I am programming a server and it seems like my number of connections is being limited since my bandwidth isn't being saturated even when I've set the number of connections to "unlimited".

How can I increase or eliminate a maximum number of connections that my Ubuntu Linux box can open at a time? Does the OS limit this, or is it the router or the ISP? Or is it something else?

  • 2
    @Software Monkey: I answered this anyway because I hope this might be useful to someone who actually is writing a server in the future.
    – derobert
    Commented Jan 4, 2009 at 8:05
  • 1
    @derobert: I saw that +1. Actually, I had the same thought after my previous comment, but thought I would let the comment stand. Commented Jan 4, 2009 at 8:48

5 Answers 5


Maximum number of connections are impacted by certain limits on both client & server sides, albeit a little differently.

On the client side: Increase the ephermal port range, and decrease the tcp_fin_timeout

To find out the default values:

sysctl net.ipv4.ip_local_port_range
sysctl net.ipv4.tcp_fin_timeout

The ephermal port range defines the maximum number of outbound sockets a host can create from a particular I.P. address. The fin_timeout defines the minimum time these sockets will stay in TIME_WAIT state (unusable after being used once). Usual system defaults are:

  • net.ipv4.ip_local_port_range = 32768 61000
  • net.ipv4.tcp_fin_timeout = 60

This basically means your system cannot consistently guarantee more than (61000 - 32768) / 60 = 470 sockets per second. If you are not happy with that, you could begin with increasing the port_range. Setting the range to 15000 61000 is pretty common these days. You could further increase the availability by decreasing the fin_timeout. Suppose you do both, you should see over 1500 outbound connections per second, more readily.

To change the values:

sysctl net.ipv4.ip_local_port_range="15000 61000"
sysctl net.ipv4.tcp_fin_timeout=30

The above should not be interpreted as the factors impacting system capability for making outbound connections per second. But rather these factors affect system's ability to handle concurrent connections in a sustainable manner for large periods of "activity."

Default Sysctl values on a typical Linux box for tcp_tw_recycle & tcp_tw_reuse would be


These do not allow a connection from a "used" socket (in wait state) and force the sockets to last the complete time_wait cycle. I recommend setting:

sysctl net.ipv4.tcp_tw_recycle=1
sysctl net.ipv4.tcp_tw_reuse=1 

This allows fast cycling of sockets in time_wait state and re-using them. But before you do this change make sure that this does not conflict with the protocols that you would use for the application that needs these sockets. Make sure to read post "Coping with the TCP TIME-WAIT" from Vincent Bernat to understand the implications. The net.ipv4.tcp_tw_recycle option is quite problematic for public-facing servers as it won’t handle connections from two different computers behind the same NAT device, which is a problem hard to detect and waiting to bite you. Note that net.ipv4.tcp_tw_recycle has been removed from Linux 4.12.

On the Server Side: The net.core.somaxconn value has an important role. It limits the maximum number of requests queued to a listen socket. If you are sure of your server application's capability, bump it up from default 128 to something like 128 to 1024. Now you can take advantage of this increase by modifying the listen backlog variable in your application's listen call, to an equal or higher integer.

sysctl net.core.somaxconn=1024

txqueuelen parameter of your ethernet cards also have a role to play. Default values are 1000, so bump them up to 5000 or even more if your system can handle it.

ifconfig eth0 txqueuelen 5000
echo "/sbin/ifconfig eth0 txqueuelen 5000" >> /etc/rc.local

Similarly bump up the values for net.core.netdev_max_backlog and net.ipv4.tcp_max_syn_backlog. Their default values are 1000 and 1024 respectively.

sysctl net.core.netdev_max_backlog=2000
sysctl net.ipv4.tcp_max_syn_backlog=2048

Now remember to start both your client and server side applications by increasing the FD ulimts, in the shell.

Besides the above one more popular technique used by programmers is to reduce the number of tcp write calls. My own preference is to use a buffer wherein I push the data I wish to send to the client, and then at appropriate points I write out the buffered data into the actual socket. This technique allows me to use large data packets, reduce fragmentation, reduces my CPU utilization both in the user land and at kernel-level.

  • 4
    Brilliant answer! My problem was a bit different, ie I was trying to move session info from an application level session storage to redis via PHP. For some reason, I could not add more than 28230 sessions without adding lots of sleep in one go, with no errors seen either in php or on redis logs. We broke our heads on this for an entire day till I thought maybe problem is not with php/redis but in the tcp/ip layer connecting the two and came to this answer. Managed to fix the issue in no time after that :) Thanks a lot!
    – s1d
    Commented Apr 1, 2013 at 7:10
  • 38
    Don't forget that we are always talking about IP+port. You can have "unlimited" sockets open to port XY from many different IPs. Limit of 470 applies to concurrent opened sockets to the same IP only. Another IP can have its own 470 connections to the same ports.
    – Marki555
    Commented Jan 22, 2014 at 20:15
  • 6
    @Marki555: Your comment is VERY CORRECT. Applications developed for generating and sustaining a large number of outbound connections, must have an "awareness" of available IPs for creating outbound connections, and must then appropriately bind to these IP addresses using some kind of a "round-robin algorithm", and maintain a "scoreboard".
    – mdk
    Commented Jan 24, 2014 at 9:42
  • 8
    This answer has mistakes. First of, net.ipv4.tcp_fin_timeout is only for the FIN_WAIT_2 state (cs.uwaterloo.ca/~brecht/servers/ip-sysctl.txt). Secondly, as @Eric said, "470 sockets at any given time" is not correct.
    – Sharvanath
    Commented Jun 30, 2014 at 5:37
  • 3
    @mdk : I'm not clear with this calculation part (61000 - 32768) / 60 = 470 sockets per second. Can you please elaborate this?
    – Tom Taylor
    Commented Dec 6, 2017 at 15:08

There are a couple of variables to set the max number of connections. Most likely, you're running out of file numbers first. Check ulimit -n. After that, there are settings in /proc, but those default to the tens of thousands.

More importantly, it sounds like you're doing something wrong. A single TCP connection ought to be able to use all of the bandwidth between two parties; if it isn't:

  • Check if your TCP window setting is large enough. Linux defaults are good for everything except really fast inet link (hundreds of mbps) or fast satellite links. What is your bandwidth*delay product?
  • Check for packet loss using ping with large packets (ping -s 1472 ...)
  • Check for rate limiting. On Linux, this is configured with tc
  • Confirm that the bandwidth you think exists actually exists using e.g., iperf
  • Confirm that your protocol is sane. Remember latency.
  • If this is a gigabit+ LAN, can you use jumbo packets? Are you?

Possibly I have misunderstood. Maybe you're doing something like Bittorrent, where you need lots of connections. If so, you need to figure out how many connections you're actually using (try netstat or lsof). If that number is substantial, you might:

  • Have a lot of bandwidth, e.g., 100mbps+. In this case, you may actually need to up the ulimit -n. Still, ~1000 connections (default on my system) is quite a few.
  • Have network problems which are slowing down your connections (e.g., packet loss)
  • Have something else slowing you down, e.g., IO bandwidth, especially if you're seeking. Have you checked iostat -x?

Also, if you are using a consumer-grade NAT router (Linksys, Netgear, DLink, etc.), beware that you may exceed its abilities with thousands of connections.

I hope this provides some help. You're really asking a networking question.


To improve upon the answer given by @derobert,

You can determine what your OS connection limit is by catting nf_conntrack_max. For example:

cat /proc/sys/net/netfilter/nf_conntrack_max

You can use the following script to count the number of TCP connections to a given range of tcp ports. By default 1-65535.

This will confirm whether or not you are maxing out your OS connection limit.

Here's the script.


case "$OS" in

netstat -an | $AWK -v start=1 -v end=65535 ' $NF ~ /TIME_WAIT|ESTABLISHED/ && $4 !~ /127\.0\.0\.1/ {
    if ($1 ~ /\./)
    else {sip=$4}

    if ( sip ~ /:/ )
    else {d=5}

    split( sip, a, /:|\./ )

    if ( a[d] >= start && a[d] <= end ) {
    END {print connections}'
  • 4
    which awk is your friend to determine path to awk, SunOS has a link to it as well :) Commented Jul 9, 2014 at 9:39
  • 4
    @PanagiotisM. which relies on the program to be in PATH in which case you can just use awk instead of providing full path. (that said, I'm not sure if the solution in the script is any closer to perfection, but this is not what the script is about). Commented Nov 28, 2014 at 11:35
  • 11
    I love how this script goes ballistic to determine awk location, but assumes that shell is always /bin/bash (pro tip: AIX5/6 doesn't even have bash by default).
    – kubanczyk
    Commented Jun 29, 2016 at 7:32
  • Is the awk detection useful? Personally I would simply assume to have a correct PATH but a reasonable alternative could be /usr/bin/env awk and /usr/bin/env bash respectively. For what it's worth, it got the location wrong on my Linux system. It's in /usr/bin/awk not /bin/awk
    – Wolph
    Commented Apr 18, 2017 at 8:41
  • 2
    when i run this script i get 798, so what does it mean ?
    – user1642018
    Commented Oct 16, 2017 at 2:06

In an application level, here are something a developer can do:

From server side:

  1. Check if load balancer(if you have),works correctly.

  2. Turn slow TCP timeouts into 503 Fast Immediate response, if you load balancer work correctly, it should pick the working resource to serve, and it's better than hanging there with unexpected error massages.

Eg: If you are using node server, u can use toobusy from npm. Implementation something like:

var toobusy = require('toobusy');
app.use(function(req, res, next) {
  if (toobusy()) res.send(503, "I'm busy right now, sorry.");
  else next();

Why 503? Here are some good insights for overload: http://ferd.ca/queues-don-t-fix-overload.html

We can do some work in client side too:

  1. Try to group calls in batch, reduce the traffic and total requests number b/w client and server.

  2. Try to build a cache mid-layer to handle unnecessary duplicates requests.


im trying to resolve this in 2022 on loadbalancers and one way I found is to attach another IPv4 (or eventualy IPv6) to NIC, so the limit is now doubled. Of course you need to configure the second IP to the service which is trying to connect to the machine (in my case another DNS entry)