Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm working on designing a multi-tiered app in Perl and I'm wondering about the pros and cons of the various IPC mechnisms available to me. I'm looking at handling moderately-sized data, typically a few dozen kilobytes but up to a couple of megabytes, and the load is pretty light, at most a couple of hundred requests per minute.

My primary concerns are maintainability and performance (in that order). I don't think I'll need to scale up to more than one server, or port off of our main platform (RHEL), but I suppose it's something to consider.

I can think of the following options:

  • Temporary files - Simplistic, probably the worst option in terms of speed and storage requirements
  • UNIX domain sockets - Not portable, not scalable
  • Internet Sockets - Portable, scalable
  • Pipes - Portable, not scalable (?)

Considering that scalability and portability are not my primary concerns, I need to learn more. What's the best choice, and why? Please comment if you need additional information.


EDIT: I'll try to give more detail in response to ysth's questions (warning, wall of text follows):

  • Are readers/writers in a one-to-one relationship, or something more more complicated?
  • What do you want to happen to the writer if the reader is no longer there or busy?
  • And vice versa?
  • What other information do you have about your desired usage?

At this point, I'm contemplating a three-tiered approach, but I'm not sure how many processes I'll have in each tier. I think I need to have more processes towards the left side and fewer toward the right, but maybe I should have the same number across the board:

 .---------.          .----------.        .-------.
 | Request |  ----->  | Business | -----> | Data  |
 | Manager |  <-----  |  Logic   | <----- | Layer |
 `---------'          `----------'        `-------'

These names are still generic and probably won't make it into the implementation in these forms.

The request manager is responsible for listening for requests from different interfaces, for example web requests and CLI (where response time is important) and e-mail (where response time is less important). It performs logging and manages the responses to the requests (which are rendered in a format appropriate to the type of request).

It sends data about the request to the business logic which performs logging, authorization depending on business rules, etc.

The business logic (if it needs to) then requests data from the data layer, which can either talk to (most often) the internal MySQL database or some other data source outside our team's control (e.g., our organization's primary LDAP servers, or our DB2 employee information database, etc.). This is mostly simply a wrapper which formats the data in a uniform way so that it can be handled more easily in the business logic.

The information then flows back to to the request manager for presentation.

If, when data is flowing to the right, the reader is busy, for the interactive requests I'd like to simply wait a suitable period of time, and return a timeout error if I don't get access in that amount of time (e.g. "Try again later"). For the non-interactive requests (e.g. e-mail), the polling system can simply exit and try again on the next invocation (which will probably be once per 1-3 minutes).

When data is flowing in the other direction, there shouldn't be any waiting situations. If one of the processes has died when trying to travel back to the left, all I can really do

share|improve this question

6 Answers 6

up vote 4 down vote accepted

Temporary files (and related things, like a shared memory region), are probably a bad bet. If you ever want to run your server on one machine and your clients on another, you will need to rewrite your application. If you pick any of the other options, at least the semantics are the essentially the same, if you need to switch between them at a later date.

My only real advice, though, is to not write this yourself. On the server side, you should use POE (or Coro, etc.), rather than doing select on the socket yourself. Also, if your interface is going to be RPC-ish, use something like JSON-RPC-Common/ from the CPAN.

Finally, there is IPC::PubSub, which might work for you.

share|improve this answer
    
Thanks very much! I was hoping to get hooked up with some useful Perl resources. –  Adam Bellaire Jan 11 '09 at 1:22

If you're unsure about your exact requirements at the moment, try to think of a simple interface that you can code to, that any IPC implementation (be it temporary files, TCP/IP or whatever) needs to support. You can then choose a particular IPC flavour (I would start with whatever's easiest and/or easiest to debug -- probably temporary files) and implement the interface using that. If that turns out to be too slow, implement the interface using e.g. TCP/IP. Actually implementing the interface does not involve much work as you will essentially just be forwarding calls to some existing library.

The point is that you have a high-level task to perform ("transmit data from program A to program B") which is more or less independent of the details of how it is performed. By establishing an interface and coding to it, you isolate the main program from changes in the event that you need to change the implementation.

Note that you don't need to use any heavyweight Perl language mechanisms to capitalise on the idea of having an interface. You could simply have e.g. 3 different packages (for temp files, TCP/IP, Unix domain sockets), each of which exports the same set of methods. Choosing which implementation you want to use in your main program amounts to choosing which module to use.

share|improve this answer

Temporary files have other problems besides that. I think Internet socks are really the best choice. They are well documented, and as you say, scalable and portable. Even if that is not a core requirement, you get it nearly for free. Sockets are pretty easy to deal with, again there is copious amounts of documentation. You can build out your data sharing mechanism and protocol out in a library and never have to look at it again!

share|improve this answer

UNIX domain sockets are portable across unices. It's no less portable than pipes. It's also more efficient than IP sockets.

Anyway, you missed a few options, shared memory for example. Some would add databases to that list but I'd say that's a rather heavyweight solution.

Message queues would also be a possibility, though you'd have to change a kernel option for it to handle such large messages. Otherwise, they have an ideal interface for a lot of things, and IMHO they are greatly underused.

I generally agree though that using an existing solution is better than building somethings of your own. I don't know the specifics of your problem, but I'd suggest you'd check out the IPC section of CPAN

share|improve this answer
    
Thanks! You're right, shared memory and message queues didn't even occur to me. –  Adam Bellaire Jan 11 '09 at 2:13

There are so many different options because most of them are better for some particular case, but you haven't really given any information that would identify your case.

Are readers/writers in a one-to-one relationship, or something more more complicated? What do you want to happen to the writer if the reader is no longer there or busy? And vice versa? What other information do you have about your desired usage?

share|improve this answer
    
Thanks for responding, I've added more detail to the question. –  Adam Bellaire Jan 11 '09 at 12:48

For "interactive" requests (holding the connection open while waiting for a response (asynchronously or not): HTTP + JSON. JSON::XS is insanely fast. Everyone and everything can speak HTTP and it's easy to load balance, debug, ...

For queued requests ("please do this, thanks!"): Beanstalkd and Beanstalk::Client. Serialize the requests in the beanstalk queue with JSON.

Thrift might also be worth looking into depending on your application.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.