'use strict'; // var common = require('../common'); if (!common.opensslCli) { console.log('1..0 # Skipped: node compiled without OpenSSL CLI.'); return; } if (!common.hasCrypto) { console.log('1..0 # Skipped: missing crypto'); return; } var join = require('path').join; var net = require('net'); var assert = require('assert'); var fs = require('fs'); var tls = require('tls'); var spawn = require('child_process').spawn; test1(); // simple/test-tls-securepair-client function test1() { test('agent.key', 'agent.crt', null, test2); } // simple/test-tls-ext-key-usage function test2() { function check(pair) { // "TLS Web Client Authentication" assert.equal(pair.cleartext.getPeerCertificate().ext_key_usage.length, 1); assert.equal(pair.cleartext.getPeerCertificate().ext_key_usage[0], '1.3.6.1.5.5.7.3.2'); } test('keys/agent4-key.pem', 'keys/agent4-cert.pem', check); } function test(keyfn, certfn, check, next) { // FIXME: Avoid the common PORT as this test currently hits a C-level // assertion error with node_g. The program aborts without HUPing // the openssl s_server thus causing many tests to fail with // EADDRINUSE. var PORT = common.PORT + 5; keyfn = join(common.fixturesDir, keyfn); var key = fs.readFileSync(keyfn).toString(); certfn = join(common.fixturesDir, certfn); var cert = fs.readFileSync(certfn).toString(); var server = spawn(common.opensslCli, ['s_server', '-accept', PORT, '-cert', certfn, '-key', keyfn]); server.stdout.pipe(process.stdout); server.stderr.pipe(process.stdout); var state = 'WAIT-ACCEPT'; var serverStdoutBuffer = ''; server.stdout.setEncoding('utf8'); server.stdout.on('data', function(s) { serverStdoutBuffer += s; console.error(state); switch (state) { case 'WAIT-ACCEPT': if (/ACCEPT/g.test(serverStdoutBuffer)) { // Give s_server half a second to start up. setTimeout(startClient, 500); state = 'WAIT-HELLO'; } break; case 'WAIT-HELLO': if (/hello/g.test(serverStdoutBuffer)) { // End the current SSL connection and exit. // See s_server(1ssl). server.stdin.write('Q'); state = 'WAIT-SERVER-CLOSE'; } break; default: break; } }); var timeout = setTimeout(function() { server.kill(); process.exit(1); }, 5000); var gotWriteCallback = false; var serverExitCode = -1; server.on('exit', function(code) { serverExitCode = code; clearTimeout(timeout); if (next) next(); }); function startClient() { var s = new net.Stream(); var sslcontext = tls.createSecureContext({key: key, cert: cert}); sslcontext.context.setCiphers('RC4-SHA:AES128-SHA:AES256-SHA'); var pair = tls.createSecurePair(sslcontext, false); assert.ok(pair.encrypted.writable); assert.ok(pair.cleartext.writable); pair.encrypted.pipe(s); s.pipe(pair.encrypted); s.connect(PORT); s.on('connect', function() { console.log('client connected'); }); pair.on('secure', function() { console.log('client: connected+secure!'); console.log('client pair.cleartext.getPeerCertificate(): %j', pair.cleartext.getPeerCertificate()); console.log('client pair.cleartext.getCipher(): %j', pair.cleartext.getCipher()); if (check) check(pair); setTimeout(function() { pair.cleartext.write('hello\r\n', function() { gotWriteCallback = true; }); }, 500); }); pair.cleartext.on('data', function(d) { console.log('cleartext: %s', d.toString()); }); s.on('close', function() { console.log('client close'); }); pair.encrypted.on('error', function(err) { console.log('encrypted error: ' + err); }); s.on('error', function(err) { console.log('socket error: ' + err); }); pair.on('error', function(err) { console.log('secure error: ' + err); }); } process.on('exit', function() { assert.equal(0, serverExitCode); assert.equal('WAIT-SERVER-CLOSE', state); assert.ok(gotWriteCallback); }); }