Field Descriptions for CDRs in P-GW

This chapter describes the CDR fields supported by the system for use in PGW-CDRs.

The following information is provided for each field:
  • Description: The field’s description.
  • Format: The field’s data format.
  • Length: The field’s size, in bytes.
All PGW-CDRs are encoded using the ASN.1 format and are sent to the charging gateway function (CGF) using the GPRS Tunneling Protocol Prime (GTPP) as defined in the following standards:
  • 3GPP TS 29.060
  • 3GPP TS 32.015
  • 3GPP TS 32.215
  • 3GPP TS 32.251 (v8.5.0, v8.6.0)
  • 3GPP TS 32.298 (v8.4.0, v8.5.0) (PGW-CDRs)

Also see the Field Reference for CDRs in P-GW chapter for information on CDR fields supported in PGW-CDRs.

IMPORTANT:

The behavior for several of the fields supported in CDRs can be modified. For more information, refer to the gtpp attributes command in the Command Line Interface Reference.

CDR Fields


Access Point Name Network Identifier

The network identifier portion of the access point name (APN). This APN is sent to the S-GW by the MME and is relayed to the P-GW in the EGTP Create Session Request message.

The APN string may consist of alphabetic characters (“A...Z”, “a...z”), digits (“0...9”) and the dash “-”.

Format

IA5 string

Length

1–63 bytes


APN Selection Mode

An index indicating how the APN was selected.

The following APN selection mode indexes are possible:
  • 0: MS or network provided APN, subscription verified
  • 1: MS provided APN, subscription not verified
  • 2: Network provided APN, subscription not verified

Format

Enumerated

Length

1 byte


Cause for Record Closing

This field contains a reason for the closure of the CDR.

Some of the possible reasons are as follows:
  • normalRelease (0): The PDP context was terminated normally through a PDP context release (end of context or SGSN change) or a GPRS detach.
  • abnormalRelease (4): The PDP context was abnormally terminated.
  • volumeLimit (16): The PDP context was terminated due to exceeding volume limit.
  • timeLimit (17): The PDP context was terminated due to exceeding time limit.
  • servingNodeChange (18): The PDP context was terminated due to Serving Node Address List Overflow.
  • maxChangeCond (19): The PDP context was terminated due to exceeding the changed condition limit.
  • managementIntervention (20): The record was closed due to an O&M request.
  • rATChange (22): The PDP context was terminated due to change in RAT.
  • mSTimeZoneChange (23): The PDP context was terminated due to change in time zone of MS.
  • PLMNChange (24): The PDP context was terminated due to change of PLMN-ID.
  • Partial record generation: A partial CDR was generated for reasons such as the reaching of data volume or time (duration) limits, or reaching the maximum number of charging condition changes.

Format

Integer

Length

1 byte


Charging Characteristics

Lists the charging characteristics applied to the PDP context by the P-GW.

Format

Octet string

Length

2 bytes


Charging Characteristics Selection Mode

This field specifies how the Charging Characteristics were selected.

Supported values:
  • servingNodeSupplied (0)
  • homeDefault (3)
  • roamingDefault (4)
  • visitingDefault (5)
  • AAASupplied (6)
  • GWOverride (7)

Note: The values AAASupplied (6) and GWOverride (7) are only supported in the custom40 GTPP dictionary.

Format

Enumerated

Length

1 byte


Charging ID

This field contains a charging identifier, which can be used together with the P-GW address to identify all records involved in a single bearer context. The Charging ID is generated by the P-GW during bearer context activation and is transferred to the context requesting P-GW.

Format

Integer

Length

1–5 bytes


Diagnostics

This field is included in the CDR when the bearer is released and when the option gtpp attribute diagnostics is configured.

Format

Integer

Length

Variable


Duration

This field contains the duration in seconds for the record. The value is reset for each new partial CDR.

This value is converted from the internal representation in milliseconds to an integer value representing only seconds. The mechanism for this conversion (ceiling, floor, round-off) can be configured.

Format

Integer

Length

1–5 bytes


Dynamic Address Flag

This field indicates that the PDN address has been dynamically allocated for that particular IP CAN bearer (PDN connection). This field is missing if the address is static.

Format

Boolean

Length

1 byte


List of Service Data

This list includes one or more service data containers. Each container is associated with a service condition change on a service data flow (categorized per rating group or per combination of the rating group and service id) within this IP CAN bearer.

Format

Sequence

Length

Variable


Data Service Volume Block

This is a service data container. A container is associated with a service condition change on a service data flow (categorized per rating group or per combination of the rating group and service id) within this IP CAN bearer.

A service data container may include the fields in the following subsections.

Format

Sequence

Length

Variable


Charging Rulebase Name

The name of the Rulebase used for charging. This is the group name of charging rules.

Format

IA5string

Length

1–16 bytes


Data Volume FBC Downlink

The number of octets transmitted during the use of the packet data services in the downlink direction.

Format

Integer

Length

1–5 bytes


Data Volume FBC Uplink

The number of octets received during the use of the packet data services in the uplink direction.

Format

Integer

Length

1–5 bytes


Failure Handling Continue

This parameter is included when the failure handling procedure has been executed and new containers are opened. This parameter shall be included in the first and subsequent containers opened after the failure handling execution.

Format

Boolean

Length

1 byte


Local Sequence Number (LOSDV)

A service data container sequence number. It starts from 1 and is increased by 1 for each service data container generated within the lifetime of this IP-CAN bearer.

Format

Integer

Length

1–5 bytes


QoS Information Negotiated

For an IP-CAN bearer-specific container, this contains the authorized QoS for the IP-CAN bearer. The first container for each QCI/ARP pair includes this field. In following containers this field is present if the previous change condition is “QoS change”.

The field contains a sequence of fields which are described in the following subsections:
  • qCI [1] Integer
  • maxRequestedBandwithUL [2] Integer Optional
  • maxRequestedBandwithDL [3] Integer Optional
  • guaranteedBitrateUL [4] Integer Optional
  • guaranteedBitrateDL [5] Integer Optional
  • aRP [6] Integer Optional

Format

Sequence

Length

Variable


Allocation and Retention Priority (ARP)

The ARP contains information about the priority level (scalar), the pre-emption capability (flag) and the pre-emption vulnerability (flag). The primary purpose of ARP is to decide whether a bearer establishment or modification request can be accepted, or needs to be rejected due to resource limitations (typically available radio capacity for GBR bearers). Range: 1-15.

Format

Integer

Length

1–5 bytes


Guaranteed Bit Rate (GBR) Downlink

The GBR denotes the downlink bit rate that can be expected to be provided by a GBR bearer.

Format

Integer

Length

1–5 bytes


Guaranteed Bit Rate (GBR) Uplink

The GBR denotes the uplink bit rate that can be expected to be provided by a GBR bearer.

Format

Integer

Length

1–5 bytes


Maximum Bit Rate (MBR) Downlink

The MBR limits the downlink bit rate that can be expected to be provided by a GBR bearer (for example, excess traffic may get discarded by a rate shaping function).

Format

Integer

Length

1–5 bytes


Maximum Bit Rate (MBR) Uplink

The MBR limits the uplink bit rate that can be expected to be provided by a GBR bearer.

Format

Integer

Length

1–5 bytes


Quality Class Identifier (QCI)

A QCI is a scalar that is used as a reference to access node-specific parameters that control bearer level packet forwarding treatment (for example, scheduling weights, admission thresholds, queue management thresholds, link layer protocol configuration, etc.), and that have been pre-configured by the operator owning the access node (for example, eNodeB). Value Range: 1-9.

Format

Integer

Length

1–5 bytes


Rating Group

This is the service flow identity and must be used for differentiated evaluation of user’s traffic. This is also known as content-id.

Format

Integer

Length

1–5 bytes


Result Code

This is filled by OCS on Gy interface.

The following are the values as per RFC 3588 and 4006 (Other Result Codes not defined in the RFCs can also be seen in the Result Code field if sent by OCS):
  • DIAMETER_SUCCESS 2001
  • DIAMETER_LIMITED_SUCCESS 2002
  • DIAMETER_COMMAND_UNSUPPORTED 3001
  • DIAMETER_UNABLE_TO_DELIVER 3002
  • DIAMETER_REALM_NOT_SERVED 3003
  • DIAMETER_TOO_BUSY 3004
  • DIAMETER_LOOP_DETECTED 3005
  • DIAMETER_REDIRECT_INDICATION 3006
  • DIAMETER_APPLICATION_UNSUPPORTED 3007
  • DIAMETER_INVALID_HDR_BITS 3008
  • DIAMETER_INVALID_AVP_BITS 3009
  • DIAMETER_UNKNOWN_PEER 3010
  • DIAMETER_AUTHENTICATION_REJECTED 4001
  • DIAMETER_OUT_OF_SPACE 4002
  • ELECTION_LOST 4003
  • DIAMETER_END_USER_SERVICE_DENIED 4010
  • DIAMETER_CREDIT_CONTROL_NOT_APPLICABLE 4011
  • DIAMETER_CREDIT_LIMIT_REACHED 4012
  • DIAMETER_AVP_UNSUPPORTED 5001
  • DIAMETER_UNKNOWN_SESSION_ID 5002
  • DIAMETER_AUTHORIZATION_REJECTED 5003
  • DIAMETER_INVALID_AVP_VALUE 5004
  • DIAMETER_MISSING_AVP 5005
  • DIAMETER_RESOURCES_EXCEEDED 5006
  • DIAMETER_CONTRADICTING_AVPS 5007
  • DIAMETER_AVP_NOT_ALLOWED 5008
  • DIAMETER_AVP_OCCURS_TOO_MANY_TIMES 5009
  • DIAMETER_NO_COMMON_APPLICATION 5010
  • DIAMETER_UNSUPPORTED_VERSION 5011
  • DIAMETER_UNABLE_TO_COMPLY 5012
  • DIAMETER_INVALID_BIT_IN_HEADER 5013
  • DIAMETER_INVALID_AVP_LENGTH 5014
  • DIAMETER_INVALID_MESSAGE_LENGTH 5015
  • DIAMETER_INVALID_AVP_BIT_COMBO 5016
  • DIAMETER_NO_COMMON_SECURITY 5017
  • DIAMETER_USER_UNKNOWN 5030
  • DIAMETER_RATING_FAILED 5031

Format

Integer

Length

1–5 bytes


Service Condition Change

The reason for closing the service data container for triggers like SGSN change, QoS change, RAT change, time and volume triggers, etc.

Bit Setting regarding TS 32.298:
  • qoSChange (0), bearer modification
  • sGSNChange (1), bearer modification
  • sGSNPLMNIDChange (2), bearer modification
  • tariffTimeSwitch (3), tariff time change
  • pDPContextRelease (4), bearer release
  • rATChange (5), bearer modification
  • serviceIdledOut (6), IP flow idle out, DCCA QHT expiry
  • reserved (7), old: QCTexpiry is no report event
  • configurationChange (8), configuration change
  • serviceStop (9), IP flow termination
  • dCCATimeThresholdReached (10), DCCA quota reauth.
  • dCCAVolumeThresholdReached (11), DCCA quota reauth.
  • dCCAServiceSpecificUnitThresholdReached (12), DCCA quota reauth.
  • dCCATimeExhausted (13), DCCA quota reauth.
  • dCCAVolumeExhausted (14), DCCA quota reauth.
  • dCCAValidityTimeout (15), DCCA quota validate time (QVT expiry)
  • reserved (16), reserved due to no use case, old: return Requested is covered by (17), (18)
  • dCCAReauthorisationRequest (17), DCCA quota reauthorization request by OCS
  • dCCAContinueOngoingSession (18), DCCA failure handling continue IP flow
  • dCCARetryAndTerminateOngoingSession (19), DCCA failure handling terminate IP flow after DCCA retry
  • dCCATerminateOngoingSession (20), DCCA failure handling, terminate IP flow
  • cGI-SAIChange (21), bearer modification
  • rAIChange (22), bearer modification
  • dCCAServiceSpecificUnitExhausted (23), DCCA quota reauthorization
  • recordClosure (24), PGW-CDR closure
  • timeLimit (25), intermediate recording
  • volumeLimit (26), intermediate recording
  • serviceSpecificUnitLimit (27), intermediate recording
  • envelopeClosure (28)
  • eCGIChange (29), bearer modification. “ECGI Change”
  • tAIChange (30), bearer modification. “TAI Change”
  • userLocationChange (31) bearer modification. “User Location Change”

Format

Bit string

Length

5 bytes


Service Identifier

The service identifier may designate an end user service, a part of an end user service, or an arbitrarily formed group thereof. This field is only included if reporting is per combination of the rating group and service id.

Format

Integer

Length

1–5 bytes


Serving Node Address (LOSDV)

This field contains the serving node (for example, SGSN/S-GW) control plane IP address.

Format

Octet string

Length

6 or 18 bytes (depending on v4 or v6 address)


Time of First Usage

The timestamp for the first IP packet to be transmitted for the service data flow referred to the current instance of Service Condition Change.

Format

BCD encoded octet string

Length

9 bytes


Time of Last Usage

The timestamp for the last IP packet to be transmitted for the service data flow referred to the current instance of Service Condition Change.

Format

BCD encoded octet string

Length

9 bytes


Time of Report

A timestamp defining the moment when the service data container is closed.

Format

BCD encoded octet string

Length

9 bytes


Time Usage

The difference in seconds within the range of 0.to.4294967295 between “time of first usage” and “time of last usage”.

Format

Integer

Length

1–5 bytes


User Location Information (LOSDVV)

This field indicates details of where the UE is currently located (SAI, TAI, RAI, CGI, ECGI or access-specific user location information).

Format

Octet string

Length

6–13 bytes


Local Sequence Number

This field contains a unique sequence number associated with the Node ID field and independent of the bearer context.

Format

Integer.

Length

1–5 bytes


MS Time Zone

The “Time Zone” IE that the SGSN may provide to the P-GW during the PDP context activation/modification procedure.

Format

Octet string

Length

2 bytes


Node ID

This field contains an identifier string for the node that had generated the CDR.

On the Cisco P-GW, this Node ID field is a printable string in the format ndddSTRING:
  • n: The first digit is the Sessmgr restart counter having a value between 0 and 7.
  • ddd: The number of the sessmgr instance generating the CDR
  • STRING: This is a configured Node-ID-Suffix having any string between 1 to16 characters, defined using the gtpp attribute node-id command.

If this node-id-suffix is not configured, the PGW uses the active-charging service name as the Node-id-suffix (truncated to 16 characters).

This field is only included when the option gtpp attribute local-record-sequence-number is configured.

Format

IA5string

Length

1–20 bytes


PDN Connection Id

This field defines the PDN connection (IP-CAN session) identifier to identify different records belonging to same PDN connection. This field includes the Charging Id of the first IP-CAN bearer activated within the PDN connection. Together with P-GW address, this uniquely identifies the PDN connection.

Format

Integer

Length

1–5 bytes


PDP PDN Type

-- OCTET 1: PDP Type Organization

    Spare ‘1111’        PDP
Type Organization Value
PDP Type Organization Value
ETSI 0
IETF 1


Note: In LTE, only IETF is supported.

-- OCTET 2: PDP/PDN Type Number

    Bits    3  2  1    0  0  1    IPv4    0  1  0    IPv6    0  1  1    IPv4/IPv6    Bits
8-4 of octet are spare and are coded as zero.

Format

Octet string

Length

2 bytes


P-GW Address

These field is the serving P-GW IP address for the Control Plane. If both an IPv4 and an IPv6 address of the P-GW is available, the P-GW shall include the IPv4 address in the CDR.

Format

Octet string

Length

6 or 18 bytes (depending on v4 or v6 address)


P-GW PLMN Identifier

This field is the P-W PMLN Identifier (Mobile Country Code and Mobile Network Code).

The MCC and MNC are coded as described for “User Location Info” in TS 29.274 [91].

Format

Octet string

Length

3 bytes


RAT Type

Holds the value of RAT Type, as provided to S-GW and P-GW, described in TS 29.274 for eGTP case.

RAT Types Values (Decimal)
<reserved> 0
UTRAN 1
GERAN 2
WLAN 3
GAN 4
HSPA Evolution 5
EUTRAN 6
<spare> 7-255


The field is provided by the SGSN/MME and transferred to the S-GW/P-GW during the IP-CAN bearer activation/modification.

Format

Integer

Length

1 byte


Record Opening Time

This field contains the timestamp when a PDP context is activated in PGW or when a subsequent record is opened after a partial record.

The timestamp is determined based on the internal timer which has an accuracy of 10ms. Depending on the configured mechanism (ceiling, floor, or round-off) this field is translated to only show full seconds.

TimeStamp ::= OCTET STRING (SIZE(6))

The contents of this field are a compact form of the UTC Time format containing local time plus an offset to universal time. Binary coded decimal encoding is employed for the digits to reduce the storage and transmission overhead

    -- e.g. YYMMDDhhmmssShhmm

    -- where

    -- YY    =    Year 00 to 99        BCD encoded

    -- MM   =    Month 01 to 12     BCD encoded

    -- DD    =    Day 01 to 31         BCD encoded

    -- hh      =    hour 00 to 23        BCD encoded

    -- mm    =    minute 00 to 59     BCD encoded

    -- ss       =    second 00 to 59     BCD encoded

    -- S        =    Sign 0 = “+”, “-”    ASCII encoded

    -- hh      =    hour 00 to 23          BCD encoded

    -- mm    =    minute 00 to 59      BCD encoded

Format

BCD encoded octet string

Length

9 bytes


Record Sequence Number

A running sequence number within the range of 1 to 4294967296 used to link partial records generated by the P-GW for a specific IP-CAN bearer context (characterized with the same Charging ID and P-GW address). This field is not present if the first record is also the final record.

Format

Integer

Length

1–5 bytes


Record Type

This field identifies the type of the record:

PGW-CDR (pgwPDPRecord) 85 (0x55)

Format

Integer

Length

1 byte


Served IMEISV

This field contains the International Mobile Equipment Identity (IMEISV) of the equipment served.

The structure of the IMEI is defined in TS 23.003.

The IMEI is composed of the following elements:
  • Type Allocation Code (TAC). Its length is 8 digits.
  • Serial Number (SNR) is an individual serial number uniquely identifying each equipment within each TAC. Its length is 6 digits.
  • Software Version Number (SVN) identifies the software version number of the mobile equipment. Its length is 2 digits.

If SV is not available, a filler digit “f” is added after the spare digit to fill up the last byte. Spare digit: this digit shall be zero, when transmitted by the MS.

Format

BCD encoded octet string

Length

8 bytes


Served IMSI

The International Mobile Subscriber Identity (IMSI) of the MS. The IMSI is formatted in accordance with 3GPP TS 23.003. This will be present if the Anonymous Access Indicator is FALSE or not supplied.

The IMSI is formatted in accordance with 3GPP TS 23.003.

Format

BCD encoded octet string

Length

3–8 bytes


Served MNNAI

This field contains the Mobile identifier of the served user in Network Access Identifier (NAI) format based on IMSI, as defined in TS 23.003 [68].

SubscriptionID ::= SET

{

subscriptionIDType [0] SubscriptionIDType,

subscriptionIDData [1] UTF8String

}

SubscriptionIDType ::= ENUMERATED

{

END_USER_E164 (0),

END_USER_IMSI (1),

END_USER_SIP_URI (2),

END_USER_NAI (3),

END_USER_PRIVATE (4)

}

The type will be END_USER_NAI.

For IMSI: 123456789012345 mcc=123 mnc=045

subscriptionIDData is a string will be

0123456789012345@nai.epc.mnc045.mcc123.3gppnetwork.org

Format

Set

Length

Variable (Max 62)


Served MSISDN

The field tracks the Mobile Station (MS) ISDN number (MSISDN) of the subscriber which is transparently copied from the Create Session Request message.

The MSISDN is TBCD encoded as shown in the example below:3GPP TS 23.003 (CCITT Rec. E 213)

ServedMSISDN ::= OCTET STRING (SIZE(1..9))

subscriber identification MSISDN

octet 1 : bit 8 (msb): extension bit

= 1 : no extension

other : not relevant

bit 7..5 : type of number

= 000 : unknown

= 001 : international number

= 010 : national significant number

= 011 : network specific number

= 100 : subscriber number

= 101 : reserved

= 110 : abbreviated number

= 111 : reserved for extension

bit 4..1 : numbering plan indicator

= 0001: ISDN/Telephony Numbering Plan (Rec CCITT E.164)

other : not relevant

octet 2..9: <= 16 digits TBCD-String (twisted)

substructure (without spares or fillers):

1..3 digits - country code (CC)

(only international number)

3 digits - national destination code (NDC)

<= 10 digits - subscriber number (SN)

first and intermediate octet = 2 digits

last octet = 2 digits or 1 digit + 1 fill digit H'F

As per 3GPP TS 29.274 v 8.11.0, “MSISDN value contains only the actual MSISDN number (does not contain the ‘nature of address indicator’ octet, which indicates ‘international number’ as in 3GPP TS 29.002 [37]) and is encoded as TBCD digits.”

To comply with this, octet 1 (nature of address indicator) is not added in the encoded value of MSISDN.

example:

MSISDN: '491720400305'

encoded: H'94 71 02 04 30 50

Format

BCD encoded octet string.

Length

1–9 bytes


Served PDP PDN Address

This field contains the IP address for the PDN connection (PDP context, IP-CAN bearer). This is a network layer address of type IP version 4 (PDN Type is IPv4) or IP version 6 (PDN Type is IPv6 or IPv4v6). The address for each Bearer type is allocated either temporarily or permanently (see “Dynamic Address Flag”). This parameter shall be present except when both the Bearer type is PPP and dynamic address assignment is used.

Format

Octet string

Length

The length can vary based on whether the encoded IP address is IPv4 or IPv6.


Serving Node Address

The serving node control plane IP address of the S-GW used during this record. This is a list of IP addresses. If the list overflows with a configured number of IP addresses, a CDR with “serving node Change” as cause for record closure will be generated. The serving node addresses that are listed here are sequentially mapped to the serving node types listed in the field “Serving node Types”.

Format

Sequence of IPv4 orIPv6 addresses.

Length

6-98 or 18-292 bytes (depending on IPv4 or IPv6 address; for 1-16 S-GW/SGSN addresses)


Serving Node PLMN Identifier

This field contains a serving node (SGSN/S-GW/MME/ePDG/HSGW) PLMN Identifier (Mobile Country Code and Mobile Network Code).

The MCC and MNC are coded as described for “Routing Area Identity” in TS 29.060 [75].

Format

Octet string

Length

3 bytes


Serving Node Type

These fields contain one or several serving node types in the control plane of an S-GW or P-GW, which have been connected during the record. The serving node types listed here are sequentially mapped to the serving node addresses listed in the field “Serving node Address”.

The possible values are:

ServingNodeType  ::= ENUMERATED
{
        sGSN      (0),
        pMIPSGW   (1),
        gTPSGW    (2),
        ePDG      (3),
        hSGW      (4),
        mME       (5)
}

Format

Sequence of serving Node Type

Length

3-48; variable length format (based on number of nodes connected during this period)


Start Time

This field contains the time when the User IP-CAN session starts at the P-GW, available in the CDR for the first bearer in an IP-CAN session.

The timestamp is determined based on the internal timer which has an accuracy of 10ms. Depending on the configured mechanism this is translated into the timestamp which only shows the full seconds.

The format is shown below.

TimeStamp ::= OCTET STRING (SIZE(6))

The contents of this field are a compact form of the UTC Time format containing local time plus an offset to universal time. Binary coded decimal encoding is employed for the digits to reduce the storage and transmission overhead

    -- e.g. YYMMDDhhmmssShhmm

    -- where

    -- YY    =    Year 00 to 99        BCD encoded

    -- MM   =    Month 01 to 12     BCD encoded

    -- DD    =    Day 01 to 31         BCD encoded

    -- hh      =    hour 00 to 23        BCD encoded

    -- mm    =    minute 00 to 59     BCD encoded

    -- ss       =    second 00 to 59     BCD encoded

    -- S        =    Sign 0 = “+”, “-”    ASCII encoded

    -- hh      =    hour 00 to 23          BCD encoded

    -- mm    =    minute 00 to 59      BCD encoded

Format

BCD encoded octet string

Length

9 bytes


Stop Time

This field contains the time when the User IP-CAN session is terminated at the P-GW, available in the CDR for the last bearer in an IP-CAN session.

The timestamp is determined based on the internal timer which has an accuracy of 10ms. Depending on the configured mechanism (ceiling, floor, round-off) this is translated into the timestamp which only shows the full seconds.

The format is shown below.

TimeStamp ::= OCTET STRING (SIZE(6))

The contents of this field are a compact form of the UTC Time format containing local time plus an offset to universal time. Binary coded decimal encoding is employed for the digits to reduce the storage and transmission overhead

    -- e.g. YYMMDDhhmmssShhmm

    -- where

    -- YY    =    Year 00 to 99        BCD encoded

    -- MM   =    Month 01 to 12     BCD encoded

    -- DD    =    Day 01 to 31         BCD encoded

    -- hh      =    hour 00 to 23        BCD encoded

    -- mm    =    minute 00 to 59     BCD encoded

    -- ss       =    second 00 to 59     BCD encoded

    -- S        =    Sign 0 = “+”, “-”    ASCII encoded

    -- hh      =    hour 00 to 23          BCD encoded

    -- mm    =    minute 00 to 59      BCD encoded

Format

BCD encoded octet string

Length

9 bytes


User Location Information

This field contains the User Location Information as described in TS 29.274 for eGTP case (e.g. CGI, SAI, RAI TAI and ECGI).

The field is provided by the SGSN/MME and transferred to the S-GW/P-GW during the IP-CAN bearer activation/modification.

User Location Information contains the location (e.g. CGI/SAI, ECGI/TAI or RAI) where the UE is located and used during the transfer of the data volume captured by the container (applicable only to the SGW-CDR). This is included in the Traffic data container only if previous container's change condition is “user location change”. Note the user location information in SGW-CDR main level contains the location where the UE was when PGW-CDR was opened.

The flags ECGI, TAI, RAI, SAI and CGI in octet 5 indicate if the corresponding fields are present in the IE or not. If one of these flags is set to “0”, the corresponding field is not present at all. The respective identities are defined in 3GPP TS 23.003.

The following subclauses specify the coding of the different identities. For each identity, if an Administration decides to include only two digits in the MNC, then bits 5 to 8 of octet 7 are coded as “1111”.

CGI field:

The Location Area Code (LAC) consists of 2 octets. Bit 8 of Octet 9 is the most significant bit and bit 1 of Octet 10 the least significant bit. The coding of the location area code is the responsibility of each administration. Coding using full hexadecimal representation shall be used.

The Cell Identity (CI) consists of 2 octets. Bit 8 of Octet 11 is the most significant bit and bit 1 of Octet 12 the least significant bit. The coding of the cell identity is the responsibility of each administration. Coding using full hexadecimal representation shall be used.

SAI field:

The Location Area Code (LAC) consists of 2 octets. Bit 8 of Octet 9 is the most significant bit and bit 1 of Octet 10 the least significant bit. The coding of the location area code is the responsibility of each administration. Coding using full hexadecimal representation shall be used.

The Service Area Code (SAC) consists of 2 octets. Bit 8 of Octet 11 is the most significant bit and bit 1 of Octet 12 the least significant bit. The SAC is defined by the operator.

RAI field:

The Location Area Code (LAC) consists of 2 octets. Bit 8 of Octet 9 is the most significant bit and bit 1 of Octet 10 the least significant bit. The coding of the location area code is the responsibility of each administration. Coding using full hexadecimal representation shall be used.

The Routing Area Code (RAC) consists of 2 octets. Only Octet 11 contains the RAC. Octet 12 is coded as all 1's (11111111). The RAC is defined by the operator.

TAI field:

The Tracking Area Code (TAC) consists of 2 octets. Bit 8 of Octet 9 is the most significant bit and bit 1 of Octet 10 the least significant bit. The coding of the tracking area code is the responsibility of each administration. Coding using full hexadecimal representation shall be used.

ECGI field:

The E-UTRAN Cell Identifier (ECI) consists of 28 bits. Bit 4 of octet 10 is the most significant bit and bit 1 of Octet 11 the least significant bit. The coding of the E-UTRAN cell identifier is the responsibility of each administration. Coding using full hexadecimal representation shall be used.

Format

Octet string

Length

Varies based on the type of identity