Load Balancer Module


Table of Contents

1. Admin Guide
1.1. Overview
1.2. How it works
1.3. Probing and Disabling destinations
1.4. Dependencies
1.4.1. OpenSIPS Modules
1.4.2. External Libraries or Applications
1.5. Exported Parameters
1.5.1. db_url (string)
1.5.2. db_table (string)
1.5.3. probing_interval (integer)
1.5.4. probing_method (string)
1.5.5. probing_from (string)
1.5.6. probing_reply_codes (string)
1.5.7. probing_verbose (number)
1.5.8. lb_define_blacklist (string)
1.6. Exported Functions
1.6.1. lb_start(grp,resources[,flags])
1.6.2. lb_next()
1.6.3. lb_start_or_next(grp,resources[,flags])
1.6.4. load_balance(grp,resources[,flags])
1.6.5. lb_reset()
1.6.6. lb_is_started()
1.6.7. lb_disable_dst()
1.6.8. lb_is_destination(ip,port[,group[,active]])
1.6.9. lb_count_call(ip,port,grp,resources[,undo])
1.7. Exported statistics
1.8. Exported MI Functions
1.8.1. lb_reload
1.8.2. lb_resize
1.8.3. lb_list
1.8.4. lb_status
1.9. Exported Events
1.9.1. E_LOAD_BALANCER_STATUS
2. Developer Guide
2.1. Available Functions
3. Frequently Asked Questions
4. Contributors
4.1. By Commit Statistics
4.2. By Commit Activity
5. Documentation
5.1. Contributors

List of Tables

4.1. Top contributors by DevScore(1), authored commits(2) and lines added/removed(3)
4.2. Most recently active contributors(1) to this module

List of Examples

1.1. Set db_url parameter
1.2. Set db_table parameter
1.3. Set probing_interval parameter
1.4. Set probing_method parameter
1.5. Set probing_from parameter
1.6. Set probing_reply_codes parameter
1.7. Set probing_verbose parameter
1.8. Set the lb_define_blacklist parameter
1.9. lb_start usage
1.10. lb_next() usage
1.11. lb_next() usage
1.12. lb_disable_dst() usage
1.13. lb_is_destination usage
1.14. lb_count_call usage
1.15. lb_list usage
1.16. lb_status usage

Chapter 1. Admin Guide

1.1. Overview

The Load-Balancer module comes to provide traffic routing based on load. Shortly, when OpenSIPS routes calls to a set of destinations, it is able to keep the load status (as number of ongoing calls) of each destination and to choose to route to the less loaded destination (at that moment). OpenSIPS is aware of the capacity of each destination - it is preconfigured with the maximum load accepted by the destinations. To be more precise, when routing, OpenSIPS will consider the less loaded destination not the destination with the smallest number of ongoing calls, but the destination with the largest available slot.

Also the module has the capability to do failover (to try a new destination if the selected one done not responde), to keep state of the destinations (to remember the failed destination and avoid using them agai) and to check the health of the destination (by doing probing of the destination and auto re-enabling).

1.2. How it works

Please refer to the Load-Balancer tutorial from the OpenSIPS website: http://www.opensips.org/Documentation/Tutorials-LoadBalancing-1-9.

1.3. Probing and Disabling destinations

The module has the capability to monitor the status of the destinations by doing SIP probing (sending SIP requests like OPTIONS).

For each destination, you can configure what kind of probing should be done (probe_mode column):

  • (0) - no probing at all;

  • (1) - probing only when the destination is in disabled mode (disabling via MI command will competely stop the probing also). The destination will be automatically re-enabled when the probing will succeed next time;

  • (2) - probing all the time. If disabled, the destination will be automatically re-enabled when the probing will succeed next time;

A destination can become disabled in two ways:

  • script detection - by calling from script the lb_disabled() function after try the destination. In this case, if probing mode for the destination is (1) or (2), the destination will be automatically re-enabled when the probing will succeed.
  • MI command - by calling the lb_status MI command for disabling (on demand) the destination. If so, the probing and re-enabling of this destination will be completly disabled until you re-enable it again via MI command - this is designed to allow controlled and complete disabling of some destination during maintenance.

1.4. Dependencies

1.4.1. OpenSIPS Modules

The following modules must be loaded before this module:

  • Dialog - Dialog module

  • Dialog - TM module (only if probing enabled)

  • database - one of the DB modules

1.4.2. External Libraries or Applications

The following libraries or applications must be installed before running OpenSIPS with this module loaded:

  • None.

1.5. Exported Parameters

1.5.1. db_url (string)

The URL pointing to the database where the load-balancing rules are stored.

Default value is mysql://opensips:opensipsrw@localhost/opensips.

Example 1.1. Set db_url parameter

...
modparam("load_balancer", "db_url", "dbdriver://username:password@dbhost/dbname")
...

1.5.2. db_table (string)

The name of the DB table containing the load-balancing rules.

Default value is load_balancer.

Example 1.2. Set db_table parameter

...
modparam("load_balancer", "db_table", "lb")
...

1.5.3. probing_interval (integer)

How often (in seconds) the probing of a destination should be done. If set to 0, the probing will be disabled as functionality (for all destinations)

Default value is 30.

Example 1.3. Set probing_interval parameter

...
modparam("load_balancer", "probing_interval", 60)
...

1.5.4. probing_method (string)

The SIP method to be used for the probing requests.

Default value is "OPTIONS".

Example 1.4. Set probing_method parameter

...
modparam("load_balancer", "probing_method", "INFO")
...

1.5.5. probing_from (string)

The FROM SIP URI to be advertised in the SIP probing requests.

Default value is "sip:prober@localhost".

Example 1.5. Set probing_from parameter

...
modparam("load_balancer", "probing_from", "sip:pinger@192.168.2.10")
...

1.5.6. probing_reply_codes (string)

A comma separted list of SIP reply codes. The codes defined here will be considered as valid reply codes for probing messages, apart for 200.

Default value is NULL.

Example 1.6. Set probing_reply_codes parameter

...
modparam("load_balancer", "probing_reply_codes", "501, 403")
...

1.5.7. probing_verbose (number)

A boolean option to enable extra logging related to the enabling or disabling of the destinations based on probing replies and MI commands.

A 0 value means disabled, anything else means enabled.

The extra logging will be done on INFO level.

Default value is 0 (disabled).

Example 1.7. Set probing_verbose parameter

...
modparam("load_balancer", "probing_verbose", 1)
...

1.5.8. lb_define_blacklist (string)

Defines a blacklist based on a lb group. This list will contain the IPs (no port, all protocols) of the destinations matching the given group.

Multiple instances of this param are allowed.

Default value is NULL.

Example 1.8. Set the lb_define_blacklist parameter

...
modparam("load_balancer", "lb_define_blacklist", "list= 1,4,3")
modparam("load_balancer", "lb_define_blacklist", "blist2= 2,10,6")
...

1.6. Exported Functions

1.6.1.  lb_start(grp,resources[,flags])

The function starts a new load-balancing session over the available destinations. This translates into finding the less loaded destination that can provide the requested resources and belong to a requested group.

Meaning of the parameters is as follows:

  • grp - group id for the destinations; the destination may be grouped in several groups you can you for differnet scenarios; this can be a number or a variable containing a numerical value.

  • resources - string containing a semi-colon separated list of resources required by the current call.

  • flags - various flags to controll the LB algorithm ( or computing the available load on the system):

    • n - Negative availability - use destinations with negative availability (exceeded capacity); do not ignore resources with negative availability, and thus able to select for load balancing destinations with exceeded capacity. This might be needed in scenarios where we want to limit generic calls volume and always pass important/high-priority calls.

    • r - Relative value - the relative available load (how many percentages are free) is used in computing the load of each pear/resource; Without this flag, the Absolute value is assumed - the effective available load ( maximum_load - current_load) is used in computing the load of each pear/resource.

    • s - Pick a random destination if multiple destinations with the same load are found, instead of always picking first matched destination. This could help to offload an excessive load from the first destination and distribute load in situations when failed calls always routed to first destination, since they almost does not affect load counters of destinations.

Returns true if a new destination URI is set, pointing to the selected destination. NOTE that the RURI will not be changed by this function.

This function can be used from REQUEST_ROUTE, BRANCH_ROUTE and FAILURE_ROUTE.

Example 1.9. lb_start usage

...
if (lb_start("1","trascoding;conference")) {
	# dst URI points to the new destination
	xlog("sending call to $du\n");
	t_relay();
	exit;
}
...

1.6.2.  lb_next()

Function to be used to pull the next available (and less loaded) destination. You need to have an ongoing LB session (started with lb_start()).

This function is mainly used for implementing failover for the LB destinations.

This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

Example 1.10. lb_next() usage

...
if (t_check_status("(408)|(5[0-9][0-9])")) {
	/* check next available LB destination */
	if ( lb_next() ) {
		t_on_failure("1");
		xlog("-----------new dst is $du\n");
		t_relay();
		exit;
	}
}

...

1.6.3.  lb_start_or_next(grp,resources[,flags])

This is just a wrapper function to simplify scripting. If there is no ongoing LB session, it acts as lb_start(); If there is an ongoing LB session, it acts as lb_next().

1.6.4.  load_balance(grp,resources[,flags])

Old name of the lb_start_or_next() function.

Take care, this will become obsolete.

1.6.5.  lb_reset()

Function to stop and flush a current LB session. To be used in failure route, if you want to stop the current LB session (not to try any other destinations from this session) and to start a completly new one.

This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

Example 1.11. lb_next() usage

...
if (t_check_status("(5[0-9][0-9])")) {
	/* check next available LB destination */
	if ( lb_next() ) {
		t_on_failure("1");
		xlog("-----------new dst is $du\n");
		t_relay();
		exit;
	}
} else if (t_check_status("(408)")) {
	lb_reset();
	if (lb_start("1","conference")) {
		t_relay();
		exit;
	}
}
...

1.6.6.  lb_is_started()

Function to check if there is any ongoing LB session. Returns true if so.

This function can be used in any type of route.

1.6.7.  lb_disable_dst()

Marks as disabled the last destination that was used for the current call. The disabling done via this function will prevent the destination to be used for usage from now on. The probing mechanism can re-enable this peer (see the probing section in the beginning)

This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

Example 1.12. lb_disable_dst() usage

...
if (t_check_status("(408)|(5[0-9][0-9])")) {
	lb_disable_dst();
	if ( lb_next() ) {
		t_on_failure("1");
		xlog("-----------new dst is $du\n");
		t_relay();
	} else {
		t_reply("500","Error");
	}
}

...

1.6.8.  lb_is_destination(ip,port[,group[,active]])

Checks if the given IP and PORT belongs to a destination configured in the load-balancer's list. Returns true if found and active (see the "active" parameter).

This function can be used from REQUEST_ROUTE, FAILURE_ROUTE, ONREPLY_ROUTE, BRANCH_ROUTE and LOCAL_ROUTE.

Meaning of the parameters is as follows:

  • ip and port - IP and PORT to be checked (any kind of variables are allowed, but take care as the PORT variables should have an integer value); A value 0 for the port means "any" - will match any port.

  • group - in what LB group the destination should be looked for; If not specified, the search will be in all groups.

  • active - if "1", the search will be performed only over "active" (not disabled) destinations. If missing, the search will consider any kind of destinations.

Example 1.13. lb_is_destination usage

...
if (lb_is_destination("$si","$sp") ) {
	# request from a LB destination
}
...

1.6.9.  lb_count_call(ip,port,grp,resources[,undo])

The function counts the current call as load for a given destination with some given resources. Note that this call is not going through the load-balancing logic (there are not routing decision taken for the call); it is simply counted by LB as ongoing call for a destination;

Meaning of the parameters is as follows:

  • ip and port - IP and PORT to identify the destination the call has to be counted for.

  • grp - group id for the destinations; if no knows, "-1" will mean all groups.

  • resources - string containing a semi-colon separated list of resources required by the current call.

  • undo - (optional) if set to a non zero value, it will force the function to un-count - actually it will undo the counting of this call as load in the current LB session; this might be needed if we count call for particular resources and then need to un-count it.

Function returns true if the call was properly taken into consideration for estimating the load on the destination.

This function can be used from REQUEST_ROUTE, BRANCH_ROUTE and FAILURE_ROUTE.

Example 1.14. lb_count_call usage

...
# count as load also the calls orgininated by lb destinations
if (lb_is_destination("$si","$sp") ) {
	# inbound call from destination
	lb_count_call("$si","$sp","-1","conference");
} else {
	# outbound call to destinations
	if ( !load_balance("1","conference") ) {
		send_reply("503","unavailable");
		exit();
	}
	# dst URI points to the new destination
	xlog("sending call to $du\n");
	t_relay();
	exit;
}
...

1.7. Exported statistics

NONE

1.8. Exported MI Functions

1.8.1. lb_reload

Trigers the reload of the load balancing data from the DB.

MI FIFO Command Format:

		:lb_reload:_reply_fifo_file_
		_empty_line_
		

1.8.2. lb_resize

Changes the capacity for a resource of a destination. The function receives as parameters the ID (as per DB) of the destination along with the name of the resource you want to resize.

MI FIFO Command Format:

		:lb_resize:_reply_fifo_file_
		11   /*dstination id*/
		voicemail  /*resource name*/
		56   /* new resource capacity*/
		_empty_line_
		

1.8.3. lb_list

Lists all the destinations and the maximum and current load for each resource of the destination.

MI FIFO Command Format:

		:lb_list:_reply_fifo_file_
		_empty_line_
		

Example 1.15. lb_list usage

$ ./opensipsctl fifo lb_list
Destination:: sip:127.0.0.1:5100 id=1 enabled=yes auto-re=on
        Resource:: pstn max=3 load=0
        Resource:: transc max=5 load=1
        Resource:: vm max=5 load=2
Destination:: sip:127.0.0.1:5200 id=2 enabled=no auto-re=on
        Resource:: pstn max=6 load=0
        Resource:: trans max=57 load=0
        Resource:: vm max=5 load=0

1.8.4. lb_status

Gets or sets the status (enabled or disabled) of a destination. The function takes 2 parameters, first mandatory, the id of the destiantion and second, optional, the new status. If no new status is given, the function will return the current status. If a new status is given (0 - disable, 1 - enable), this status will be forced for the destination.

MI FIFO Command Format:

		:lb_status:_reply_fifo_file_
		id
		status (optional)
		_empty_line_
		

Example 1.16. lb_status usage

$ ./opensipsctl fifo lb_status 2
enable:: no
$ ./opensipsctl fifo lb_status 2 1
$ ./opensipsctl fifo lb_status 2
enable:: yes

1.9. Exported Events

1.9.1.  E_LOAD_BALANCER_STATUS

This event is raised when the module changes the state of a destination, either through MI or probing.

Parameters:

  • group - the group of the destination.

  • uri - the URI of the destination.

  • status - disabled if the destination was disabled or enabled if the destination is being used.

Chapter 2. Developer Guide

2.1. Available Functions

NONE

Chapter 3. Frequently Asked Questions

3.1.

Where can I find more about OpenSIPS?

Take a look at http://www.opensips.org/.

3.2.

Where can I post a question about this module?

First at all check if your question was already answered on one of our mailing lists:

E-mails regarding any stable OpenSIPS release should be sent to and e-mails regarding development versions should be sent to .

If you want to keep the mail private, send it to .

3.3.

How can I report a bug?

Please follow the guidelines provided at: https://github.com/OpenSIPS/opensips/issues.

Chapter 4. Contributors

4.1. By Commit Statistics

Table 4.1. Top contributors by DevScore(1), authored commits(2) and lines added/removed(3)

 NameDevScoreCommitsLines ++Lines --
1. Bogdan-Andrei Iancu (@bogdan-iancu)97593752426
2. Liviu Chircu (@liviuchircu)191438077
3. Sergey Khripchenko196649366
4. Razvan Crainea (@razvancrainea)1813249125
5. shripchenko114409150
6. Vlad Paiu (@vladpaiu)5375
7. Walter Doekes (@wdoekes)5333
8. Ezequiel Lovelle4233
9. Anca Vamanu31209
10. Andrei Dragus3174

All remaining contributors: James Van Vleet, Dusan Klinec.

(1) DevScore = author_commits + author_lines_added / (project_lines_added / project_commits) + author_lines_deleted / (project_lines_deleted / project_commits)

(2) including any documentation-related commits, excluding merge commits. Regarding imported patches/code, we do our best to count the work on behalf of the proper owner, as per the "fix_authors" and "mod_renames" arrays in opensips/doc/build-contrib.sh. If you identify any patches/commits which do not get properly attributed to you, please submit a pull request which extends "fix_authors" and/or "mod_renames".

(3) ignoring whitespace edits, renamed files and auto-generated files

4.2. By Commit Activity

Table 4.2. Most recently active contributors(1) to this module

 NameCommit Activity
1. Bogdan-Andrei Iancu (@bogdan-iancu)Feb 2009 - Sep 2018
2. Liviu Chircu (@liviuchircu)Sep 2012 - Jun 2018
3. Razvan Crainea (@razvancrainea)Oct 2010 - Feb 2017
4. Dusan KlinecDec 2015 - Dec 2015
5. Sergey KhripchenkoNov 2014 - Oct 2015
6. Ezequiel LovelleOct 2014 - Oct 2014
7. shripchenkoOct 2014 - Oct 2014
8. Walter Doekes (@wdoekes)Mar 2014 - Jun 2014
9. Vlad Paiu (@vladpaiu)Aug 2011 - Nov 2013
10. Andrei DragusMar 2010 - Mar 2010

All remaining contributors: James Van Vleet, Anca Vamanu.

(1) including any documentation-related commits, excluding merge commits

Chapter 5. Documentation

5.1. Contributors

Last edited by: Bogdan-Andrei Iancu (@bogdan-iancu), Liviu Chircu (@liviuchircu), Sergey Khripchenko, Razvan Crainea (@razvancrainea), Ezequiel Lovelle, Walter Doekes (@wdoekes), Vlad Paiu (@vladpaiu).

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Copyright © 2009 Voice Sistem SRL