LRU queue broker using high-level API in Haxe

package ;
import haxe.io.Bytes;
import neko.Lib;
import neko.Sys;
import org.zeromq.ZFrame;
import org.zeromq.ZMsg;
#if (neko || cpp)
import neko.vm.Thread;
#end
import haxe.Stack;
import org.zeromq.ZContext;
import org.zeromq.ZSocket;
using org.zeromq.ZSocket;
import org.zeromq.ZMQ;
import org.zeromq.ZMQException;
import org.zeromq.ZMQPoller;
import org.zeromq.ZMQSocket;

/**
* Least - recently used (LRU) queue device
* Clients and workers are shown here in-process
*
* While this example runs in a single process, that is just to make
* it easier to start and stop the example. Each thread has its own
* context and conceptually acts as a separate process.
*
* See: http://zguide.zeromq.org/page:all#A-High-Level-API-for-MQ
*/

class LRUQueue2
{

private static inline var NBR_CLIENTS = 10;
private static inline var NBR_WORKERS = 3;

// Signals workers are ready
private static inline var LRU_READY:String = String.fromCharCode(1);

private static inline var WORKER_DONE:Bytes = Bytes.ofString("OK");

/**
* Basic request-reply client using REQ socket.
*/

public static function clientTask() {
var context:ZContext = new ZContext();
var client:ZMQSocket = context.createSocket(ZMQ_REQ);
var id = ZHelpers.setID(client);
client.connectEndpoint("ipc", "/tmp/frontend.ipc");

while (true) {
ZFrame.newStringFrame("HELLO").send(client);
var reply = ZFrame.recvFrame(client);
if (reply == null) {
break;
}
Lib.println("Client "+id+": " + reply.toString());
Sys.sleep(1);
}

context.destroy();
}

/**
* Worker using REQ socket to do LRU routing.
*/

public static function workerTask() {
var context:ZContext = new ZContext();
var worker:ZMQSocket = context.createSocket(ZMQ_REQ);
var id = ZHelpers.setID(worker);
worker.connectEndpoint("ipc", "/tmp/backend.ipc");

// Tell broker we're ready to do work
ZFrame.newStringFrame(LRU_READY).send(worker);

// Process messages as they arrive
while (true) {
var msg:ZMsg = ZMsg.recvMsg(worker);

if (msg == null) {
break;
}
// Lib.println("Worker " + id + " received " + msg.toString());
msg.last().reset(WORKER_DONE);
msg.send(worker);
}
context.destroy();
}

public static function main() {
Lib.println("** LRUQueue2 (see: http://zguide.zeromq.org/page:all#A-High-Level-API-for-MQ)");

#if php
// PHP appears to require tasks to be forked before main process creates ZMQ context
for (client_nbr in 0 NBR_CLIENTS) {
forkClientTask();
}
for (worker_nbr in 0 NBR_WORKERS) {
forkWorkerTask();
}
#end
// Prepare our context and sockets
var context:ZContext = new ZContext();
var frontend:ZMQSocket = context.createSocket(ZMQ_ROUTER);
var backend:ZMQSocket = context.createSocket(ZMQ_ROUTER);
frontend.bindEndpoint("ipc", "/tmp/frontend.ipc");
backend.bindEndpoint("ipc", "/tmp/backend.ipc");
#if !php
// Non-PHP targets require threads to be created after main thread has set up ZMQ Context
for (client_nbr in 0 NBR_CLIENTS) {
Thread.create(clientTask);
}
for (worker_nbr in 0 NBR_WORKERS) {
Thread.create(workerTask);
}
#end

// Logic of LRU loop:
// - Poll backend always, frontend only if 1 or more worker si ready
// - If worker replies, queue worker as ready and forward reply
// to client if necessary.
// - If client requests, pop next worker and send request to it.

// Queue of available workers
var workerQueue:List<ZFrame> = new List<ZFrame>();

var poller:ZMQPoller = new ZMQPoller();
poller.registerSocket(backend, ZMQ.ZMQ_POLLIN());

while (true) {
poller.unregisterSocket(frontend);
if (workerQueue.length > 0) {
// Only poll frontend if there is at least 1 worker ready to do work
poller.registerSocket(frontend, ZMQ.ZMQ_POLLIN());
}

try {
poller.poll( -1 );
} catch (e:ZMQException) {
if (ZMQ.isInterrupted()) {
break; // Interrupted or terminated
}
trace("ZMQException #:" + e.errNo + ", str:" + e.str());
trace (Stack.toString(Stack.exceptionStack()));
}
// Handle worker activity on backend
if (poller.pollin(1)) {
// Use worker address for LRU routing
var msg:ZMsg = ZMsg.recvMsg(backend);
if (msg == null) {
break;
}
var workerAddr = msg.unwrap();
if (workerQueue.length < NBR_WORKERS)
workerQueue.add(workerAddr);

// Third frame is READY or else a client reply address
var frame = msg.first();

// If client reply, send rest back to frontend
if (frame.toString() == LRU_READY) {
msg.destroy();
} else {
msg.send(frontend);
}
}

if (poller.pollin(2)) {
// get client request, route to first available worker
var msg = ZMsg.recvMsg(frontend);
if (msg != null) {
msg.wrap(workerQueue.pop());
msg.send(backend);
}
}
}
// When we're done, clean up properly
for (f in workerQueue) {
f.destroy();
}
context.destroy();
}

#if php
private static inline function forkWorkerTask() {
untyped __php__('
$pid = pcntl_fork();
if ($pid == 0) {
LRUQueue2::workerTask();
exit();
}'
);
return;
}

private static inline function forkClientTask() {
untyped __php__('
$pid = pcntl_fork();
if ($pid == 0) {
LRUQueue2::clientTask();
exit();
}'
);
return;
}
#end

}