var assert = require('assert'); var common = require('../common'); var fork = require('child_process').fork; var net = require('net'); var count = 12; if (process.argv[2] === 'child') { var needEnd = []; var id = process.argv[3]; process.on('message', function(m, socket) { if (!socket) return; console.error('[%d] got socket', id, m); // will call .end('end') or .write('write'); socket[m](m); socket.resume(); socket.on('data', function() { console.error('[%d] socket.data', id, m); }); socket.on('end', function() { console.error('[%d] socket.end', id, m); }); // store the unfinished socket if (m === 'write') { needEnd.push(socket); } socket.on('close', function(had_error) { console.error('[%d] socket.close', id, had_error, m); }); socket.on('finish', function() { console.error('[%d] socket finished', id, m); }); }); process.on('message', function(m) { if (m !== 'close') return; console.error('[%d] got close message', id); needEnd.forEach(function(endMe, i) { console.error('[%d] ending %d/%d', id, i, needEnd.length); endMe.end('end'); }); }); process.on('disconnect', function() { console.error('[%d] process disconnect, ending', id); needEnd.forEach(function(endMe, i) { console.error('[%d] ending %d/%d', id, i, needEnd.length); endMe.end('end'); }); }); } else { var child1 = fork(process.argv[1], ['child', '1']); var child2 = fork(process.argv[1], ['child', '2']); var child3 = fork(process.argv[1], ['child', '3']); var server = net.createServer(); var connected = 0, closed = 0; server.on('connection', function(socket) { switch (connected % 6) { case 0: child1.send('end', socket, { track: false }); break; case 1: child1.send('write', socket, { track: true }); break; case 2: child2.send('end', socket, { track: true }); break; case 3: child2.send('write', socket, { track: false }); break; case 4: child3.send('end', socket, { track: false }); break; case 5: child3.send('write', socket, { track: false }); break; } connected += 1; socket.once('close', function() { console.log('[m] socket closed, total %d', ++closed); }); if (connected === count) { closeServer(); } }); var disconnected = 0; server.on('listening', function() { var j = count, client; while (j--) { client = net.connect(common.PORT, '127.0.0.1'); client.on('error', function() { // This can happen if we kill the child too early. // The client should still get a close event afterwards. console.error('[m] CLIENT: error event'); }); client.on('close', function() { console.error('[m] CLIENT: close event'); disconnected += 1; }); // XXX This resume() should be unnecessary. // a stream high water mark should be enough to keep // consuming the input. client.resume(); } }); var closeEmitted = false; server.on('close', function() { console.error('[m] server close'); closeEmitted = true; console.error('[m] killing child processes'); child1.kill(); child2.kill(); child3.kill(); }); server.listen(common.PORT, '127.0.0.1'); var timeElasped = 0; var closeServer = function() { console.error('[m] closeServer'); var startTime = Date.now(); server.on('close', function() { console.error('[m] emit(close)'); timeElasped = Date.now() - startTime; }); console.error('[m] calling server.close'); server.close(); setTimeout(function() { assert(!closeEmitted); console.error('[m] sending close to children'); child1.send('close'); child2.send('close'); child3.disconnect(); }, 200); }; process.on('exit', function() { assert.equal(disconnected, count); assert.equal(connected, count); assert.ok(closeEmitted); assert.ok(timeElasped >= 190 && timeElasped <= 1000, 'timeElasped was not between 190 and 1000 ms'); }); }