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I've developed a mini HTTP server in C++, using boost::asio, and now I'm load testing it with multiple clients and I've been unable to get close to saturating the CPU. I'm testing on a Amazon EC2 instance, and getting about 50% usage of one cpu, 20% of another, and the remaining two are idle (according to htop).


  • The server fires up one thread per core
  • Requests are received, parsed, processed, and responses are written out
  • The requests are for data, which is read out of memory (read-only for this test)
  • I'm 'loading' the server using two machines, each running a java application, running 25 threads, sending requests
  • I'm seeing about 230 requests/sec throughput (this is application requests, which are composed of many HTTP requests)

So, what should I look at to improve this result? Given the CPU is mostly idle, I'd like to leverage that additional capacity to get a higher throughput, say 800 requests/sec or whatever.

Ideas I've had:

  • The requests are very small, and often fulfilled in a few ms, I could modify the client to send/compose bigger requests (perhaps using batching)
  • I could modify the HTTP server to use the Select design pattern, is this appropriate here?
  • I could do some profiling to try to understand what the bottleneck's are/is
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Fair to assume you have a 1Gbps port on the server? What are your request and response sizes (on the wire)? –  nik Aug 5 '09 at 18:26
What is the bandwidth utilization on the server network port (the one I assume to be 1Gbps) –  nik Aug 5 '09 at 18:26
The test is running on EC2, which I believe uses Gigabit. Bmon reports about 3MiB (megabits I believe) TX rate, and 2.5Mib RX rate. Many request/response sizes are small (as little as 100 bytes), but some responses are up to 1mb, requests probably up to .25mb –  Alex Black Aug 5 '09 at 18:30
What's the load on your clients ? If you only have 1 thread per core, and not utilizing io multiplexing (select/poll or similar) you won't get much concurrency - and the threads will likely spend a lot of time doing i/o. –  nos Aug 5 '09 at 19:16
Each client machine is running a process with running 25 threads –  Alex Black Aug 5 '09 at 19:21

4 Answers 4

up vote 34 down vote accepted

boost::asio is not as thread-friendly as you would hope - there is a big lock around the epoll code in boost/asio/detail/epoll_reactor.hpp which means that only one thread can call into the kernel's epoll syscall at a time. And for very small requests this makes all the difference (meaning you will only see roughly single-threaded performance).

Note that this is a limitation of how boost::asio uses the Linux kernel facilities, not necessarily the Linux kernel itself. The epoll syscall does support multiple threads when using edge-triggered events, but getting it right (without excessive locking) can be quite tricky.

BTW, I have been doing some work in this area (combining a fully-multithreaded edge-triggered epoll event loop with user-scheduled threads/fibers) and made some code available under the nginetd project.

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Thanks for the info cmeerw, thats interesting stuff. –  Alex Black Aug 6 '09 at 12:12
(+1) cmeer I have an unanswered post relating performance of boost::asio in general on windows and linux. If you have read large sections of asio please come and answer my post :P –  Hassan Syed Dec 14 '09 at 15:31
I was really worried about this global lock. It is not as big an issue as it would seem. The bottle neck can only occur in high through put scenarios. However, when asio is running in epoll mode (linux) it preemptively tries to write or read when the async_* call is issued. In a high input scenario the socket will usually be ready for reading, letting async_read skip epoll entirely. You can't ask for better network performance than that. –  deft_code Dec 21 '09 at 20:06
I don't think it's the case. Yes, it looks like epoll reactor has a scoped lock for the entire duration of the run() function, but it's temporarily released ("lock.unlock();") before calling into epoll_wait and locked again after epoll_wait returns("lock.lock();"). Not sure why it's done this way instead of two scoped locks, though. –  Alex B Apr 1 '10 at 0:29
@Alex Black bump, so that the previous comment reaches the OP. What were your results with this question? Did replacing boost::asio help? –  Alex B Apr 1 '10 at 2:57

As you are using EC2, all bets are off.

Try it using real hardware, and then you might be able to see what's happening. Trying to do performance testing in VMs is basically impossible.

I have not yet worked out what EC2 is useful for, if someone find out, please let me know.

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This system is going to be deployed in EC2, so the testing the performance of the system on real hardware wouldn't be helpful I don't think. –  Alex Black Aug 6 '09 at 13:48
Mark's point is valid: For profiling use a real machine, or at least a more controlled environment. Deploy to EC2 all you like, but understand that you are running in a VM image and that means that your "idle" CPU might just be because some other tenant on the box got all the CPU for a while. And that makes profiling difficult. –  janm Nov 18 '09 at 6:46
(+1) hate ill-informed down votes –  Hassan Syed Jan 18 '10 at 15:08
Since there are some several hundred thousand (last I heard) EC2 instances running at any given point in time, I think plenty of people grok what it is useful for. You should ask yourself what they know that you do not. –  Eloff Dec 20 '11 at 1:07
+1 for pointing out perf testing in VMs is impossible. Especially for networking scenarios - you have to test with physical boxes, physical switch and be able to monitor QoS. Once you are done - you can push to EC2. And then when you have issues with CPU/RAM usage - you can be sure it is EC2/Rackspace at fault. –  quixver Feb 19 '13 at 21:19

230 requests/sec seems very low for such simple async requests. As such, using multiple threads is probably premature optimisation - get it working properly and tuned in a single thread, and see if you still need them. Just getting rid of un-needed locking may get things up to speed.

This article has some detail and discussion on I/O strategies for web server-style performance circa 2003. Anyone got anything more recent?

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Keep in mind the 230 requests/sec are 'application requests' which are composed of many actually HTTP requests. –  Alex Black Aug 6 '09 at 13:46
There isn't much locking to get rid of, none in my code, but as cmeerw points out boost::asio does some internal locking. The HTTP server does purely CPU-bounded work, so not using the additional cores would be an expensive waste –  Alex Black Aug 6 '09 at 13:49
If the goal is just to saturate the CPU, do the work in one thread and have the other three calculate PI or something. Having multiple user-level threads won't make it easier or faster for the OS and IO hardware to read and write network packets. Threads and cores are for computational work, if you aren't doing any, they can't possibly gain you anything, and risk contention with whatever else the system is doing. –  soru Aug 6 '09 at 14:25
As I said: "the HTTP server does purely CPU-bounded work". –  Alex Black Aug 6 '09 at 14:27
Except, demonstrably, it's not. Optimal solution is probably one thread doing I/O and 2 or 3 the parsing and so on. But that's very likely premature optimisation until you can get your IO properly asynchronously scheduled so you either saturate one CPU core or your network. –  soru Aug 6 '09 at 15:23

From your comments on network utilization,
You do not seem to have much network movement.

3 + 2.5 MiB/sec is around the 50Mbps ball-park (compared to your 1Gbps port).

I'd say you are having one of the following two problems,

  1. Insufficient work-load (low request-rate from your clients)
  2. Blocking in the server (interfered response generation)

Looking at cmeerw's notes and your CPU utilization figures
(idling at 50% + 20% + 0% + 0%)
it seems most likely a limitation in your server implementation.
I second cmeerw's answer (+1).

share|improve this answer
He is running tests on Amazon's EC2 Cloud Computing Cluster. Hard to rule out the possibly of bad performance on EC2. –  unixman83 Feb 20 '12 at 7:23

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