0

I have a network daemon which receives messages of a fixed length (44 Bytes) on a TCP socket.

I am trying to determine what the best length in bytes I should be reading with sysread is. I can of course do a loop that does a sysread for 44 bytes, but I'd like to come up with an optimal size.

I can see an advantage to not having say, a megabyte worth of data to do substr on, but I can also see why doing a thousand sysread calls can cause slowness.

Is there a good size recommendation for doing sysreads over the public internet?

Edit: The script gets a bunch of the 44 byte messages, they are queued up.

3 Answers 3

2

The larger the better! sysread will return as soon any bytes are available.

Since you're never guaranteed to get a whole message and since you're never guaranteed to not have more than one message, you need to have a loop on the Perl side. Since you already have a loop on the Perl side, so you might as well get as much data as possible from the system in one go to avoid needless system calls.

use constant READ_SIZE => 65*1024;

my $buf = '';
while (1) {
   my $rv = sysread($fh, $buf, READ_SIZE, length($buf));
   die if !defined($rv);
   last if !$rv;

   while ($buf =~ s/^(.{44})//s) {
      my $msg = $1;
      process_msg($msg);
   }
}

Pick a size and monitor $buf's size. If it often approaches READ_SIZE, increase READ_SIZE.

9
  • After doing some benchmarking, it seems like this is the correct answer in my application. May 3, 2012 at 5:57
  • @GoldenNewby, Of course, letting Perl do that buffering itself (i.e using read with length 44 instead of sysread) would probably be even faster! I just blindly accepted your premise that sysread was going to be used.
    – ikegami
    May 3, 2012 at 7:42
  • perlmonks.org/?node_id=435814, in that discussion, they say: "Read cannot do that except at the end of file". In the context of reading from a TCP socket, what does that mean exactly? I am okay with getting back a partial result, but I'm not okay with having to wait around while it attempts to get a certain number of bytes. Is it possible to do a non-blocking read? May 3, 2012 at 19:40
  • @GoldenNewby, But you said you're using TCP. I already said what read does with TCP.
    – ikegami
    May 3, 2012 at 19:42
  • 1
    @user2243865, Re "The general wisdom in programming is to not build strings by appending", Say what? Kinda hard to append a string to another without appending it.
    – ikegami
    Jul 14, 2014 at 17:50
1

I am not sure what the overhead is and only you can measure if one is faster than the other, but if I were to try a size out of the clear blue sky, I would go with 4092 bytes first. That gives you up to 93 messages to process and it is under the magic 4Kb size, which sounds like a good place to start.

You can find out the page size on the system the program is running, and tune accordingly. I would start with int(PAGE_SIZE / MESSAGE_SIZE) and see if that performs better than one sysread for each message.

On the other hand, perl uses 8KB buffers by default:

 192 /* The default buffer size for the perlio buffering layer */
 193 #ifndef PERLIOBUF_DEFAULT_BUFSIZ
 194 #define PERLIOBUF_DEFAULT_BUFSIZ (BUFSIZ > 8192 ? BUFSIZ : 8192)
 195 #endif

You might also find the discussion that led to the change informative.

3
  • I believe a lot of systems in use still have 4KB virtual memory page size. May 3, 2012 at 0:58
  • The 4KB/8KB buffer does not apply to sysread, only buffered reads. sysread will result in read(2) of exactly the specified size.
    – ikegami
    May 3, 2012 at 3:04
  • 1
    @ikegami I understand that, but the reasoning that led to increasing the buffer size in perl might be informative (and might suggest that 4KB is too small). May 3, 2012 at 3:29
0

The system call won't copy bytes that aren't transmitted. If you have a 44 byte message perl will return a 44 byte string always. The size you provide is merely a maximum, used to size the buffer provided to the kernel. The value to providing more than 44 bytes is that if there is more than one message queued, you will get them all in a single system call.

1
  • Sorry for the misleading post, in this situation there are a bunch of queued up 44 byte messages. There can be hundreds of them. May 3, 2012 at 0:05

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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