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I'm trying to get an HTTP server I'm writing on to behave well when under heavy load, but I'm getting some weird behavior that I cannot quite understand.

My testing consists of using ab (the Apache benchmark program) over the loopback interface at a concurrency level of 1000 (ab -n 50000 -c 1000 http://localhost:8080/apa), while straceing the server process. Strace both slows processing down well enough for the problem to be readily reproducible and allows me to debug the server internals post completion to some extent. I also capture the network traffic with tcpdump while the test is running.

What happens is that ab stops running a while into the test, complaining that a connection returned ECONNRESET, which I find a bit weird. I could easily buy into a connection timing out since the server might simply not have the bandwidth to process them all, but shouldn't that reasonably return ETIMEDOUT or even ECONNREFUSED if not all connections can be accepted?

I used Wireshark to extract the packets constituting the first connection to return ECONNRESET, and its brief packet list looks like this: packet list (The entire tcpdump file of this connection is available here.)

As you can see from this dump, the connection is accepted (after a few SYN retransmissions), and then the request is retransmitted a few times, and then the server resets the connection. I'm wondering, what could cause this to happen? Normally, Linux' TCP implementation ACKs data before the reading process even chooses to receive it so long as their is space in the TCP window, so why doesn't it do that here? Are there some kind of shared buffers that are running out? Most importantly, why is the kernel responding with a RST packet all of a sudden instead of simply waiting and letting the client re-transmit further?

For the record, the strace of the process indicates that it never even accepts a connection from the port in this connection (port 56946), so this seems to be something Linux does on its own. It is also worth noting that the server works perfectly well as long as ab's concurrency level is low enough (it works perfectly well up to about 100, and then starts failing intermittently somewhere between 100-500), and that its request throughput is rather constant regardless of the concurrency level (it processes somewhere between 6000-7000 requests per second as long as it isn't being straced). I have not found any particular correlation between the frequency of the problem occurring and my backlog setting to listen() (I'm currently using 128, but I've tried up to 1024 without it seeming to make a difference).

In case it matters, I'm running Linux 3.2.0 on this AMD64 box.

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1 Answer 1

  1. The backlog queue filled up: hence the SYN retransmissions.

  2. Then a slot became available: hence the SYN/ACK.

  3. Then the GET was sent, followed by four retransmissions, which I can't account for.

  4. Then the server gave up and reset the connection.

I suspect you have a concurrency or throughput problem in your server which is preventing you from accepting connections rapidly enough. You should have a thread that is dedicated to doing nothing else but calling accept() and either starting another thread to handle the accepted socket or else queueing a job to handle it to a thread pool. I would then speculate that Linux resets connections on connections which are in the backlog queue and which are receiving I/O retries, but that's only a guess.

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It is those GET retransmissions that I'm wondering about, though. I have no problem understanding the SYN delays. Normally, Linux would ACK pushed data before the data has even been read from the socket, and even before the new connection has been accept()ed. What kind of buffers are filling up for this to happen? And if the client SYN itself has been ACK'ed, and the connection thus properly tracked (right?), why does the server RST it? –  Dolda2000 Dec 31 '12 at 6:03
@Dolda Well that's the subject of my speculation. It looks very much like your second sentence starting 'normally' isn't true, doesn't it? –  EJP Dec 31 '12 at 6:09
Indeed, but I'm wondering how it deviates from normality. :) As I said, Linux normally ACKs data even before the new socket has been accepted, so your speculation about resetting connections that are receiving I/O while in the backlog queue does not seem to be the answer. –  Dolda2000 Dec 31 '12 at 6:12
@Dolda2000 Well it's curious that the data never got acknowledged ... –  EJP Dec 31 '12 at 6:25

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