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test-net-autoselectfamily.js
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test-net-autoselectfamily.js
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'use strict';
const common = require('../common');
const { parseDNSPacket, writeDNSPacket } = require('../common/dns');
const assert = require('assert');
const dgram = require('dgram');
const { Resolver } = require('dns');
const { createConnection, createServer } = require('net');
// Test that happy eyeballs algorithm is properly implemented.
let autoSelectFamilyAttemptTimeout = common.platformTimeout(250);
if (common.isWindows) {
// Some of the windows machines in the CI need more time to establish connection
autoSelectFamilyAttemptTimeout = common.platformTimeout(1500);
}
function _lookup(resolver, hostname, options, cb) {
resolver.resolve(hostname, 'ANY', (err, replies) => {
assert.notStrictEqual(options.family, 4);
if (err) {
return cb(err);
}
const hosts = replies
.map((r) => ({ address: r.address, family: r.type === 'AAAA' ? 6 : 4 }))
.sort((a, b) => b.family - a.family);
if (options.all === true) {
return cb(null, hosts);
}
return cb(null, hosts[0].address, hosts[0].family);
});
}
function createDnsServer(ipv6Addr, ipv4Addr, cb) {
// Create a DNS server which replies with a AAAA and a A record for the same host
const socket = dgram.createSocket('udp4');
socket.on('message', common.mustCall((msg, { address, port }) => {
const parsed = parseDNSPacket(msg);
const domain = parsed.questions[0].domain;
assert.strictEqual(domain, 'example.org');
socket.send(writeDNSPacket({
id: parsed.id,
questions: parsed.questions,
answers: [
{ type: 'AAAA', address: ipv6Addr, ttl: 123, domain: 'example.org' },
{ type: 'A', address: ipv4Addr, ttl: 123, domain: 'example.org' },
]
}), port, address);
}));
socket.bind(0, () => {
const resolver = new Resolver();
resolver.setServers([`127.0.0.1:${socket.address().port}`]);
cb({ dnsServer: socket, lookup: _lookup.bind(null, resolver) });
});
}
// Test that IPV4 is reached if IPV6 is not reachable
{
createDnsServer('::1', '127.0.0.1', common.mustCall(function({ dnsServer, lookup }) {
const ipv4Server = createServer((socket) => {
socket.on('data', common.mustCall(() => {
socket.write('response-ipv4');
socket.end();
}));
});
ipv4Server.listen(0, '127.0.0.1', common.mustCall(() => {
const port = ipv4Server.address().port;
const connection = createConnection({
host: 'example.org',
port: port,
lookup,
autoSelectFamily: true,
autoSelectFamilyAttemptTimeout,
});
let response = '';
connection.setEncoding('utf-8');
connection.on('ready', common.mustCall(() => {
assert.deepStrictEqual(connection.autoSelectFamilyAttemptedAddresses, [`::1:${port}`, `127.0.0.1:${port}`]);
}));
connection.on('data', (chunk) => {
response += chunk;
});
connection.on('end', common.mustCall(() => {
assert.strictEqual(response, 'response-ipv4');
ipv4Server.close();
dnsServer.close();
}));
connection.write('request');
}));
}));
}
// Test that IPV4 is NOT reached if IPV6 is reachable
if (common.hasIPv6) {
createDnsServer('::1', '127.0.0.1', common.mustCall(function({ dnsServer, lookup }) {
const ipv4Server = createServer((socket) => {
socket.on('data', common.mustNotCall(() => {
socket.write('response-ipv4');
socket.end();
}));
});
const ipv6Server = createServer((socket) => {
socket.on('data', common.mustCall(() => {
socket.write('response-ipv6');
socket.end();
}));
});
ipv4Server.listen(0, '127.0.0.1', common.mustCall(() => {
const port = ipv4Server.address().port;
ipv6Server.listen(port, '::1', common.mustCall(() => {
const connection = createConnection({
host: 'example.org',
port,
lookup,
autoSelectFamily: true,
autoSelectFamilyAttemptTimeout,
});
let response = '';
connection.setEncoding('utf-8');
connection.on('ready', common.mustCall(() => {
assert.deepStrictEqual(connection.autoSelectFamilyAttemptedAddresses, [`::1:${port}`]);
}));
connection.on('data', (chunk) => {
response += chunk;
});
connection.on('end', common.mustCall(() => {
assert.strictEqual(response, 'response-ipv6');
ipv4Server.close();
ipv6Server.close();
dnsServer.close();
}));
connection.write('request');
}));
}));
}));
}
// Test that when all errors are returned when no connections succeeded
{
createDnsServer('::1', '127.0.0.1', common.mustCall(function({ dnsServer, lookup }) {
const connection = createConnection({
host: 'example.org',
port: 10,
lookup,
autoSelectFamily: true,
autoSelectFamilyAttemptTimeout,
});
connection.on('ready', common.mustNotCall());
connection.on('error', common.mustCall((error) => {
assert.deepStrictEqual(connection.autoSelectFamilyAttemptedAddresses, ['::1:10', '127.0.0.1:10']);
assert.strictEqual(error.constructor.name, 'AggregateError');
assert.strictEqual(error.errors.length, 2);
const errors = error.errors.map((e) => e.message);
assert.ok(errors.includes('connect ECONNREFUSED 127.0.0.1:10'));
if (common.hasIPv6) {
assert.ok(errors.includes('connect ECONNREFUSED ::1:10'));
}
dnsServer.close();
}));
}));
}
// Test that the option can be disabled
{
createDnsServer('::1', '127.0.0.1', common.mustCall(function({ dnsServer, lookup }) {
const ipv4Server = createServer((socket) => {
socket.on('data', common.mustCall(() => {
socket.write('response-ipv4');
socket.end();
}));
});
ipv4Server.listen(0, '127.0.0.1', common.mustCall(() => {
const port = ipv4Server.address().port;
const connection = createConnection({
host: 'example.org',
port,
lookup,
autoSelectFamily: false,
});
connection.on('ready', common.mustNotCall());
connection.on('error', common.mustCall((error) => {
assert.strictEqual(connection.autoSelectFamilyAttemptedAddresses, undefined);
if (common.hasIPv6) {
assert.strictEqual(error.code, 'ECONNREFUSED');
assert.strictEqual(error.message, `connect ECONNREFUSED ::1:${port}`);
} else {
assert.strictEqual(error.code, 'EADDRNOTAVAIL');
assert.strictEqual(error.message, `connect EADDRNOTAVAIL ::1:${port} - Local (:::0)`);
}
ipv4Server.close();
dnsServer.close();
}));
}));
}));
}