Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I would like to spawn off threads to perform certain tasks, and use a thread-safe queue to communicate with them. I would also like to be doing IO to a variety of file descriptors while I'm waiting.

What's the recommended way to accomplish this? Do I have to created an inter-thread pipe and write to it when the queue goes from no elements to some elements? Isn't there a better way?

And if I have to create the inter-thread pipe, why don't more libraries that implement shared queues allow you to create the shared queue and inter-thread pipe as a single entity?

Does the fact I want to do this at all imply a fundamental design flaw?

I'm asking this about both C++ and Python. And I'm mildly interested in a cross-platform solution, but primarily interested in Linux.

For a more concrete example...

I have some code which will be searching for stuff in a filesystem tree. I have several communications channels open to the outside world through sockets. Requests that may (or may not) result in a need to search for stuff in the filesystem tree will be arriving.

I'm going to isolate the code that searches for stuff in the filesystem tree in one or more threads. I would like to take requests that result in a need to search the tree and put them in a thread-safe queue of things to be done by the searcher threads. The results will be put into a queue of completed searches.

I would like to be able to service all the non-search requests quickly while the searches are going on. I would like to be able to act on the search results in a timely fashion.

Servicing the incoming requests would generally imply some kind of event-driven architecture that uses epoll. The queue of disk-search requests and the return queue of results would imply a thread-safe queue that uses mutexes or semaphores to implement the thread safety.

The standard way to wait on an empty queue is to use a condition variable. But that won't work if I need to service other requests while I'm waiting. Either I end up polling the results queue all the time (and delaying the results by half the poll interval, on average), blocking and not servicing requests.

share|improve this question
You say threads, but then start talking about shared memory and pipes. You you mean you want to fork processes? –  Brian Roach Apr 2 '11 at 17:47
@Brian Roach - Sorry, that's confusing. I mean threads. I changed 'shared memory queue' to 'thread-safe queue'. –  Omnifarious Apr 2 '11 at 17:50
queue is fine, you just don't have to worry about "shared memory" ... they are sharing the same memory - it's a single process. "pipe" on the other hand generally is talking about IPC pipes. Really you just need to read up on how to share data/objects between threads using locks. –  Brian Roach Apr 2 '11 at 17:56
@Brian Roach - I know how to do that. The problem is that I don't want to block on waiting for a lock because I will also have requests coming in on file descriptors/sockets. –  Omnifarious Apr 2 '11 at 18:03

6 Answers 6

up vote 2 down vote accepted

Whenever one uses an event driven architecture, one is required to have a single mechanism to report event completion. On Linux, if one is using files, one is required to use something from the select of poll family meaning that one is stuck with using a pipe to initiate all none file related events.

There is another option and that is signals. One can use fcntl modify the file descriptor such that a signal is emitted when the file descriptor becomes active. The signal handler may then push a file-ready message onto any type of queue of your choosing. This may be a simple semaphore or mutex/condvar driven queue. Since one is now no longer using select/poll, one no longer needs to use a pipe to queue none file based messages.

Health warning: I have not tried this and although I cannot see why it will not work, I don't really know the performance implications of the signal approach.

share|improve this answer
That's an interesting idea as well. Thank you. –  Omnifarious Apr 2 '11 at 18:49
There is one problem to watch out for. It's possible you could get a deadlock condition on stuffing something into the queue if you weren't extra-careful to make sure the right signals weren't blocked in the right threads. For example, getting a signal that puts something on the queue in a thread that's in the middle of taking something off the queue could be pretty not-pleasant. –  Omnifarious Apr 2 '11 at 18:56
Yip,you will have to block signals while adding to the queue (which is probably involves a syscall) –  doron Apr 2 '11 at 19:29
I'm picking your answer because it was the alternative method that was the most interesting and unusual. I will probably stick with the pipe though. :-) –  Omnifarious Apr 3 '11 at 16:40
Well it did come with a health warning ;) –  doron Apr 3 '11 at 22:48

I've solved this exact problem using what you mention, pipe() and libevent (which wraps epoll). The worker thread writes a byte to its pipe FD when its output queue goes from empty to non-empty. That wakes up the main IO thread, which can then grab the worker thread's output. This works great is actually very simple to code.

share|improve this answer
Thank you for being the first person to understand my problem! I was hoping to avoid the pipe. It seems kind of kludgey, but if that's how it has to be done, so be it. –  Omnifarious Apr 2 '11 at 18:25
@Omnifarious - I understood your problem. I may not have explained myself clearly. With MQs you don't need the extra pipe. You put the mqd_t of your worker output queue in your select set. When one of the workers puts something in the output queue your main loop will be notified. –  Duck Apr 2 '11 at 18:36
Just make sure you make your file descriptor non-blocking. The MQ stuff looks neat -- I'd be interested to know if there are any problems hooking it into libevent. –  twk Apr 2 '11 at 19:32
I never used libevent but if it just wraps epoll then it should work. Man (7) mq_overview specifically says "On Linux, a message queue descriptor is actually a file descriptor, and can be monitored using select(2), poll(2), or epoll(7). This is not portable." –  Duck Apr 2 '11 at 20:35
I was tempted to pick yours because this is what I'm likely actually going to do. It has the advantage of only requiring system calls in certain specific situations (sometime after non-empty queue becomes empty). And those situations are less (not more) likely to occur during times of high load. But I picked the most unusual and interesting alternate method instead. –  Omnifarious Apr 3 '11 at 16:50

You have the Linux tag so I am going to throw this out: POSIX Message Queues do all this, which should fulfill your "built-in" request if not your less desired cross-platform wish.

The thread-safe synchronization is built-in. You can have your worker threads block on read of the queue. Alternatively MQs can use mq_notify() to spawn a new thread (or signal an existing one) when there is a new item put in the queue. And since it looks like you are going to be using select(), MQ's identifier (mqd_t) can be used as a file descriptor with select.

share|improve this answer
Actually, thinking about it, this might work. I was thinking I'd have to serialize all of my data. But I can just dump a raw pointer into the queue. Though this will make reference counted memory management quite interesting. :-) And, of course, I could just dump raw pointers into a pipe as well. –  Omnifarious Apr 2 '11 at 18:45
If you are in the same process, you can pass a raw pointer provided this signifies a transfer of ownership to the new thread (the old thread should no longer be allowed to access the data). If you are working cross process, the serialization becomes important. Bear in mind that, like pipes, message queues are fully fledged kernel cross process kernel objects,so, unlike other ITC mechanisms, any access to them will involve a syscall. –  doron Apr 2 '11 at 19:02
@doron I was thinking Omnifarious was doing so much file and network i/o that the syscalls would be irrelevant. Of course I was also thinking he was just returning a filename or such, not a complex structure or variable array. You are pretty much forced to pass pointers (in-process) then regardless if it is an MQ or hand built. –  Duck Apr 2 '11 at 19:19
@Duck: I'm returning a complex structure. But I could just return filenames and have the main thread read the complex structure. I think though, that would significantly reduce the usefulness of having the filesystem IO in another thread. I'm using the filesystem as a key-value store. Eventually I may also use eventually a DHT and/or a NoSQL database. And the fs access thread may have to pass back "I dunno, get it from who you're talking to." –  Omnifarious Apr 2 '11 at 20:07
You had an interesting method too. Make the queue into a file descriptor so you don't have two fundamentally different kinds of objects. I do not think much of POSIX message queues though. All the POSIX IPC mechanisms suffer from the problem of creating persistent resources that have no names in the filesystem and require special tools (like the ipcs command) to manage. The only thing message queues really offer over pipes is this persistence and preservation of message boundaries. –  Omnifarious Apr 3 '11 at 16:44

Duck's and twk's are actually better answers than doron's (the one selected by the OP), in my opinion. doron suggests writing to a message queue from within the context of a signal handler, and states that the message queue can be "any type of queue." I would strongly caution you against this since many C library/system calls cannot safely be called from within a signal handler (see async-signal-safe).

In particuliar, if you choose a queue protected by a mutex, you should not access it from a signal handler. Consider this scenario: your consumer thread locks the queue to read it. Immediately after, the kernel delivers the signal to notify you that a file descriptor now has data on it. You signal handler runs in the consumer thread, necessarily), and tries to put something on your queue. To do this, it first has to take the lock. But it already holds the lock, so you are now deadlocked.

select/poll is, in my experience, the only viable solution to an event-driven program in UNIX/Linux. I wish there were a better way inside a mutlithreaded program, but you need some mechanism to "wake up" your consumer thread. I have yet to find a method that does not involve a system call (since the consumer thread is on a waitqueue inside the kernel during any blocking call such as select).

EDIT: I forgot to mention one Linux-specific way to handle signals when using select/poll: signalfd(2). You get a file descriptor you can select/poll on, and you handling code runs normally instead of in a signal handler's context.

share|improve this answer
I mention this in the comments. You would have to block the signal in question before acquiring the mutex. I should perhaps have chosen @twk's answer because it's the one I actually used. Though signalfd is nice to learn about. :-) –  Omnifarious Feb 26 '12 at 19:32

One way to accomplish what you're looking to do is by implementing the Observer Pattern

You would register your main thread as an observer with all your spawned threads, and have them notify it when they were done doing what they were supposed to (or updating during their run with the info you need).

Basically, you want to change your approach to an event-driven model.

share|improve this answer
Wouldn't that result in the Observer notifications being run in the context of the thread that was doing the work? Wouldn't that mean that any object accessed by the notification would also have to be thread safe so the main thread and worker thread didn't end up stomping on each other? –  Omnifarious Apr 2 '11 at 18:07
The method in the main thread being called by the spawned ones would need to have a lock (which is owned by the main thread), but you're only locking for the time it takes to do whatever you need to in that method. –  Brian Roach Apr 2 '11 at 18:16
It just comes down to that there's no free lunch in thread synchronization :) You can minimize contention as much as possible (when possible) using non-blocking calls/lock checks ... but in the end if you need to modify something in more than one thread, you need to protect it somehow. –  Brian Roach Apr 2 '11 at 18:20

C++11 has std::mutex and std::condition_variable. The two can be used to have one thread signal another when a certain condition is met. It sounds to me like you will need to build your solution out of these primitives. If you environment does not yet support these C++11 library features, you can find very similar ones at boost. Sorry, can't say much about python.

share|improve this answer

Your Answer


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.