6.2. Clients and server
***********************

Scenarios start with clients (Tsung cluster) and server definitions:


6.2.1. Basic setup
==================

For non distributed load, you can use a basic setup like:

   <clients>
     <client host="localhost" use_controller_vm="true"/>
   </clients>

   <servers>
     <server host="192.168.1.1" port="80" type="tcp"></server>
   </servers>

This will start the load on the same host and on the same Erlang
virtual machine as the controller.

The server is the entry point into the cluster. You can add several
servers, by default each server will have a weight of 1, and each
session will choose a server randomly according to the weight. You can
set a weight for each server like this (weight can be an integer or a
float):

   <servers>
     <server host="server1" port="80" type="tcp" weight="4"></server>
     <server host="server2" port="80" type="tcp" weight="1"></server>
   </servers>

(in version older than **1.5.0**, the "weight" option was not
implemented and a round robin algorithm was used to choose the
server).

*Type* can be "tcp", "ssl", "udp" (for IPv6, use "tcp6", "ssl6" or
"udp6" ; only available in  version **1.4.2** and newer) or
"websocket" (only available in version **1.5.0** and newer))

There’s also a specific type of BOSH: "bosh" for unencrypted BOSH, and
"bosh_ssl" for encrypted connection


6.2.2. Advanced setup
=====================

The next example is more complex, and use several features for
advanced distributed testing:

   <clients>
     <client host="louxor" weight="1" maxusers="800">
       <ip value="10.9.195.12"></ip>
       <ip value="10.9.195.13"></ip>
     </client>
     <client host="memphis" weight="3" maxusers="600" cpu="2"/>
   </clients>

   <servers>
     <server host="10.9.195.1" port="8080" type="tcp"></server>
   </servers>

Several virtual IP can be used to simulate more machines. This is very
useful when a load-balancer use the client’s IP to distribute the
traffic among a cluster of servers. **New in 1.1.1**: IP is no longer
mandatory. If not specified, the default IP will be used.

**New in 1.4.0:** You can use "<ip scan="true" value="eth0"/>" to scan
for all the IP aliases on a given interface ("eth0" in this example).

In this example, a second machine is used in the Tsung cluster, with a
higher weight, and 2 cpus. Two Erlang virtual machines will be used to
take advantage of the number of CPU.

Note:

  Even if an Erlang VM is now able to handle several CPUs (erlang
  SMP), benchmarks shows that it’s more efficient to use one VM per
  CPU (with SMP disabled) for tsung clients. Only the controller node
  is using SMP erlang. Therefore, "cpu" should be equal to the number
  of cores of your nodes. If you prefer to use erlang SMP, add the
  "-s" option when starting tsung (and don’t set "cpu" in the config
  file).

By default, the load is distributed uniformly on all CPU (one CPU per
client by default). The weight parameter (integer) can be used to take
into account the speed of the client machine. For instance, if one
real client has a weight of 1 and the other client has a weight of 2,
the second one will start twice the number of users as the first (the
proportions will be 1/3 and 2/3). In the earlier example where for the
second client has 2 CPU and weight=3, the weight is equal to 1.5 for
each CPU.


6.2.2.1. direct ip
------------------

Sometimes, it can be a problem to use hostnames for all tsung clients
(if you don’t have a DNS, you must edit /etc/hosts on all nodes).
Since **version in 1.7.0**, you can use direct IP instead of
hostnames.

To do this, you should use the -I parameter when starting Tsung,

**tsung -I Your_Server_IP -f tsung.xml start**

eg:

**tsung -I 10.10.10.10 -f tsung.xml start**

You controller node name is therefore: "tsung_controller@10.10.10.10".
For clients, put the IP like this:

   <clients>
    <client host="10.10.10.11" maxusers="120000" cpu="7" weight="4"/>
    <client host="10.10.10.12" maxusers="120000" cpu="7" weight="4"/>
   <clients>


6.2.2.2. iprange
----------------

If you have many IPs (thousands of IPs), the "ip scan" option can be
slow ; in this case you can use the "iprange" tag to generate a random
IP in a given range:

   <iprange version="v4" value="172.28.1-20.0-254"/>

In the given example, the third and last part of the IPv4 address will
be random in the given range.


6.2.2.3. maxusers
-----------------

The "maxusers" parameter is used to bypass the limit of maximum number
of sockets opened by a single process (1024 by default on many OS) and
the lack of scalability of the "select" system call. When the number
of users is higher than the limit, a new erlang virtual machine will
be started to handle new users. The default value of "maxusers" is
800. Nowadays, with kernel polling enable, you can and should use a
very large value for "maxusers" (30000 for example) without
performance penalty (but don’t forget to raise the limit of the OS
with **ulimit -n**, see also Why do i have error_connect_emfile
errors?).

Note:

  If you are using a tsung master with slaves, the master distributes
  sessions to slaves. If a session contains multiples requests, a
  slave will execute each of these requests in order.


6.2.3. Running Tsung with a job scheduler
=========================================

Tsung is able to get its client node list from a batch/job scheduler.
It currently handle PBS/torque, LSF and OAR. To do this, set the
"type" attribute to "batch", e.g.:

   <client type="batch" batch="torque" maxusers="30000">

If you need to scan IP aliases on nodes given by the batch scheduler,
use *scan_intf* like this:

   <client type="batch" batch="torque" scan_intf='eth0' maxusers="30000">
