DISPATCHER Module

Daniel-Constantin Mierla

   <team@voice-system.ro>

Edited by

Ovidiu Sas

   <osas@voipembedded.com>

Edited by

Daniel-Constantin Mierla

   <team@voice-system.ro>

Edited by

Carsten Bock

   BASIS AudioNet GmbH

   Copyright © 2004 FhG FOKUS

   Copyright © 2005-2010 Voice-System.RO
   Revision History
   Revision $Revision: 6771 $ $Date$
     __________________________________________________________

   Table of Contents

   1. Admin Guide

        1.1. Overview
        1.2. Dependencies

              1.2.1. OpenSIPS modules
              1.2.2. External libraries or applications

        1.3. Exported Parameters

              1.3.1. db_url (string)
              1.3.2. attrs_avp (str)
              1.3.3. hash_pvar (str)
              1.3.4. setid_pvar (str)
              1.3.5. ds_ping_method (string)
              1.3.6. ds_ping_from (string)
              1.3.7. ds_ping_interval (int)
              1.3.8. ds_probing_sock (str)
              1.3.9. ds_probing_threshhold (int)
              1.3.10. ds_probing_mode (int)
              1.3.11. ds_probing_list (str)
              1.3.12. ds_define_blacklist (str)
              1.3.13. options_reply_codes (str)
              1.3.14. dst_avp (str)
              1.3.15. grp_avp (str)
              1.3.16. cnt_avp (str)
              1.3.17. sock_avp (str)
              1.3.18. pvar_algo_pattern (str)
              1.3.19. persistent_state (int)
              1.3.20. table_name (string)
              1.3.21. partition (string)
              1.3.22. setid_col (string)
              1.3.23. destination_col (string)
              1.3.24. state_col (string)
              1.3.25. weight_col (string)
              1.3.26. priority_col (string)
              1.3.27. attrs_col (string)
              1.3.28. socket_col (string)

        1.4. Exported Functions

              1.4.1. ds_select_dst(set, alg [, (flags M
                      max_results)*])

              1.4.2. ds_select_domain(set, alg [, "[flags] [M
                      max_results]"])

              1.4.3. ds_next_dst([partition_name])
              1.4.4. ds_next_domain([partition_name])
              1.4.5. ds_mark_dst()
              1.4.6. ds_mark_dst([partition_name], "s")
              1.4.7. ds_count(set, filter, result)
              1.4.8. ds_is_in_list(ip, port [,set [,active_only]])

        1.5. Exported MI Functions

              1.5.1. ds_set_state
              1.5.2. ds_list
              1.5.3. ds_reload

        1.6. Exported Events

              1.6.1. E_DISPATCHER_STATUS

        1.7. Installation and Running

              1.7.1. OpenSIPS config file

   2. Frequently Asked Questions

   List of Examples

   1.1. Set the 'default' partition's“db_url” parameter
   1.2. Set the 'default' partition's “attrs_avp” parameter
   1.3. Use $avp(273) for hashing:
   1.4. Use combination of PVs for hashing:
   1.5. Set the “setid_pvar” parameter
   1.6. Set the “ds_ping_method” parameter
   1.7. Set the “ds_ping_from” parameter
   1.8. Set the “ds_ping_interval” parameter
   1.9. Set the “ds_probing_sock” parameter
   1.10. Set the “ds_probing_threshhold” parameter
   1.11. Set the “ds_probing_mode” parameter
   1.12. Set the “ds_probing_list” parameter
   1.13. Set the 'default' partition's “ds_define_blacklist”
          parameter

   1.14. Set the “options_reply_codes” parameter
   1.15. Set the 'default' partition's “dst_avp” parameter
   1.16. Set the 'default' partition's “grp_avp” parameter
   1.17. Set the 'default' partition's “cnt_avp” parameter
   1.18. Set the 'default' partition's “sock_avp” parameter
   1.19. Set the “pvar_algo_pattern” parameter
   1.20. Set the persistent_state parameter
   1.21. Set the 'default' partition's “table_name” parameter
   1.22. Create a new partition called 'part2'
   1.23. Set “setid_col” parameter
   1.24. Set “destination_col” parameter
   1.25. Set “state_col” parameter
   1.26. Set “weight_col” parameter
   1.27. Set “priority_col” parameter
   1.28. Set “attrs_col” parameter
   1.29. Set “socket_col” parameter
   1.30. ds_select_dst usage
   1.31. ds_count usage
   1.32. ds_is_in_list usage
   1.33. OpenSIPS config script - sample dispatcher usage

Chapter 1. Admin Guide

1.1. Overview

   This modules implements a dispatcher for destination addresses.
   It computes hashes over various parts of the request and
   selects an address from a destination set. The selected address
   is then used as outbound proxy.

   The module can be used as a stateless load balancer, having no
   guarantee of fair distribution.

   For the distribution algorithm, the module allows the
   definition of weights for the destination. This is useful in
   order to get a different ratio of traffic between destinations.

   Since version 1.12 the dispatcher module keeps its destination
   sets into different partitions. Each partition is described by
   its own db_url, table_name, dst_avp, grp_avp, cnt_avp,
   sock_avp, attr_avp and blacklists. Setting any of this
   parameters using modparam will alter the default partition's
   properties. In order to create a new partition the "partition"
   parameter should be used (see below for more details). If none
   of the 8 partition specific parameters are defined for the
   default partition, then this partition will not be created. If
   the default partition is created each undefined parameter from
   all other partitions will take the value of the corresponding
   one from the default partition. If there is no default
   partition, the default value specified in the parameter's
   description will be used. Functions taking set arguments will
   now take a set number preceded by a partition name and
   colon(i.e "part_name: 5"). If a set is not preceded by any
   partition name the default partition will be used. Thus, the
   following arguments are equivalent: "default : 4" vs "4".
   Remember that in order to be able to use a table from a
   partition, its name must be found in the "version" table
   belonging to the database defined in the partition's db_url.
   Also, in version 1.12 the "flags" parameter has been moved to
   ds_select_dst and ds_select_domain along with "force_dst" and
   "use_default" flags.

1.2. Dependencies

1.2.1. OpenSIPS modules

   The following modules must be loaded before this module:
     * TM - only if active recovery of failed hosts is required.

1.2.2. External libraries or applications

   The following libraries or applications must be installed
   before running OpenSIPS with this module:
     * none.

1.3. Exported Parameters

1.3.1. db_url (string)

   Database where to load the destinations from. Setting this
   parameter will only change the default partition's db_url. Use
   the partition parameter to create and alter other partitions.

   Default value is “NULL”. At least one db_url should be defined
   for the dispatcher module to work.

   Example 1.1. Set the 'default' partition's“db_url” parameter
...
modparam("dispatcher", "db_url", "mysql://user:passwb@localhost/database
")
...

1.3.2. attrs_avp (str)

   The name of the avp to contain the attributes string of the
   current destination. When a destination is selected,
   automatically, this AVP will provide the attributes string -
   this is an opaque string (from OpenSIPS point of view) : it is
   loaded from destination definition ( via DB) and blindly
   provided in the script. Setting this parameter will only change
   the default partition's attrs_avp. Use the partition parameter
   to create and alter other partitions.

Note

   Default value is “null” - don't provide ATTRIBUTEs.

   Example 1.2. Set the 'default' partition's “attrs_avp”
   parameter
...
modparam("dispatcher", "attrs_avp", "$avp(272)")
...

1.3.3. hash_pvar (str)

   String with PVs used for the hashing algorithm 7.

Note

   You must set this parameter if you want do hashing over custom
   message parts.

   Default value is “null” - disabled.

   Example 1.3. Use $avp(273) for hashing:
...
modparam("dispatcher", "hash_pvar", "$avp(273)")
...

   Example 1.4. Use combination of PVs for hashing:
...
modparam("dispatcher", "hash_pvar", "hash the $fU@$ci")
...

1.3.4. setid_pvar (str)

   The name of the PV where to store the set ID (group ID) when
   calling ds_is_in_list() without group parameter (third
   parameter).

   Default value is “null” - don't set PV.

   Example 1.5. Set the “setid_pvar” parameter
...
modparam("dispatcher", "setid_pvar", "$var(setid)")
...

1.3.5. ds_ping_method (string)

   With this Method you can define, with which method you want to
   probe the failed gateways. This method is only available, if
   compiled with the probing of failed gateways enabled.

   Default value is “OPTIONS”.

   Example 1.6. Set the “ds_ping_method” parameter
...
modparam("dispatcher", "ds_ping_method", "INFO")
...

1.3.6. ds_ping_from (string)

   With this Method you can define the "From:"-Line for the
   request, sent to the failed gateways. This method is only
   available, if compiled with the probing of failed gateways
   enabled.

   Default value is “sip:dispatcher@localhost”.

   Example 1.7. Set the “ds_ping_from” parameter
...
modparam("dispatcher", "ds_ping_from", "sip:proxy@sip.somehost.com")
...

1.3.7. ds_ping_interval (int)

   With this Method you can define the interval for sending a
   request to a failed gateway. This parameter is only used, when
   the TM-Module is loaded. If set to “0”, the pinging of failed
   requests is disabled.

   Default value is “0” (disabled).

   Example 1.8. Set the “ds_ping_interval” parameter
...
modparam("dispatcher", "ds_ping_interval", 30)
...

1.3.8. ds_probing_sock (str)

   A socket description [proto:]host[:port] of the local socket
   (which is used by OpenSIPS for SIP traffic) to be used (if
   multiple) for sending the probing messages from.

   Default value is “NULL(none)”.

   Example 1.9. Set the “ds_probing_sock” parameter
...
modparam("dispatcher", "ds_probing_sock", "udp:192.168.1.100:5077")
...

1.3.9. ds_probing_threshhold (int)

   If you want to set a gateway into probing mode, you will need a
   specific number of requests until it will change from "active"
   to probing. The number of attempts can be set with this
   parameter.

   Default value is “3”.

   Example 1.10. Set the “ds_probing_threshhold” parameter
...
modparam("dispatcher", "ds_probing_threshhold", 10)
...

1.3.10. ds_probing_mode (int)

   Controls what gateways are tested to see if they are reachable.
   If set to 0, only the gateways with state PROBING are tested,
   if set to 1, all gateways are tested. If set to 1 and the
   response is 408 (timeout), an active gateway is set to PROBING
   state.

   Default value is “0”.

   Example 1.11. Set the “ds_probing_mode” parameter
...
modparam("dispatcher", "ds_probing_mode", 1)
...

1.3.11. ds_probing_list (str)

   Defines a list of one or more setids that limits which
   destinations are probed if probing is active. This is useful
   when multiple proxies share the same dispatcher table, but you
   want to limit which ones are responsible for probing specific
   destinations.

   Default value is “NULL(none)”.

   Example 1.12. Set the “ds_probing_list” parameter
...
modparam("dispatcher", "ds_probing_list", "1,2,3")
...

1.3.12. ds_define_blacklist (str)

   Defines a blacklist based on a dispatching setid from the
   'default' partition. This list will contain the IPs (no port,
   all protocols) of the destinations matching the given setid.
   Use the 'partition' parameter if you want to define blacklists
   based on other partitions' sets.

   Multiple instances of this param are allowed.

   Default value is “NULL”.

   Example 1.13. Set the 'default' partition's
   “ds_define_blacklist” parameter
...
modparam("dispatcher", "ds_define_blacklist", "list= 1,4,3")
modparam("dispatcher", "ds_define_blacklist", "blist2= 2,10,6")
...

1.3.13. options_reply_codes (str)

   This parameter must contain a list of SIP reply codes separated
   by comma. The codes defined here will be considered as valid
   reply codes for OPTIONS messages used for pinging, apart for
   200.

   Default value is “NULL”.

   Example 1.14. Set the “options_reply_codes” parameter
...
modparam("dispatcher", "options_reply_codes", "501, 403")
...

1.3.14. dst_avp (str)

   This is mainly for internal usage and represents the name of
   the avp which will hold the list with addresses, in the order
   they have been selected by the chosen algorithm. If use_default
   is 1, the value of last dst_avp_id is the last address in
   destination set. The first dst_avp_id is the selected
   destinations. All the other addresses from the destination set
   will be added in the avp list to be able to implement serial
   forking. Setting this parameter will only change the default
   partition's dst_avp. Use the partition parameter to create and
   alter other partitions.

   For the 'default' partition the default value is
   “$avp(ds_dst_failover)”. For any other partition, the default
   value is “$avp(ds_dst_failover_partitionname)”.

   Example 1.15. Set the 'default' partition's “dst_avp” parameter
...
modparam("dispatcher", "dst_avp", "$avp(271)")
...

1.3.15. grp_avp (str)

   This is mainly for internal usage and represents the name of
   the avp storing the group id of the destination set. Good to
   have it for later usage or checks. Setting this parameter will
   only change the default partition's grp_avp. Use the partition
   parameter to create and alter other partitions.

   For the 'default' partition the default value is
   “$avp(ds_grp_failover)”. For any other partition, the default
   value is “$avp(ds_grp_failover_partitionname)”.

   Example 1.16. Set the 'default' partition's “grp_avp” parameter
...
modparam("dispatcher", "grp_avp", "$avp(273)")
...

1.3.16. cnt_avp (str)

   This is mainly for internal usage and represents the name of
   the avp storing the number of destination addresses kept in
   dst_avp avps. Setting this parameter will only change the
   default partition's cnt_avp. Use the partition parameter to
   create and alter other partitions.

   For the 'default' partition the default value is
   “$avp(ds_cnt_failover)”. For any other partition, the default
   value is “$avp(ds_cnt_failover_partitionname)”.

   Example 1.17. Set the 'default' partition's “cnt_avp” parameter
...
modparam("dispatcher", "cnt_avp", "$avp(274)")
...

1.3.17. sock_avp (str)

   This is mainly for internal usage and represents the name of
   the avp storing the sockets to be used for the destination
   addresses kept in dst_avp avps. Setting this parameter will
   only change the default partition's sock_avp. Use the partition
   parameter to create and alter other partitions.

   For the 'default' partition the default value is
   “$avp(ds_sock_failover)”. For any other partition, the default
   value is “$avp(ds_sock_failover_partitionname)”.

   Example 1.18. Set the 'default' partition's “sock_avp”
   parameter
...
modparam("dispatcher", "sock_avp", "$avp(275)")
...

1.3.18. pvar_algo_pattern (str)

   This parameter is used by the PVAR(9) algorithm to specify the
   pseudovariable pattern used to detect the load of each
   destination. The name of the pseudovariable should contain the
   string “%u”, which will be internally replaced by the module
   with the uri of the destination.

   Default value is “none”.

   Example 1.19. Set the “pvar_algo_pattern” parameter
...
modparam("dispatcher", "pvar_algo_pattern", "$stat(load_%u)")
...

1.3.19. persistent_state (int)

   Specifies whether the state column should be loaded at startup
   and flushed during runtime or not.

   Default value is “1” (enabled).

   Example 1.20. Set the persistent_state parameter
...
# disable all DB operations with the state of a destination
modparam("dispatcher", "persistent_state", 0)
...

1.3.20. table_name (string)

   If you want to load the sets of gateways from the database you
   must set this parameter as the database name. Setting this
   parameter will only change the default partition's table_name.
   Use the partition parameter to create and alter other
   partitions.

   For every partition the default value is “dispatcher”.

   Example 1.21. Set the 'default' partition's “table_name”
   parameter
...
modparam("dispatcher", "table_name", "my_dispatcher")
...

1.3.21. partition (string)

   Using this parameter the partition specific parameters (db_url,
   table_name, dst_avp, grp_avp, cnt_avp, sock_avp, attrs_avp,
   ds_define_blacklist) can be defined.

   The syntax is: "partition_name: param1 = value1; param2 =
   value2; param3 = value3". Each value format is the same as the
   one used to define a specific parameter using modparam.

   Whenever a new partition_name is provided, a new partition will
   be automatically created. The 'default' partition can also be
   defined using this parameter.

   Example 1.22.  Create a new partition called 'part2'
...
modparam("dispatcher", "partition",
                "part2:
                    db_url = mysql://user:passwd@localhost/database;
                    table_name = ds_table;
                    attrs_avp = $avp(ds_attr_part2);
                    ds_define_blacklist = list2 = 4,6;")
...

1.3.22. setid_col (string)

   The column's name in the database storing the gateway's group
   id.

   Default value is “setid”.

   Example 1.23. Set “setid_col” parameter
...
modparam("dispatcher", "setid_col", "groupid")
...

1.3.23. destination_col (string)

   The column's name in the database storing the destination's sip
   uri.

   Default value is “destination”.

   Example 1.24. Set “destination_col” parameter
...
modparam("dispatcher", "destination_col", "uri")
...

1.3.24. state_col (string)

   The column's name in the database storing the state of the
   destination uri.

   Default value is “state”.

   Example 1.25. Set “state_col” parameter
...
modparam("dispatcher", "state_col", "dststate")
...

1.3.25. weight_col (string)

   The column's name in the database storing the weight for
   destination uri.

   Default value is “weight”.

   Example 1.26. Set “weight_col” parameter
...
modparam("dispatcher", "weight_col", "dstweight")
...

1.3.26. priority_col (string)

   The column's name in the database storing the priority for
   destination uri.

   Default value is “priority”.

   Example 1.27. Set “priority_col” parameter
...
modparam("dispatcher", "priority_col", "dstprio")
...

1.3.27. attrs_col (string)

   The column's name in the database storing the attributes
   (opaque string) for destination uri.

   Default value is “attrs”.

   Example 1.28. Set “attrs_col” parameter
...
modparam("dispatcher", "attrs_col", "dstattrs")
...

1.3.28. socket_col (string)

   The column's name in the database storing the socket (as
   string) for destination uri.

   Default value is “socket”.

   Example 1.29. Set “socket_col” parameter
...
modparam("dispatcher", "socket_col", "my_sock")
...

1.4. Exported Functions

1.4.1.  ds_select_dst(set, alg [, (flags M max_results)*])

   The method selects a destination from the given set of
   addresses. It will overwrite the "destination URI" of a SIP
   request ($du).

   Meaning of the parameters is as follows:
     * set - a partition name followed by colon and an id of the
       set or a list of sets from where to pick up destination
       address (variables are accepted). If the partition name is
       missing, the default partition will be used.
     * alg - the algorithm(s) used to select the destination
       address (variables are accepted).
          + “0” - hash over callid
          + “1” - hash over from uri.
          + “2” - hash over to uri.
          + “3” - hash over request-uri.
          + “4” - round-robin (next destination).
          + “5” - hash over authorization-username
            (Proxy-Authorization or "normal" authorization). If no
            username is found, round robin is used.
          + “6” - random (using rand()).
          + “7” - hash over the content of PVs string. Note: This
            works only when the parameter hash_pvar is set.
          + “8” - the first entry in set is chosen.
          + “9” - The pvar_algo_pattern parameter is used to
            determine the load on each server. If the parameter is
            not specified, then the first entry in the set is
            chosen.
          + “X” - if the algorithm is not implemented, the first
            entry in set is chosen.
     * flags M max_results - If specified, this will be the flags
       which in previous versions were specified at startup. The
       flags are:
          + 'f'/'F' - the failover support flag,
          + 'u'/'U' - the user only flag - will specify that only
            the uri user part will be used for hashing,
          + 'S'/'s' - the force destination flag - which will skip
            overwriting the destination address if it is already
            set,
          + 'D'/'d' - the use default flag('D','d') - which will
            use the last address in destination set as last option
            to send the message.
       You can also specify these flags using PVs. The flags are
       being kept per partition.
       The second paramater, max_results represents that only a
       maximum of max_results will be put into the specified avp
       for failover. This allows having many destinations but
       limit the useless traffic in case of a number that is bound
       to fail everywhere. Since version 1.12, the last paramater
       cand be represented by a list of flags and max_results,
       separated by comma. You can specify either only the flags,
       either only the max_results paramater, but if you want to
       specify them together you have to use the 'M' character
       like this: flags M max_results.

   If the character 'f' in 'flags' is set, the rest of the
   addresses from the destination set is stored in AVP list. You
   can use 'ds_next_dst()' to use next address to achieve serial
   forking to all possible destinations. If multiple dispatching
   groups are used, the AVP list is constructed based on the
   position of each dispatching id in the list: first one has the
   higher priority, followed by the second one and so on.

   This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

   Example 1.30. ds_select_dst usage
...
ds_select_dst("1", "0");
...
ds_select_dst("part2 : 1", "0", "5");
...
ds_select_dst("part3 : 1", "0", "fUsD");
...
ds_select_dst("part4 : 2,3", "0,1", "fuD M 5, fuS M 2");
...
# dispatch over multiple dispatching groups
$var(part_name) = "p4"
$var(setid) = "1, 2";
$var(alg) = "4, 2";
$var(flags) = " sFDU M 2, fuS M 3";
ds_select_dst("$var(part_name):$var(setid)","$var(alg)","$var(flags)");
...

1.4.2.  ds_select_domain(set, alg [, "[flags] [M max_results]"])

   The method selects a destination from addresses set and
   rewrites the host and port from R-URI. The parameters have same
   meaning as for ds_select_dst().

   If the character 'f' in 'flags' is set, the rest of the
   addresses from the destination set is stored in AVP list. You
   can use 'ds_next_domain()' to use next address to achieve
   serial forking to all possible destinations.

   This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

1.4.3.  ds_next_dst([partition_name])

   Takes the next destination address from the AVPs with id
   partition.'dst_avp_id' and sets the dst_uri (outbound proxy
   address). If partition_name is omitted, the default partition
   will be used.This function is using the flags set in
   ds_select_dst or ds_select_domain.

   This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

1.4.4.  ds_next_domain([partition_name])

   Takes the next destination address from the AVPs with id
   partition.'dst_avp_id' and sets the domain part of the request
   uri. If partition_name is omitted, the default partition will
   be used.This function is using the flags set in ds_select_dst
   or ds_select_domain.

   This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

1.4.5.  ds_mark_dst()

   Mark the last used address from the 'default' partition's
   destination set as inactive, in order to be ignored in the
   future. In this way it can be implemented an automatic
   detection of failed gateways. When an address is marked as
   inactive, it will be ignored by 'ds_select_dst' and
   'ds_select_domain'. This function is using the flags set in
   ds_select_dst or ds_select_domain.

   This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

1.4.6.  ds_mark_dst([partition_name], "s")

   Mark the last used address from partition's destination set as
   inactive ("i"/"I"/"0"), active ("a"/"A"/"1") or probing
   ("p"/"P"/"2"). With this function, an automatic detection of
   failed gateways can be implemented. When an address is marked
   as inactive or probing, it will be ignored by 'ds_select_dst'
   and 'ds_select_domain'. If partition_name is omitted, the
   default partition will be used. This function is using the
   flags set in ds_select_dst or ds_select_domain.

   possible parameters:
     * "i", "I" or "0" - the last destination should be set to
       inactive and will be ignored in future requests.
     * "a", "A" or "1" - the last destination should be set to
       active.
     * "p", "P" or "2" - the last destination will be set to
       probing. Note: You will need to call this function
       "threshold"-times, before it will be actually set to
       probing.

   This function can be used from REQUEST_ROUTE and FAILURE_ROUTE.

1.4.7.  ds_count(set, filter, result)

   Returns the number of active, inactive or probing destinations
   in a partition's set, or combinations between these properties.

   Meaning of the parameters:
     * set - a partition name followed by colon and an id of a set
       of dispatching destinations (variables are accepted). If
       the partition name is missing, the default partition will
       be used.
     * filter - which destinations should be counted. Either
       active destinations("a", "A" or "1"), inactive
       destinations("i", "I" or "0") or probing ones("p", "P" or
       "2") or different combinations between these flags, such as
       "pI", "1i", "ipA"... The filter parameter can have the
       following types:
          + string - the filtering flags are statically assigned
     * result - A pseudovariable for storing the result.

   This function can be used from REQUEST_ROUTE, FAILURE_ROUTE,
   BRANCH_ROUTE, LOCAL_ROUTE, TIMER_ROUTE, EVENT_ROUTE

   Example 1.31. ds_count usage
...
if (ds_count("1", "a", "$avp(result)")) {
        ...
}
...
if (ds_count("$avp(partition) : $avp(set)", "ip", "$avp(result)")) {
        ...
}
...

1.4.8.  ds_is_in_list(ip, port [,set [,active_only]])

   This function returns true, if the parameters ip and port point
   to a host from the dispatcher-list; otherwise false.

   Meaning of the parameters:
     * ip - string / pseudo-variable (as string) containing the IP
       to test against the dispatcher list. This cannot be empty.
     * port - int / pseudo-variable (as int) containing the PORT
       to test against the dispatcher list. This can be empty - in
       this case the port will excluded from the matching of IP
       against the dispatcher list.
     * set (optional) - a partition name followed by colon and the
       set ID of a dispatcher list to test against. If the
       partition name is omitted the default partition will be
       used. If the set id is missing, all the dispatching sets
       will the checked. If a partition name is specified then it
       must be followed by colon regardless of the set id being
       specified or not. “-1” can be used as a wildcard to check
       in all sets.
     * active_only (optional) - search only through the active
       destinations (ignore the ones in probing and inactive
       mode).

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

   Example 1.32. ds_is_in_list usage
...
if (ds_is_in_list("$si", "$sp")) {
        # source IP:PORT is in a dispatcher list
}
...
if (ds_is_in_list("$rd", "$rp", "2")) {
        # source RURI (ip and port) is in the dispatcher list id "2" of
the default partition
}
...
if (ds_is_in_list("$rd", "$rp", "part2:2")) {
        # source RURI (ip and port) is in the dispatcher list id "2" of
the partition called 'part2'
}
...

1.5. Exported MI Functions

1.5.1.  ds_set_state

   Sets the status for a destination address (can be use to mark
   the destination as active or inactive).

   Name: ds_set_state

   Parameters:
     * _state_ : state of the destination address
          + “a”: active
          + “i”: inactive
          + “p”: probing
     * _group_: partition name followed by colon and destination
       group id. If the partition name is omitted, the default
       partition will be used
     * _address_: address of the destination in the _group_

   MI FIFO Command Format:
:ds_set_state:_reply_fifo_file_
_state_
_group_
_address_
_empty_line_

1.5.2.  ds_list

   It lists the groups and included destinations of all the
   partitions.

   Name: ds_list

   Parameters:
     * full (optional) - adds the weight, priority and description
       fields to the listing

   MI FIFO Command Format:
:ds_list:_reply_fifo_file_
_empty_line_

1.5.3.  ds_reload

   It reloads the groups and included destinations for a specified
   partition or all partitions.

   Name: ds_reload

   Parameters:
     * partition (optional) - name of the partition to be
       reloaded.

   MI DATAGRAM Command Format:
":ds_reload:\n."

1.6. Exported Events

1.6.1.  E_DISPATCHER_STATUS

   This event is raised when the dispatcher module marks a
   destination as activated or deactivated.

   Parameters:
     * partition - the partition name of the destination.
     * group - the group of the destination.
     * address - the address of the destination.
     * status - active if the destination gets activated or
       inactive if the destination is detected unresponsive.

1.7. Installation and Running

1.7.1. OpenSIPS config file

   Next picture displays a sample usage of dispatcher.

   Example 1.33. OpenSIPS config script - sample dispatcher usage
...
#
# sample config file for dispatcher module
#

debug_mode=yes

children=2
check_via=no      # (cmd. line: -v)
dns=off           # (cmd. line: -r)
rev_dns=off       # (cmd. line: -R)
port=5060

# for more info: opensips -h

# ------------------ module loading ----------------------------------
mpath="/usr/local/lib/opensips/modules/"
loadmodule "maxfwd.so"
loadmodule "signaling.so"
loadmodule "sl.so"
loadmodule "tm.so"
loadmodule "db_mysql.so"
loadmodule "dispatcher.so"


# ----------------- setting module-specific parameters ---------------
# -- dispatcher params --

modparam("dispatcher", "db_url", "mysql://opensips:opensipsrw@localhost/
opensips")

route{
        if ( !mf_process_maxfwd_header("10") )
        {
                send_reply("483","To Many Hops");
                exit;
        };

        if ( !ds_select_dst("2", "0") ) {
                send_reply("500","Unable to route");
                exit;
        }

        t_relay();
}

...

Chapter 2. Frequently Asked Questions

   2.1.

       Does dispatcher provide a fair distribution?

       There is no guarantee of that. You should do some measurements
       to decide what distribution algorithm fits better in your
       environment.

   2.2.

       Is dispatcher dialog stateful?

       No. Dispatcher is stateless, although some distribution
       algorithms are designed to select same destination for
       subsequent requests of the same dialog (e.g., hashing the
       call-id).

   2.3.

       What happened with the ds_is_from_list() function?

       The function was replaced by the more generic ds_is_in_list()
       function that takes as parameters the IP and PORT to test
       against the dispatcher list.

       ds_is_from_list() == ds_is_in_list("$si","$sp")

   2.4.

       How is weight and priority used by the dispatcher in selecting
       a destination?

       The weight of a destination is currently used in the hashing
       algorithms and it increases the probability of it to be
       chosen(if we have two destinations with weights 1 respectively
       4 than the second one is 4 times more likely to be selected
       than the other). The sum of all weights does not need to add up
       to a specific number. It is important to understand that the
       weights are not used in the round-robin algorithm at the
       moment.

       The priority field is used at ordering the destinations from a
       set. It does not affect the overall probability of a
       destination to be chosen. It is reflected when listing the
       destination, the field can definetly be used in further
       selecting algorithms.

   2.5.

       What happened with the list_file module parameter ?

       The support for text file (for provisioning destinations) was
       dropped. Only the DB support (provisioning via a DB table) is
       now available - if you still want to use a text file for
       provisioning, use db_text DB driver (DB emulated via text
       files)

   2.6.

       Where can I find more about OpenSIPS?

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

   2.7.

       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:
         * User Mailing List -
           http://lists.opensips.org/cgi-bin/mailman/listinfo/users
         * Developer Mailing List -
           http://lists.opensips.org/cgi-bin/mailman/listinfo/devel

       E-mails regarding any stable version should be sent to
       <users@lists.opensips.org> and e-mail regarding development
       versions or SVN snapshots should be send to
       <devel@lists.opensips.org>.

       If you want to keep the mail private, send it to
       <users@lists.opensips.org>.

   2.8.

       How can I report a bug?

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