The CDP Module

Dragos Vingarzan

Fraunhofer

Edited by

Jason Penton

Edited by

Richard Good

Edited by

Carsten Bock

ng-voice GmbH

Table of Contents

1. Admin Guide
1. Overview
2. How it works
3. Dependencies
3.1. Kamailio Modules
3.2. External Libraries or Applications
4. Parameters
4.1. config_file (string)
4.2. latency_threshold (int)
4.3. workerq_length_threshold_percentage (int)
4.4. debug_heavy (int)
5. Functions
5.1. cdp_check_peer(fqdn)
5.2. cdp_has_app([vendorid, ]application)
6. RPC Commands
6.1. cdp.disable_peer
6.2. cdp.enable_peer
7. Configuration Examples
7.1. DiameterPeer.xml example
7.2.
2. Developer Guide
1. Available Functions
1.1. load_cdp(struct cdp_binds *cdpb)
1.2. AAACreateRequest(AAAApplicationId app_id, AAACommandCode command_code, AAAMsgFlag flags, AAASession *session)
1.3. AAACreateResponse(AAAMessage *request)
1.4. AAAReturnCode AAAFreeMessage(AAAMessage **msg)
1.5. AAAReturnCode AAASendMessage(AAAMessage *message, AAATransactionCallback_f *callback_f, void *callback_param)
1.6. AAAReturnCode AAASendMessageToPeer(AAAMessage *message, str *peer_id, AAATransactionCallback_f *callback_f, void *callback_param)
1.7. AAAMessage* AAASendRecvMessage(AAAMessage *message)
1.8. AAAMessage* AAASendRecvMessageToPeer(AAAMessage *message, str *peer_id)
1.9. AAASession* AAACreateSession(void *generic_data)
1.10. AAASession* AAAMakeSession(int app_id,int type,str session_id)
1.11. AAASession* AAAGetSession(str id)
1.12. AAADropSession(AAASession *s)
1.13. AAASessionLock(unsigned int hash)
1.14. AAASessionUnLock(unsigned int hash)
1.15. AAASession* AAACreateClientAuthSession(int is_statefull,AAASessionCallback_f *cb,void *generic_data)
1.16. AAASession* AAACreateServerAuthSession(AAMessage *msg,int is_statefull,AAASessionCallback_f *cb,void *generic_data)
1.17. AAASession* AAAGetAuthSession(str id)
1.18. AAADropAuthSession(AAASession *s)
1.19. AAATerminateAuthSession(AAASession *s)
1.20. AAATransaction* AAACreateTransaction(AAAApplicationId app_id,AAACommandCode cmd_code)
1.21. int AAADropTransaction(AAATransaction *trans)
1.22. AAA_AVP* AAACreateAVP(AAA_AVPCode code, AAA_AVPFlag flags, AAAVendorId vendorId, char *data, size_t length, AVPDataStatus data_status)
1.23. AAAReturnCode AAAAddAVPToMessage(AAAMessage *msg, AAA_AVP *avp, AAA_AVP *position)
1.24. AAA_AVP* AAAFindMatchingAVP(AAAMessage *msg, AAA_AVP *startAvp, AAA_AVPCode avpCode, AAAVendorId vendorId, AAASearchType searchType)
1.25. AAA_AVP * AAAGetNextAVP(AAA_AVP *avp)
1.26. AAAReturnCode AAAFreeAVP(AAA_AVP **avp)
1.27. str AAAGroupAVPS(AAA_AVP_LIST avps)
1.28. AAA_AVP_LIST AAAUnGroupAVPS(str buf)
1.29. AAA_AVP* AAAFindMatchingAVPList(AAA_AVP_LIST avpList, AAA_AVP *startAvp, AAA_AVPCode avpCode, AAAVendorId vendorId, AAASearchType searchType)
1.30. AAAFreeAVPList(AAA_AVP_LIST *avpList)
1.31. int AAAAddRequestHandler(AAARequestHandler_f *f,void *param)
1.32. int AAAAddResponseHandler(AAAResponseHandler_f *f,void *param)
3. Frequently Asked Questions

List of Examples

1.1. Set config_file parameter
1.2. Set latency_threshold parameter
1.3. Set workerq_length_threshold_percentage parameter
1.4. Set debug_heavy parameter
1.5. cdp_check_peer usage
1.6. cdp_check_peer usage
1.7. cdp_check_peer usage
1.8. DiameterPeer.xml example

Chapter 1. Admin Guide

1. Overview

CDP (C Diameter Peer) allows Diameter communication to and from Kamailio. Most of the code is inherited from DISC http://developer.berlios.de/projects/disc/ and OpenIMS and modified for use within Kamailio. A few improvements and new functionality has been added along the way, for example, threshold reporting on Diameter calls that are serviced above a certain threshold.

2. How it works

CDP forks the following processes:

  • 1 x Timer

  • 1 x Acceptor

  • k x Workers (k configurable through configuration)

  • i x Receivers (one for each peer plus one for unknown peers)

CDP is really only an API and offers all of its methods to other modules. No commands are made available to the main Kamailio configuration file. The exported API can be seen in mod.c. The Full Diameter API is in diameter.h and diameter_api.h. IMS-specific constants can be found in diameter_ims.h. The protocol coding is implemented in diameter_avp.c and diameter_msg.c. The diameter state machine is implemented in peerstatemachine.c - there is one of these for each peer which maintains all protocol/application state for each peer. peermanager.c is responsible for peer administration. Diameter transactions are implemented in transaction.c.

There are 2 configuration areas for CDP. Firstly it must be loaded and configured in the Kamailio.cfg file (this is the normal task associated with Kamailio modules). Then, an XML file is required to configure various Diameter parameters and all related peers and the associated routes.

3. Dependencies

3.1. Kamailio Modules

The following modules must be loaded before this module:

  • None.

3.2. External Libraries or Applications

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

  • None.

4. Parameters

4.1. config_file (string)

This is the location of the XML configuration file.

Default value is DiameterPeer.xml.

Example 1.1. Set config_file parameter

...
modparam("cdp", "config_file", "/etc/kamailio/diametercfg.xml")
...

4.2. latency_threshold (int)

The time in ms above which a log error is wrtten to log file for long CDP transactions.

Default value is 500.

Example 1.2. Set latency_threshold parameter

...
modparam("cdp", "latency_threshold", 1000)
...

4.3. workerq_length_threshold_percentage (int)

The threshold of the length of the worker queue as a percentage of the maximum queue size - when exceeded a warning is written to the log file. 0 means disabled

Default value is 0.

Example 1.3. Set workerq_length_threshold_percentage parameter

...
modparam("cdp", "workerq_length_threshold_percentage", 25)
...

4.4. debug_heavy (int)

Flag to enable a more verbose log, which tells you more details about peers. This is disabled by default because it brings to a log too much verbose in DBG mode Can be enabled upon needs

Default value is 0.

Example 1.4. Set debug_heavy parameter

...
modparam("cdp", "debug_heavy", 1)
...

5. Functions

5.1.  cdp_check_peer(fqdn)

The method checks, if a specific peer is connected and ready.

Meaning of the parameter is as follows:

  • fqdn - the Fully qualified domai name of the peer, that should be checked. The parameter may contain pseudovariables.

Example 1.5. cdp_check_peer usage

...
if(!cdp_check_peer("hss.mnc001.mcc001.3gppnetwork.org")) {
	send_reply("503", "HSS not ready");
	exit;
}
...

5.2.  cdp_has_app([vendorid, ]application)

The method checks, if any peer with this specific application has connected.

Meaning of the parameters are as follows:

  • vendorid - The Vendor ID of the App

    application - The Application ID

Example 1.6. cdp_check_peer usage

...
if(!cdp_has_app("10415", "4")) {
	send_reply("503", "Charging Server not ready");
	exit;
}
...

Example 1.7. cdp_check_peer usage

...
if(!cdp_has_app("16777216")) {
	send_reply("503", "Cx/Dx Interface not ready");
	exit;
}
...

6. RPC Commands

exported RPC commands.

6.1. cdp.disable_peer

instantly disable a particular diameter peer.

6.2. cdp.enable_peer

enabe/re-enable a diameter peer

7. Configuration Examples

7.1. DiameterPeer.xml example

This is an example CDP configuration file. The location of this file is configured as a CDP parameter (config_file) - See section 4.1 Above

Example 1.8. DiameterPeer.xml example

<?xml version="1.0" encoding="UTF-8"?>
<!-- 

 DiameterPeer Parameters 
  - FQDN - FQDN of this peer, as it should apper in the Origin-Host AVP
  - Realm - Realm of this peer, as it should apper in the Origin-Realm AVP
  - Vendor_Id - Default Vendor-Id to appear in the Capabilities Exchange
  - Product_Name - Product Name to appear in the Capabilities Exchange 
  - AcceptUnknownPeers - Whether to accept (1) or deny (0) connections from peers with FQDN 
    not configured below
  - DropUnknownOnDisconnect - Whether to drop (1) or keep (0) and retry connections (until restart)
    unknown peers in the list of peers after a disconnection.
  - Tc - Value for the RFC3588 Tc timer - default 30 seconds
  - Workers - Number of incoming messages processing workers forked processes.
  - Queue - Length of queue of tasks for the workers:
     - too small and the incoming messages will be blocked too often;
     - too large and the senders of incoming messages will have a longer feedback loop to notice that
     this Diameter peer is overloaded in processing incoming requests;
     - a good choice is to have it about 2 times the number of workers. This will mean that each worker
     will have about 2 tasks in the queue to process before new incoming messages will start to block.
  - ConnectTimeout - time in seconds to wait for an outbound TCP connection to be established.
  - TransactionTimeout - time in seconds after which the transaction timeout callback will be fired,
    when using transactional processing.
  - SessionsHashSize - size of the hash-table to use for the Diameter sessions. When searching for a 
    session, the time required for this operation will be that of sequential searching in a list of 
    NumberOfActiveSessions/SessionsHashSize. So higher the better, yet each hashslot will consume an
    extra 2xsizeof(void*) bytes (typically 8 or 16 bytes extra).
  - DefaultAuthSessionTimeout - default value to use when there is no Authorization Session Timeout 
  AVP present.
  - MaxAuthSessionTimeout - maximum Authorization Session Timeout as a cut-out measure meant to
  enforce session refreshes.
      
 -->
<DiameterPeer 
        FQDN="pcscf.ims.smilecoms.com"
        Realm="ims.smilecoms.com"
        Vendor_Id="10415"
        Product_Name="CDiameterPeer"
        AcceptUnknownPeers="0"
        DropUnknownOnDisconnect="1"
        Tc="30"
        Workers="4"
        QueueLength="32"
        ConnectTimeout="5"
        TransactionTimeout="5"
        SessionsHashSize="128"
        DefaultAuthSessionTimeout="60"
        MaxAuthSessionTimeout="300"
>

        <!--
                Definition of peers to connect to and accept connections from. For each peer found in here
                a dedicated receiver process will be forked. All other unkwnown peers will share a single
                receiver. NB: You must have a peer definition for each peer listed in the realm routing section
        -->
        <Peer FQDN="pcrf1.ims.smilecoms.com" Realm="ims.smilecoms.com" port="3868"/>
        <Peer FQDN="pcrf2.ims.smilecoms.com" Realm="ims.smilecoms.com" port="3868"/>
        <Peer FQDN="pcrf3.ims.smilecoms.com" Realm="ims.smilecoms.com" port="3868"/>
        <Peer FQDN="pcrf4.ims.smilecoms.com" Realm="ims.smilecoms.com" port="3868"/>
        <Peer FQDN="pcrf5.ims.smilecoms.com" Realm="ims.smilecoms.com" port="3868"/>
        <Peer FQDN="pcrf6.ims.smilecoms.com" Realm="ims.smilecoms.com" port="3868"/>

        <!--
                Definition of incoming connection acceptors. If no bind is specified, the acceptor will bind
                on all available interfaces.
        -->
        <Acceptor port="3868"  />
        <Acceptor port="3869" bind="127.0.0.1" />
        <Acceptor port="3870" bind="192.168.1.1" />

        <!--
                Definition of Auth (authorization) and Acct (accounting) supported applications. This
                information is sent as part of the Capabilities Exchange procedures on connecting to
                peers. If no common application is found, the peers will disconnect. Messages will only
                be sent to a peer if that peer actually has declared support for the application id of 
                the message.
        -->
        <Acct id="16777216" vendor="10415" />
        <Acct id="16777216" vendor="0" />
        <Auth id="16777216" vendor="10415"/>
        <Auth id="16777216" vendor="0" />

        <!-- 
                Supported Vendor IDs - list of values which will be sent in the CER/CEA in the
                Supported-Vendor-ID AVPs
        -->
        <SupportedVendor vendor="10415" />

        <!--
                Realm routing definition.
                Each Realm can have a different table of peers to route towards. In case the Destination
                Realm AVP contains a Realm not defined here, the DefaultRoute entries will be used.

                Note: In case a message already contains a Destination-Host AVP, Realm Routeing will not be
                applied.
                Note: Routing will only happen towards connected and application id supporting peers.
                
                The metric is used to order the list of prefered peers, while looking for a connected and
                application id supporting peer. In the end, of course, just one peer will be selected.
        -->
        <Realm name="ims.smilecoms.com">
                <Route FQDN="pcrf1.ims.smilecoms.com" metric="3"/>
                <Route FQDN="pcrf2.ims.smilecoms.com" metric="5"/>
        </Realm>

        <Realm name="temp.ims.smilecoms.com">
                <Route FQDN="pcrf3.ims.smilecoms.com" metric="7"/>
                <Route FQDN="pcrf4.ims.smilecoms.com" metric="11"/>
        </Realm>
        <DefaultRoute FQDN="pcrf5.ims.smilecoms.com" metric="15"/>
        <DefaultRoute FQDN="pcrf6.ims.smilecoms.com" metric="13"/>


</DiameterPeer>

Chapter 2. Developer Guide

Table of Contents

1. Available Functions
1.1. load_cdp(struct cdp_binds *cdpb)
1.2. AAACreateRequest(AAAApplicationId app_id, AAACommandCode command_code, AAAMsgFlag flags, AAASession *session)
1.3. AAACreateResponse(AAAMessage *request)
1.4. AAAReturnCode AAAFreeMessage(AAAMessage **msg)
1.5. AAAReturnCode AAASendMessage(AAAMessage *message, AAATransactionCallback_f *callback_f, void *callback_param)
1.6. AAAReturnCode AAASendMessageToPeer(AAAMessage *message, str *peer_id, AAATransactionCallback_f *callback_f, void *callback_param)
1.7. AAAMessage* AAASendRecvMessage(AAAMessage *message)
1.8. AAAMessage* AAASendRecvMessageToPeer(AAAMessage *message, str *peer_id)
1.9. AAASession* AAACreateSession(void *generic_data)
1.10. AAASession* AAAMakeSession(int app_id,int type,str session_id)
1.11. AAASession* AAAGetSession(str id)
1.12. AAADropSession(AAASession *s)
1.13. AAASessionLock(unsigned int hash)
1.14. AAASessionUnLock(unsigned int hash)
1.15. AAASession* AAACreateClientAuthSession(int is_statefull,AAASessionCallback_f *cb,void *generic_data)
1.16. AAASession* AAACreateServerAuthSession(AAMessage *msg,int is_statefull,AAASessionCallback_f *cb,void *generic_data)
1.17. AAASession* AAAGetAuthSession(str id)
1.18. AAADropAuthSession(AAASession *s)
1.19. AAATerminateAuthSession(AAASession *s)
1.20. AAATransaction* AAACreateTransaction(AAAApplicationId app_id,AAACommandCode cmd_code)
1.21. int AAADropTransaction(AAATransaction *trans)
1.22. AAA_AVP* AAACreateAVP(AAA_AVPCode code, AAA_AVPFlag flags, AAAVendorId vendorId, char *data, size_t length, AVPDataStatus data_status)
1.23. AAAReturnCode AAAAddAVPToMessage(AAAMessage *msg, AAA_AVP *avp, AAA_AVP *position)
1.24. AAA_AVP* AAAFindMatchingAVP(AAAMessage *msg, AAA_AVP *startAvp, AAA_AVPCode avpCode, AAAVendorId vendorId, AAASearchType searchType)
1.25. AAA_AVP * AAAGetNextAVP(AAA_AVP *avp)
1.26. AAAReturnCode AAAFreeAVP(AAA_AVP **avp)
1.27. str AAAGroupAVPS(AAA_AVP_LIST avps)
1.28. AAA_AVP_LIST AAAUnGroupAVPS(str buf)
1.29. AAA_AVP* AAAFindMatchingAVPList(AAA_AVP_LIST avpList, AAA_AVP *startAvp, AAA_AVPCode avpCode, AAAVendorId vendorId, AAASearchType searchType)
1.30. AAAFreeAVPList(AAA_AVP_LIST *avpList)
1.31. int AAAAddRequestHandler(AAARequestHandler_f *f,void *param)
1.32. int AAAAddResponseHandler(AAAResponseHandler_f *f,void *param)

1. Available Functions

1.1. load_cdp(struct cdp_binds *cdpb)

Find and load the CDiameterPeer function bindings

Meaning of the parameters is as follows:

  • struct cdp_binds *cdpb - structure holding function pointers

1.2. AAACreateRequest(AAAApplicationId app_id, AAACommandCode command_code, AAAMsgFlag flags, AAASession *session)

Create a Diameter request

Meaning of the parameters is as follows:

  • AAAApplicationId app_id - structure holding function pointers

  • AAACommandCode command_code - command code for the message

  • AAAMsgFlag flags - flags to be set

  • AAASession *session - session id to be set

1.3. AAACreateResponse(AAAMessage *request)

Create a Diameter response to a give request

Meaning of the parameters is as follows:

  • AAAMessage *request - request that this response is for

1.4. AAAReturnCode AAAFreeMessage(AAAMessage **msg)

Free up memory used by Diameter message

Meaning of the parameters is as follows:

  • AAAMessage **msg - pointer to the pointer containing the message

1.5. AAAReturnCode AAASendMessage(AAAMessage *message, AAATransactionCallback_f *callback_f, void *callback_param)

Send Diameter message asynchronously

Meaning of the parameters is as follows:

  • AAAMessage *message - request message to be sent

  • AAATransactionCallback_f *callback_f - When the response is received, the callback_f(callback_param,...) is called

  • void *callback_param - generic param for callback

1.6. AAAReturnCode AAASendMessageToPeer(AAAMessage *message, str *peer_id, AAATransactionCallback_f *callback_f, void *callback_param)

Send Diameter message to specific peer asynchronously

Meaning of the parameters is as follows:

  • AAAMessage *message - request message to send

  • str *peer_id - FQDN of peer to send to

  • AAATransactionCallback_f *callback_f - When the response is received, the callback_f(callback_param,...) is called

  • void *callback_param - generic param for callback

1.7. AAAMessage* AAASendRecvMessage(AAAMessage *message)

Send Diameter message synchronously. This blocks until a response is received or a transactional time-out happens.

Meaning of the parameters is as follows:

  • AAAMessage *message - request message to be sent

1.8. AAAMessage* AAASendRecvMessageToPeer(AAAMessage *message, str *peer_id)

Send Diameter message to specific peer synchronously. This blocks until a response is received or a transactional time-out happens.

Meaning of the parameters is as follows:

  • AAAMessage *message - request message to send

  • str *peer_id - FQDN of peer to send to.

1.9. AAASession* AAACreateSession(void *generic_data)

Create a generic Diameter session

Meaning of the parameters is as follows:

  • void *generic_data - data to be save to session, useful for attaching app specific data to the session

1.10. AAASession* AAAMakeSession(int app_id,int type,str session_id)

Create a Diameter session using already known params

Meaning of the parameters is as follows:

  • int app_id - app id to use

  • int type - type of session

  • str session_id - session ID

1.11. AAASession* AAAGetSession(str id)

Retrieve a Diameter session. Returns with a lock on AAASession->hash - Unlock when done working with result

Meaning of the parameters is as follows:

  • str id - Diameter session ID to search for

1.12. AAADropSession(AAASession *s)

Drop a Diameter session - deallocating all memory

Meaning of the parameters is as follows:

  • AAASession *s - session to drop

1.13. AAASessionLock(unsigned int hash)

Lock a Diameter session (hash table row)

Meaning of the parameters is as follows:

  • unsigned int hash - hash to lock

1.14. AAASessionUnLock(unsigned int hash)

Unlock a Diameter session (hash table row)

Meaning of the parameters is as follows:

  • unsigned int hash - hash to unlock

1.15. AAASession* AAACreateClientAuthSession(int is_statefull,AAASessionCallback_f *cb,void *generic_data)

Creates an Authorisation session for the Client. It generate a new ID and adds to the list of CDP sessions. Returns with a lock on AAASession->hash

Meaning of the parameters is as follows:

  • int is_statefull - is session stateful or not

  • AAASessionCallback_f *cb - callback function on session state change

  • void *generic_data - generic callback data

1.16. AAASession* AAACreateServerAuthSession(AAMessage *msg,int is_statefull,AAASessionCallback_f *cb,void *generic_data)

Create authorisation session for the Server. Generates a new ID and add to CDP list of sessions. Returns with a lock on AAASession->hash.

Meaning of the parameters is as follows:

  • AAMessage *msg - request message from which to create server session

  • int is_statefull - is session stateful or not

  • AAASessionCallback_f *cb - callback function on session state change

  • void *generic_data - generic callback data

1.17. AAASession* AAAGetAuthSession(str id)

Look for an authorisation session. Returns with lock on AAASession->hash

Meaning of the parameters is as follows:

  • str id - ID of Auth session to search for

1.18. AAADropAuthSession(AAASession *s)

Deallocates the memory taken by a Authorisation session

Meaning of the parameters is as follows:

  • AAASession *s - Session to drop and deallocate memory for

1.19. AAATerminateAuthSession(AAASession *s)

Sends a service terminated event to the session

Meaning of the parameters is as follows:

  • AAASession *s - authhorisation session to terminate

1.20. AAATransaction* AAACreateTransaction(AAAApplicationId app_id,AAACommandCode cmd_code)

Create a AAATransaction for the given request

Meaning of the parameters is as follows:

  • AAAApplicationId app_id - ID of the request's application

  • AAACommandCode cmd_code - request's code

1.21. int AAADropTransaction(AAATransaction *trans)

Deallocates the memory taken by AAA transaction

Meaning of the parameters is as follows:

  • AAATransaction *trans - transaction to free

1.22. AAA_AVP* AAACreateAVP(AAA_AVPCode code, AAA_AVPFlag flags, AAAVendorId vendorId, char *data, size_t length, AVPDataStatus data_status)

Create new AVP and return pointer to it

Meaning of the parameters is as follows:

  • AAA_AVPCode code - code for new AVP

  • AAA_AVPFlag flags - flags to set

  • AAAVendorId vendorId - vendor ID for AVP

  • char *data - generic payload data

  • size_t length - length of payload data

  • AVPDataStatus data_status - what to do with the payload, duplicate, free with message, etc

1.23. AAAReturnCode AAAAddAVPToMessage(AAAMessage *msg, AAA_AVP *avp, AAA_AVP *position)

Find and load the CDiameterPeer function bindings

Meaning of the parameters is as follows:

  • AAAMessage *msg - the message to add to

  • AAA_AVP *avp - the AVP to add

  • AAA_AVP *position - AVP to add after. if NULL, we add at beginning

1.24. AAA_AVP* AAAFindMatchingAVP(AAAMessage *msg, AAA_AVP *startAvp, AAA_AVPCode avpCode, AAAVendorId vendorId, AAASearchType searchType)

Find and load the CDiameterPeer function bindings

Meaning of the parameters is as follows:

  • AAAMessage *msg - the message to search in

  • AAA_AVP *startAvp - at which AVP to start the search. usefull for looking for more of the same name

  • AAA_AVPCode avpCode - AVP code to match

  • AAAVendorId vendorId - AVP vendor ID to match

  • AAASearchType searchType - look forward or backward

1.25. AAA_AVP * AAAGetNextAVP(AAA_AVP *avp)

Find and load the CDiameterPeer function bindings

Meaning of the parameters is as follows:

  • AAA_AVP *avp - reference AVP

1.26. AAAReturnCode AAAFreeAVP(AAA_AVP **avp)

Find and load the CDiameterPeer function bindings

Meaning of the parameters is as follows:

  • AAA_AVP **avp - pointer memory to be freed

1.27. str AAAGroupAVPS(AAA_AVP_LIST avps)

Groups a list of AVPS into a data buffer

Meaning of the parameters is as follows:

  • AAA_AVP_LIST avps - list of AVPS to group

1.28. AAA_AVP_LIST AAAUnGroupAVPS(str buf)

Ungroup a data buffer into a list of AVPs

Meaning of the parameters is as follows:

  • str buf - payload to ungroup list from

1.29. AAA_AVP* AAAFindMatchingAVPList(AAA_AVP_LIST avpList, AAA_AVP *startAvp, AAA_AVPCode avpCode, AAAVendorId vendorId, AAASearchType searchType)

Find an AVP in an AVP list

Meaning of the parameters is as follows:

  • AAA_AVP_LIST avpList - AVP list to search

  • AAA_AVP *startAvp - where to start the search

  • AAA_AVPCode avpCode - AVP code to match

  • AAAVendorId vendorId - vendor ID to match

  • AAASearchType searchType - forwards or backwards

1.30. AAAFreeAVPList(AAA_AVP_LIST *avpList)

Free AVP list and all its members

Meaning of the parameters is as follows:

  • AAA_AVP_LIST *avpList - list to be freed

1.31. int AAAAddRequestHandler(AAARequestHandler_f *f,void *param)

add a #AAARequestHandler_f callback to request being received

Meaning of the parameters is as follows:

  • AAARequestHandler_f *f - callback function to be called on incoming requests

  • void *param - generic data passed to callback function

1.32. int AAAAddResponseHandler(AAAResponseHandler_f *f,void *param)

add a #AAAResponseHandler_f callback to responses being received

Meaning of the parameters is as follows:

  • AAAResponseHandler_f *f - callback function to be called on incoming responses

  • void *param - generic data to be bassed to callback function

Chapter 3. Frequently Asked Questions

3.1. Where can I find more about Kamailio?
3.2. Where can I post a question about this module?
3.3. How can I report a bug?

3.1.

Where can I find more about Kamailio?

Take a look at https://www.kamailio.org/.

3.2.

Where can I post a question about this module?

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

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

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

3.3.

How can I report a bug?

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