Table of Contents
db_url
(string)db_table
(string)id_column
(string)carrier_column
(string)scan_prefix_column
(string)domain_column
(string)flags_column
(string)mask_column
(string)prob_column
(string)rewrite_host_column
(string)strip_column
(string)comment_column
(string)carrier_table
(string)rewrite_prefix_column
(string)rewrite_suffix_column
(string)carrier_id_col
(string)carrier_name_col
(string)subscriber_table
(string)subscriber_user_col
(string)subscriber_domain_col
(string)subscriber_carrier_col
(string)config_source
(string)config_file
(string)default_tree
(string)use_domain
(int)fallback_default
(int)db_failure_table
(string)failure_id_column
(string)failure_carrier_column
(string)failure_scan_prefix_column
(string)failure_domain_column
(string)failure_host_name_column
(string)failure_reply_code_column
(string)failure_flags_column
(string)failure_mask_column
(string)failure_next_domain_column
(string)failure_comment_column
(string)cr_user_carrier(user, domain, dstavp)
cr_route(carrier, domain, prefix_matching, rewrite_user, hash_source, dstavp)
cr_prime_route(carrier, domain, prefix_matching, rewrite_user, hash_source, dstavp)
cr_next_domain(carrier, domain, prefix_matching, host, reply_code, dstavp)
List of Tables
List of Examples
db_url
parameterdb_table
parameterid_column
parametercarrier_column
parameterscan_prefix_column
parameterdomain_column
parameterflags_column
parametermask_column
parameterprob_column
parameterrewrite_host_column
parameterstrip_column
parametercomment_column
parametercarrier_table
parameterrewrite_prefix_column
parameterrewrite_suffix_column
parameterid_col
parametercarrier_name_col
parametersubscriber_table
parametersubscriber_user_col
parametersubscriber_domain_col
parametersubscriber_carrier_col
parameterconfig_source
parameterconfig_file
parameterdefault_tree
parameteruse_domain
parameterfallback_default
parameterdb_failure_table
parameterfailure_id_column
parameterfailure_carrier_column
parameterfailure_scan_prefix_column
parameterfailure_domain_column
parameterfailure_host_name_column
parameterfailure_reply_code_column
parameterfailure_flags_column
parameterfailure_mask_column
parameterfailure_next_domain_column
parameterfailure_comment_column
parametercr_replace_host
usagecr_deactivate_host
usagecr_activate_host
usagecr_add_host
usagecr_delete_host
usageA module which provides routing, balancing and blacklisting capabilities.
The module provides routing, balancing and blacklisting capabilities. It reads routing entries from a database source or from a config file at OpenSIPS startup. It can uses one routing tree (for one carrier), or if needed for every user a different routing tree (unique for each carrier) for number prefix based routing. It supports several route tree domains, e.g. for failback routes or different routing rules for VoIP and PSTN targets.
Based on the tree, the module decides which number prefixes are forwarded to which gateway. It can also distribute the traffic by ratio parameters. Furthermore, the requests can be distributed by a hash funcion to predictable destinations. The hash source is configurable, two different hash functions are available.
This modules scales up to more than a few million users, and is able to handle more than several hundred thousand routing table entries. It should be able to handle more, but this is not that much tested at the moment. In load balancing scenarios the usage of the config file mode is recommended, to avoid the additional complexity that the database driven routing creates.
Routing tables can be reloaded and edited (in config file mode) with the MI interface, the config file is updated according the changes. This is not implemented for the db interface, because its easier to do the changes directly on the db. But the reload and dump functions works of course here too.
Some module functionality is not fully available in the config file mode, as it is not possible to specify all information that can be stored in the database tables in the config file. Further information about these limitations is given in later sections. For user based routing or LCR you should use the database mode.
Basically this module could be used as an replacement for the lcr and the dispatcher module, if you have certain performance, flexibility and/or integration requirements that these modules don't handle properly. But for small installations it probably make more sense to use the lcr and dispatcher module.
If you want to use this module in failure routes, then you need to call “append_branch()” after rewriting the request URI in order to relay the message to the new target. Its also supportes the usage of database derived failure routing descisions with the carrierfailureroute table.
The following module must be loaded before this module:
a database module, when a database is used as configuration data source. Only SQL based databases are supported, as this module needs the capability to issue raw queries. Its not possible to use the dbtext or db_berkeley module at the moment.
The tm module, when you want to use the $T_reply_code pseudo-variable in the “cr_next_domain” function.
Url to the database containing the routing data.
Default value is “mysql://opensipsro:opensipsro@localhost/opensips”.
Example 1.1. Set db_url
parameter
... modparam("carrierroute", "db_url", "dbdriver://username:password@dbhost/dbname") ...
Name of the table where the routing data is stored.
Default value is “carrierroute”.
Name of the column containing the id identifier.
Default value is “id”.
Name of the column containing the carrier id.
Default value is “carrier”.
Example 1.4. Set carrier_column
parameter
... modparam("carrierroute", "carrier_column", "carrier") ...
Name of column containing the scan prefixes. Scan prefixes define the matching portion of a phone number, e.g. when we have the scan prefixes 49721 and 49, the called number is 49721913740, it matches 49721, because the longest match is taken. If no prefix matches, the number is not routed. To prevent this, an empty prefix value of “” could be added.
Default value is “scan_prefix”.
Example 1.5. Set scan_prefix_column
parameter
... modparam("carrierroute", "scan_prefix_column", "scan_prefix") ...
Name of column containing the rule domain. You can define several routing domains to have different routing rules. Maybe you use domain 0 for normal routing and domain 1 if domain 0 failed.
Default value is “domain”.
Example 1.6. Set domain_column
parameter
... modparam("carrierroute", "domain_column", "domain") ...
Name of the column containing the flags.
Default value is “flags”.
Name of the column containing the flags mask.
Default value is “mask”.
Name of column containing probability. The probability value is used to distribute the traffic between several gateways. Let's say 70 % of the traffic shall be routed to gateway A, the other 30 % shall be routed to gateway B, we define a rule for gateway A with a prob value of 0.7 and a rule for gateway B with a prob value of 0.3.
If all probabilities for a given prefix, tree and domain don't add to 100%, the prefix values will be adjusted according the given prob values. E.g. if three hosts with prob values of 0.5, 0.5 and 0.4 are defined, the resulting probabilities are 35.714, 35.714 and 28.571%. But its better to choose meaningful values in the first place because of clarity.
Default value is “prob”.
Name of column containing rewrite host value. An empty field represents a blacklist entry, anything else is put as domain part into the Request URI of the SIP message.
Default value is “rewrite_host”.
Example 1.10. Set rewrite_host_column
parameter
... modparam("carrierroute", "rewrite_host_column", "rewrite_host") ...
Name of the column containing the number of digits to be stripped of the userpart of an URI before prepending rewrite_prefix.
Default value is “strip”.
Name of the column containing an optional comment (useful in large routing tables) The comment is also displayed by the fifo cmd "cr_dump_routes".
Default value is “description”.
Example 1.12. Set comment_column
parameter
... modparam("carrierroute", "comment_column", "description") ...
The name of the table containing the existing carriers, consisting of the ids and corresponding names.
Default value is “route_tree”.
Example 1.13. Set carrier_table
parameter
... modparam("carrierroute", "carrier_table", "route_tree") ...
Name of column containing rewrite prefixes. Here you can define a rewrite prefix for the localpart of the SIP URI.
Default value is “rewrite_prefix”.
Example 1.14. Set rewrite_prefix_column
parameter
... modparam("carrierroute", "rewrite_prefix_column", "rewrite_prefix") ...
Name of column containing rewrite suffixes. Here you can define a rewrite suffix for the localpart of the SIP URI.
Default value is “rewrite_suffix”.
Example 1.15. Set rewrite_suffix_column
parameter
... modparam("carrierroute", "rewrite_suffix_column", "rewrite_suffix") ...
The name of the column in the carrier table containing the carrier id.
Default value is “id”.
The name of the column in the carrier table containing the carrier name.
Default value is “carrier”.
Example 1.17. Set carrier_name_col
parameter
... modparam("carrierroute", "carrier_name_col", "carrier") ...
The name of the table containing the subscribers
Default value is “subscriber”.
Example 1.18. Set subscriber_table
parameter
... modparam("carrierroute", "subscriber_table", "subscriber") ...
The name of the column in the subscriber table containing the usernames.
Default value is “username”.
Example 1.19. Set subscriber_user_col
parameter
... modparam("carrierroute", "subscriber_user_col", "username") ...
The name of the column in the subscriber table containing the domain of the subscriber.
Default value is “domain”.
Example 1.20. Set subscriber_domain_col
parameter
... modparam("carrierroute", "subscriber_domain_col", "domain") ...
The name of the column in the subscriber table containing the carrier id of the subscriber.
Default value is “cr_preferred_carrier”.
Example 1.21. Set subscriber_carrier_col
parameter
... modparam("carrierroute", "subscriber_carrier_col", "cr_preferred_carrier") ...
Specifies whether the module loads its config data from a file or from a database. Possible values are file or db.
Default value is “file”.
Specifies the path to the config file.
Default value is “/etc/opensips/carrierroute.conf”.
Example 1.23. Set config_file
parameter
... modparam("carrierroute", "config_file", "/etc/opensips/carrierroute.conf") ...
The name of the carrier tree used per default (if the current subscriber has no preferred tree)
Default value is “default”.
Example 1.24. Set default_tree
parameter
... modparam("carrierroute", "default_tree", "default") ...
When using tree lookup per user, this parameter specifies whether to use the domain part for user matching or not.
Default value is “0”.
This parameter defines the behaviour when using user-based tree lookup. If the user has a non-existing tree set and fallback_default is set to 1, the default tree is used. Otherwise, cr_user_rewrite_uri returns an error.
Default value is “1”.
Example 1.26. Set fallback_default
parameter
... modparam("carrierroute", "fallback_default", 1) ...
Name of the table where the failure routing data is stored.
Default value is “carrierfailureroute”.
Example 1.27. Set db_failure_table
parameter
... modparam("carrierroute", "db_failure_table", "carrierfailureroute") ...
Name of the column containing the id identifier.
Default value is “id”.
Example 1.28. Set failure_id_column
parameter
... modparam("carrierroute", "failure_id_column", "id") ...
Name of the column containing the carrier id.
Default value is “carrier”.
Example 1.29. Set failure_carrier_column
parameter
... modparam("carrierroute", "failure_carrier_column", "carrier") ...
Name of column containing the scan prefixes. Scan prexies define the matching portion of a phone number, e.g. we have the scan prefixes 49721 and 49, the called number is 49721913740, it matches 49721, because the longest match is taken. If no prefix matches, the number is not failure routed. To prevent this, an empty prefix value of “” could be added.
Default value is “scan_prefix”.
Example 1.30. Set failure_scan_prefix_column
parameter
... modparam("carrierroute", "failure_scan_prefix_column", "scan_prefix") ...
Name of column containing the rule domain. You can define several routing domains to have different routing rules. Maybe you use domain 0 for normal routing and domain 1 if domain 0 failed.
Default value is “domain”.
Example 1.31. Set failure_domain_column
parameter
... modparam("carrierroute", "failure_domain_column", "domain") ...
Name of the column containing the host name of the last routing destination.
Default value is “host_name”.
Example 1.32. Set failure_host_name_column
parameter
... modparam("carrierroute", "failure_host_name_column", "host_name") ...
Name of the column containing the reply code.
Default value is “reply_code”.
Example 1.33. Set failure_reply_code_column
parameter
... modparam("carrierroute", "failure_reply_code_column", "reply_code") ...
Name of the column containing the flags.
Default value is “flags”.
Example 1.34. Set failure_flags_column
parameter
... modparam("carrierroute", "failure_flags_column", "flags") ...
Name of the column containing the flags mask.
Default value is “mask”.
Example 1.35. Set failure_mask_column
parameter
... modparam("carrierroute", "failure_mask_column", "mask") ...
Previous versions of carrierroute had some more function. All the old semantics can be achieved by using the few new functions like this:
cr_rewrite_uri(domain, hash_source) -> cr_route("default", domain, "$rU", "$rU", hash_source) cr_prime_balance_uri(domain, hash_source) -> cr_prime_route("default", domain, "$rU", "$rU", hash_source) cr_rewrite_by_to(domain, hash_source) -> cr_route("default", domain, "$tU", "$rU", hash_source) cr_prime_balance_by_to(domain, hash_source) -> cr_prime_route("default", domain, "$tU", "$rU", hash_source) cr_rewrite_by_from(domain, hash_source) -> cr_route("default", domain, "$fU", "$rU", hash_source) cr_prime_balance_by_from(domain, hash_source) -> cr_prime_route("default", domain, "$fU", "$rU", hash_source) cr_user_rewrite_uri(uri, domain) -> cr_user_carrier(user, domain, "$avp(tree_avp)") -> cr_route("$avp(tree_avp)", domain, "$rU", "$rU", "call_id") cr_tree_rewrite_uri(tree, domain) -> cr_route(tree, domain, "$rU", "$rU", "call_id")
This function loads the carrier and stores it in an AVP. It cannot be used in the config file mode, as it needs a mapping of the given user to a certain carrier. The is derived from a database entry belonging to the user parameter. This mapping must be available in the table that is specified in the “subscriber_table” variable. This data is not cached in memory, that means for every execution of this function a database query will be done.
Meaning of the parameters is as follows:
user - Name of the user for the carrier tree lookup. Additional to a string any pseudo-variable could be used as input.
domain - Name of the routing domain to be used. Additional to a string any pseudo-variable could be used as input.
dstavp - Name of the AVP where to store the carrier id.
This function searches for the longest match for the user given in prefix_matching at the given domain in the given carrier tree. The Request URI is rewritten using rewrite_user and the given hash source and algorithm. Returns -1 if there is no data found or an empty rewrite host on the longest match is found. Otherwise the rewritten host is stored in the given AVP (if obmitted, the host is not stored in an AVP). This function is only usable with rewrite_user and prefix_matching containing a valid numerical only string. It uses the standard crc32 algorithm to calculate the hash values.
Meaning of the parameters is as follows:
carrier - The routing tree to be used. Additional to a string any pseudo-variable could be used as input.
domain - Name of the routing domain to be used. Additional to a string any pseudo-variable could be used as input.
prefix_matching - User name to be used for prefix matching in the routing tree. Additional to a string any pseudo-variable could be used as input.
rewrite_user - The user name to be used for applying the rewriting rule. Usually this is the user part of the request URI. Additional to a string any pseudo-variable could be used as input.
hash_source - The hash values of the destination set must be a contiguous range starting at 1, limited by the configuration parameter max_targets. Possible values for hash_source are: call_id, from_uri, from_user, to_uri and to_user.
dstavp - Name of the AVP where to store the rewritten host. This parameter is optional.
This function searches for the longest match for the user given in prefix_matching at the given domain in the given carrier tree. The Request URI is rewritten using rewrite_user and the given hash source and algorithm. Returns -1 if there is no data found or an empty rewrite host on the longest match is found. Otherwise the rewritten host is stored in the given AVP (if obmitted, the host is not stored in an AVP). This function is only usable with rewrite_user and prefix_matching containing a valid numerical only string. It uses the prime hash algorithm to calculate the hash values.
Meaning of the parameters is as follows:
carrier - The routing tree to be used. Additional to a string any pseudo-variable could be used as input.
domain - Name of the routing domain to be used. Additional to a string any pseudo-variable could be used as input.
prefix_matching - User name to be used for prefix matching in the routing tree. Additional to a string any pseudo-variable could be used as input.
rewrite_user - The user name to be used for applying the rewriting rule. Usually this is the user part of the request URI. Additional to a string any pseudo-variable could be used as input.
hash_source - The hash values of the destination set must be a contiguous range starting at 1, limited by the configuration parameter max_targets. Possible values for hash_source are: call_id, from_uri, from_user, to_uri and to_user.
dstavp - Name of the AVP where to store the rewritten host. This parameter is optional.
This function searches for the longest match for the user given in prefix_matching at the given domain in the given carrier failure tree. It tries to find a next domain matching the given host, reply_code and the message flags. The matching is done in this order: host, reply_code and then flags. The more wildcards in reply_code and the more bits used in flags, the lower the priority. Returns -1 if there is no data found or an empty next_domain on the longest match is found. Otherwise the next domain is stored in the given AVP. This function is only usable with prefix_matching containing a valid numerical only string.
Meaning of the parameters is as follows:
carrier - The routing tree to be used. Additional to a string any pseudo-variable could be used as input.
domain - Name of the routing domain to be used. Additional to a string any pseudo-variable could be used as input.
prefix_matching - User name to be used for prefix matching in the routing tree. Additional to a string any pseudo-variable could be used as input.
host - The host name to be used for failure route rule matching. Usually this is the last tried routing destination stored in an avp by cr_route. Additional to a string any pseudo-variable could be used as input.
reply_code - The reply code to be used for failure route rule matching. Additional to a string any pseudo-variable could be used as input.
dstavp - Name of the AVP where to store the next routing domain.
All commands understand the "-?" parameter to print a short help message. The options have to be quoted as one string to be passed to MI interface. Each option except host and new host can be wildcarded by * (but only * and not things like "-d prox*").
This command reloads the routing data from the data source.
Important: When new domains have been added, a restart of the server must be done, because the mapping of the ids used in the config script cannot be updated at runtime at the moment. So a reload could result in a wrong routing behaviour, because the ids used in the script could differ from the one used internally from the server. Modifying of already existing domains is no problem.
This command can replace the rewrite_host of a route rule, it is only usable in file mode. Following options are possible:
-d - the domain containing the host
-p - the prefix containing the host
-h - the host to be replaced
-t - the new host
Use the "null" prefix to specify an empty prefix.
Example 1.38. cr_replace_host
usage
... opensips-cli -x mi cr_replace_host "-d proxy -p 49 -h proxy1 -t proxy2" ...
This command deactivates the specified host, i.e. it sets its status to 0. It is only usable in file mode. Following options are possible:
-d - the domain containing the host
-p - the prefix containing the host
-h - the host to be deactivated
-t - the new host used as backup
When -t (new_host) is specified, the portion of traffic for the deactivated host is routed to the host given by -t. This is indicated in the output of dump_routes. The backup route is deactivated if the host is activated again.
Use the "null" prefix to specify an empty prefix.
Example 1.39. cr_deactivate_host
usage
... opensips-cli -x mi cr_deactivate_host "-d proxy -p 49 -h proxy1" ...
This command activates the specified host, i.e. it sets its status to 1. It is only usable in file mode. Following options are possible:
-d - the domain containing the host
-p - the prefix containing the host
-h - the host to be activated
Use the "null" prefix to specify an empty prefix.
Example 1.40. cr_activate_host
usage
... opensips-cli -x mi cr_activate_host "-d proxy -p 49 -h proxy1" ...
This command adds a route rule, it is only usable in file mode. Following options are possible:
-d - the domain containing the host
-p - the prefix containing the host
-h - the host to be added
-w - the weight of the rule
-P - an optional rewrite prefix
-S - an optional rewrite suffix
-i - an optional hash index
-s - an optional strip value
Use the "null" prefix to specify an empty prefix.
Example 1.41. cr_add_host
usage
... opensips-cli -x mi cr_add_host "-d proxy -p 49 -h proxy1 -w 0.25" ...
This command delete the specified hosts or rules, i.e. remove them from the route tree. It is only usable in file mode. Following options are possible:
-d - the domain containing the host
-p - the prefix containing the host
-h - the host to be added
-w - the weight of the rule
-P - an optional rewrite prefix
-S - an optional rewrite suffix
-i - an optional hash index
-s - an optional strip value
Use the "null" prefix to specify an empty prefix.
Example 1.42. cr_delete_host
usage
... opensips-cli -x mi cr_delete_host "-d proxy -p 49 -h proxy1 -w 0.25" ...
Example 1.43. Configuration example - Routing to default tree
... route { # route calls based on hash over callid # choose route domain 0 of the default carrier if(!cr_route("default", "0", "$rU", "$rU", "call_id", "crc32")){ sl_send_reply("403", "Not allowed"); } else { # In case of failure, re-route the request t_on_failure("1"); # Relay the request to the gateway t_relay(); } } failure_route[1] { # In case of failure, send it to an alternative route: if (t_check_status("408|5[0-9][0-9]")) { #choose route domain 1 of the default carrier if(!cr_route("default", "1", "$rU", "$rU", "call_id", "crc32")){ t_reply("403", "Not allowed"); } else { t_on_failure("2"); t_relay(); } } } failure_route[2] { # further processing }
Example 1.44. Configuration example - Routing to user tree
... route[1] { cr_user_carrier("$fU", "$fd", "$avp(carrier)"); # just an example domain $avp(domain)="start"; if (!cr_route("$avp(carrier)", "$avp(domain)", "$rU", "$rU", "call_id", "$avp(host)")) { xlog("L_ERR", "cr_route failed\n"); exit; } t_on_failure("1"); if (!t_relay()) { sl_reply_error(); }; } failure_route[1] { revert_uri(); if (!cr_next_domain("$avp(carrier)", "$avp(domain)", "$rU", "$avp(host)", "$T_reply_code", "$avp(domain)")) { xlog("L_ERR", "cr_next_domain failed\n"); exit; } if (!cr_route("$avp(carrier)", "$avp(domain)", "$rU", "$rU", "call_id", "$avp(host)")) { xlog("L_ERR", "cr_route failed\n"); exit; } t_on_failure("1"); append_branch(); if (!t_relay()) { xlog("L_ERR", "t_relay failed\n"); exit; }; } ...
Example 1.45. Configuration example - module configuration
The following config file specifies within the default carrier two domains, each with an prefix that contains two hosts. It is not possible to specify another carrier if you use the config file as data source.
All traffic will be equally distributed between the hosts, both are active. The hash algorithm will working over the [1,2] set, messages hashed to one will go to the first host, the other to the second one. Don't use a hash index value of zero. If you ommit the hash completly, the module gives them a autogenerated value, starting from one.
Use the “NULL” prefix to specify an empty prefix in the config file. Please note that the prefix is matched against the request URI (or to URI), if they did not contain a valid numerical URI, no match is possible. So for loadbalancing purposes e.g. for your registrars, you should use an empty prefix.
... domain proxy { prefix 49 { max_targets = 2 target proxy1.localdomain { prob = 0.500000 hash_index = 1 status = 1 comment = "test target 1" } target proxy2.localdomain { prob = 0.500000 hash_index = 2 status = 1 comment = "test target 2" } } } domain register { prefix NULL { max_targets = 2 target register1.localdomain { prob = 0.500000 hash_index = 1 status = 1 comment = "test target 1" } target register2.localdomain { prob = 0.500000 hash_index = 2 status = 1 comment = "test target 2" } } } ...
Before running OpenSIPS with carrierroute, you have to setup the database table where the module will store the routing data. For that, if the table was not created by the installation script or you choose to install everything by yourself you can use the carrierroute-create.sql SQL script in the database directories in the opensips/scripts folder as template. Database and table name can be set with module parameters so they can be changed, but the name of the columns must be as they are in the SQL script. You can also find the complete database documentation on the project webpage, https://opensips.org/docs/db/db-schema-devel.html. The flags and mask columns have the same function as in the carrierfailureroute table. A zero value in the flags and mask column means that any message flags will match this rule.
For a minimal configuration either use the config file given above, or insert some data into the tables of the module.
Example 1.46. Example database content - carrierroute table
... +----+---------+--------+-------------+-------+------+---------------+ | id | carrier | domain | scan_prefix | flags | prob | rewrite_host | +----+---------+--------+-------------+-------+------+---------------+ | 1 | 1 | 0 | 49 | 0 | 0.5 | de-1.carrier1 | | 2 | 1 | 0 | 49 | 0 | 0.5 | de-2.carrier1 | | 3 | 1 | 0 | 49 | 16 | 1 | de-3.carrier1 | | 4 | 1 | 0 | | 0 | 1 | gw.carrier1-1 | | 5 | 1 | 1 | 49 | 0 | 1 | gw.carrier1-1 | | 6 | 1 | 2 | | 0 | 1 | gw.carrier1-2 | | 7 | 1 | 3 | | 0 | 1 | gw.carrier1-3 | | 8 | 2 | 0 | 49 | 0 | 0.5 | de-1.carrier2 | | 9 | 2 | 0 | 49 | 0 | 0.5 | de-2.carrier2 | | 10 | 2 | 0 | | 0 | 1 | gw.carrier2 | | 11 | 2 | 1 | 49 | 0 | 1 | gw.carrier2 | | 12 | 3 | start | 49 | 0 | 1 | de-gw.default | | 13 | 3 | start | | 0 | 1 | gw.default | +----+---------+--------+-------------+-------+------+---------------+ ...
This table contains three routes to two gateways for the “49” prefix, and a default route for other prefixes over carrier 2 and carrier 1. The gateways for the default carrier will be used for functions that don't support the user specific carrier lookup. The routing rules for carrier 1 and carrier 2 for the “49” prefix contains a additional rule with the domain 1, that can be used for example as fallback if the gateways in domain 0 are not reachable. Two more fallback rules (domain 2 and 3) for carrier 1 are also supplied to support the functionality of the carrierfailureroute table example that is provided in the next section. The usage of strings for the domains is also possible, for example at carrier 3.
This table provides also a “carrier1” routing rule for the “49” prefix, that is only choosen if some message flags are set. If this flags are not set, the other two rules are used. The “strip”, “mask” and “comment” colums are omitted for brevity.
Example 1.47. Example database content - simple carrierfailureroute table
... +----+---------+--------+---------------+------------+-------------+ | id | carrier | domain | host_name | reply_code | next_domain | +----+---------+--------+---------------+------------+-------------+ | 1 | 1 | 0 | gw.carrier1-2 | ... | 3 | | 2 | 1 | 0 | gw.carrier1-3 | ... | 2 | +----+---------+--------+---------------+------------+-------------+ ...
This table contains two failure routes for the “gw.carrier1-1” and “-2” gateways. For any (failure) reply code the respective next domain is choosen. After that no more failure routes are available, an error will be returned from the “cr_next_domain” function. Not all table colums are show here for brevity.
For each failure route domain and carrier that is added to the carrierfailureroute table there must be at least one corresponding entry in the carrierroute table, otherwise the module will not load the routing data.
Example 1.48. Example database content - more complex carrierfailureroute table
... +----+---------+-----------+------------+--------+-----+-------------+ | id | domain | host_name | reply_code | flags | mask | next_domain | +----+---------+-----------+------------+-------+------+-------------+ | 1 | 99 | | 408 | 16 | 16 | | | 2 | 99 | gw1 | 404 | 0 | 0 | 100 | | 3 | 99 | gw2 | 50. | 0 | 0 | 100 | | 4 | 99 | | 404 | 2048 | 2112 | asterisk-1 | +----+---------+-----------+------------+-------+------+-------------+ ...
This table contains four failure routes that shows the usage of more advanced features. The first route matches to a 408, and to some flag for example that indicates that ringing has happened. If this flag is set, there will be no further forwarding, because next_domain is empty. In the second and third routes are certain gateway errors matched, if this errors have occurred, then the next domain will be chosen. The last route does forwarding according some flags, e.g. the customer came from a certain carrier, and has call-forwarding deactivated. In order to use the routing that is specified above, a matching carrierroute table must be provided, that holds domain entries for this routing rules. Not all table colums are show here for brevity.
Example 1.49. Example database content - route_tree table
... +----+----------+ | id | carrier | +----+----------+ | 1 | carrier1 | | 2 | carrier2 | | 3 | default | +----+----------+ ...
This table contains the mapping of the carrier id to actual names.
For a functional routing the “cr_preferred_carrier” column must be added to the subscriber table (or to the table and column that you specified as modul parameter) to choose the actual carrier for the users.
Example 1.50. Necessary extensions for the user table
Suggested changes:
... ALTER TABLE subscriber ADD cr_preferred_carrier int(10) default NULL; ...
Table 2.1. Top contributors by DevScore(1), authored commits(2) and lines added/removed(3)
Name | DevScore | Commits | Lines ++ | Lines -- | |
---|---|---|---|---|---|
1. | Henning Westerholt (@henningw) | 126 | 80 | 2085 | 1607 |
2. | Hardy Kahl | 50 | 3 | 2713 | 1360 |
3. | Jonas Appel | 50 | 1 | 6240 | 0 |
4. | Bogdan-Andrei Iancu (@bogdan-iancu) | 29 | 24 | 131 | 154 |
5. | Vlad Patrascu (@rvlad-patrascu) | 21 | 4 | 379 | 753 |
6. | Razvan Crainea (@razvancrainea) | 20 | 17 | 95 | 103 |
7. | Liviu Chircu (@liviuchircu) | 14 | 10 | 73 | 133 |
8. | Daniel-Constantin Mierla (@miconda) | 9 | 7 | 34 | 30 |
9. | Carsten Bock | 3 | 1 | 64 | 15 |
10. | Bob Atkins | 3 | 1 | 29 | 1 |
All remaining contributors: Julián Moreno Patiño, Ovidiu Sas (@ovidiusas), Sergio Gutierrez, Iouri Kharon, UnixDev, Peter Lemenkov (@lemenkov), Walter Doekes (@wdoekes), Edson Gellert Schubert.
(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
Table 2.2. Most recently active contributors(1) to this module
Name | Commit Activity | |
---|---|---|
1. | Razvan Crainea (@razvancrainea) | Jun 2011 - Sep 2019 |
2. | Vlad Patrascu (@rvlad-patrascu) | May 2017 - Apr 2019 |
3. | Bogdan-Andrei Iancu (@bogdan-iancu) | Dec 2007 - Apr 2019 |
4. | Peter Lemenkov (@lemenkov) | Jun 2018 - Jun 2018 |
5. | Liviu Chircu (@liviuchircu) | Mar 2014 - Jun 2018 |
6. | Julián Moreno Patiño | Feb 2016 - Feb 2016 |
7. | Walter Doekes (@wdoekes) | May 2014 - May 2014 |
8. | Ovidiu Sas (@ovidiusas) | Jan 2013 - Jan 2013 |
9. | UnixDev | Feb 2009 - Feb 2009 |
10. | Henning Westerholt (@henningw) | Aug 2007 - Dec 2008 |
All remaining contributors: Sergio Gutierrez, Iouri Kharon, Hardy Kahl, Daniel-Constantin Mierla (@miconda), Edson Gellert Schubert, Bob Atkins, Carsten Bock, Jonas Appel.
(1) including any documentation-related commits, excluding merge commits
Last edited by: Razvan Crainea (@razvancrainea), Peter Lemenkov (@lemenkov), Liviu Chircu (@liviuchircu), Julián Moreno Patiño, Bogdan-Andrei Iancu (@bogdan-iancu), Henning Westerholt (@henningw), Iouri Kharon, Hardy Kahl, Daniel-Constantin Mierla (@miconda), Edson Gellert Schubert, Carsten Bock, Jonas Appel.
Documentation Copyrights:
Copyright © 2007 1&1 Internet AG