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I've a problem which is giving me some hard time trying to figure it out the ideal solution and, to better explain it, I'm going to expose my scenario here.

I've a server that will receive orders from several clients. Each client will submit a set of recurring tasks that should be executed at some specified intervals, eg.: client A submits task AA that should be executed every minute between 2009-12-31 and 2010-12-31; so if my math is right that's about 525 600 operations in a year, given more clients and tasks it would be infeasible to let the server process all these tasks so I came up with the idea of worker machines. The server will be developed on PHP.

Worker machines are just regular cheap Windows-based computers that I'll host on my home or at my workplace, each worker will have a dedicated Internet connection (with dynamic IPs) and a UPS to avoid power outages. Each worker will also query the server every 30 seconds or so via web service calls, fetch the next pending job and process it. Once the job is completed the worker will submit the output to the server and request a new job and so on ad infinitum. If there is a need to scale the system I should just set up a new worker and the whole thing should run seamlessly. The worker client will be developed in PHP or Python.

At any given time my clients should be able to log on to the server and check the status of the tasks they ordered.

Now here is where the tricky part kicks in:

  • I must be able to reconstruct the already processed tasks if for some reason the server goes down.
  • The workers are not client-specific, one worker should process jobs for any given number of clients.

I've some doubts regarding the general database design and which technologies to use.

Originally I thought of using several SQLite databases and joining them all on the server but I can't figure out how I would group by clients to generate the job reports.

I've never actually worked with any of the following technologies: memcached, CouchDB, Hadoop and all the like, but I would like to know if any of these is suitable for my problem, and if yes which do you recommend for a newbie is "distributed computing" (or is this parallel?) like me. Please keep in mind that the workers have dynamic IPs.

Like I said before I'm also having trouble with the general database design, partly because I still haven't chosen any particular R(D)DBMS but one issue that I've and I think it's agnostic to the DBMS I choose is related to the queuing system... Should I precalculate all the absolute timestamps to a specific job and have a large set of timestamps, execute and flag them as complete in ascending order or should I have a more clever system like "when timestamp modulus 60 == 0 -> execute". The problem with this "clever" system is that some jobs will not be executed in order they should be because some workers could be waiting doing nothing while others are overloaded. What do you suggest?

PS: I'm not sure if the title and tags of this question properly reflect my problem and what I'm trying to do; if not please edit accordingly.

Thanks for your input!


  1. The input will be a very small JSON encoded string, the output will also be a JSON enconded string but a bit larger (in the order of 1-5 KB).
  2. The output will be computed using several available resources from the Web so the main bottleneck will probably be the bandwidth. Database writes may also be one - depending on the R(D)DBMS.
share|improve this question
Good, fairly detailed question, but some more details would help. Particularly: 1) what do the inputs and outputs of each task look like? For instance, will each atomic task need access to a large data set, just a few parameters, or something in between? 2) Where do you think the bottlenecks will be? Are tasks hungry for memory, processor, database reads or writes, etc? –  timdev Oct 4 '09 at 18:19
@timdev: Thanks, check my edit. –  Alix Axel Oct 5 '09 at 14:34
good question! Not related to your database question: watch out for long jobs that take longer than the configured interval. A lock mechanism is a must have in this case. –  Brian Clozel Oct 5 '09 at 14:41
@Brian C: Thanks, that is trully a hard problem to crack with the "clever" queuing system described in my question, if someone has any other alternative please let me know. –  Alix Axel Oct 5 '09 at 14:52

7 Answers 7

up vote 14 down vote accepted

It looks like you're on the verge of recreating Gearman. Here's the introduction for Gearman:

Gearman provides a generic application framework to farm out work to other machines or processes that are better suited to do the work. It allows you to do work in parallel, to load balance processing, and to call functions between languages. It can be used in a variety of applications, from high-availability web sites to the transport of database replication events. In other words, it is the nervous system for how distributed processing communicates.

You can write both your client and the back-end worker code in PHP.

Re your question about a Gearman Server compiled for Windows: I don't think it's available in a neat package pre-built for Windows. Gearman is still a fairly young project and they may not have matured to the point of producing ready-to-run distributions for Windows.

Sun/MySQL employees Eric Day and Brian Aker gave a tutorial for Gearman at OSCON in July 2009, but their slides mention only Linux packages.

Here's a link to the Perl CPAN Testers project, that indicates that Gearman-Server can be built on Win32 using the Microsoft C compiler (cl.exe), and it passes tests: http://www.nntp.perl.org/group/perl.cpan.testers/2009/10/msg5521569.html But I'd guess you have to download source code and build it yourself.

share|improve this answer
Gearman looks nice however my workers have dynamic IPs and I'm not sure how to work arround that with Gearman. –  Alix Axel Oct 5 '09 at 14:22
If they're internal, use a local DNS server. If they're external, use dyndns.com. –  Bill Karwin Oct 5 '09 at 15:50
Thanks, do you know if there is a Gearman server compiled for Windows? –  Alix Axel Oct 13 '09 at 17:42
I just read the problem and was about to suggest gearman myself. + 1 for you. –  cballou Oct 14 '09 at 12:56
Also, on the topic of dynamic IPs, follow Bill's suggestion and have each worker use dyndns.com so that you can map web addresses to dynamic IP addresses. I use this solution at home for SSH and SVN so that I can always remotely connect. –  cballou Oct 14 '09 at 12:58

Rather than re-inventing the queuing wheel via SQL, you could use a messaging system like RabbitMQ or ActiveMQ as the core of your system. Each of these systems provides the AMQP protocol and has hard-disk backed queues. On the server you have one application that pushes new jobs into a "worker" queue according to your schedule and another that writes results from a "result" queue into the database (or acts on it some other way).

All the workers connect to RabbitMQ or ActiveMQ. They pop the work off the work queue, do the job and put the response into another queue. After they have done that, they ACK the original job request to say "its done". If a worker drops its connection, the job will be restored to the queue so another worker can do it.

Everything other than the queues (job descriptions, client details, completed work) can be stored in the database. But anything realtime should be put somewhere else. In my own work I'm streaming live power usage data and having many people hitting the database to poll it is a bad idea. I've written about live data in my system.

share|improve this answer
Yes, this is definitely a Queue Problem. (See: Competing Consumers). Had the same problem on my system, and that was the chosen solution. –  fmarreco Oct 6 '14 at 15:12

The setup of a master server and several workers looks right in your case.

On the master server I would install MySQL (Percona InnoDB version is stable and fast) in master-master replication so you won't have a single point of failure. The master server will host an API which the workers will pull at every N seconds. The master will check if there is a job available, if so it has to flag that the job has been assigned to the worker X and return the appropriate input to the worker (all of this via HTTP). Also, here you can store all the script files of the workers.

On the workers, I would strongly suggest you to install a Linux distro. On Linux it's easier to set up scheduled tasks and in general I think it's more appropriate for the job. With Linux you can even create a live cd or iso image with a perfectly configured worker and install it fast and easy on all the machines you want. Then set up a cron job that will RSync with the master server to update/modify the scripts. In this way you will change the files in just one place (the master server) and all the workers will get the updates.

In this configuration you don't care of the IPs or the number of workers because the workers are connecting to the master, not vice-versa.

The worker job is pretty easy: ask the API for a job, do it, send back the result via API. Rinse and repeat :-)

share|improve this answer

I would avoid sqlite for this sort of task, although it is a very wonderful database for small apps, it does not handle concurrency very well, it has only one locking strategey which is to lock the entire database and keep it locked until a sinlge transaction is complete.

Consider Postgres which has industrial strength concurrency and lock management and can handle multiple simultanious transactions very nicely.

Also this sounds like a job for queuing! If you were in hte Java world I would recommend a JMS based archictecture for your solution. There is a 'dropr' project to do something similar in php but its all fairly new so it might not be suitable for your project.

Whichever technoligy you use you should go for a "free market" solution where the worker threads consume available "jobs" as fast as they can, rather than a "command economy" where a central process allocates tasks to choosen workers.

share|improve this answer
Thanks for your input, as I said before I want to avoid having a single DB server but the dropr project seems cool. Thanks again! –  Alix Axel Oct 15 '09 at 18:39

Gearman seems like the perfect candidate for this scenario, you might even want to virtualize you windows machines to multiple worker nodes per machine depending on how much computing power you need.

Also the persistent queue system in gearman prevents jobs getting lost when a worker or the gearman server crashes. After a service restart the queue just continues where it has left off before crash/reboot, you don't have to take care of all this in your application and that is a big advantage and saves alot of time/code

Working out a custom solution might work but the advantages of gearman especially the persistent queue seem to me that this might very well be the best solution for you at the moment. I don't know about a windows binary for gearman though but i think it should be possible.

share|improve this answer
+1, Thanks for your input, each workers needs to have a unique IP address so virtualizing machines is not possible here. –  Alix Axel Oct 14 '09 at 22:52
Well maybe the persistent queue is a lifesaver here. Actually as Bill said you are actually recreating something like gearman so why not use it, it may not fit the job as you want it to but with some minor tweaks and a correct server/network setup you should be off for some serious distributed computing –  ChrisR Oct 15 '09 at 6:17

A simpler solution would be to have a single database with multiple php-nodes connected. If you use a proper RDBMS (MSql + InnoDB will do), you can have one table act as a queue. Each worker will then pull tasks from that to work on and write it back into the database upon completion, using transactions and locking to synchronise. This depends a bit on the size of input/output data. If it's large, this may not be the best scheme.

share|improve this answer
The input / output data will be fairly small however if the server goes down I wouldn't be able to reconstruct the already processed data since there is a single point of failure (the main MySQL) database. –  Alix Axel Oct 5 '09 at 14:50
There is always a place where you can lose data. Why do you want to reconstruct the partially processed data? Are there any side effects of the jobs? –  troelskn Oct 5 '09 at 17:54
No, I just had bad expiriences with servers and I don't want to make the same mistake again. Also using only one server for the database might make it run to hot if the number of workers is high. –  Alix Axel Oct 13 '09 at 17:37
Reeks like premature optimisation to me. –  troelskn Oct 14 '09 at 6:52

I think you're going in the right direction with a master job distributor and workers. I would have them communicate via HTTP.

I would choose C, C++, or Java to be clients, as they have capabilities to run scripts (execvp in C, System.Desktop.something in Java). Jobs could just be the name of a script and arguments to that script. You can have the clients return a status on the jobs. If the jobs failed, you could retry them. You can have the clients poll for jobs every minute (or every x seconds and make the server sort out the jobs)

PHP would work for the server.

MySQL would work fine for the database. I would just make two timestamps: start and end. On the server, I would look for WHEN SECONDS==0

share|improve this answer
Thanks, please check my edited question. –  Alix Axel Oct 5 '09 at 14:48

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