In this section:
The
P-Charging-Vector flags:
createPChargingVector
at IP Signaling ProfilestorePChargingVector
at IP Signaling ProfilepChargingVectorHeader
transparency flag at IP Signaling ProfileinterOperatorId
flag at Trunk GroupThe Transparency Profile is the recommended method of configuring transparency on the SBC Core for new deployments as well as when applying additional transparency configurations to existing deployments. Do not use IP Signaling Profile flags in these scenarios because the flags will be retired in upcoming releases.
Refer to the SBC SIP Transparency Implementation Guide for additional information.
A P-CSCF does not transparently pass a P-Charging-Vector header received from UE in any request to IMS core. P-CSCF creates a new P-Charging-Vector header for each request (REGISTER, INVITE, and OOD non-INVITE) containing a unique "icid-value" and "icid-generated-at" parameters and insert the same in the outgoing request towards the core.
The
storeICID
is enabled, all the CDRs (ATTEMPT/START/STOP) contains the same ICID value for Crankback/Redirected call in protocol specific string as well as in the original call records.This is achieved by:
pChargingVectorHeader
transparency flag at the IP Signaling Profile attached with the TG, towards the IMS Core side.createPChargingVector
flag at the IP Signaling Profile attached with the TG, towards the IMS Core side.storePChargingVector
flag at the IP Signaling Profile attached with the TG, towards the UE.In addition, P-CSCF includes orig-IOI
parameter in the newly-created PCV for REGISTER and INVITE messages. The value for orig-IOI
parameter is configurable through InterOperatorID
parameter from sipTrunkGroup
object.
The
pChargingVectorHeader
transparency flag in the IP Signaling Profile attached with the TG, towards the IMS Core side.createPChargingVector
flag in the IP Signaling Profile attached with the TG, towards the IMS Core side.storePChargingVector
flag in the IP Signaling Profile attached with the TG, both towards the UE side and IMS Core side.When the P-Charging-Vector Header transparency option is selected in the IP Signaling Profile screen, the
When the Create P-Charging-Vector option is selected in the IP Signaling Profile screen, the
The
storePChargingVector
” flag provisioned from the IP Signaling Profile at ingress or egress side.If the
storePChargingVector
flag is disabled, the The CLI syntax to enable/disable the createPChargingVector
flag for P-CSCF and IBCF is shown below:
% set profiles signaling ipSignalingProfile <profile name towards core> commonIpAttributes flags createPChargingVector <enable | disable>
For populating interOperatorID
parameter, use:
% set addressContext default zone defaultSigZone sipTrunkGroup <EGRESS_TG_NAME> signaling interOperatorID <interoperator ID for MGCF>
The CLI syntax to enable/disable pChargingVectorHeader
transparency flag for IBCF is shown below:
% set profiles signaling ipSignalingProfile <egress name> commonIpAttributes transparencyFlags pChargingVectorHeader <enable | disable>
The CLI syntax to enable/disable the storePChargingVector
flag for P-CSCF and IBCF is shown below:
% set profiles signaling ipSignalingProfile <profile name towards core> commonIpAttributes flags storePChargingVector <enable | disable>
A P-Charging-Vector header is used to correlate the charging records generated by different entities on the path of the call. To include the information of the transit carriers for charging purposes, The P-Charging-Vector header can also carry a new parameter transit-IOI
, if the transit carriers are involved in a call. The Transit Inter Operator Identifier (Transit-IOI) is shared between sending, transit and receiving networks, service providers, or content providers. The transit-IOI
header field parameter is an indexed value that is incremented each time a value is added. If P-Charging-Vector transparency is enabled or create/store P-Charging-Vector is enabled, the
Based on local policy, the
transitIOI
parameter located under SIP Trunk Group's signaling
object to populate the specified value in the P-Charging-Vector header. This parameter must be configured on the Trunk Group facing the transit network and the configured value is inserted on the other leg in case of an egress message.For configuration details, refer to:
The SBC Core includes a signaling profile, NNI Profile, in support of the Inter-IMS Network to Network Interface (II-NNI) and interworking of charging parameters for SIP to/from SIP-I/T/GWGW/ISUP calls. The NNI Profile is attached to a ingress SIP Trunk Group. The following sections describe how the SBC performs SIP to SIP-I and SIP-I to SIP interworking based on the NNI Profile.
The II-NNI standard is commonly used in Japan telecom network.
The maximum number of 32 NNI profiles are supported.
The SBC supports the following functionality only when a SIP message containing the "P-Charging-Vector" header is received and processed by the SBC on the SIP side of a SIP to SIP-I/T or a SIP to SIP-GWGW-SIP-I/T/ISUP call.
The following call flows are supported when the call is originated from Mobile SIP side:
When an NNI Profile is configured for a SIP Trunk Group and the SBC receives INVITE messages with P-Charging-Vector header (which contains ttc-charging-parameter) for this SIP Trunk Group, the SBC does not send these parameters as part of "P-Charging-Vector" header on the other side.
chargeAreaInformation (CAI)
If the received ttc-charging-parameter contains chargeAreaInformation
(CAI) sub-parameter, the SBC includes the received CAI value in the policy request message towards PSX and also sends it in the ISUP IAM message body (as Message-Area-Information parameter - parameter code = 253) of SIP-I/T or over GW-GW message.
If the received ttc-charging-parameter does not contain CAI sub-parameter but configured it under NNI profile, the SBC includes the configured CAI value in the policy request message towards PSX and also sends it in the ISUP IAM message body (as Message-Area-Information parameter - parameter code = 253) of SIP-I/T or over GW-GW message.
carrierInformationTransfer (CARI)
If the received ttc-charging-parameter contains carrierInformationTransfer
(CARI) sub-parameter with the category as "olec", the SBC includes the received CARI values in the policy request message towards PSX and also sends it in the ISUP IAM message body (as Carrier-Information-Transfer parameter - parameter code = 241) of SIP-I/T or over GW-GW message.
If the received ttc-charging-parameter does not contain (CARI) sub-parameter (or) received CARI value other than cat-olec and CARI value is configured in the NNI profile, SBC includes the configured CARI value in the policy request message towards PSX and also sends it in the ISUP IAM message body (as Carrier-Information-Transfer parameter - parameter code = 241) of SIP-I/T or over GW-GW message.
AdditionalPartyCategory (AUC)
If the received ttc-charging-parameter contains Additional Party category (AUC) values (additionalPartyCategoryFirst/Second)
, the SBC does not honor the received values. If additionalPartyCategoryFirst
and additionalPartyCategorySecond
values are configured under NNI Profile, the SBC sends it in the ISUP IAM message body (as ISUP Supplementary User Type parameter - parameter code = 243) of SIP-I/T or over GW-GW message.
ForwardCallIndicator (FCI)
If the received ttc-charging-parameter contains forwardCallIndicator
(FCI)
(both nationalCallIndicator
and originatingIsdnIndicator
values), the SBC includes the configured FCI values in the policy request message towards PSX and also sends it in the ISUP IAM message body (as part of ISUP Forward Call Indicator parameter) of SIP-I/T or over GW-GW message.
The SBC behavior when receiving "P-charging-vector" headers and carrierInformationTransfer
parameters is explained in the following table.
Example
ChargeAreaInformation: P-Charging-Vector: icicd-value=ABC;icid-generated-at=DEF;orig-ioi=GHI;ttc-charging-params="cai=32000" Carrier information transfer as: P-Charging-Vector: icicd-value=ABC;icid-generated-at=DEF;orig-ioi=GHI;ttc-charging-params="cai=32000;cari=iecind-3,cat-olec,code-0901" Additional party category as: P-Charging-Vector: icicd-value=ABC;icid-generated-at=DEF;orig-ioi=GHI;ttc-charging-params="cai=32000;cari=iecind-3,cat-olec,code-0901;auc=mobile_2-3;auc=fixed-1-2" Forward Call Indicators as: P-Charging-Vector: icicd-value=ABC;icid-generated-at=DEF;orig-ioi=GHI;ttc-charging-params="cai=32000;cari=iecind-3,cat-olec,code-0901;auc=mobile_2-3;auc=fixed-1-2;fci=nii-nat,oa-isdn"
If the parameter chargeAreaInformation
is received by the SBC from SIP-I/T side with either of ACM/CPG/ANM ISUP message body or over GW-GW message, the SBC uses it to populate the parameter chargeAreaInformation
(of "P-Charging-Vector" header) and sends it in a SIP message as per existing functionality.
If the parameter carrierInformationTransfer
is received by the SBC from SIP-I/T side with either of ACM/CPG ISUP message body or over GW-GW message and the parameter contains carrierCategory
as "tlec", the SBC processes the parameter as follows:
carrierCategory
and carrierInfo
, and populates carrierInformationTransfer
category as "tlec". If the parameter carrierInformationTransfer
does not contain "tlec", the carrierInformationTransfer
of "P-Charging-Vector" header must not be set.carrierInformationTransfer
in "P-Charging-Vector" header in a SIP message.If the parameters additionalPartyCategoryFirst/Second
are received by the SBC from SIP-I/T side with either ACM/CPG/ANM/CON ISUP message body or received over GW-GW message, the SBC uses them to populate additionalPartyCategoryFirst/Second
parameters of "P-Charging-Vector" header and send them in a SIP message.