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README
Acc Module
 __________________________________________________________
 Table of Contents
 1. Admin Guide
 1.1. Overview
 1.1.1. General Example
 1.2. Extra accounting
 1.2.1. Overview
 1.2.2. Definitions and syntax
 1.2.3. How it works
 1.2.4. Radius accounting dependencies
 1.3. Multi Call-Legs accounting
 1.3.1. Overview
 1.3.2. Configuration
 1.3.3. Logged data
 1.4. CDRs accounting
 1.4.1. Overview
 1.4.2. Configuration
 1.4.3. How it works
 1.5. Dependencies
 1.5.1. OpenSIPS Modules
 1.5.2. External Libraries or Applications
 1.6. Exported Parameters
 1.6.1. early_media (integer)
 1.6.2. report_cancels (integer)
 1.6.3. detect_direction (integer)
 1.6.4. extra_fields (string)
 1.6.5. leg_fields (string)
 1.6.6. log_level (integer)
 1.6.7. log_facility (string)
 1.6.8. aaa_url (string)
 1.6.9. service_type (integer)
 1.6.10. db_table_acc (string)
 1.6.11. db_table_missed_calls (string)
 1.6.12. db_url (string)
 1.6.13. acc_method_column (string)
 1.6.14. acc_from_tag_column (string)
 1.6.15. acc_to_tag_column (string)
 1.6.16. acc_callid_column (string)
 1.6.17. acc_sip_code_column (string)
 1.6.18. acc_sip_reason_column (string)
 1.6.19. acc_time_column (string)
 1.7. Exported Pseudo-Variables
 1.7.1. $acc_extra(tag_name)
 1.7.2. $(acc_leg(tag_name)[leg_index])
 1.7.3. $acc_current_leg (read-only)
 1.8. Exported Functions
 1.8.1. do_accounting(type, [flags], [table])
 1.8.2. drop_accounting([type], [flags])
 1.8.3. acc_log_request(comment)
 1.8.4. acc_db_request(comment, table)
 1.8.5. acc_aaa_request(comment)
 1.8.6. acc_evi_request(comment)
 1.8.7. acc_new_leg()
 1.8.8. acc_load_ctx_from_dlg()
 1.8.9. acc_unload_ctx_from_dlg()
 1.9. Exported Events
 1.9.1. E_ACC_CDR
 1.9.2. E_ACC_EVENT
 1.9.3. E_ACC_MISSED_EVENT
 2. Frequently Asked Questions
 3. Contributors
 3.1. By Commit Statistics
 3.2. By Commit Activity
 4. Documentation
 4.1. Contributors
 List of Tables
 3.1. Top contributors by DevScore^(1), authored commits^(2) and
 lines added/removed^(3)
 3.2. Most recently active contributors^(1) to this module
 List of Examples
 1.1. early_media example
 1.2. report_cancels example
 1.3. detect_direction example
 1.4. Setting extra_fields example:
 1.5. Setting leg_fields example:
 1.6. log_level example
 1.7. log_facility example
 1.8. Set aaa_url parameter
 1.9. service_type example
 1.10. db_table_acc example
 1.11. db_table_missed_calls example
 1.12. db_url example
 1.13. acc_method_column example
 1.14. acc_from_tag_column example
 1.15. acc_to_tag_column example
 1.16. acc_callid_column example
 1.17. acc_sip_code_column example
 1.18. acc_sip_reason_column example
 1.19. acc_time_column example
 1.20. do_accounting usage
 1.21. drop_accounting usage
 1.22. acc_log_request usage
 1.23. acc_db_request usage
 1.24. acc_aaa_request usage
 1.25. acc_evi_request usage
 1.26. acc_new_leg usage
 1.27. acc_load_ctx_from_dlg usage
Chapter 1. Admin Guide
1.1. Overview
 The ACC module is used to account transaction information to
 different backends such as syslog, SQL, AAA.
 To account a transaction and to choose which set of backends to
 be used, the script writer only has to mark the transaction for
 accounting by using the do_accounting() script function. Note
 that the function is not actually doing the accounting at that
 very time, it is just setting a marker - the actual accounting
 will be done later when the transaction or dialog will be
 completed.
 Even so, the module allows the script writer to force
 accounting on the spot in special cases via some other script
 functions.
 The accounting module will log by default a fixed set of
 attributes for the transaction - if you customize your
 accounting by adding more information to be logged, please see
 the next chapter about extra accounting - Section 1.2, "Extra
 accounting".
 The fixed minimal accounting information is:
 * Request Method name
 * From header TAG parameter
 * To header TAG parameter
 * Call-Id
 * 3-digit Status code from final reply
 * Reason phrase from final reply
 * Timestamp when transaction was completed
 If a value is not present in the request, the empty string is
 accounted instead.
 Note that:
 * A single INVITE may produce multiple accounting reports --
 that's most likely due to the SIP forking feature.
 * Since version 2.2, all flags used for accounting have been
 replaced with the do_accounting() function. No need to
 worry anymore whether you have set the flags or not, or be
 confused by various flag names, now you only have to call
 the function and it will do all the work for you.
 * OpenSIPS now supports session/dialog accounting. It can
 automatically correlate INVITEs with BYEs for generating
 proper CDRs, for example for billing purposes.
 * If a UA fails in the middle of a conversation, a proxy will
 never find out about it. In general, a better practice is
 to account from an end-device (such as PSTN gateway), which
 best knows about call status (including media status and
 PSTN status in case of the gateway).
 The SQL, Event Interface and AAA backend support are compiled
 in the module.
 A very comprehensive description of how the accounting module
 works in terms accounting scope, accounting events and
 accounting backends can be found in this online Advanced
 Accounting Tutorial.
1.1.1. General Example
loadmodule "modules/acc/acc.so"
if ($ru=~"sip:+40") /* calls to Romania */ {
 if (!proxy_authorize("sip_domain.net" /* realm */,
 "subscriber" /* table name */)) {
 proxy_challenge("sip_domain.net" /* realm */, "0" /* no qop */ )
;
 exit;
 }
 if (is_method("INVITE") && $au!=$fU) {
 xlog("FROM URI != digest username\n");
 sl_send_reply("403","Forbidden");
 }
 do_accounting("log"); /* set for accounting via syslog */
 t_relay(); /* enter stateful mode now */
};
1.2. Extra accounting
1.2.1. Overview
 Along the static default information, the ACC module allows
 dynamic selection of extra information to be logged using the
 acc_extra pseudovariable. This allows you to log any
 pseudo-variable (AVPs, parts of the request, parts of the
 reply, etc).
1.2.2. Definitions and syntax
 Selection of extra information is done via extra_field
 parameter by specifying tags and log_names for the additional
 information. This information is defined via acc_extra
 pseudovariable, referenced with the define tag. If the tag is
 not specified, its value will be considered to be the same as
 the log_value. Accounting backend(log, db, aaa, evi) is
 specified at the beginning of the definition, separated by ':'
 from the rest. The syntax of the parameter is:
 * backend : tag -> log_name (';'tag -> log_name)*
 * backend : tag (';' tag)*
 Extra values are consistent during the whole call. Setting a
 value during a request, will cause it to remain visible during
 all replies. Also, concerning CDR logging, setting a value on
 the initial INVITE will result in having that value throughout
 the dialog.
 Via log_name you define how/where the data will be logged. Its
 meaning depends of the accounting support which is used:
 * LOG accounting - log_name will be just printed along with
 the data in log_name=data format;
 * DB accounting - log_name will be the name of the DB column
 where the data will be stored.IMPORTANT: add in db acc
 table the columns corresponding to each extra data;
 * AAA accounting - log_name will be the AVP name used for
 packing the data into AAA message. The log_name will be
 translated to AVP number via the dictionary. IMPORTANT: add
 in AAA dictionary the log_name attribute.
 * Events accounting - log_name will be the name of the
 parameter in the event raised.
1.2.3. How it works
 Declaring an extra in the format of
modparam("acc", "extra_fields", "log: a -> test_a")
 will enable you to set the value for test_a field of the log
 only by setting $acc_extra(a) variable. Otherwise, the field
 shall be logged with no value(null).
1.2.4. Radius accounting dependencies
 If radius accounting is used, except from a radius client
 library which is mandatory, dictionary.rfc2866 must be included
 for the module to work properly.
1.3. Multi Call-Legs accounting
1.3.1. Overview
 A SIP call can have multiple legs due forwarding actions. For
 example user A calls user B which forwards the call to user C.
 There is only one SIP call but with 2 legs ( A to B and B to
 C). Accounting the legs of a call is required for proper
 billing of the calls (if C is a PSTN number and the call is
 billed, user B must pay for the call - as last party modifing
 the call destination-, and not A - as initiator of the call.
 Call forwarding on server is only one example which shows the
 necessity of the having an accounting engine with multiple legs
 support.
1.3.2. Configuration
 First how it works: The idea is to have a variable to store a
 set of values for each leg. The meaning of the variable content
 is strictly decided by the script writer - it can be the origin
 and source of the leg, its status or any other related
 information. By default there is defined only one leg. Script
 writer has to decide when is the time to create a new leg, by
 using acc_new_leg() script function. When creating a new leg,
 all the values for that leg will be set to NULL by default.
 When the accounting information for the call will be
 written/sent, all the call-leg pairs will be added.
 By default, the multiple call-leg support is disabled - it can
 be enabled just by setting acc_leg variable leg_fields module
 parameter. Note that the last one only makes sense only for
 CDRs that are generated automatically by OpenSIPS.
1.3.3. Logged data
 For each call, all the values from the acc_leg variable will be
 logged. How the information will be actually logged, depends of
 the data backend:
 * syslog -- all leg-sets will be added to one record string
 as acc_leg(leg1)=xxx, acc_leg(leg2)=xxxx ,... sets.
 * database -- each pair will be separately logged (due DB
 data structure constraints); several records will be
 written, the difference between them being only the fields
 corresponding to the call-leg info.
Note
 You will need to add in your DB (all acc related tables)
 the colums for call-leg info (a column for each leg value
 of the set).
 * AAA -- all sets will be added to the same AAA accounting
 message as AAA AVPs - for each call-leg a set of AAA AVPs
 will be added (corresponding to the per-leg set)
Note
 You will need to add in your dictionary the AAA AVPs used
 in call-leg set definition.
 * events -- each pair will appear as a different
 parameter-value pair in the event. Similar to the database
 behavior, multiple events will be raised, and the only
 difference between them is the leg information.
 Important!!! In order to use RADIUS, one must include the AVPs
 which are located in
 $(opensips_install_dir)/etc/dictionary.opensips, both in
 opensips radius config script dictionary and radius server
 dictionary. Most important are the last three AVPs (IDs : 227,
 228, 229) which you won't find in any SIP dictionary (at least
 at this moment) because they are only used in openSips.
1.4. CDRs accounting
1.4.1. Overview
 ACC module can now also maintain session/dialog accounting.
 This allows you to log useful information like call duration,
 call start time and setup time.
1.4.2. Configuration
 In order to have CDRs accounting, first you need to set the cdr
 flag when calling do_accounting() script function for the
 initial INVITE of the dialog.
1.4.3. How it works
 This type of accounting is based on the dialog module. When an
 initial INVITE is received, if the cdr flag is set, then the
 dialog creation time is saved. Once the call is answered and
 the ACK is received, other information like extra values or leg
 values are saved. When the corresponding BYE is received, the
 call duration is computed and all information is stored to the
 desired backend.
1.5. Dependencies
1.5.1. OpenSIPS Modules
 The module depends on the following modules (in the other words
 the listed modules must be loaded before this module):
 * tm -- Transaction Manager
 * a database module -- If SQL support is used.
 * rr -- Record Route, if "detect_direction" module parameter
 is enabled.
 * an aaa module
 * dialog -- Dialog, if "cdr" option is used
1.5.2. External Libraries or Applications
 The following libraries or applications must be installed
 before running OpenSIPS with this module loaded:
 * none.
1.6. Exported Parameters
1.6.1. early_media (integer)
 Should be early media (any provisional reply with body)
 accounted too ?
 Default value is 0 (no).
 Example 1.1. early_media example
modparam("acc", "early_media", 1)
1.6.2. report_cancels (integer)
 By default, CANCEL reporting is disabled -- most accounting
 applications wants to see INVITE's cancellation status. Turn on
 if you explicitly want to account CANCEL transactions.
 Default value is 0 (no).
 Example 1.2. report_cancels example
modparam("acc", "report_cancels", 1)
1.6.3. detect_direction (integer)
 Controls the direction detection for sequential requests. If
 enabled (non zero value), for sequential requests with upstream
 direction (from callee to caller), the FROM and TO will be
 swapped (the direction will be preserved as in the original
 request).
 It affects all values related to TO and FROM headers (body,
 URI, username, domain, TAG).
 Default value is 0 (disabled).
 Example 1.3. detect_direction example
modparam("acc", "detect_direction", 1)
1.6.4. extra_fields (string)
 Defines the tag-log_value set to be used in extra fields
 accounting. See Section 1.2, "Extra accounting" for a detailed
 description of the Extra accounting.
 If empty, extra accounting support will be disabled.
 Default value is 0 (disabled).
 Example 1.4. Setting extra_fields example:
# for syslog-based accounting, use any text you want to be printed
# if setting $acc_extra(a) you will see "My_a_Field=<value> in logs
# if setting $acc_extra(b) you will see "b=<value> in logs
modparam("acc", "extra_fields", "log: a->My_a_Field; b")
# for mysql-based accounting, use the names of the columns
# $acc_extra(a) = <value> results in setting col_a with <value> in db
modparam("acc", "extra_fields", "db: a->col_a; col_b")
# for AAA-based accounting, use the names of the AAA AVPs
modparam("acc", "extra_fields","aaa:a->AAA_SRC;b->AAA_DST")
# evi definition example
modparam("acc", "extra_fields","a->2345;b->2346")
1.6.5. leg_fields (string)
 Defines the tag-log_value set to be used in multi-leg
 accounting. See Section 1.3, "Multi Call-Legs accounting" for a
 detailed description of the Multi Call-Legs accounting.
 If empty, multi-leg accounting support will be disabled.
 Default value is 0 (disabled).
 Example 1.5. Setting leg_fields example:
# for syslog-based accounting, use any text you want to be printed
# if setting $(acc_leg(a)[0]) you will see "My_a_Field=<value> in logs
# if setting $(acc_leg(b)[0]) you will see "b=<value> in logs
modparam("acc", "leg_fields", "log: a->My_a_Field; b")
# for mysql-based accounting, use the names of the columns
# $acc_leg(a) = <value> results in setting col_a with <value> in db
modparam("acc", "leg_fields", "db: a->col_a; col_b")
# for AAA-based accounting, use the names of the AAA AVPs
modparam("acc", "leg_fields","aaa:a->AAA_LEG_SRC;b->AAA_LEG_DST")
# evi definition example
modparam("acc", "leg_fields","a->2345;b->2346")
1.6.6. log_level (integer)
 Log level at which accounting messages are issued to syslog.
 Default value is L_NOTICE.
 Example 1.6. log_level example
modparam("acc", "log_level", 2) # Set log_level to 2
1.6.7. log_facility (string)
 Log facility to which accounting messages are issued to syslog.
 This allows to easily seperate the accounting specific logging
 from the other log messages.
 Default value is LOG_DAEMON.
 Example 1.7. log_facility example
modparam("acc", "log_facility", "LOG_DAEMON")
1.6.8. aaa_url (string)
 This is the url representing the AAA protocol used and the
 location of the configuration file of this protocol.
 If the parameter is set to empty string, the AAA accounting
 support will be disabled.
 Default value is "NULL".
 Example 1.8. Set aaa_url parameter
...
modparam("acc", "aaa_url", "radius:/etc/radiusclient-ng/radiusclient.con
f")
...
1.6.9. service_type (integer)
 AAA service type used for accounting.
 Default value is not-set.
 Example 1.9. service_type example
# Default value of service type for SIP is 15
modparam("acc", "service_type", 15)
1.6.10. db_table_acc (string)
 Table name of accounting successful calls -- database specific.
 Default value is "acc"
 Example 1.10. db_table_acc example
modparam("acc", "db_table_acc", "myacc_table")
1.6.11. db_table_missed_calls (string)
 Table name for accounting missed calls -- database specific.
 Default value is "missed_calls"
 Example 1.11. db_table_missed_calls example
modparam("acc", "db_table_missed_calls", "myMC_table")
1.6.12. db_url (string)
 SQL address -- database specific. If is set to NULL or empty
 string, the SQL support is disabled.
 Default value is "NULL" (SQL disabled).
 Example 1.12. db_url example
modparam("acc", "db_url", "mysql://user:password@localhost/opensips")
1.6.13. acc_method_column (string)
 Column name in accounting table to store the request's method
 name as string.
 Default value is "method".
 Example 1.13. acc_method_column example
modparam("acc", "acc_method_column", "method")
1.6.14. acc_from_tag_column (string)
 Column name in accounting table to store the From header TAG
 parameter.
 Default value is "from_tag".
 Example 1.14. acc_from_tag_column example
modparam("acc", "acc_from_tag_column", "from_tag")
1.6.15. acc_to_tag_column (string)
 Column name in accounting table to store the To header TAG
 parameter.
 Default value is "to_tag".
 Example 1.15. acc_to_tag_column example
modparam("acc", "acc_to_tag_column", "to_tag")
1.6.16. acc_callid_column (string)
 Column name in accounting table to store the request's Callid
 value.
 Default value is "callid".
 Example 1.16. acc_callid_column example
modparam("acc", "acc_callid_column", "callid")
1.6.17. acc_sip_code_column (string)
 Column name in accounting table to store the final reply's
 numeric code value in string format.
 Default value is "sip_code".
 Example 1.17. acc_sip_code_column example
modparam("acc", "acc_sip_code_column", "sip_code")
1.6.18. acc_sip_reason_column (string)
 Column name in accounting table to store the final reply's
 reason phrase value.
 Default value is "sip_reason".
 Example 1.18. acc_sip_reason_column example
modparam("acc", "acc_sip_reason_column", "sip_reason")
1.6.19. acc_time_column (string)
 Column name in accounting table to store the time stamp of the
 transaction completion in date-time format.
 Default value is "time".
 Example 1.19. acc_time_column example
modparam("acc", "acc_time_column", "time")
1.7. Exported Pseudo-Variables
1.7.1. $acc_extra(tag_name)
 This variable can addresed with the tag names defined using
 extra_fields. If do_accounting() isn't called, this variable is
 visible during the whole processing of one message, enabling
 calling acc_XXX_request(). If do_accounting() is called, the
 variable will be visible from the first call of this function
 until the actual accounting is being made.
1.7.2. $(acc_leg(tag_name)[leg_index])
 This variable can be addressed with the tag names defined using
 leg_fields and a valid leg index (<= $acc_current_leg). This
 variable cannot be used unless do_accounting() is used. The
 variable also accepts negative indexes, which start from -1
 (the lastly added leg).
# the "caller" value of the current leg
$acc_leg(caller)
# the "caller" value of the lastly added leg
$(acc_leg(caller)[-1]) # equivalent to $acc_leg(caller)
 # equivalent to $(acc_leg(caller)[$acc_current_le
g])
# the "caller" value of the next-to-last leg
$(acc_leg(caller)[-2])
1.7.3. $acc_current_leg (read-only)
 Holds the index of the current leg, starting from 0. Calling
 acc_new_leg() will increment this index.
1.8. Exported Functions
1.8.1. do_accounting(type, [flags], [table])
 do_accounting() replaces all the *_flag and, *_missed_flag,
 cdr_flag, failed transaction_flag and the db_table_avp
 modparams. Just call do_accounting(), select where and how you
 want the accounting to take place, and the function will do all
 the work for you.
 Meaning of the parameters is as follows:
 * type (string) - the type of accounting you want to do. All
 types have to be separated by '|'. The following parameters
 can be used:
 + log - syslog accounting;
 + db - database accounting;
 + aaa - aaa specific accounting;
 + evi - Event Interface accounting;
 * flags (string, optional) - flags for the accounting type
 you have selected. All the types have to be separated by
 '|'. The following parameters can be used:
 + cdr - enables dialog-level accounting. OpenSIPS will
 internally detect dialog termination
 (generation/receipt of a BYE request), and store the
 CDR as soon as the BYE request is replied to. By
 enabling the "cdr" flag, the following additional
 fields will be populated: duration, ms_duration,
 setuptime, created. (requires dialog module support)
 + missed - log missed calls; take care that this flag
 will be deactivated after the first missed call; you
 will have to reactivate it in the failure_route if you
 want to account each destination that did not respond
 to the call;
 + failed - flag which indicates if the transaction
 should also be accounted in case of failure
 (status>=300);
 * table (string, optional) - table where to do the
 accounting; it replaces old table_avp parameter;
 This function can be used from REQUEST_ROUTE, FAILURE_ROUTE,
 BRANCH_ROUTE and LOCAL_ROUTE.
 Example 1.20. do_accounting usage
 ...
 if (!has_totag()) {
 if (is_method("INVITE")) {
 /* enable cdr and missed calls accounting in the
 database
 * and to syslog; db accounting shall be done in
 "my_acc" table */
 do_accounting("db|log", "cdr|missed", "m
y_acc");
 }
 }
 ...
 if (is_method("BYE")) {
 /* do normal accounting via aaa */
 do_accounting("aaa");
 }
 ...
1.8.2. drop_accounting([type], [flags])
 drop_accounting() resets flags and types of accounting set with
 do_accounting(). If called with no arguments all accounting
 will be stopped. If called with only one argument all
 accounting for that type will be stopped. If called with two
 arguments normal accounting will still be enabled.
 Meaning of the parameters is as follows:
 * type (string, optional) - the type of accounting you want
 to stop. All the types have to be separated by '|'. The
 following parameters can be used:
 + log - stop syslog accounting;
 + db - stop database accounting;
 + aaa - stop aaa specific accounting;
 + evi - stop Event Interface accounting;
 * flags (string, optional) - flags to be reset for the
 accouting type you have selected. All the types have to be
 separated by '|'. The following parameters can be used:
 + cdr - stop CDR accounting;
 + missed - stop logging missed calls;
 + failed - stop failed transaction accounting;
 This function can be used from REQUEST_ROUTE, FAILURE_ROUTE,
 BRANCH_ROUTE and LOCAL_ROUTE.
 Example 1.21. drop_accounting usage
 ...
 acc_log_request("403 Destination not allowed");
 if (!has_totag()) {
 if (is_method("INVITE")) {
 /* enable cdr and missed calls accounting in the
 database
 * and to syslog; db accounting shall be done in
 "my_acc" table */
 do_accounting("db|log", "cdr|missed", "m
y_acc");
 }
 }
 ...
 /* later in your script */
 if (...) { /* you don't want accounting anymore */
 /* stop all syslog accounting */
 drop_accounting("log");
 /* or stop missed calls and cdr accounting for s
yslog;
 * normal accounting will still be enabled */
 drop_accounting("log", "missed|cdr");
 /* or stop all types of accounting */
 drop_accounting();
 }
 ...
1.8.3. acc_log_request(comment)
 acc_request reports on a request, for example, it can be used
 to report on missed calls to off-line users who are replied 404
 - Not Found. To avoid multiple reports on UDP request
 retransmission, you would need to embed the action in stateful
 processing.
 Meaning of the parameters is as follows:
 * comment (string) - Comment describing how the request
 completed - this string has to contain a reply code
 followed by a reply reason phrase (ex: "480 Nobody Home").
 Variables are accepted in this string.
 This function can be used from REQUEST_ROUTE, FAILURE_ROUTE,
 BRANCH_ROUTE and LOCAL_ROUTE.
 Example 1.22. acc_log_request usage
...
acc_log_request("403 Destination not allowed");
...
1.8.4. acc_db_request(comment, table)
 Like acc_log_request, acc_db_request reports on a request. The
 report is sent to database at "db_url", in the table referred
 to in the second action parameter.
 Meaning of the parameters is as follows:
 * comment (string) - Comment describing how the request
 completed - this string has to contain a reply code
 followed by a reply reason phrase (ex: "480 Nobody Home").
 Variables are accepted in this string.
 * table (string) - Database table to be used.
 This function can be used from REQUEST_ROUTE, FAILURE_ROUTE,
 BRANCH_ROUTE and LOCAL_ROUTE.
 Example 1.23. acc_db_request usage
...
acc_db_request("Some comment", "Some table");
acc_db_request("$T_reply_code $(<reply>rr)", "acc");
...
1.8.5. acc_aaa_request(comment)
 Like acc_log_request, acc_aaa_request reports on a request. It
 reports to aaa server as configured in "aaa_url".
 Meaning of the parameters is as follows:
 * comment (string) - Comment describing how the request
 completed - this string has to contain a reply code
 followed by a reply reason phrase (ex: "404 Nobody home").
 Variables are accepted in this string.
 This function can be used from REQUEST_ROUTE, FAILURE_ROUTE,
 BRANCH_ROUTE and LOCAL_ROUTE.
 Example 1.24. acc_aaa_request usage
...
acc_aaa_request("403 Destination not allowed");
...
1.8.6. acc_evi_request(comment)
 Like acc_log_request, acc_evi_request reports on a request. The
 report is packed as an event sent through the OpenSIPS Event
 Interface as E_ACC_EVENT if the reply code is a positive one
 (lower than 300), or E_ACC_MISSED_EVENT for negative or no
 codes. More information on this in Exported Events.
 Meaning of the parameters is as follows:
 * comment (string) - Comment describing how the request
 completed - this string has to contain a reply code
 followed by a reply reason phrase (ex: "404 Nobody home")
 This function can be used from REQUEST_ROUTE, FAILURE_ROUTE,
 BRANCH_ROUTE and LOCAL_ROUTE.
 Example 1.25. acc_evi_request usage
...
acc_evi_request("403 Destination not allowed");
...
1.8.7. acc_new_leg()
 Creates a new leg and increments $acc_current_leg only if
 multi-leg accounting is used. All values of the new leg will be
 initialized to null.
 This function can be used from REQUEST_ROUTE, FAILURE_ROUTE,
 BRANCH_ROUTE and LOCAL_ROUTE.
 Example 1.26. acc_new_leg usage
...
 acc_new_leg();
...
1.8.8. acc_load_ctx_from_dlg()
 The function loads and exposes the accounting context of the
 currently in-use dialog. By dialog context, it means, from
 script level, you will read/write the accounting variables from
 the other dialog. The current accounting context is stashed
 until an unload operation is done.
 Note that this functions makes sense only when used together
 with the load_dialog_ctx() function from the dialog module.
 After loading the context of another dialog, by using the
 acc_load_ctx_from_dlg() function, you can also access the
 accounting context of the loaded dialog.
 NOTE: you cannot perform a new load until doing an unload - no
 nested loadings are allowed.
 This function can be used from any type of route.
 Example 1.27. acc_load_ctx_from_dlg usage
...
if ( load_dialog_ctx("$var(callid)") ) {
 # we now have the dialog context of the new dialog
 acc_load_ctx_from_dlg();
 # we have now also the accouting context of that dialog
 xlog("The accounting caller of call '$var(callid)' "
 "is '$acc_extra(caller)'\n");
 acc_unload_ctx_from_dlg();
 unload_dialog_ctx();
}
...
1.8.9. acc_unload_ctx_from_dlg()
 The function off-loads a previosuly loaded accounting context,
 exposing whatever accounting context was present before doing
 the load.
 NOTE: you MUST perform from script an explicit unload for each
 load you did!
 This function can be used from any type of route.
 For usage example, see the acc_load_ctx_from_dlg().
1.9. Exported Events
1.9.1. E_ACC_CDR
 The event raised when a CDR is generated. Note that this event
 will only be triggered if the auto CDR accounting is used.
 Parameters:
 * method - Request method name
 * from_tag - From header tag parameter
 * to_tag - To header tag parameter
 * callid - Message Call-id
 * sip_code - The status code from the final reply
 * sip_reason - The status reason from the final reply
 * time - The timestamp when the call was established
 * evi_extra* - Extra parameters added by the evi_extra
 parameter.
 * evi_extra_bye* - Extra parameters added by the
 evi_extra_bye parameter
 * multi_leg_info* - Extra parameters added by the
 multi_leg_info parameter
 * multi_leg_bye_info* - Extra parameters added by the
 multi_leg_bye_info parameter
 * duration - The call duration in seconds
 * ms_duration - The call duration in milliseconds
 * setuptime - The call setup time in seconds
 * created - The timestamp when the call was created (the
 initial Invite was received)
1.9.2. E_ACC_EVENT
 This event is triggered when old-style accounting is used. It
 is generated when the requests (INVITE and BYE) transaction
 have positive final replies, or by the acc_evi_request()
 function that has a positive reply code in comment.
 Parameters:
 * method - Request method name
 * from_tag - From header tag parameter
 * to_tag - To header tag parameter
 * callid - Message Call-id
 * sip_code - The status code from the final reply
 * sip_reason - The status reason from the final reply
 * time - The timestamp when the transaction was created
 * evi_extra* - Extra parameters added by the evi_extra
 parameter
 * multi_leg_info* - Extra parameters added by the
 multi_leg_info parameter
1.9.3. E_ACC_MISSED_EVENT
 This event is triggered when old-style accounting is used. It
 is generated when the requests (INVITE and BYE) transaction
 have negative final replies, or by the acc_evi_request()
 function that has a negative reply code in comment.
 Parameters:
 * method - Request method name
 * from_tag - From header tag parameter
 * to_tag - To header tag parameter
 * callid - Message Call-id
 * sip_code - The status code from the final reply
 * sip_reason - The status reason from the final reply
 * time - The timestamp when the transaction was created
 * evi_extra* - Extra parameters added by the evi_extra
 parameter
 * multi_leg_info* - Extra parameters added by the
 multi_leg_info parameter
 * created - Timestamp when the call was created
 * setuptime - The call setup time in seconds
Chapter 2. Frequently Asked Questions
 2.1.
 What happened with old report_ack parameter
 The parameter is considered obsolete. It was removed as acc
 module is doing SIP transaction based accouting and according
 to SIP RFC, end2end ACKs are a different transaction (still
 part of the same dialog). ACKs can be individually accouted as
 any other sequential (in-dialog) request.
 $
 2.2.
 What happened with old log_fmt parameter
 The parameter became obsolete with the restructure of the data
 logged by ACC module (refer to the Overview chapter). For
 similar behaviour you can use the extra accouting (see the
 corresponding chapter).
 2.3.
 What happened with old multi_leg_enabled parameter
 The parameter became obsolete by the addition of the new
 multi_leg_info parameter. The multi-leg accouting is
 automatically enabled when multi_leg_info is defined.
 2.4.
 What happened with old src_leg_avp_id and dst_leg_avp_id
 parameters
 The parameter was replaced by the more generic new parameter
 multi_leg_info. This allows logging (per-leg) of more
 information than just dst and src.
 2.5.
 Where can I find more about OpenSIPS?
 Take a look at https://opensips.org/.
 2.6.
 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 OpenSIPS release should be sent to
 <users@lists.opensips.org> and e-mails regarding development
 versions should be sent to <devel@lists.opensips.org>.
 If you want to keep the mail private, send it to
 <users@lists.opensips.org>.
 2.7.
 How can I report a bug?
 Please follow the guidelines provided at:
 https://github.com/OpenSIPS/opensips/issues.
Chapter 3. Contributors
3.1. By Commit Statistics
 Table 3.1. Top contributors by DevScore^(1), authored
 commits^(2) and lines added/removed^(3)
 Name DevScore Commits Lines ++ Lines --
 1. Bogdan-Andrei Iancu (@bogdan-iancu) 222 111 4302 4578
 2. Jan Janak (@janakj) 145 16 5587 5074
 3. Ionut Ionita (@ionutrazvanionita) 139 39 3730 4180
 4. Razvan Crainea (@razvancrainea) 98 65 2702 662
 5. Liviu Chircu (@liviuchircu) 62 48 598 549
 6. Jiri Kuthan (@jiriatipteldotorg) 56 26 2272 660
 7. Daniel-Constantin Mierla (@miconda) 26 23 115 88
 8. Elena-Ramona Modroiu 24 4 2267 5
 9. Henning Westerholt (@henningw) 20 15 184 131
 10. Vlad Patrascu (@rvlad-patrascu) 20 10 292 427
 All remaining contributors: Vlad Paiu (@vladpaiu), Maksym
 Sobolyev (@sobomax), Irina-Maria Stanescu, Karel Kozlik, Andrei
 Pelinescu-Onciul, Dan Pascu (@danpascu), Juha Heinanen
 (@juha-h), Elena-Ramona Modroiu, Ryan Bullock (@rrb3942),
 Ovidiu Sas (@ovidiusas), Walter Doekes (@wdoekes), Sergio
 Gutierrez, Peter Nixon, Alex Massover, Nils Ohlmeier,
 Konstantin Bokarius, Jesus Rodrigues, Julien Blache, Julián
 Moreno Patiño, Peter Lemenkov (@lemenkov), Dusan Klinec
 (@ph4r05), 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
3.2. By Commit Activity
 Table 3.2. Most recently active contributors^(1) to this module
 Name Commit Activity
 1. Razvan Crainea (@razvancrainea) Aug 2010 - Jun 2021
 2. Liviu Chircu (@liviuchircu) Jan 2013 - May 2021
 3. Walter Doekes (@wdoekes) Apr 2021 - Apr 2021
 4. Maksym Sobolyev (@sobomax) Dec 2003 - Jan 2021
 5. Bogdan-Andrei Iancu (@bogdan-iancu) Dec 2003 - May 2020
 6. Vlad Patrascu (@rvlad-patrascu) May 2017 - Nov 2019
 7. Dan Pascu (@danpascu) Jul 2004 - Sep 2018
 8. Peter Lemenkov (@lemenkov) Jun 2018 - Jun 2018
 9. Ionut Ionita (@ionutrazvanionita) Feb 2015 - May 2017
 10. Julián Moreno Patiño Feb 2016 - Feb 2016
 All remaining contributors: Dusan Klinec (@ph4r05), Vlad Paiu
 (@vladpaiu), Ryan Bullock (@rrb3942), Irina-Maria Stanescu,
 Alex Massover, Sergio Gutierrez, Ovidiu Sas (@ovidiusas),
 Henning Westerholt (@henningw), Daniel-Constantin Mierla
 (@miconda), Konstantin Bokarius, Edson Gellert Schubert,
 Elena-Ramona Modroiu, Jesus Rodrigues, Julien Blache, Peter
 Nixon, Juha Heinanen (@juha-h), Jan Janak (@janakj), Jiri
 Kuthan (@jiriatipteldotorg), Andrei Pelinescu-Onciul,
 Elena-Ramona Modroiu, Nils Ohlmeier, Karel Kozlik.
 (1) including any documentation-related commits, excluding
 merge commits
Chapter 4. Documentation
4.1. Contributors
 Last edited by: Razvan Crainea (@razvancrainea), Bogdan-Andrei
 Iancu (@bogdan-iancu), Liviu Chircu (@liviuchircu), Vlad
 Patrascu (@rvlad-patrascu), Peter Lemenkov (@lemenkov), Ionut
 Ionita (@ionutrazvanionita), Ryan Bullock (@rrb3942),
 Irina-Maria Stanescu, Sergio Gutierrez, Henning Westerholt
 (@henningw), Daniel-Constantin Mierla (@miconda), Konstantin
 Bokarius, Edson Gellert Schubert, Elena-Ramona Modroiu, Jan
 Janak (@janakj), Maksym Sobolyev (@sobomax), Elena-Ramona
 Modroiu.
 Documentation Copyrights:
 Copyright © 2009-2013 OpenSIPS Solutions
 Copyright © 2004-2009 Voice Sistem SRL
 Copyright © 2002-2003 FhG FOKUS
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