string[] = res.getHeaderNames();
// trailers
res.addTrailers([
['x-fOo', 'xOxOxOx'],
['x-foO', 'OxOxOxO'],
['X-fOo', 'xOxOxOx'],
['X-foO', 'OxOxOxO']
]);
res.addTrailers({ 'x-foo': 'bar' });
// writeHead
res.writeHead(200, 'OK\r\nContent-Type: text/html\r\n');
res.writeHead(200, { 'Transfer-Encoding': 'chunked' });
res.writeHead(200);
// write string
res.write('Part of my res.');
// write buffer
const chunk = Buffer.alloc(16390, 'Й');
req.write(chunk);
res.write(chunk, 'hex');
// end
res.end("end msg");
// without msg
res.end();
// flush
res.flushHeaders();
}
// http ClientRequest
{
var req: http.ClientRequest = new http.ClientRequest("https://www.google.com");
var req: http.ClientRequest = new http.ClientRequest(new url.URL("https://www.google.com"));
var req: http.ClientRequest = new http.ClientRequest({ path: 'http://0.0.0.0' });
// header
req.setHeader('Content-Type', 'text/plain');
var bool: boolean = req.hasHeader('Content-Type');
var headers: string[] = req.getHeaderNames();
req.removeHeader('Date');
// write
const chunk = Buffer.alloc(16390, 'Й');
req.write(chunk);
req.write('a');
req.end();
// abort
req.abort();
// connection
req.connection.on('pause', () => { });
// event
req.on('data', () => { });
}
{
// Status codes
var codeMessage = http.STATUS_CODES['400'];
var codeMessage = http.STATUS_CODES[400];
}
{
var agent: http.Agent = new http.Agent({
keepAlive: true,
keepAliveMsecs: 10000,
maxSockets: Infinity,
maxFreeSockets: 256
});
var agent: http.Agent = http.globalAgent;
http.request({ agent: false });
http.request({ agent });
http.request({ agent: undefined });
}
{
// Make sure .listen() and .close() return a Server instance
http.createServer().listen(0).close().address();
net.createServer().listen(0).close().address();
}
{
var request = http.request({ path: 'http://0.0.0.0' });
request.once('error', () => { });
request.setNoDelay(true);
request.abort();
}
const options: http.RequestOptions = {
timeout: 30000
};
}
//////////////////////////////////////////////////////
/// Https tests : http://nodejs.org/api/https.html ///
//////////////////////////////////////////////////////
namespace https_tests {
var agent: https.Agent = new https.Agent({
keepAlive: true,
keepAliveMsecs: 10000,
maxSockets: Infinity,
maxFreeSockets: 256,
maxCachedSessions: 100
});
var agent: https.Agent = https.globalAgent;
https.request({
agent: false
});
https.request({
agent
});
https.request({
agent: undefined
});
}
////////////////////////////////////////////////////
/// TTY tests : http://nodejs.org/api/tty.html
////////////////////////////////////////////////////
namespace tty_tests {
let rs: tty.ReadStream;
let ws: tty.WriteStream;
let rsIsRaw: boolean = rs.isRaw;
rs.setRawMode(true);
let wsColumns: number = ws.columns;
let wsRows: number = ws.rows;
let isTTY: boolean = tty.isatty(1);
}
////////////////////////////////////////////////////
/// Dgram tests : http://nodejs.org/api/dgram.html
////////////////////////////////////////////////////
namespace dgram_tests {
{
var ds: dgram.Socket = dgram.createSocket("udp4", (msg: Buffer, rinfo: dgram.RemoteInfo): void => {
});
ds.bind();
ds.bind(41234);
ds.bind(4123, 'localhost');
ds.bind(4123, 'localhost', () => { });
ds.bind(4123, () => { });
ds.bind(() => { });
var ai: dgram.AddressInfo = ds.address();
ds.send(new Buffer("hello"), 0, 5, 5000, "127.0.0.1", (error: Error, bytes: number): void => {
});
ds.send(new Buffer("hello"), 5000, "127.0.0.1");
}
{
let _socket: dgram.Socket;
let _boolean: boolean;
let _err: Error;
let _str: string;
let _rinfo: dgram.AddressInfo;
/**
* events.EventEmitter
* 1. close
* 2. error
* 3. listening
* 4. message
*/
_socket = _socket.addListener("close", () => { });
_socket = _socket.addListener("error", (err) => {
let _err: Error = err;
});
_socket = _socket.addListener("listening", () => { });
_socket = _socket.addListener("message", (msg, rinfo) => {
let _msg: Buffer = msg;
let _rinfo: dgram.AddressInfo = rinfo;
});
_boolean = _socket.emit("close");
_boolean = _socket.emit("error", _err);
_boolean = _socket.emit("listening");
_boolean = _socket.emit("message", _str, _rinfo);
_socket = _socket.on("close", () => { });
_socket = _socket.on("error", (err) => {
let _err: Error = err;
});
_socket = _socket.on("listening", () => { });
_socket = _socket.on("message", (msg, rinfo) => {
let _msg: Buffer = msg;
let _rinfo: dgram.AddressInfo = rinfo;
});
_socket = _socket.once("close", () => { });
_socket = _socket.once("error", (err) => {
let _err: Error = err;
});
_socket = _socket.once("listening", () => { });
_socket = _socket.once("message", (msg, rinfo) => {
let _msg: Buffer = msg;
let _rinfo: dgram.AddressInfo = rinfo;
});
_socket = _socket.prependListener("close", () => { });
_socket = _socket.prependListener("error", (err) => {
let _err: Error = err;
});
_socket = _socket.prependListener("listening", () => { });
_socket = _socket.prependListener("message", (msg, rinfo) => {
let _msg: Buffer = msg;
let _rinfo: dgram.AddressInfo = rinfo;
});
_socket = _socket.prependOnceListener("close", () => { });
_socket = _socket.prependOnceListener("error", (err) => {
let _err: Error = err;
});
_socket = _socket.prependOnceListener("listening", () => { });
_socket = _socket.prependOnceListener("message", (msg, rinfo) => {
let _msg: Buffer = msg;
let _rinfo: dgram.AddressInfo = rinfo;
});
}
}
////////////////////////////////////////////////////
/// Querystring tests : https://nodejs.org/api/querystring.html
////////////////////////////////////////////////////
namespace querystring_tests {
interface SampleObject { a: string; b: number; }
{
let obj: SampleObject;
let sep: string;
let eq: string;
let options: querystring.StringifyOptions;
let result: string;
result = querystring.stringify<SampleObject>(obj);
result = querystring.stringify<SampleObject>(obj, sep);
result = querystring.stringify<SampleObject>(obj, sep, eq);
result = querystring.stringify<SampleObject>(obj, sep, eq);
result = querystring.stringify<SampleObject>(obj, sep, eq, options);
}
{
let str: string;
let sep: string;
let eq: string;
let options: querystring.ParseOptions;
let result: SampleObject;
result = querystring.parse<SampleObject>(str);
result = querystring.parse<SampleObject>(str, sep);
result = querystring.parse<SampleObject>(str, sep, eq);
result = querystring.parse<SampleObject>(str, sep, eq, options);
}
{
let str: string;
let result: string;
result = querystring.escape(str);
result = querystring.unescape(str);
}
}
////////////////////////////////////////////////////
/// path tests : http://nodejs.org/api/path.html
////////////////////////////////////////////////////
namespace path_tests {
path.normalize('/foo/bar//baz/asdf/quux/..');
path.join('/foo', 'bar', 'baz/asdf', 'quux', '..');
// returns
// '/foo/bar/baz/asdf'
try {
path.join('foo', 'bar');
} catch (error) { }
path.resolve('foo/bar', '/tmp/file/', '..', 'a/../subfile');
// Is similar to:
//
// cd foo/bar
// cd /tmp/file/
// cd ..
// cd a/../subfile
// pwd
path.resolve('/foo/bar', './baz');
// returns
// '/foo/bar/baz'
path.resolve('/foo/bar', '/tmp/file/');
// returns
// '/tmp/file'
path.resolve('wwwroot', 'static_files/png/', '../gif/image.gif');
// if currently in /home/myself/node, it returns
// '/home/myself/node/wwwroot/static_files/gif/image.gif'
path.isAbsolute('/foo/bar'); // true
path.isAbsolute('/baz/..'); // true
path.isAbsolute('qux/'); // false
path.isAbsolute('.'); // false
path.isAbsolute('//server'); // true
path.isAbsolute('C:/foo/..'); // true
path.isAbsolute('bar\\baz'); // false
path.isAbsolute('.'); // false
path.relative('C:\\orandea\\test\\aaa', 'C:\\orandea\\impl\\bbb');
// returns
// '..\\..\\impl\\bbb'
path.relative('/data/orandea/test/aaa', '/data/orandea/impl/bbb');
// returns
// '../../impl/bbb'
path.dirname('/foo/bar/baz/asdf/quux');
// returns
// '/foo/bar/baz/asdf'
path.basename('/foo/bar/baz/asdf/quux.html');
// returns
// 'quux.html'
path.basename('/foo/bar/baz/asdf/quux.html', '.html');
// returns
// 'quux'
path.extname('index.html');
// returns
// '.html'
path.extname('index.coffee.md');
// returns
// '.md'
path.extname('index.');
// returns
// '.'
path.extname('index');
// returns
// ''
'foo/bar/baz'.split(path.sep);
// returns
// ['foo', 'bar', 'baz']
'foo\\bar\\baz'.split(path.sep);
// returns
// ['foo', 'bar', 'baz']
console.log(process.env.PATH);
// '/usr/bin:/bin:/usr/sbin:/sbin:/usr/local/bin'
process.env.PATH.split(path.delimiter);
// returns
// ['/usr/bin', '/bin', '/usr/sbin', '/sbin', '/usr/local/bin']
console.log(process.env.PATH);
// 'C:\Windows\system32;C:\Windows;C:\Program Files\nodejs\'
process.env.PATH.split(path.delimiter);
// returns
// ['C:\Windows\system32', 'C:\Windows', 'C:\Program Files\nodejs\']
path.parse('/home/user/dir/file.txt');
// returns
// {
// root : "/",
// dir : "/home/user/dir",
// base : "file.txt",
// ext : ".txt",
// name : "file"
// }
path.parse('C:\\path\\dir\\index.html');
// returns
// {
// root : "C:\",
// dir : "C:\path\dir",
// base : "index.html",
// ext : ".html",
// name : "index"
// }
path.format({
root: "/",
dir: "/home/user/dir",
base: "file.txt",
ext: ".txt",
name: "file"
});
// returns
// '/home/user/dir/file.txt'
}
////////////////////////////////////////////////////
/// readline tests : https://nodejs.org/api/readline.html
////////////////////////////////////////////////////
namespace readline_tests {
let rl: readline.ReadLine;
{
let options: readline.ReadLineOptions;
let input: NodeJS.ReadableStream;
let output: NodeJS.WritableStream;
let completer: readline.Completer;
let terminal: boolean;
let result: readline.ReadLine;
result = readline.createInterface(options);
result = readline.createInterface(input);
result = readline.createInterface(input, output);
result = readline.createInterface(input, output, completer);
result = readline.createInterface(input, output, completer, terminal);
result = readline.createInterface({
input,
completer(str: string): readline.CompleterResult {
return [['test'], 'test'];
}
});
result = readline.createInterface({
input,
completer(str: string, callback: (err: any, result: readline.CompleterResult) => void): any {
callback(null, [['test'], 'test']);
}
});
}
{
let prompt: string;
rl.setPrompt(prompt);
}
{
let preserveCursor: boolean;
rl.prompt();
rl.prompt(preserveCursor);
}
{
let query: string;
let callback: (answer: string) => void;
rl.question(query, callback);
}
{
let result: readline.ReadLine;
result = rl.pause();
}
{
let result: readline.ReadLine;
result = rl.resume();
}
{
rl.close();
}
{
let data: string | Buffer;
let key: readline.Key;
rl.write(data);
rl.write(null, key);
}
{
let stream: NodeJS.WritableStream;
let x: number;
let y: number;
readline.cursorTo(stream, x);
readline.cursorTo(stream, x, y);
}
{
let stream: NodeJS.WritableStream;
let dx: number | string;
let dy: number | string;
readline.moveCursor(stream, dx, dy);
}
{
let stream: NodeJS.WritableStream;
let dir: number;
readline.clearLine(stream, dir);
}
{
let stream: NodeJS.WritableStream;
readline.clearScreenDown(stream);
}
{
let _rl: readline.ReadLine;
let _boolean: boolean;
_rl = _rl.addListener("close", () => { });
_rl = _rl.addListener("line", (input) => {
let _input: any = input;
});
_rl = _rl.addListener("pause", () => { });
_rl = _rl.addListener("resume", () => { });
_rl = _rl.addListener("SIGCONT", () => { });
_rl = _rl.addListener("SIGINT", () => { });
_rl = _rl.addListener("SIGTSTP", () => { });
_boolean = _rl.emit("close", () => { });
_boolean = _rl.emit("line", () => { });
_boolean = _rl.emit("pause", () => { });
_boolean = _rl.emit("resume", () => { });
_boolean = _rl.emit("SIGCONT", () => { });
_boolean = _rl.emit("SIGINT", () => { });
_boolean = _rl.emit("SIGTSTP", () => { });
_rl = _rl.on("close", () => { });
_rl = _rl.on("line", (input) => {
let _input: any = input;
});
_rl = _rl.on("pause", () => { });
_rl = _rl.on("resume", () => { });
_rl = _rl.on("SIGCONT", () => { });
_rl = _rl.on("SIGINT", () => { });
_rl = _rl.on("SIGTSTP", () => { });
_rl = _rl.once("close", () => { });
_rl = _rl.once("line", (input) => {
let _input: any = input;
});
_rl = _rl.once("pause", () => { });
_rl = _rl.once("resume", () => { });
_rl = _rl.once("SIGCONT", () => { });
_rl = _rl.once("SIGINT", () => { });
_rl = _rl.once("SIGTSTP", () => { });
_rl = _rl.prependListener("close", () => { });
_rl = _rl.prependListener("line", (input) => {
let _input: any = input;
});
_rl = _rl.prependListener("pause", () => { });
_rl = _rl.prependListener("resume", () => { });
_rl = _rl.prependListener("SIGCONT", () => { });
_rl = _rl.prependListener("SIGINT", () => { });
_rl = _rl.prependListener("SIGTSTP", () => { });
_rl = _rl.prependOnceListener("close", () => { });
_rl = _rl.prependOnceListener("line", (input) => {
let _input: any = input;
});
_rl = _rl.prependOnceListener("pause", () => { });
_rl = _rl.prependOnceListener("resume", () => { });
_rl = _rl.prependOnceListener("SIGCONT", () => { });
_rl = _rl.prependOnceListener("SIGINT", () => { });
_rl = _rl.prependOnceListener("SIGTSTP", () => { });
}
}
////////////////////////////////////////////////////
/// string_decoder tests : https://nodejs.org/api/string_decoder.html
////////////////////////////////////////////////////
namespace string_decoder_tests {
const StringDecoder = string_decoder.StringDecoder;
const buffer = new Buffer('test');
const decoder1 = new StringDecoder();
const decoder2 = new StringDecoder('utf8');
const part1: string = decoder1.write(new Buffer('test'));
const end1: string = decoder1.end();
const part2: string = decoder2.write(new Buffer('test'));
const end2: string = decoder1.end(new Buffer('test'));
}
//////////////////////////////////////////////////////////////////////
/// Child Process tests: https://nodejs.org/api/child_process.html ///
//////////////////////////////////////////////////////////////////////
namespace child_process_tests {
{
childProcess.exec("echo test");
childProcess.spawnSync("echo test");
}
{
let _cp: childProcess.ChildProcess;
let _socket: net.Socket;
let _server: net.Server;
let _boolean: boolean;
_boolean = _cp.send(1);
_boolean = _cp.send('one');
_boolean = _cp.send({
type: 'test'
});
_boolean = _cp.send(1, (error) => {
let _err: Error = error;
});
_boolean = _cp.send('one', (error) => {
let _err: Error = error;
});
_boolean = _cp.send({
type: 'test'
}, (error) => {
let _err: Error = error;
});
_boolean = _cp.send(1, _socket);
_boolean = _cp.send('one', _socket);
_boolean = _cp.send({
type: 'test'
}, _socket);
_boolean = _cp.send(1, _socket, (error) => {
let _err: Error = error;
});
_boolean = _cp.send('one', _socket, (error) => {
let _err: Error = error;
});
_boolean = _cp.send({
type: 'test'
}, _socket, (error) => {
let _err: Error = error;
});
_boolean = _cp.send(1, _socket, {
keepOpen: true
});
_boolean = _cp.send('one', _socket, {
keepOpen: true
});
_boolean = _cp.send({
type: 'test'
}, _socket, {
keepOpen: true
});
_boolean = _cp.send(1, _socket, {
keepOpen: true
}, (error) => {
let _err: Error = error;
});
_boolean = _cp.send('one', _socket, {
keepOpen: true
}, (error) => {
let _err: Error = error;
});
_boolean = _cp.send({
type: 'test'
}, _socket, {
keepOpen: true
}, (error) => {
let _err: Error = error;
});
_boolean = _cp.send(1, _server);
_boolean = _cp.send('one', _server);
_boolean = _cp.send({
type: 'test'
}, _server);
_boolean = _cp.send(1, _server, (error) => {
let _err: Error = error;
});
_boolean = _cp.send('one', _server, (error) => {
let _err: Error = error;
});
_boolean = _cp.send({
type: 'test'
}, _server, (error) => {
let _err: Error = error;
});
_boolean = _cp.send(1, _server, {
keepOpen: true
});
_boolean = _cp.send('one', _server, {
keepOpen: true
});
_boolean = _cp.send({
type: 'test'
}, _server, {
keepOpen: true
});
_boolean = _cp.send(1, _server, {
keepOpen: true
}, (error) => {
let _err: Error = error;
});
_boolean = _cp.send('one', _server, {
keepOpen: true
}, (error) => {
let _err: Error = error;
});
_boolean = _cp.send({
type: 'test'
}, _server, {
keepOpen: true
}, (error) => {
let _err: Error = error;
});
_cp = _cp.addListener("close", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.addListener("disconnect", () => { });
_cp = _cp.addListener("error", (err) => {
let _err: Error = err;
});
_cp = _cp.addListener("exit", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.addListener("message", (message, sendHandle) => {
let _message: any = message;
let _sendHandle: net.Socket | net.Server = sendHandle;
});
_boolean = _cp.emit("close", () => { });
_boolean = _cp.emit("disconnect", () => { });
_boolean = _cp.emit("error", () => { });
_boolean = _cp.emit("exit", () => { });
_boolean = _cp.emit("message", () => { });
_cp = _cp.on("close", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.on("disconnect", () => { });
_cp = _cp.on("error", (err) => {
let _err: Error = err;
});
_cp = _cp.on("exit", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.on("message", (message, sendHandle) => {
let _message: any = message;
let _sendHandle: net.Socket | net.Server = sendHandle;
});
_cp = _cp.once("close", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.once("disconnect", () => { });
_cp = _cp.once("error", (err) => {
let _err: Error = err;
});
_cp = _cp.once("exit", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.once("message", (message, sendHandle) => {
let _message: any = message;
let _sendHandle: net.Socket | net.Server = sendHandle;
});
_cp = _cp.prependListener("close", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.prependListener("disconnect", () => { });
_cp = _cp.prependListener("error", (err) => {
let _err: Error = err;
});
_cp = _cp.prependListener("exit", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.prependListener("message", (message, sendHandle) => {
let _message: any = message;
let _sendHandle: net.Socket | net.Server = sendHandle;
});
_cp = _cp.prependOnceListener("close", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.prependOnceListener("disconnect", () => { });
_cp = _cp.prependOnceListener("error", (err) => {
let _err: Error = err;
});
_cp = _cp.prependOnceListener("exit", (code, signal) => {
let _code: number = code;
let _signal: string = signal;
});
_cp = _cp.prependOnceListener("message", (message, sendHandle) => {
let _message: any = message;
let _sendHandle: net.Socket | net.Server = sendHandle;
});
}
}
//////////////////////////////////////////////////////////////////////
/// cluster tests: https://nodejs.org/api/cluster.html ///
//////////////////////////////////////////////////////////////////////
namespace cluster_tests {
{
cluster.fork();
Object.keys(cluster.workers).forEach(key => {
const worker = cluster.workers[key];
if (worker.isDead()) {
console.log('worker %d is dead', worker.process.pid);
}
});
}
}
////////////////////////////////////////////////////
/// os tests : https://nodejs.org/api/os.html
////////////////////////////////////////////////////
namespace os_tests {
{
let result: string;
result = os.tmpdir();
result = os.homedir();
result = os.endianness();
result = os.hostname();
result = os.type();
result = os.arch();
result = os.release();
result = os.EOL;
}
{
let result: number;
result = os.uptime();
result = os.totalmem();
result = os.freemem();
}
{
let result: number[];
result = os.loadavg();
}
{
let result: os.CpuInfo[];
result = os.cpus();
}
{
let result: { [index: string]: os.NetworkInterfaceInfo[] };
result = os.networkInterfaces();
}
{
let result: number;
result = os.constants.signals.SIGHUP;
result = os.constants.signals.SIGINT;
result = os.constants.signals.SIGQUIT;
result = os.constants.signals.SIGILL;
result = os.constants.signals.SIGTRAP;
result = os.constants.signals.SIGABRT;
result = os.constants.signals.SIGIOT;
result = os.constants.signals.SIGBUS;
result = os.constants.signals.SIGFPE;
result = os.constants.signals.SIGKILL;
result = os.constants.signals.SIGUSR1;
result = os.constants.signals.SIGSEGV;
result = os.constants.signals.SIGUSR2;
result = os.constants.signals.SIGPIPE;
result = os.constants.signals.SIGALRM;
result = os.constants.signals.SIGTERM;
result = os.constants.signals.SIGCHLD;
result = os.constants.signals.SIGSTKFLT;
result = os.constants.signals.SIGCONT;
result = os.constants.signals.SIGSTOP;
result = os.constants.signals.SIGTSTP;
result = os.constants.signals.SIGTTIN;
result = os.constants.signals.SIGTTOU;
result = os.constants.signals.SIGURG;
result = os.constants.signals.SIGXCPU;
result = os.constants.signals.SIGXFSZ;
result = os.constants.signals.SIGVTALRM;
result = os.constants.signals.SIGPROF;
result = os.constants.signals.SIGWINCH;
result = os.constants.signals.SIGIO;
result = os.constants.signals.SIGPOLL;
result = os.constants.signals.SIGPWR;
result = os.constants.signals.SIGSYS;
result = os.constants.signals.SIGUNUSED;
}
{
let result: number;
result = os.constants.errno.E2BIG;
result = os.constants.errno.EACCES;
result = os.constants.errno.EADDRINUSE;
result = os.constants.errno.EADDRNOTAVAIL;
result = os.constants.errno.EAFNOSUPPORT;
result = os.constants.errno.EAGAIN;
result = os.constants.errno.EALREADY;
result = os.constants.errno.EBADF;
result = os.constants.errno.EBADMSG;
result = os.constants.errno.EBUSY;
result = os.constants.errno.ECANCELED;
result = os.constants.errno.ECHILD;
result = os.constants.errno.ECONNABORTED;
result = os.constants.errno.ECONNREFUSED;
result = os.constants.errno.ECONNRESET;
result = os.constants.errno.EDEADLK;
result = os.constants.errno.EDESTADDRREQ;
result = os.constants.errno.EDOM;
result = os.constants.errno.EDQUOT;
result = os.constants.errno.EEXIST;
result = os.constants.errno.EFAULT;
result = os.constants.errno.EFBIG;
result = os.constants.errno.EHOSTUNREACH;
result = os.constants.errno.EIDRM;
result = os.constants.errno.EILSEQ;
result = os.constants.errno.EINPROGRESS;
result = os.constants.errno.EINTR;
result = os.constants.errno.EINVAL;
result = os.constants.errno.EIO;
result = os.constants.errno.EISCONN;
result = os.constants.errno.EISDIR;
result = os.constants.errno.ELOOP;
result = os.constants.errno.EMFILE;
result = os.constants.errno.EMLINK;
result = os.constants.errno.EMSGSIZE;
result = os.constants.errno.EMULTIHOP;
result = os.constants.errno.ENAMETOOLONG;
result = os.constants.errno.ENETDOWN;
result = os.constants.errno.ENETRESET;
result = os.constants.errno.ENETUNREACH;
result = os.constants.errno.ENFILE;
result = os.constants.errno.ENOBUFS;
result = os.constants.errno.ENODATA;
result = os.constants.errno.ENODEV;
result = os.constants.errno.ENOENT;
result = os.constants.errno.ENOEXEC;
result = os.constants.errno.ENOLCK;
result = os.constants.errno.ENOLINK;
result = os.constants.errno.ENOMEM;
result = os.constants.errno.ENOMSG;
result = os.constants.errno.ENOPROTOOPT;
result = os.constants.errno.ENOSPC;
result = os.constants.errno.ENOSR;
result = os.constants.errno.ENOSTR;
result = os.constants.errno.ENOSYS;
result = os.constants.errno.ENOTCONN;
result = os.constants.errno.ENOTDIR;
result = os.constants.errno.ENOTEMPTY;
result = os.constants.errno.ENOTSOCK;
result = os.constants.errno.ENOTSUP;
result = os.constants.errno.ENOTTY;
result = os.constants.errno.ENXIO;
result = os.constants.errno.EOPNOTSUPP;
result = os.constants.errno.EOVERFLOW;
result = os.constants.errno.EPERM;
result = os.constants.errno.EPIPE;
result = os.constants.errno.EPROTO;
result = os.constants.errno.EPROTONOSUPPORT;
result = os.constants.errno.EPROTOTYPE;
result = os.constants.errno.ERANGE;
result = os.constants.errno.EROFS;
result = os.constants.errno.ESPIPE;
result = os.constants.errno.ESRCH;
result = os.constants.errno.ESTALE;
result = os.constants.errno.ETIME;
result = os.constants.errno.ETIMEDOUT;
result = os.constants.errno.ETXTBSY;
result = os.constants.errno.EWOULDBLOCK;
result = os.constants.errno.EXDEV;
}
}
////////////////////////////////////////////////////
/// vm tests : https://nodejs.org/api/vm.html
////////////////////////////////////////////////////
namespace vm_tests {
{
const sandbox = {
animal: 'cat',
count: 2
};
const context = vm.createContext(sandbox);
console.log(vm.isContext(context));
const script = new vm.Script('count += 1; name = "kitty"');
for (let i = 0; i < 10; ++i) {
script.runInContext(context);
}
console.log(util.inspect(sandbox));
vm.runInNewContext('count += 1; name = "kitty"', sandbox);
console.log(util.inspect(sandbox));
}
{
const sandboxes = [{}, {}, {}];
const script = new vm.Script('globalVar = "set"');
sandboxes.forEach((sandbox) => {
script.runInNewContext(sandbox);
script.runInThisContext();
});
console.log(util.inspect(sandboxes));
var localVar = 'initial value';
vm.runInThisContext('localVar = "vm";');
console.log(localVar);
}
{
const Debug = vm.runInDebugContext('Debug');
Debug.scripts().forEach((script: any) => { console.log(script.name); });
}
}
/////////////////////////////////////////////////////
/// Timers tests : https://nodejs.org/api/timers.html
/////////////////////////////////////////////////////
namespace timers_tests {
{
let immediateId = timers.setImmediate(() => { console.log("immediate"); });
timers.clearImmediate(immediateId);
}
{
let counter = 0;
let timeout = timers.setInterval(() => { console.log("interval"); }, 20);
timeout.unref();
timeout.ref();
timers.clearInterval(timeout);
}
{
let counter = 0;
let timeout = timers.setTimeout(() => { console.log("timeout"); }, 20);
timeout.unref();
timeout.ref();
timers.clearTimeout(timeout);
}
}
/////////////////////////////////////////////////////////
/// Errors Tests : https://nodejs.org/api/errors.html ///
/////////////////////////////////////////////////////////
namespace errors_tests {
{
Error.stackTraceLimit = Infinity;
}
{
const myObject = {};
Error.captureStackTrace(myObject);
}
}
///////////////////////////////////////////////////////////
/// Process Tests : https://nodejs.org/api/process.html ///
///////////////////////////////////////////////////////////
import * as p from "process";
namespace process_tests {
{
var eventEmitter: events.EventEmitter;
eventEmitter = process; // Test that process implements EventEmitter...
var _p: NodeJS.Process = process;
_p = p;
}
{
assert(process.argv[0] === process.argv0);
}
{
var module: NodeModule | undefined;
module = process.mainModule;
}
{
process.on("message", (req: any) => { });
process.addListener("beforeExit", (code: number) => { });
process.once("disconnect", () => { });
process.prependListener("exit", (code: number) => { });
process.prependOnceListener("rejectionHandled", (promise: Promise<any>) => { });
process.on("uncaughtException", (error: Error) => { });
process.addListener("unhandledRejection", (reason: any, promise: Promise<any>) => { });
process.once("warning", (warning: Error) => { });
process.prependListener("message", (message: any, sendHandle: any) => { });
process.prependOnceListener("SIGBREAK", () => { });
process.on("newListener", (event: string, listener: Function) => { });
process.once("removeListener", (event: string, listener: Function) => { });
const listeners = process.listeners('uncaughtException');
const oldHandler = listeners[listeners.length - 1];
process.addListener('uncaughtException', oldHandler);
}
}
///////////////////////////////////////////////////////////
/// Console Tests : https://nodejs.org/api/console.html ///
///////////////////////////////////////////////////////////
import * as c from "console";
namespace console_tests {
{
var _c: Console = console;
_c = c;
}
{
var writeStream = fs.createWriteStream('./index.d.ts');
var consoleInstance = new console.Console(writeStream);
}
}
///////////////////////////////////////////////////
/// Net Tests : https://nodejs.org/api/net.html ///
///////////////////////////////////////////////////
namespace net_tests {
{
let server = net.createServer();
// Check methods which return server instances by chaining calls
server = server.listen(0)
.close()
.ref()
.unref();
// close has an optional callback function. No callback parameters are
// specified, so any callback function is permissible.
server = server.close((...args: any[]) => { });
// test the types of the address object fields
let address = server.address();
address.port = 1234;
address.family = "ipv4";
address.address = "127.0.0.1";
}
{
/**
* net.Socket - events.EventEmitter
* 1. close
* 2. connect
* 3. data
* 4. drain
* 5. end
* 6. error
* 7. lookup
* 8. timeout
*/
let _socket: net.Socket = new net.Socket({
fd: 1,
allowHalfOpen: false,
readable: false,
writable: false
});
let bool: boolean;
let buffer: Buffer;
let error: Error;
let str: string;
let num: number;
/// addListener
_socket = _socket.addListener("close", had_error => {
bool = had_error;
});
_socket = _socket.addListener("connect", () => { });
_socket = _socket.addListener("data", data => {
buffer = data;
});
_socket = _socket.addListener("drain", () => { });
_socket = _socket.addListener("end", () => { });
_socket = _socket.addListener("error", err => {
error = err;
});
_socket = _socket.addListener("lookup", (err, address, family, host) => {
error = err;
if (typeof family === 'string') {
str = family;
} else if (typeof family === 'number') {
num = family;
}
str = host;
});
_socket = _socket.addListener("timeout", () => { });
/// emit
bool = _socket.emit("close", bool);
bool = _socket.emit("connect");
bool = _socket.emit("data", buffer);
bool = _socket.emit("drain");
bool = _socket.emit("end");
bool = _socket.emit("error", error);
bool = _socket.emit("lookup", error, str, str, str);
bool = _socket.emit("lookup", error, str, num, str);
bool = _socket.emit("timeout");
/// on
_socket = _socket.on("close", had_error => {
bool = had_error;
});
_socket = _socket.on("connect", () => { });
_socket = _socket.on("data", data => {
buffer = data;
});
_socket = _socket.on("drain", () => { });
_socket = _socket.on("end", () => { });
_socket = _socket.on("error", err => {
error = err;
});
_socket = _socket.on("lookup", (err, address, family, host) => {
error = err;
if (typeof family === 'string') {
str = family;
} else if (typeof family === 'number') {
num = family;
}
str = host;
});
_socket = _socket.on("timeout", () => { });
/// once
_socket = _socket.once("close", had_error => {
bool = had_error;
});
_socket = _socket.once("connect", () => { });
_socket = _socket.once("data", data => {
buffer = data;
});
_socket = _socket.once("drain", () => { });
_socket = _socket.once("end", () => { });
_socket = _socket.once("error", err => {
error = err;
});
_socket = _socket.once("lookup", (err, address, family, host) => {
error = err;
if (typeof family === 'string') {
str = family;
} else if (typeof family === 'number') {
num = family;
}
str = host;
});
_socket = _socket.once("timeout", () => { });
/// prependListener
_socket = _socket.prependListener("close", had_error => {
bool = had_error;
});
_socket = _socket.prependListener("connect", () => { });
_socket = _socket.prependListener("data", data => {
buffer = data;
});
_socket = _socket.prependListener("drain", () => { });
_socket = _socket.prependListener("end", () => { });
_socket = _socket.prependListener("error", err => {
error = err;
});
_socket = _socket.prependListener("lookup", (err, address, family, host) => {
error = err;
if (typeof family === 'string') {
str = family;
} else if (typeof family === 'number') {
num = family;
}
str = host;
});
_socket = _socket.prependListener("timeout", () => { });
/// prependOnceListener
_socket = _socket.prependOnceListener("close", had_error => {
bool = had_error;
});
_socket = _socket.prependOnceListener("connect", () => { });
_socket = _socket.prependOnceListener("data", data => {
buffer = data;
});
_socket = _socket.prependOnceListener("drain", () => { });
_socket = _socket.prependOnceListener("end", () => { });
_socket = _socket.prependOnceListener("error", err => {
error = err;
});
_socket = _socket.prependOnceListener("lookup", (err, address, family, host) => {
error = err;
if (typeof family === 'string') {
str = family;
} else if (typeof family === 'number') {
num = family;
}
str = host;
});
_socket = _socket.prependOnceListener("timeout", () => { });
bool = _socket.connecting;
bool = _socket.destroyed;
_socket.destroy();
}
{
/**
* net.Server - events.EventEmitter
* 1. close
* 2. connection
* 3. error
* 4. listening
*/
let _server: net.Server;
let _socket: net.Socket;
let bool: boolean;
let error: Error;
/// addListener
_server = _server.addListener("close", () => { });
_server = _server.addListener("connection", socket => {
_socket = socket;
});
_server = _server.addListener("error", err => {
error = err;
});
_server = _server.addListener("listening", () => { });
/// emit
bool = _server.emit("close");
bool = _server.emit("connection", _socket);
bool = _server.emit("error", error);
bool = _server.emit("listening");
/// once
_server = _server.once("close", () => { });
_server = _server.once("connection", socket => {
_socket = socket;
});
_server = _server.once("error", err => {
error = err;
});
_server = _server.once("listening", () => { });
/// prependListener
_server = _server.prependListener("close", () => { });
_server = _server.prependListener("connection", socket => {
_socket = socket;
});
_server = _server.prependListener("error", err => {
error = err;
});
_server = _server.prependListener("listening", () => { });
/// prependOnceListener
_server = _server.prependOnceListener("close", () => { });
_server = _server.prependOnceListener("connection", socket => {
_socket = socket;
});
_server = _server.prependOnceListener("error", err => {
error = err;
});
_server = _server.prependOnceListener("listening", () => { });
}
}
/////////////////////////////////////////////////////
/// repl Tests : https://nodejs.org/api/repl.html ///
/////////////////////////////////////////////////////
namespace repl_tests {
{
let _server: repl.REPLServer;
let _boolean: boolean;
let _ctx: any;
_server = _server.addListener("exit", () => { });
_server = _server.addListener("reset", () => { });
_boolean = _server.emit("exit", () => { });
_boolean = _server.emit("reset", _ctx);
_server = _server.on("exit", () => { });
_server = _server.on("reset", () => { });
_server = _server.once("exit", () => { });
_server = _server.once("reset", () => { });
_server = _server.prependListener("exit", () => { });
_server = _server.prependListener("reset", () => { });
_server = _server.prependOnceListener("exit", () => { });
_server = _server.prependOnceListener("reset", () => { });
}
}
///////////////////////////////////////////////////
/// DNS Tests : https://nodejs.org/api/dns.html ///
///////////////////////////////////////////////////
namespace dns_tests {
dns.lookup("nodejs.org", (err, address, family) => {
const _err: NodeJS.ErrnoException = err;
const _address: string = address;
const _family: number = family;
});
dns.lookup("nodejs.org", 4, (err, address, family) => {
const _err: NodeJS.ErrnoException = err;
const _address: string = address;
const _family: number = family;
});
dns.lookup("nodejs.org", 6, (err, address, family) => {
const _err: NodeJS.ErrnoException = err;
const _address: string = address;
const _family: number = family;
});
dns.lookup("nodejs.org", {}, (err, address, family) => {
const _err: NodeJS.ErrnoException = err;
const _address: string = address;
const _family: number = family;
});
dns.lookup(
"nodejs.org",
{
family: 4,
hints: dns.ADDRCONFIG | dns.V4MAPPED,
all: false
},
(err, address, family) => {
const _err: NodeJS.ErrnoException = err;
const _address: string = address;
const _family: number = family;
}
);
dns.lookup("nodejs.org", { all: true }, (err, addresses) => {
const _err: NodeJS.ErrnoException = err;
const _address: dns.LookupAddress[] = addresses;
});
function trueOrFalse(): boolean {
return Math.random() > 0.5 ? true : false;
}
dns.lookup("nodejs.org", { all: trueOrFalse() }, (err, addresses, family) => {
const _err: NodeJS.ErrnoException = err;
const _addresses: string | dns.LookupAddress[] = addresses;
const _family: number | undefined = family;
});
dns.resolve("nodejs.org", (err, addresses) => {
const _addresses: string[] = addresses;
});
dns.resolve("nodejs.org", "A", (err, addresses) => {
const _addresses: string[] = addresses;
});
dns.resolve("nodejs.org", "AAAA", (err, addresses) => {
const _addresses: string[] = addresses;
});
dns.resolve("nodejs.org", "MX", (err, addresses) => {
const _addresses: dns.MxRecord[] = addresses;
});
dns.resolve4("nodejs.org", (err, addresses) => {
const _addresses: string[] = addresses;
});
dns.resolve4("nodejs.org", { ttl: true }, (err, addresses) => {
const _addresses: dns.RecordWithTtl[] = addresses;
});
{
const ttl = false;
dns.resolve4("nodejs.org", { ttl }, (err, addresses) => {
const _addresses: string[] | dns.RecordWithTtl[] = addresses;
});
}
dns.resolve6("nodejs.org", (err, addresses) => {
const _addresses: string[] = addresses;
});
dns.resolve6("nodejs.org", { ttl: true }, (err, addresses) => {
const _addresses: dns.RecordWithTtl[] = addresses;
});
{
const ttl = false;
dns.resolve6("nodejs.org", { ttl }, (err, addresses) => {
const _addresses: string[] | dns.RecordWithTtl[] = addresses;
});
}
}
/*****************************************************************************
* *
* The following tests are the modules not mentioned in document but existed *
* *
*****************************************************************************/
///////////////////////////////////////////////////////////
/// Constants Tests ///
///////////////////////////////////////////////////////////
import * as constants from 'constants';
namespace constants_tests {
var str: string;
var num: number;
num = constants.SIGHUP;
num = constants.SIGINT;
num = constants.SIGQUIT;
num = constants.SIGILL;
num = constants.SIGTRAP;
num = constants.SIGABRT;
num = constants.SIGIOT;
num = constants.SIGBUS;
num = constants.SIGFPE;
num = constants.SIGKILL;
num = constants.SIGUSR1;
num = constants.SIGSEGV;
num = constants.SIGUSR2;
num = constants.SIGPIPE;
num = constants.SIGALRM;
num = constants.SIGTERM;
num = constants.SIGCHLD;
num = constants.SIGSTKFLT;
num = constants.SIGCONT;
num = constants.SIGSTOP;
num = constants.SIGTSTP;
num = constants.SIGTTIN;
num = constants.SIGTTOU;
num = constants.SIGURG;
num = constants.SIGXCPU;
num = constants.SIGXFSZ;
num = constants.SIGVTALRM;
num = constants.SIGPROF;
num = constants.SIGWINCH;
num = constants.SIGIO;
num = constants.SIGPOLL;
num = constants.SIGPWR;
num = constants.SIGSYS;
num = constants.SIGUNUSED;
num = constants.O_RDONLY;
num = constants.O_WRONLY;
num = constants.O_RDWR;
num = constants.S_IFMT;
num = constants.S_IFREG;
num = constants.S_IFDIR;
num = constants.S_IFCHR;
num = constants.S_IFBLK;
num = constants.S_IFIFO;
num = constants.S_IFLNK;
num = constants.S_IFSOCK;
num = constants.O_CREAT;
num = constants.O_EXCL;
num = constants.O_NOCTTY;
num = constants.O_TRUNC;
num = constants.O_APPEND;
num = constants.O_DIRECTORY;
num = constants.O_NOATIME;
num = constants.O_NOFOLLOW;
num = constants.O_SYNC;
num = constants.O_DIRECT;
num = constants.O_NONBLOCK;
num = constants.S_IRWXU;
num = constants.S_IRUSR;
num = constants.S_IWUSR;
num = constants.S_IXUSR;
num = constants.S_IRWXG;
num = constants.S_IRGRP;
num = constants.S_IWGRP;
num = constants.S_IXGRP;
num = constants.S_IRWXO;
num = constants.S_IROTH;
num = constants.S_IWOTH;
num = constants.S_IXOTH;
num = constants.F_OK;
num = constants.R_OK;
num = constants.W_OK;
num = constants.X_OK;
num = constants.SSL_OP_ALL;
num = constants.SSL_OP_ALLOW_UNSAFE_LEGACY_RENEGOTIATION;
num = constants.SSL_OP_CIPHER_SERVER_PREFERENCE;
num = constants.SSL_OP_CISCO_ANYCONNECT;
num = constants.SSL_OP_COOKIE_EXCHANGE;
num = constants.SSL_OP_CRYPTOPRO_TLSEXT_BUG;
num = constants.SSL_OP_DONT_INSERT_EMPTY_FRAGMENTS;
num = constants.SSL_OP_EPHEMERAL_RSA;
num = constants.SSL_OP_LEGACY_SERVER_CONNECT;
num = constants.SSL_OP_MICROSOFT_BIG_SSLV3_BUFFER;
num = constants.SSL_OP_MICROSOFT_SESS_ID_BUG;
num = constants.SSL_OP_MSIE_SSLV2_RSA_PADDING;
num = constants.SSL_OP_NETSCAPE_CA_DN_BUG;
num = constants.SSL_OP_NETSCAPE_CHALLENGE_BUG;
num = constants.SSL_OP_NETSCAPE_DEMO_CIPHER_CHANGE_BUG;
num = constants.SSL_OP_NETSCAPE_REUSE_CIPHER_CHANGE_BUG;
num = constants.SSL_OP_NO_COMPRESSION;
num = constants.SSL_OP_NO_QUERY_MTU;
num = constants.SSL_OP_NO_SESSION_RESUMPTION_ON_RENEGOTIATION;
num = constants.SSL_OP_NO_SSLv2;
num = constants.SSL_OP_NO_SSLv3;
num = constants.SSL_OP_NO_TICKET;
num = constants.SSL_OP_NO_TLSv1;
num = constants.SSL_OP_NO_TLSv1_1;
num = constants.SSL_OP_NO_TLSv1_2;
num = constants.SSL_OP_PKCS1_CHECK_1;
num = constants.SSL_OP_PKCS1_CHECK_2;
num = constants.SSL_OP_SINGLE_DH_USE;
num = constants.SSL_OP_SINGLE_ECDH_USE;
num = constants.SSL_OP_SSLEAY_080_CLIENT_DH_BUG;
num = constants.SSL_OP_SSLREF2_REUSE_CERT_TYPE_BUG;
num = constants.SSL_OP_TLS_BLOCK_PADDING_BUG;
num = constants.SSL_OP_TLS_D5_BUG;
num = constants.SSL_OP_TLS_ROLLBACK_BUG;
num = constants.ENGINE_METHOD_RSA;
num = constants.ENGINE_METHOD_DSA;
num = constants.ENGINE_METHOD_DH;
num = constants.ENGINE_METHOD_RAND;
num = constants.ENGINE_METHOD_ECDH;
num = constants.ENGINE_METHOD_ECDSA;
num = constants.ENGINE_METHOD_CIPHERS;
num = constants.ENGINE_METHOD_DIGESTS;
num = constants.ENGINE_METHOD_STORE;
num = constants.ENGINE_METHOD_PKEY_METHS;
num = constants.ENGINE_METHOD_PKEY_ASN1_METHS;
num = constants.ENGINE_METHOD_ALL;
num = constants.ENGINE_METHOD_NONE;
num = constants.DH_CHECK_P_NOT_SAFE_PRIME;
num = constants.DH_CHECK_P_NOT_PRIME;
num = constants.DH_UNABLE_TO_CHECK_GENERATOR;
num = constants.DH_NOT_SUITABLE_GENERATOR;
num = constants.NPN_ENABLED;
num = constants.ALPN_ENABLED;
num = constants.RSA_PKCS1_PADDING;
num = constants.RSA_SSLV23_PADDING;
num = constants.RSA_NO_PADDING;
num = constants.RSA_PKCS1_OAEP_PADDING;
num = constants.RSA_X931_PADDING;
num = constants.RSA_PKCS1_PSS_PADDING;
num = constants.POINT_CONVERSION_COMPRESSED;
num = constants.POINT_CONVERSION_UNCOMPRESSED;
num = constants.POINT_CONVERSION_HYBRID;
str = constants.defaultCoreCipherList;
str = constants.defaultCipherList;
}
////////////////////////////////////////////////////
/// v8 tests : https://nodejs.org/api/v8.html
////////////////////////////////////////////////////
namespace v8_tests {
const heapStats = v8.getHeapStatistics();
const heapSpaceStats = v8.getHeapSpaceStatistics();
const zapsGarbage: number = heapStats.does_zap_garbage;
v8.setFlagsFromString('--collect_maps');
}
///////////////////////////////////////////////////////////
/// Debugger Tests ///
///////////////////////////////////////////////////////////
import { Client } from "_debugger";
var client = new Client();
client.connect(8888, 'localhost');
client.listbreakpoints((err, body, packet) => { });
////////////////////////////////////////////////////
/// AsyncHooks tests : https://nodejs.org/api/async_hooks.html
////////////////////////////////////////////////////
namespace async_hooks_tests {
const hooks: async_hooks.HookCallbacks = {
init: (asyncId: number, type: string, triggerAsyncId: number, resource: object) => void {},
before: (asyncId: number) => void {},
after: (asyncId: number) => void {},
destroy: (asyncId: number) => void {}
};
const asyncHook = async_hooks.createHook(hooks);
asyncHook.enable().disable().enable();
const tId: number = async_hooks.triggerAsyncId();
const eId: number = async_hooks.executionAsyncId();
}
////////////////////////////////////////////////////
/// zlib tests : http://nodejs.org/api/zlib.html ///
////////////////////////////////////////////////////
namespace zlib_tests {
{
const gzipped = zlib.gzipSync('test');
const unzipped = zlib.gunzipSync(gzipped.toString());
}
{
const deflate = zlib.deflateSync('test');
const inflate = zlib.inflateSync(deflate.toString());
}
}
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