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I am trying to figure out what is more performant, edge triggered or level triggered epoll.

Mainly I am considering "performant" as:

  1. Ability to handle multiple connections without degredation.

  2. Ability to keep the uptmost speed per inbound message.

I am actually more concerned about #2, but #1 is also important.

I've been running tests with a single threaded consumer (accept/read multiple socket connections using epoll_wait), and multiple producers.

So far I've seen no difference, even up to 1000 file descriptors.

I've been laboring under the idea (delusion?) that edge triggered should be more performant because less interupts will be received. Is this a correct assumption?

One issue with my test, that might be masking performance differences, is that I don't dispatch my messages to threads once they are received, so the less interrupts don't really matter. I've been loath to do this test because I've been using __asm__ rdtsc to get my "timestamps," so I don't want to have to reconcile what core my original timestamp came from.

What makes me even more suspicious is that level triggered epoll performs better on some benchmarks I've seen.

Which is better? Under what circumstances? Is there no difference? Any insights would be appreciated.

EDIT:

My sockets are non-blocking.

  • Hard to tell.. depends on the application. You have to measure it, and pick the one which suits you better. – Karoly Horvath Dec 12 '12 at 20:53
  • The main difference is that edge triggered works well with non-blocking sockets while level triggered works well with blocking sockets. – Chris Dodd Dec 13 '12 at 4:22
  • I am using non-blocking, for reference. – Alex Dec 13 '12 at 14:44
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I wouldn't expect to see a huge performance difference between edge and level triggered.

For edge-triggered you always have to drain the input buffer, so you have one useless (just returning EWOULDBLOCK) recv syscall. But for level triggered you might use more epoll_wait syscalls. As the man page points out, avoiding starvation might be slightly easier in level triggered mode.

The real difference is that when you want to use multiple threads you'll have to use edge-triggered mode (although you'll still have to be careful with getting synchronization right).

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    For multiple threads oneshot semantics (EPOLLONESHOT) might be useful as well. – janneb Dec 13 '12 at 9:41
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    Yes, as the level remains "readable" for some (short amount of time until the data is actually read), all threads will be woken up. For edge-triggered on the other hand you only get a single state transition where a single thread is woken up. – cmeerw Dec 15 '12 at 14:26
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    There is a significant difference, especially in outliers, if I use multiple threads to epoll_wait. For a trivially small (<100) file descriptors I saw no difference in ET or LT epoll using a single threaded consumer. – Alex Jan 9 '13 at 23:49
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    Actually there is no need for the "useless" EWOULDBLOCK recv syscall. If recv returns less than the max-read-size then you can be sure that at this point the kernel-buffer is empty and even if it fills back during your processing of the data epoll_wait notifies you again (in EPOLLET-mode). So the useless call is just needed in the unlikely case that the size of you recv-buffer is exact the length of the message. – Xatian Jan 20 '14 at 10:39
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    Concerning last point, read<max is only a hint, never a guarantee. We've had issues in the past with some kernel-side optimizations causing less than requested to be returned in a single recv() on a socket where data received with GRO were still pending. – Willy Tarreau Nov 18 '14 at 18:06
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The difference is only visible when you use long-lived sessions and you're forced to constantly stop/start because of buffers full/empty (typically with a proxy). When you're doing this, you most often need an event cache, and when your event cache is processing events, you can use ET and avoid all the epoll_ctl(DEL)+epoll_ctl(ADD) dance. For short-lived sessions, the savings are less obvious, because for ET you'll need at least one epoll_ctl(ADD) call to enable polling on the FD, and if you don't expect to have more of them during the session's life (eg: exchanges are smaller than buffers most of the time), then you shouldn't expect any difference. Most of your savings will generally come from using an event cache only since you can often perform a lot of operations (eg: writes) without polling thanks to kernel buffers.

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