[[gsup]] == Generic Subscriber Update Protocol === General This chapter describes the remote protocol that is used by OsmoSGSN and OsmoMSC to update and manage the local subscriber list in OsmoHLR. Functionally, it resembles the interface between the SGSN/VLR on the one hand side, and HLR/AUC on the other side. For more information, see the specification of the Gr interface (3GPP TS 03.60). Traditionally, the GSM MAP (Mobile Application Part) protocol is used for this purpose, running on top of a full telecom signalling protocol stack of MTP2/MTP3/SCCP/TCAP, or any of the SIGTRAN alternatives. In order to avoid many of the complexities of MAP, which are difficult to implement in the plain C language environment of the Osmocom cellular network elements like the SGSN, we introduce the GSUP protocol. The GSUP protocol and the messages are designed after the corresponding MAP messages (see 3GPP TS 09.02) with the following main differences: * The encoding uses TLV structures instead of ASN.1 BER * Segmentation is not used, i.e. we rely on the fact that the underlying transport protocol can transport signalling messages of any size. === Connection The protocol expects that a reliable, ordered, packet boundaries preserving connection is used (e.g. IPA over TCP). The remote peer is either a service that understands the protocol natively or a wrapper service that maps the messages to/from real MAP messages that can be used to directly communicate with an HLR. === Using IPA By default, the following identifiers should be used: * IPA Stream ID: 0xEE (OSMO) * IPA OSMO protocol extension: 0x05 For more information about the IPA multiplex, please see the 'OsmoBTS Abis/IP Specification'. === Procedures ==== Authentication management The SGSN or VLR sends a SEND_AUTHENTICATION_INFO_REQ message containing the MS's IMSI to the peer. On errors, especially if authentication info is not available for that IMSI, the peer returns a SEND_AUTHENTICATION_INFO_ERR message. Otherwise the peer returns a SEND_AUTHENTICATION_INFO_RES message. If this message contains at least one authentication tuple, the SGSN or VLR replaces all tuples that are assigned to the subscriber. If the message doesn't contain any tuple the SGSN or VLR may reject the Attach Request. (see 3GPP TS 09.02, 25.5.6) .Send Authentication Info (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; SGSN => Peer [label="SEND AUTHENTICATION INFO REQUEST (IMSI)"]; Peer => SGSN [label="SEND AUTHENTICATION INFO RESPONSE (Tuples)"]; } ---- .Send Authentication Info (Erroneous Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; SGSN => Peer [label="SEND AUTHENTICATION INFO REQUEST (IMSI)"]; Peer => SGSN [label="SEND AUTHENTICATION INFO ERROR (Cause)"]; } ---- ==== Reporting of Authentication Failure Using this procedure, the SGSN or VLR reports authentication failures to the HLR. .Authentication Failure Report (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; SGSN => Peer [label="AUTHENTICATION FAILURE REPORT (IMSI)"]; } ---- ==== Location Updating The SGSN or VLR sends a UPDATE_LOCATION_REQ to the peer. If the request is denied by the network, the peer returns an UPDATE_LOCATION_ERR message to the SGSN or VLR. Otherwise the peer returns an UPDATE_LOCATION_RES message containing all information fields that shall be inserted into the subscriber record. If the 'PDP info complete' information element is set in the message, the SGSN or VLR clears existing PDP information fields in the subscriber record first. (see 3GPP TS 09.02, 19.1.1.8) .Update Location (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; SGSN => Peer [label="UPDATE LOCATION REQUEST (IMSI)"]; Peer => SGSN [label="INSERT SUBSCRIBER DATA"]; SGSN => Peer [label="INSERT SUBSCRIBER DATA ACK"]; Peer => SGSN [label="UPDATE LOCATTION RESULT"]; } ---- .Update Location (Error Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; SGSN => Peer [label="UPDATE LOCATION REQUEST (IMSI)"]; Peer => SGSN [label="UPDATE LOCATTION ERROR (Cause)"]; } ---- ==== Location Cancellation Using the Location Cancellation procedure, the Network Peer (HLR) can request the SGSN or VLR to remove a subscriber record. .Cancel Location (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; Peer => SGSN [label="CANCEL LOCATION REQUEST (IMSI)"]; SGSN => Peer [label="CANCEL LOCATION RESULT"]; } ---- .Cancel Location (Error Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; Peer => SGSN [label="CANCEL LOCATION REQUEST (IMSI)"]; SGSN => Peer [label="CANCEL LOCATION ERROR (Cause)"]; } ---- ==== Purge MS Using the Purge MS procedure, the SGSN or VLR can request purging of MS related state from the HLR. It is used after the SGSN or VLR detects that no radio contact has been established for a prolonged duration (i.e. longer than the periodic LU timeout). See 3GPP TS 23.012 Section 3.6.1.4 for a description of this procedure. .Purge MS (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; SGSN => Peer [label="PURGE MS REQUEST (IMSI)"]; Peer => SGSN [label="PURGE MS RESULT"]; } ---- ==== Delete Subscriber Data Using the Delete Subscriber Data procedure, the Peer (HLR) can remove some of the subscriber data from the SGSN or VLR. This is used in case the subscription details (e.g. PDP Contexts / APNs) change while the subscriber is registered to that SGSN VLR. .Delete Subscriber Data (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; SGSN [label="SGSN/VLR"], Peer [label="Network Peer (HLR)"]; Peer => SGSN [label="DELETE SUBSCRIBER DATA REQUEST (IMSI)"]; SGSN => Peer [label="DELETE SUBSCRIBER DATA RESULT"]; } ---- ==== Check IMEI The VLR asks the EIR to check if a new ME's IMEI is acceptable or not. The EIR may implement a blacklist or whitelist and reject the IMEI based on that. Against the original purpose of the Check IMEI Procedure, this could also be used to save the IMEI in the HLR DB. .Check IMEI (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; VLR [label="VLR"], EIR [label="EIR (via HLR)"]; VLR => EIR [label="CHECK IMEI REQUEST (IMEI)"]; EIR => VLR [label="CHECK IMEI RESULT (ACK)"]; } ---- === Procedures (E Interface) The E interface connects two MSCs in the traditional GSM MAP world. It is used for the inter-MSC handover. In GSUP, we don't need that extra connection, as we route the messages over the GSUP server (OsmoHLR) instead. Whenever MSC-A is sending to MSC-B, and vice-versa, the message needs to pass through the GSUP server. In order to make the following message sequence charts easier to read, this step has been omitted. ==== E Handover MSC-A has an active RAN connection and hands it over to MSC-B. .E Handover (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; A [label="MSC-A"], B [label="MSC-B"]; A => B [label="E Prepare Handover Request\n\n(AN-APDU: Handover Request)"]; |||; A <= B [label="E Prepare Handover Result\n\n(AN-APDU: Handover Request Ack)"]; |||; A <= B [label="E Process Access Signalling Request\n\n(AN-APDU: Handover Detect)"]; |||; A <= B [label="E Send End Signal Request\n\n(AN-APDU: Handover Complete)"]; } ---- ==== E Subsequent Handover MSC-B has an active RAN connection, and asks MSC-A to hand it over to MSC-B'. .E Subsequent Handover (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; A [label="MSC-A"], B [label="MSC-B"], B_ [label="MSC-B'"]; B => A [label="E Prepare Subsequent Handover Request\n\n(AN-APDU: Handover Required)"]; |||; A => B_ [label="E Prepare Handover Request\n\n(AN-APDU: Handover Request)"]; |||; B_ => A [label="E Prepare Handover Response\n\n(AN-APDU: Handover Request Ack)"]; |||; A => B [label="E Prepare Subsequent Handover Response\n\n(AN-APDU: Handover Request Ack)"]; |||; B_ => A [label="E Process Access Signalling Request\n\n(AN-APDU: Handover Detect)"]; |||; B_ => A [label="E Process Access Signalling Request\n\n(AN-APDU: Handover Complete)"]; |||; A => B [label="E Close"]; } ---- ==== E Forward and Process Access Signalling MSC-A is forwarding a message from its BSS (Base Station Subsystem) to MSC-B. MSC-B forwards the message to its BSS, and answers to MSC-A with a Process Access Signalling Request. .E Process and Forward Access Signalling (Normal Case) ["mscgen"] ---- msc { hscale="1.5"; A [label="MSC-A"], B [label="MSC-B"]; A => B [label="E Forward Access Signalling Request\n\n(AN-APDU: DTAP, e.g. CC, SMS, ...)"]; |||; B => A [label="E Process Access Signalling Request\n\n(AN-APDU: DTAP, e.g. CC, SMS, ...)"]; } ---- ==== E Routing Error The GSUP server can not route any of the requests above, and responds with an E Routing Error. Possible reasons for not being able to route the message are missing routing IEs, a mismatching source name IE (<>), the destination not being connected to the GSUP server or a failed attempt to send the message from the GSUP sever to the destination. To figure out, what went wrong in detail, refer to the GSUP server's logs. In the traditional GSM MAP world, the participants of an E procedure are directly connected, hence this routing error message does not exist in MAP. .E Routing Error example ["mscgen"] ---- msc { hscale="1.5"; A [label="MSC-A"], HLR [label="GSUP Server (OsmoHLR)"], B [label="MSC-B"]; A => HLR [label="E Prepare Handover Request"]; HLR => A [label="E Routing Error"]; } ---- //// End of "Procedures (E Interface)" chapter. Remember to place unrelated procedures at the end of the "Procedures" chapter, not here! //// === Message Format ==== General Every message is based on the following message format [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |=== If a numeric range is indicated in the 'presence' column, multiple information elements with the same tag may be used in sequence. The information elements shall be sent in the given order. Nevertheless after the generic part the receiver shall be able to received them in any order. Unknown IE shall be ignored. Besides a numeric range, the 'presence' column may have 'M' (Mandatory), 'O' (Optional) or 'C' (Conditional). The 'format' column holds either 'V' (Value) or 'TLV' (Tag Length Value). [[gsup-msg-auth-info-req]] ==== Send Authentication Info Request Direction: SGSN / VLR => HLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |28|CN Domain|<>|O|TLV|3 |26|AUTS|<>|C|TLV|18 |20|RAND|<>|C|TLV|18 |05|PDP info|<>|C|TLV|2-N |=== The conditional 'AUTS' and 'RAND' IEs are both present in case the SIM (via UE) requests an UMTS AKA re-synchronization procedure. Either both optional IEs are present, or none of them. The conditional 'PDP Info' IE is only present in the CEAI interface used by the ePDG. It should contain the 'PDP Context ID', 'PDP Address' (dynamic addressing) and 'Access Point Name' IEs. [[gsup-msg-auth-info-err]] ==== Send Authentication Info Error Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |02|Cause|<>|M|TLV|3 |=== [[gsup-msg-auth-info-res]] ==== Send Authentication Info Response Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |03|Auth Tuple|<>|0-5|TLV|36 |=== [[gsup-msg-auth-fail-rep]] ==== Authentication Failure Report Direction: SGSN / VLR => HLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |28|CN Domain|<>|O|TLV|3 |=== [[gsup-msg-upd-loc-req]] ==== Update Location Request Direction: SGSN / VLR => HLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |28|CN Domain|<>|O|TLV|3 |=== [[gsup-msg-upd-loc-err]] ==== Update Location Error Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |02|Cause|<>|M|TLV|3 |=== [[gsup-msg-upd-loc-res]] ==== Update Location Result Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |08|MSISDN|<>|O|TLV|0-9 |09|HLR Number|<>|O|TLV|0-9 |04|PDP info complete|<>|O|TLV|2 |05|PDP info|<>|O|TLV|2-N |=== If the PDP info complete IE is present, the old PDP info list shall be cleared. [[gsup-msg-loc-cancel-req]] ==== Location Cancellation Request Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |28|CN Domain|<>|O|TLV|3 |06|Cancellation type|<>|O|TLV|3 |=== [[gsup-msg-loc-cancel-err]] ==== Location Cancellation Error Direction: SGSN / VLR => HLR TODO [[gsup-msg-loc-cancel-res]] ==== Location Cancellation Result Direction: SGSN / VLR => HLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |28|CN Domain|<>|O|TLV|3 |=== [[gsup-msg-purge-ms-req]] ==== Purge MS Request Direction: SGSN / VLR => HLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |28|CN Domain|<>|O|TLV|3 |09|HLR Number|<>|M|TLV|0-9 |=== [[gsup-msg-purge-ms-err]] ==== Purge MS Error Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |02|Cause|<>|M|TLV|3 |=== [[gsup-msg-purge-ms-res]] ==== Purge MS Result Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |07|Freeze P-TMSI|<>|M|TLV|2 |=== [[gsup-msg-ins-sub-req]] ==== Insert Subscriber Data Request Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |28|CN Domain|<>|O|TLV|3 |08|MSISDN|<>|O|TLV|0-9 |09|HLR Number|<>|O|TLV|0-9 |04|PDP info complete|<>|M|TLV|2 |05|PDP info|<>|C|TLV|0-10 |14|PDP-Charging Characteristics|<>|O|TLV|4 |=== If the PDP info complete IE is present, the old PDP info list shall be cleared. [[gsup-msg-ins-sub-err]] ==== Insert Subscriber Data Error Direction: SGSN / VLR => HLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |02|Cause|<>|M|TLV|3 |=== [[gsup-msg-ins-sub-res]] ==== Insert Subscriber Data Result Direction: SGSN / VLR => HLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |=== [[gsup-msg-del-sub-req]] ==== Delete Subscriber Data Request Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |28|CN Domain|<>|O|TLV|3 |10|PDP Context ID|<>|C|TLV|3 |=== [[gsup-msg-del-sub-err]] ==== Delete Subscriber Data Error Direction: SGSN / VLR => HLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |02|Cause|<>|M|TLV|3 |=== [[gsup-msg-del-sub-res]] ==== Delete Subscriber Data Result Direction: HLR => SGSN / VLR [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |=== [[gsup-msg-proc-supl-serv-req]] ==== Process Supplementary Service Request Direction: bidirectional [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |30|Session ID|<>|M|TLV|6 |31|Session State|<>|M|TLV|3 |35|Supplementary Service Info|<>|O|TLV|2-... |=== This message is used in both directions in case of USSD, because it is not known is it request or response without parsing the GSM 04.80 payload. [[gsup-msg-proc-supl-serv-err]] ==== Process Supplementary Service Error Direction: EUSE / HLR => MSC [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |02|Cause|<>|M|TLV|3 |30|Session ID|<>|M|TLV|6 |31|Session State|<>|M|TLV|3 |=== [[gsup-msg-proc-supl-serv-res]] ==== Process Supplementary Service Response Direction: EUSE / HLR => MSC [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |30|Session ID|<>|M|TLV|6 |31|Session State|<>|M|TLV|3 |35|Supplementary Service Info|<>|O|TLV|2-... |=== The purpose of this message is not clear yet. Probably, it can be used to notify the MSC that a structured supplementary service is successfully activated or deactivated, etc. [[gsup-msg-mo-forwardsm-req]] ==== MO-forwardSM Request Direction: MSC / SGSN => SMSC (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |41|SM-RP-DA (Destination Address)|<>|M|TLV|2-... |42|SM-RP-OA (Originating Address)|<>|M|TLV|2-... |43|SM-RP-UI (SM TPDU)|<>|M|TLV|1-... |=== This message is used to forward MO short messages from MSC / SGSN to an SMSC. The corresponding MAP service is MAP-MO-FORWARD-SHORT-MESSAGE, see 3GPP TS 29.002, section 12.2. [[gsup-msg-mo-forwardsm-err]] ==== MO-forwardSM Error Direction: SMSC (via HLR) => MSC / SGSN [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |44|SM-RP-Cause (Cause value)|<>|M|TLV|1 |43|SM-RP-UI (diagnostic field)|<>|O|TLV|1-... |=== This message is used to indicate a negative result of an earlier MO short message delivery. The corresponding MAP service is MAP-MO-FORWARD-SHORT-MESSAGE, see 3GPP TS 29.002, section 12.2. [[gsup-msg-mo-forwardsm-res]] ==== MO-forwardSM Result Direction: SMSC (via HLR) => MSC / SGSN [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |=== This message is used to indicate a successful result of an earlier MO short message delivery. The corresponding MAP service is MAP-MO-FORWARD-SHORT-MESSAGE, see 3GPP TS 29.002, section 12.2. [[gsup-msg-mt-forwardsm-req]] ==== MT-forwardSM Request Direction: SMSC (via HLR) => MSC / SGSN [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |41|SM-RP-DA (Destination Address)|<>|M|TLV|2-... |42|SM-RP-OA (Originating Address)|<>|M|TLV|2-... |43|SM-RP-UI (SM TPDU)|<>|M|TLV|1-... |45|SM-RP-MMS (More Messages to Send)|<>|O|TLV|1 |=== This message is used to forward MT short messages from an SMSC to MSC / SGSN. The corresponding MAP service is MAP-MT-FORWARD-SHORT-MESSAGE, see 3GPP TS 29.002, section 12.9. [[gsup-msg-mt-forwardsm-err]] ==== MT-forwardSM Error Direction: MSC / SGSN => SMSC (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |44|SM-RP-Cause (Cause value)|<>|M|TLV|1 |43|SM-RP-UI (diagnostic field)|<>|O|TLV|1-... |=== This message is used to indicate a negative result of an earlier MT short message delivery. The corresponding MAP service is MAP-MT-FORWARD-SHORT-MESSAGE, see 3GPP TS 29.002, section 12.9. [[gsup-msg-mt-forwardsm-res]] ==== MT-forwardSM Result Direction: MSC / SGSN => SMSC (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |=== This message is used to indicate a successful result of an earlier MT short message delivery. The corresponding MAP service is MAP-MT-FORWARD-SHORT-MESSAGE, see 3GPP TS 29.002, section 12.9. [[gsup-msg-ready-for-sm-req]] ==== READY-FOR-SM Request Direction: MSC / SGSN => SMSC (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |46|SM Alert Reason|<>|M|TLV|1-... |=== This message is used between the MSC / SGSN and an SMSC when a subscriber indicates memory available situation (see TS GSM 04.11, section 7.3.2). The corresponding MAP service is MAP-READY-FOR-SM, see 3GPP TS 29.002, section 12.4. [[gsup-msg-ready-for-sm-err]] ==== READY-FOR-SM Error Direction: SMSC (via HLR) => MSC / SGSN [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |44|SM-RP-Cause (Cause value)|<>|M|TLV|1 |43|SM-RP-UI (diagnostic field)|<>|O|TLV|1-... |=== This message is used to indicate a negative result of an earlier MO SMMA (Memory Available) indication. The corresponding MAP service is MAP-READY-FOR-SM, see 3GPP TS 29.002, section 12.4. [[gsup-msg-ready-for-sm-res]] ==== READY-FOR-SM Result Direction: SMSC (via HLR) => MSC / SGSN [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |40|SM-RP-MR (Message Reference)|<>|M|TLV|1 |=== This message is used to indicate a successful result of an earlier MO SMMA (Memory Available) indication. The corresponding MAP service is MAP-READY-FOR-SM, see 3GPP TS 29.002, section 12.4. [[gsup-msg-check-imei-req]] ==== CHECK-IMEI Request Direction: VLR => EIR (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |50|IMEI|<>|M|TLV|11 |=== [[gsup-msg-check-imei-err]] ==== CHECK-IMEI Error Direction: EIR (via HLR) => VLR [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |02|Cause|<>|M|TLV|3 |=== [[gsup-msg-check-imei-res]] ==== CHECK-IMEI Result Direction: EIR (via HLR) => VLR [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |51|IMEI Check Result|<>|M|TLV|3 |=== [[gsup-msg-e-prep-ho-req]] ==== E Prepare Handover Request Direction: MSC-A=MSC-I => MSC-B=MSC-T (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-prep-ho-err]] ==== E Prepare Handover Error Direction: MSC-B=MSC-T => MSC-A=MSC-I (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-prep-ho-res]] ==== E Prepare Handover Result Direction: MSC-B=MSC-T => MSC-A=MSC-I (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-prep-subs-ho-req]] ==== E Prepare Subsequent Handover Request Direction: MSC-B=MSC-I => MSC-A (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-prep-subs-ho-err]] ==== E Prepare Subsequent Handover Error Direction: MSC-A => MSC-B=MSC-I (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-prep-subs-ho-res]] ==== E Prepare Subsequent Handover Result Direction: MSC-A => MSC-B=MSC-I (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-snd-end-sig-req]] ==== E Send End Signal Request Direction: MSC-B=MSC-T => MSC-A=MSC-I (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-snd-end-sig-err]] ==== E Send End Signal Error Direction: MSC-A=MSC-I => MSC-B=MSC-T (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-snd-end-sig-res]] ==== E Send End Signal Result Direction: MSC-A => MSC-B=MSC-I (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-proc-acc-sig-req]] ==== E Process Access Signalling Request Direction: MSC-B=MSC-T => MSC-A=MSC-I (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-forw-acc-sig-req]] ==== E Forward Access Signalling Request Direction: MSC-A => MSC-B=MSC-I (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |62|AN-APDU|<>|M|TLV|2-... |=== [[gsup-msg-e-close]] ==== E Close Direction: MSC-A => MSC-B (via HLR) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |=== [[gsup-msg-e-abort]] ==== E Abort This message was added to GSUP for the inter-MSC handover. But so far it is not used yet. [[gsup-msg-e-routing-err]] ==== E Routing Error Direction: GSUP Server (HLR) => GSUP Client (MSC) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |30|Session ID|<>|O|TLV|6 |31|Session State|<>|O|TLV|3 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|M|TLV|2-... |61|Destination Name|<>|M|TLV|2-... |=== [[gsup-msg-epdg-tunnel-req]] ==== ePDG Tunnel Request Direction: GSUP Client (strongswan) => GSUP Server (ePDG) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |15|PCO|<>|O|TLV|1-... |28|CN Domain|<>|O|TLV|3 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|O|TLV|2-... |=== [[gsup-msg-epdg-tunnel-err]] ==== ePDG Tunnel Error Direction: GSUP Server (ePDG) => GSUP Client (strongswan) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |02|Cause|<>|M|TLV|3 |0a|Message Class|<>|M|TLV|3 |=== [[gsup-msg-epdg-tunnel-res]] ==== ePDG Tunnel Result Direction: GSUP Server (ePDG) => GSUP Client (strongswan) [options="header",cols="5%,45%,20%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Message Type|<>|M|V|1 |01|IMSI|<>|M|TLV|2-10 |04|PDP info complete|<>|M|TLV|2 |05|PDP info|<>|M|TLV|2-N |15|PCO|<>|O|TLV|1-... |28|CN Domain|<>|O|TLV|3 |0a|Message Class|<>|M|TLV|3 |60|Source Name|<>|O|TLV|2-... |=== === Information Elements [[gsup-ie-msgtype]] ==== Message Type [options="header",cols="10%,90%"] |=== |Type|Name|Description |0x04|Update Location Request|<> |0x05|Update Location Error|<> |0x06|Update Location Result|<> |0x08|Send Authentication Info Request|<> |0x09|Send Authentication Info Error|<> |0x0a|Send Authentication Info Result|<> |0x0b|Authentication Failure Report|<> |0x0c|Purge MS Request|<> |0x0d|Purge MS Error|<> |0x0e|Purge MS Result|<> |0x10|Insert Subscriber Data Request|<> |0x11|Insert Subscriber Data Error|<> |0x12|Insert Subscriber Data Result|<> |0x14|Delete Subscriber Data Request|<> |0x15|Delete Subscriber Data Error|<> |0x16|Delete Subscriber Data Result|<> |0x1c|Location Cancellation Request|<> |0x1d|Location Cancellation Error|<> |0x1e|Location Cancellation Result|<> |0x20|Supplementary Service Request|<> |0x21|Supplementary Service Error|<> |0x22|Supplementary Service Result|<> |0x24|MO-forwardSM Request|<> |0x25|MO-forwardSM Error|<> |0x26|MO-forwardSM Result|<> |0x28|MT-forwardSM Request|<> |0x29|MT-forwardSM Error|<> |0x2a|MT-forwardSM Result|<> |0x2c|READY-FOR-SM Request|<> |0x2d|READY-FOR-SM Error|<> |0x2e|READY-FOR-SM Result|<> |0x30|CHECK-IMEI Request|<> |0x31|CHECK-IMEI Error|<> |0x32|CHECK-IMEI Result|<> |0x34|E Prepare Handover Request|<> |0x35|E Prepare Handover Error|<> |0x36|E Prepare Handover Result|<> |0x38|E Prepare Subsequent Handover Request|<> |0x39|E Prepare Subsequent Handover Error|<> |0x3a|E Prepare Subsequent Handover Result|<> |0x3c|E Send End Signal Request|<> |0x3d|E Send End Signal Error|<> |0x3e|E Send End Signal Result|<> |0x40|E Process Access Signalling Request|<> |0x44|E Forward Access Signalling Request|<> |0x47|E Close|<> |0x4B|E Abort|<> |0x4E|E Routing Error|<> |0x50|ePDG Tunnel Request|<> |0x51|ePDG Tunnel Error|<> |0x52|ePDG Tunnel Result|<> |=== The category of the message is indicated by the last two bits of the type. Request, Error and Result messages only differ in these last two bits, so it is trivial to transform them. [options="header",cols="20%,80%"] |=== |Ending Bits|Message Category |00|Request |01|Error |10|Result |11|Other |=== [[gsup-ie-ipaddr]] ==== IP Address The value part is encoded like in the Packet data protocol address IE defined in 3GPP TS 24.008, Chapter 10.5.6.4. PDP type organization must be set to 'IETF allocated address'. [[gsup-ie-pdpinfo]] ==== PDP Info This is a container for information elements describing a single PDP. [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |PDP Info IEI|<>|M|V|1 | |Length of PDP Info IE||M|V|1 |10|PDP Context ID|<>|C|TLV|3 |11|PDP Address|<>|C|TLV|4-24 |12|Access Point Name|<>|C|TLV|3-102 |13|Quality of Service|<>|O|TLV|1-20 |14|PDP-Charging Characteristics|<>|O|TLV|4 |=== The conditional IE are mandantory unless mentioned otherwise. [[gsup-ie-pdpaddress]] ==== PDP Address The value part is encoded like in the Packet data protocol address IE defined in 3GPP TS 24.008, Chapter 10.5.6.4. Hence this value also relates to End User Address (EUA) IE defined in 3GPP TS 29.060, 7.7.27. The PDP type organization value must be set to 'IETF allocated address'. [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: PDP type IEI 7: Res 8-15: Length 16-19: PDP type org 20-23: Spare 24-31: PDP type number 32-191: Address (v4|v6|v4+v6) } ---- The spare bits are left undefined. While 3GPP TS 29.060 7.7.27 defines them as '1 1 1 1', there are MAP traces where these bits are set to '0 0 0 0'. So the receiver shall ignore these bits. Examples: * IPv4: PDP type org: 1 (IETF), PDP type number: 0x21, 0 bytes address (dynamic addressing) * IPv4: PDP type org: 1 (IETF), PDP type number: 0x21, 4 bytes address * IPv6: PDP type org: 1 (IETF), PDP type number: 0x57, 16 bytes address * IPv6: PDP type org: 1 (IETF), PDP type number: 0x8D, 20 bytes address (v4+v6) [[gsup-ie-pdpctxid]] ==== PDP Context ID The PDP type context ID IE consists of a single integer byte wrapped in a TLV. [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: PDP context ID IEI 7: Res 8-15: Length (1) 16-23: PDP Context ID } ---- [[gsup-ie-authtuple]] ==== Auth tuple This is a container for information elements describing a single authentication tuple. [options="header",cols="5%,20%,45%,10%,10%,10%"] |=== |IEI|IE|Type|Presence|Format|Length | |Auth Tuple IEI|<>|M|V|1 | |Length of Auth Tuple IE||M|V|1 |20|RAND|<>|M|TLV|18 |21|SRES|<>|M|TLV|6 |22|Kc|<>|M|TLV|10 |23|IK|<>|C|TLV|18 |24|CK|<>|C|TLV|18 |25|AUTN|<>|C|TLV|18 |27|RES|<>|C|TLV|2-18 |=== The conditional IEs 'IK', 'CK', 'AUTN' and 'RES' are only present in case the subscriber supports UMTS AKA. [[gsup-ie-rand]] ==== RAND The 16-byte Random Challenge of the GSM Authentication Algorithm. [[gsup-ie-sres]] ==== SRES The 4-byte Authentication Result of the GSM Authentication Algorithm. [[gsup-ie-kc]] ==== Kc The 8-byte Encryption Key of the GSM Authentication and Key Agreement Algorithm. [[gsup-ie-ik]] ==== IK The 16-byte Integrity Protection Key generated by the UMTS Authentication and Key Agreement Algorithm. [[gsup-ie-ck]] ==== CK The 16-byte Ciphering Key generated by the UMTS Authentication and Key Agreement Algorithm. [[gsup-ie-autn]] ==== AUTN The 16-byte Authentication Nonce sent from network to USIM in the UMTS Authentication and Key Agreement Algorithm. [[gsup-ie-auts]] ==== AUTS The 14-byte Authentication Synchronization Nonce generated by the USIM in case the UMTS Authentication and Key Agreement Algorithm needs to re-synchronize the sequence counters between AUC and USIM. [[gsup-ie-res]] ==== RES The (variable length, but typically 16 byte) Authentication Result generated by the USIM in the UMTS Authentication and Key Agreement Algorithm. [[gsup-ie-cndomain]] ==== CN Domain This single-byte information element indicates the Core Network Domain, i.e. if the message is related to Circuit Switched or Packet Switched services. For backwards compatibility reasons, if no CN Domain IE is present within a request, the PS Domain is assumed. .CN Domain Number [options="header",cols="10%,90%"] |=== |Type|Description |0x01|PS Domain |0x02|CS Domain |=== [[gsup-ie-canctype]] ==== Cancellation Type [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: PDP type IEI 7: Res 8-15: Length (1) 16-23: Canc. Type Nr. } ---- .Cancellation Type Number [options="header",cols="10%,90%"] |=== |Number|Description |0x00|Update Procedure |0x01|Subscription Withdrawn |=== [[gsup-iei]] ==== IE Identifier (informational) These are the standard values for the IEI. See the message definitions for the IEI that shall be used for the encoding. .GSUP IE Identifiers [options="header",cols="15%,35%,50%"] |=== |IEI|Info Element|Type / Encoding |0x01|IMSI|Mobile Identity, 3GPP TS 24.008 Ch. 10.5.1.4 |0x02|Cause|<> |0x03|Auth Tuple|<> |0x04|PDP Info Compl|<> |0x05|PDP Info|<> |0x06|Cancel Type|<> |0x07|Freeze P-TMSI|<> |0x08|MSISDN|ISDN-AddressString/octet, <> |0x09|HLR Number|<> |0x0a|Message Class| <> |0x10|PDP Context ID|<> |0x11|PDP Address|<> |0x12|Access Point Name|<> |0x13|QoS|<> |0x14|PDP-Charging Characteristics|<> |0x15|PCO|<> |0x20|RAND|<> |0x21|SRES|<> |0x22|Kc|<> |0x23|IK|<> |0x24|CK|<> |0x25|AUTN|<> |0x26|AUTS|<> |0x27|RES|<> |0x28|CN Domain|<> |0x30|Session ID|<> |0x31|Session State|<> |0x35|Supplementary Service Info|<> |0x40|SM-RP-MR (Message Reference)|<> |0x41|SM-RP-DA (Destination Address)|<> |0x42|SM-RP-OA (Originating Address)|<> |0x43|SM-RP-UI (SM TPDU)|<> |0x44|SM-RP-Cause (RP Cause value)|<> |0x45|SM-RP-MMS (More Messages to Send)|<> |0x46|SM Alert Reason|<> |0x50|IMEI|<> |0x51|IMEI Check Result|<> |0x60|Source Name|<> |0x61|Destination Name|<> |0x62|AN-APDU|<> |0x63|RR Cause|<> |0x64|BSSAP Cause|<> |0x65|Session Management Cause|<> |=== [[gsup-ie-empty]] ==== Empty field This is used for flags, if and only if this IE is present, the flag is set. The semantics depend on the IEI and the context. [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: PDP type IEI 7: Res 8-15: Length (0) } ---- [[gsup-ie-imsi]] ==== IMSI The IMSI is encoded like in octet 4-N of the Called Party BCD Number defined in 3GPP TS 24.008, 10.5.4.7. [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: PDP type IEI 7: Res 8-15: Length of IE content 16-19: Digit 1 20-23: Digit 2 24-27: Digit ... 28-31: Digit N 32-39: see Note } ---- NOTE: Either '1 1 1 1 | Number digit N' (N odd) or 'Number digit N | Number digit N-1' (N even), where N is the number of digits. [[gsup-ie-msisdn]] ==== ISDN-AddressString / MSISDN / Called Party BCD Number The MSISDN is encoded as an ISDN-AddressString in 3GPP TS 09.02 and Called Party BCD Number in 3GPP TS 24.008. It will be stored by the SGSN or VLR and then passed as is to the GGSN during the activation of the primary PDP Context. [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: PDP type IEI 7: Res 8-15: Length of IE content 16-19: NPI 20-22: TON 23: ext 24-27: Digit 1 28-31: Digit 2 32-35: Digit ... 36-39: Digit N } ---- [[gsup-ie-apn]] ==== Access Point Name This encodes the Access Point Name of a PDP Context. The encoding is defined in 3GPP TS 23.003. [[gsup-ie-qos]] ==== Quality of Service Subscribed Service This encodes the subscribed QoS of a subscriber. It will be used by the SGSN during the PDP Context activation. If the length of the QoS data is 3 (three) octets it is assumed that these are octets 3-5 of the TS 3GPP TS 24.008 Quality of Service Octets. If it is more than three then then it is assumed that the first octet is the Allocation/Retention Priority and the rest are encoded as octets 3-N of 24.008. [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: PDP type IEI 7: Res 8-15: Length of IE content 16-23: Payload } ---- [[gsup-ie-charging]] ==== PDP-Charging Characteristics This encodes the ChargingCharacteristics of 3GPP TS 32.215. A HLR may send this as part of the InsertSubscriberData or within a single PDP context definition. If the HLR supplies this information it must be used by the SGSN or VLR when activating a PDP context. [packetdiag] ---- { colwidth = 8 node_height = 24 0-3: Profile Index 4-15: Behavior } ---- [[gsup-ie-pco]] ==== Protocol Configuration Options (PCO) This encodes the Protocol Configuration Options (PCO) of 3GPP TS 29.060 clause 7.7.31, which are the same as those specified in 3GPP TS 24.008 10.5.6.3. It will be used by the ePDG during the PDP Context activation. [[gsup-ie-hlr]] ==== HLR Number encoded as 3GPP TS 09.02 ISDN-AddressString The HLR Number is encoded as an ISDN-AddressString in 3GPP TS 09.02. It will be stored by the SGSN or VLR can be used by the CDR module to keep a record. [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: PDP type IEI 7: Res 8-15: Length of IE content 16-19: NPI 20-22: TON 23: ext 24-27: Digit 1 28-31: Digit 2 32-35: Digit ... 36-39: Digit N } ---- [[gsup-ie-cause]] ==== Cause This IE shall be encoded according to the 'GMM Cause' as described in Chapter 10.5.5.14 of 3GPP TS 24.008. [[gsup-ie-ss-info]] ==== Supplementary Service Info This IE shall be used together with both <> and <> IEs. It is used to carry the payload of Supplementary Services encoded according to GSM TS 04.80. [[gsup-ie-imei]] ==== IMEI The IMEI encoded as Called Party BCD Number in 3GPP TS 24.008. [[gsup-ie-imei-result]] ==== IMEI Check Result Result of the Check IMEI request. A NACK could be sent in theory, if the ME is not permitted on the network (e.g. because it is on a blacklist). .IMEI Check Result [options="header",cols="10%,90%"] |=== |Type|Description |0x01|ACK |0x02|NACK |=== [[gsup-ie-message-class]] ==== Message Class Indicate, which kind of message is being sent. This allows to trivially dispatch incoming GSUP messages to the right code paths, and should make writing a GSUP to MAP converter easier. This IE was introduced together with inter-MSC handover code. Inter-MSC messages must include this IE and set it to the appropriate type. The intention of creating this IE was to use it with all GSUP messages eventually. [options="header",cols="10%,20%,70%"] |=== |Type|Always present|Description |1|no |Subscriber Management |2|no |SMS |3|no |USSD |4|yes|Inter-MSC |=== [[gsup-ie-source-name]] ==== Source Name When the GSUP server is asked to forward a message between two GSUP clients, the source name is the IPA name of the client where the message is coming from. The source name IE is present, when the GSUP server forwards the message to the destination. Although redundant, the source name IE is also sent from the source to the GSUP server (so it is easier to follow the network traces). Source and destination names are sent as nul-terminated strings. .Message forwarding example ["mscgen"] ---- msc { hscale="1.5"; A [label="GSUP Client A"], HLR [label="GSUP Server (OsmoHLR)"], B [label="GSUP Client B"]; A => HLR [label="Source: A, Destination: B"]; HLR => B [label="Source: A, Destination: B"]; } ---- [[gsup-ie-destination-name]] ==== Destination Name The receiving counterpart to source name (<>). [[gsup-ie-an-apdu]] ==== AN-APDU This IE encodes the AN-APDU parameter described in 3GPP TS 29.002 7.6.9.1. .Access Network Protocol [options="header",cols="10%,90%"] |=== |Type|Description |0x01|BSSAP |0x02|RANAP |=== [packetdiag] ---- { colwidth = 8 node_height = 24 0-6: AN-APDU IEI 7: Res 8-15: Length of IE content 16-23: Access Network Protocol 24-31: Data } ---- [[gsup-ie-cause-rr]] ==== RR Cause This IE contains the reason for release or completion of an assignment or handover. See 3GPP TS 44.018 10.5.2.31 for reference. [[gsup-ie-cause-bssap]] ==== BSSAP Cause This IE indicates why an event is happening on the BSSAP interface. See 3GPP TS 48.008 3.2.2.5 for reference. [[gsup-ie-cause-sm]] ==== Session Management Cause This IE contains the reason for rejecting a session management request. See 3GPP TS 24.008 10.5.6.6 / Table 10.5.157 for reference. === Session (transaction) management Unlike TCAP/MAP, GSUP is just a transport layer without the dialogue/context. All communication is usually happening over a single connection. In order to fill this gap, there is a few optional IEs, which allow both communication sides to establish and terminate TCAP-like transactions over GSUP. [[gsup-ie-session-id]] ==== Session ID This auxiliary IE shall be used together with <>. The purpose of this IE is to identify a particular transaction using the 4-byte unique identifier. [[gsup-ie-session-state]] ==== Session State This auxiliary IE shall be used together with <>. The purpose of this IE is to indicate a state of a particular transacrion, i.e. initiate, continue or terminate it. .Session state [options="header",cols="15%,35%,50%"] |=== |State|TCAP alternative|Description |0x00|Undefined|Used when session management is not required |0x01|BEGIN|Used to initiate a new session |0x02|CONTINUE|Used to continue an existing session |0x03|END|Used to terminate an existing session |=== [[gsup-ie-sm-rp-mr]] ==== SM-RP-MR (Message Reference) According to TS GSM 04.11, section 8.2.3, every single message on the SM-RL (SM Relay Layer) has a unique _message reference_, that is used to link an _RP-ACK_ or _RP-ERROR_ message to the associated (preceding) _RP-DATA_ or _RP-SMMA_ message transfer attempt. In case of TCAP/MAP, this message reference is being mapped to the _Invoke ID_. But since GSUP has no _Invoke ID IE_, and it is not required for other applications (other than SMS), a special <> is used to carry the message reference value \'as-is' (i.e. in range 0 through 255). [[gsup-ie-sm-rp-da]] ==== SM-RP-DA (Destination Address) This IE represents the destination address used by the short message service relay sub-layer protocol. It can be one of the following: * IMSI (see 3GPP TS 29.002, clause 7.6.2.1); * MSISDN (see 3GPP TS 29.002, clause 7.6.2.17); * service centre address (see 3GPP TS 29.002, clause 7.6.2.27). Coding of this IE is described in <>. See 3GPP TS 29.002, section 7.6.8.1 for details. [[gsup-ie-sm-rp-oa]] ==== SM-RP-OA (Originating Address) This IE represents the originating address used by the short message service relay sub-layer protocol. It can be either of the following: * MSISDN (see 3GPP TS 29.002, clause 7.6.2.17); * service centre address (see 3GPP TS 29.002, clause 7.6.2.27). Coding of this IE is described in <>. See 3GPP TS 29.002, section 7.6.8.2 for details. [[gsup-sm-rp-oda]] ==== Coding of SM-RP-DA / SM-RP-OA IEs Basically, both <> / <> IEs contain a single TV of the following format: .Coding of SM-RP-DA / SM-RP-OA IEs [options="header",cols="5%,5%,10%,80%"] |=== |Field|Presence|Length|Description |T|M|1|Identity type |V|O|1|ToN/NPI header |V|O|...|BCD encoded (or alphanumeric) identity |=== where the identity type can be one of the following: .Identity types of SM-RP-DA / SM-RP-OA IEs [options="header",cols="15%,15%,70%"] |=== |Type|ToN/NPI Header|Description |0x01|No|IMSI (see 3GPP TS 29.002, clause 7.6.2.1) |0x02|Yes|MSISDN (see 3GPP TS 29.002, clause 7.6.2.17) |0x03|Yes|Service centre address (see 3GPP TS 29.002, clause 7.6.2.27) |0xff|No|Omit value for noSM-RP-DA and noSM-RP-OA |=== Coding of the optional ToN/NPI header, as well as all possible ToN/NPI values, is described in 3GPP TS 129.002, section 17.7.8 "Common data types", and can be summarized as follows: .ToN/NPI header coding (as per 3GPP TS 129.002, MSB first) [packetdiag] ---- { colwidth = 32 node_height = 40 0: extension 1-3: nature of address indicator 4-7: numbering plan indicator } ---- Please note that unlike both <> and <>, where the value part is encoded as LV (i.e. contains an additional length), an identity in both <> / <> IEs shall not contain the redundant length octet. [[gsup-ie-sm-rp-ui]] ==== SM-RP-UI (SM TPDU) This IE represents the user data field carried by the short message service relay sub-layer (i.e. SM-TL (Transfer Layer)) protocol. In case of errors (i.e. MO-/MT-forwardSM Error messages), this IE may contain optional diagnostic field payload from _RP-ERROR_ message. See 3GPP TS 29.002, section 7.6.8.4 for details. [[gsup-ie-sm-rp-cause]] ==== SM-RP-Cause (RP Cause value) According to TS GSM 04.11, _RP-Cause_ is a variable length element always included in the _RP-ERROR_ message, conveying a negative result of an _RP-DATA_ message transfer attempt or _RP-SMMA_ notification attempt. The mapping between error causes in TS GSM 04.11 and TS GSM 09.02 (MAP) is specified in TS GSM 03.40. But since GSUP has no generic _User Error IE_, and it is not required for other applications (other than SMS), a special <> is used to carry the cause value \'as-is'. [[gsup-ie-sm-rp-mms]] ==== SM-RP-MMS (More Messages to Send) This is an optional IE of MT-ForwardSM-Req message, that is used by SMSC to indicate that there are more MT SMS messages to be sent, so the network should keep the RAN connection open. See 3GPP TS 29.002, section 7.6.8.7. [[gsup-ie-sm-alert-rsn]] ==== SM Alert Reason According to 3GPP TS 29.002, section 7.6.8.8, Alert Reason is used to indicate the reason why the service centre is alerted, e.g. the MS has got some memory to store previously rejected incoming SMS. It can take one of the following values: .SM Alert Reason values [options="header",cols="15%,85%"] |=== |Type|Description |0x01|MS present |0x02|Memory Available |=== //// End of "Session (transaction) management" IEs chapter. Remember to place unrelated IEs at the end of the "Information Elements" chapter, not here! ////