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Version 1.0Mary Barnes - IP10
1November 4, 1998
GPRS Overview GPRS - Overview
GPRS Network
INTERNET/INTRANET
X.25abcde
GPRS = General Packet Radio Service
Disclaimer: These overview slides are intended for informational purposes only. They havenot been reviewed or officially presented, thus there may be some unintentional errors. Fordetailed information, please refer to the GPRS specifications.
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - Overview
GPRS is an emerging GSM phase 2+ packet radio standard, similar to NAC CDPD:
• Provides more efficient usage of the radio interface (mobiles can share the same radio channel).
• Direct interworking to Internet (TCP/IP), X.25 and ISO CLNS networks for point-to-point services (connection-less/connection oriented) and point-to-multipoint services (broadcast and groupcall).
• Concurrent operation with existing GSM services for Circuit-switched Speech, Circuit-switched data and SMS.
• Supports Data rates from 9.6kbps to 100+kbps
• Best suited for burst forms of traffic.
• Long term replacement for SS7 based SMS.
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - Definitions
• GSN - GPRS Support Node
• GGSN - Gateway GSN
— Provides similar functionality as GMSC, for packet data.
— Uses Packet Data Protocol (PDP address) which contains IP routing information.
— Routing information is used to tunnel PDUs to the current point of attachment (i.e. SGSN).
— Required I/Fs: Gn (to SGSN), Gi (to packet network)
— Optional I/Fs: Gc (to HLR) (can go via Gn and then Gr)
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GPRS Overview GPRS - Definitions
• SGSN - Serving GSN
— performs mobility management, authentication procedures and routes packet data.
— Like the VLR, stores only a subset of subscriber data available at the HLR. Supports the same MAP I/F to HLR as VLR/HLR I/F. [Note: GPRS spec overall assumes co-located MSC/VLR (i.e. no B interface)].
— SMSC may transfer short messages to the MS using the GPRS (via Gd interface).
— Option to queue messages at the SGSN for a short time (versus going to the SM-SC).
— Required I/Fs: Gn (to GGSN), Gb (to BSS), Gr (to HLR)
— Optional I/Fs: Gd (to SMS-GMSC or SMS-IWMSC to enable GPRS capable mobiles to send/receive SMs over GPRS radio chans), Gs (to MSC/VLR) (i.e. for class A mobile support for SMS)
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - Network Overview
SMS-GMSCSMS-IWMSC SM-SC
GGSN
GGSN
Other PLMN
PacketNetwork
TE
MSC/ HLRVLR
BSSMTTE
EIR
SGSNGb Gn
GdMAP-F
MAP-E MAP-C
Gc
Gi
Gp
A
Um
MT = Mobile TerminalTE = Terminal Equipment
GrGs
Signalling I/F
Signalling & DataTransfer I/F
Existing GSM Network Elements
New GPRS Network Elements
Gf
MAP-D
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - Interfaces
• Gb - The equivalent of the A interface for GPRS (frame relay)
• Gc - Interface between the GGSN and HLR so that the GGSN can get the location details of an MS. To avoid implementing MAP/SS7 in the GGSN, this interface is optional. When not present, the GGSN routes inquires to the HLR via an SGSN.
• Gd - Interfaces the SGSN to the SMS-GMSC. Allows for delivery of SMS traffic over GPRS. This is a MAP interface.
• Gf - Interface between the SGSN and EIR, similar to the existing MSC/VLR EIR interface
• Gi - An external interface between GGSN and another type of packet network
• Gn - SGSN to GGSN interface, based on IPv4 or IPv6.
• Gp - Inter PLMN GPRS interface. The Gp interface provides the functionality of the Gn interface along with the security functionality required for inter-PLMN communication. The security functionality is based on agreements between operators.
• Gr - Interface between SGSN and HLR, similar to the MSC-HLR interface. This is a MAP interface.
• Gs - Interface between the MSC and SGSN. This interface is required for some simultaneous GPRS and CS service operation (for some MSs). This is a BSSMAP interface (optional)
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - Addressing Elements/Identifiers
GPRS adds the following addressing elements to GSM:
• PDP Address - associated with each PDP Context. The PDP address itself is a Network layer ( X.121 or IP) address. The fields associated with a PDP context vary across the HLR, SGSN, GGSN and MS, but include items such as:
— PDP Type (X.25 or IP)— NSAPI— Compression parameters negotiated— Requested and negotiated QoS parameters— State
• SGSN IP address - HLR is enhanced to include GPRS subscription data and routing information including the SGSN IP address and SS7 addresses.
• NSAPI - Network Layer Service Access Point Identifier - user for Network Layer routing. In the MS, the NSAPI identifies the PDP-SAP. In the SGSN and GGSN, the NSAPI identifies the PDP context associated with a PDP Address. Between the SGSN and the MS, the TLLI uniquely identifies the logical link. The NSAPI is part of the Tunnel ID (TID).
• TID - Tunnel ID - consists of an IMSI and NSAPI. This uniquely identifies a single PDP context.
• TLLI - Temporary Logical Link Identifier. Optional. The relationship between TLLI and IMSI is known only in the MS and SGSN. Unique within a RA. TLLI is derived from a P-TMSI allocated by the SGSN.
• P-TMSI - Packet Temporary Mobile Subscriber Identity. Allocated to each GPRS attached MS ( 03.03)
• RAI - Routing Area Identity - identifies one or several cells. RAI is broadcast as system information and is used by the MS to determine (when changing cells), if a RA border was crossed. A Routing Area (RA) is a subset of a GSM Location Area (LA). A RA is served by only on SGSN. RAC (Routing Area Code) is only unique when presented with an LAI. A GSM Cell Identifier (CI) is unique when presented with an LAI or RAI. RAI = MCC+ MNC + LAC + RAC.
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GPRS Overview GPRS - Mobility Management
• HLR has been enhanced to include GPRS subscription data and routing information:
— IMSI
— SGSN IP & SS7 addresses
— up to fifty PDP (Protocol Data Protocol) specific data sets.
• Large impact to support Class A and Class B GPRS sets. There are 3 categories of GPRS Mobile Sets:
— Class A - supports full simultaneous connections . (Requires “Combined” procedures)
— Class B - supports simultaneous paging for either service, but NOT activation. GPRS services will be put on hold while a CS call is handled. (Requires “Combined” procedures)
— Class C - either GPRS or CS modes.
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - Mobility Management - Location Registration
GPRS uses the concept of a routing area (RA), which is a subset of a GSM Location Area (LA). GPRS has three types of Routing Area Registration:
• Routing Area Updating - when a mobile enters a new Routing Area (RA)
• GPRS Attach/Detach
— Indicates mobile activation/deactivation within a Routing Area
— Prevents paging of a mobile that is not active (visited VLR rejects calls from the HLR or applies Call Forwarding)
— Note that the mobile station does not maintain an attach/detach state
• Periodic Routing Area Update
— Periodicity is determined by the network
— Ensures that regular radio contact is maintained by the mobile
The Routing Area Update can be Intra- or Inter- SGSN.
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GPRS Overview GPRS - Inter-SGSN Routing Area Update - Message Flow
MS HLR
2. SGSN Context Request
7. Update Location
1. Routing Area Update Request
6. Update PDP Context Request
new SGSN GGSN MSC/VLRold SGSN
2. SGSN Context Response
5. Forward Packets
3 . Security Functions
6. Update PDP Context Response
8. Cancel Location
8. Cancel Location Ack
9. Insert Subscriber Data
9. Insert Subscriber Data Ack
11. Location Updating Accept
11. Location Updating Request
10. Update Location Ack
12. Routing Area Update Accept
4. SGSN Context Acknowledge
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GPRS Overview GPRS - Inter-SGSN Routing Area Update - Message Flow Details
1. The MS sends the Routing Area Update Request to the new SGSN.
2. The new SGSN then exchanges an SGSN Context Request/Response with the old SGSN.
3. Optionally, the GSM security procedures are performed.
4. Upon receipt of the SGSN Context Response and after optional security has been performed, the new SGSN sends an SGSN Context Acknowledge if the user has at least one PDP context active.
5. Upon receipt of the SGSN Context Acknowledge , the old SGSN forwards any packets from the old SGSN.
6. After sending the SGSN Context Acknowledge , the new SGSN initiates the Update PDP Context with the GGSN.
7. Upon completion of this, the Update Location is sent to the HLR.
8. This results in a Cancel Location to the old SGSN.
9. The subscriber data is then sent to the new SGSN.
10. Upon receipt of the Insert Subscriber Data Acknowledgement , the HLR acknowledges the Update Location .
11. (Note: this procedure can be combined with the GSM Location Update.
12. Upon completion of the Location Updating procedure, the new SGSN sends a Routing Area Update Accept to the MS.
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GPRS Overview GPRS - Mobility Management - Security
GPRS uses some existing GSM security messaging and optional GPRS specific messaging:
• Authentication Request/Response/Reject - performed by SGSN as per MSC/VLR
• Identity Request/Response - SGSN executed as per MSC/VLR
• TMSI Reallocation Command/Complete
•
Supported by 3 algorithms:
• Authentication
• User Data Encryption (Note: the scope of ciphering for GPRS is between MS and SGSN).
• Generation of cipher key (TDMA frame number is unknown at the SGSN, therefore LLC frame number may replace TDMA frame number as an input to the algorithm). Uses standard key management procedures for Kc.
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GPRS Overview GPRS - Authentication Procedure
MS SGSN HLR
2. Authentication Request
1. If the SGSN does not have previously stored authentication triplets, a Send Authentication Info (IMSI) is sent to the HLR. The HLR responds with Send Authentication Info Ack (Authentication Triplets) . Each Authentication Triplet includes RAND, SRES and Kc.
2. The SGSN sends Authentication Request (RAND, CKSN, Ciphering Algorithm) to the MS. The MS responds with Authentication Response (SRES).
1. Send Authentication Info
1. Send Authentication Info Ack
2. Authentication Response
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - Protocol Stack
Um Gb Gn GiMS BSS SGSN GGSN
GSM RF
MAC
RLC
LLC
SNDCP
IP/X.25
Application
IP/X.25
L1
L2
IP
UDP/TCP
UDP/TCP
IP
L2
L1
GTPGTP
GSM RF
MAC
RLC
Relay
Relay
BSSGP
NetworkService
NetworkService
L1bis L1bis
BSSGP
LLC
SNDCP
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - Transmission Protocol Definitions
• GTP - GPRS Tunneling Protocol - Tunnels user data and signalling between GPRS support nodes in the GRPS backbone network. All PTP PDP PDUs shall be encapsulated by GTP. GTP shall provide the mechanisms for flow control between GSNs, if required (GSM 09.60)
• TCP - Transmission Control Protocol - carries GTP PDUs in the GPRS backbone network for ptotocols that need a reliable data link (e.g., X.25). Provides flow control and protection against lost and corrupted GTP PDUs.
• UDP - User Datagram Protocol - carries GTP PDUs for protocols that do not need a reliable data link (e.g., IP). Provides protection from corrupted PDUs.
• IP - Internet Protocol - GPRS backbone network protocol used for routing user data and control signalling. Initially based on IP version 4 protocol. Ultimately, IP version 6 protocol.
• SNDCP - Subnetwork Dependent Convergence Protocol (SNDCP) - maps network-level characteristics onto the characteristics of the underlying network (GSM 4.65)
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GPRS Overview GPRS - Transmission Protocol Definitions (continued)
• LLC - Logical Link Control - provides a highly reliable ciphered logical link. LLC shall be independent of the underlying radio interface protocols in order to allow introduction of alternative GPRS radio solutions with minimum changes to the NSS. (GSM 4.64)
• Relay - in the BSS, relays LLC PDUs between the Um and Gb interfaces. In the SGSN, relays PDP PDUs between the Gb and Gn interfaces.
• BSSGP - Base Station System GPRS Protocol - conveys routing and Qos related information between BSS and SGSN. Does not perform error correction. (GSM 8.18)
• NS - Network Service - transports BSSGP PDUs. Based on the Frame Relay connection between BSS and SGSN and may be multi-hop and traverse a network of Frame Relay switching nodes. (GSM 8.16)
• RLC/MAC - Radio Link Control/Medium Access Control - layer controlling 2 functions: RLC provides a radio solution dependent reliable link. The MAC function controls the access signalling (access and grant) for the radio channel, and the mapping of LLC frames onto the GSM physical channel. (GSM 4.60)
• GSM RF - as defined in GSM 05 series.
Version 1.0Mary Barnes - IP10
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GPRS Overview GPRS - GPRS Tunnelling Protocol
The GPRS Tunneling Protocol (GTP) defines the protocol between GSN nodes in the GPRS backbone network.
• Applies to both the Gn and Gp interface.
• Signalling is used to create, modify and delete tunnels.
• User Datagram Protocol (UDP) used to transfer signalling messages.
• Defines the following categories of signalling messages:
— Path Management Messages
— Tunnel Management Messages
— Location Management Messages
— Mobility Management Messages
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Path Management
The following path management messages can be sent between any type of GSN pair:
• Echo Request - sent on a path to another GSN to determine if the other node is alive.
• Echo Response - sent as a response to an Echo Request
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
The following tunnel management messages are used to create, update and delete tunnels used to route T-PDUs between a MS and an external PDN via SGSN and GGSN:
• Create PDP Context Request
• Create PDP Context Response
• Update PDP Context Request
• Update PDP Context Response
• Delete PDP Context Request
• Delete PDP Context Response
• Create AA PDP Context Request
• Create AA PDP Context Response
• Delete AA PDP Context Request
• Delete AA PDP Context Response
• Error Indication
• PDU Notification
• PDU Reject
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
Create PDP Context Request
• Sent from an SGSN to a GGSN node as part of a GPRS PDP Context Activation procedure or the Network-Requested PDP Context Activation procedure.
• A valid request initiates the creation of a tunnel.
• The destination GGSN for this message may be obtained by using DNS to get the IP address for the GGSN name in the current PDP context.
• Contains the following information elements:
Information element Description
Quality of Service QoS negotiated by the MS at PDP context activation
SGSN Address for signalling Specific address for signalling.
SGSN Address for user traffic Specific address for user traffic.
Selection Mode Indicates the source of the Access Point Name (APN)
Flow Label Data I Specifies a downlink (GGSN -> SGSN) flow label for G-PDUs
Flow Label Signalling Specifies a downlink (GGSN -> SGSN) flow label for signalling msgs.
End User Address If PDP addr field is empty, then dynamic otw contains static addr.
Access Point Name May be used by GGSN to differentiate accesses to different external networks. APN is either MS provided, a subscribed APN or SGSN selected.
Protocol configuration options Applies to IP protocol only.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
Create PDP Context Response
• Sent as a response to a Create PDP Context Request.
• Contains the following information elements:
Information element Description
Cause Used to indicate error conditions (i.e. cannot allocate dynamic IP address, network prefix not supported, etc.)
Quality of Service QoS may be negotiated downwards
GGSN Address for signalling Specific address for signalling.
GGSN Address for user traffic Specific address for user traffic.
Reordering Required Indicates if reordering of messages is required. May be negotiated downwards (from Yes to No) by GGSN.
Flow Label Data I Specifies a downlink (GGSN -> SGSN) flow label for G-PDUs
Flow Label Signalling Specifies a downlink (GGSN -> SGSN) flow label for signalling msgs.
End User Address If PDP addr field is empty, then dynamic otw contains static addr.
Protocol configuration options Applies to IP protocol only.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
Update PDP Context Request • Sent as part of the GPRS Inter-SGSN Routing Update procedure or PDP Context Modification
procedure.
• Used to change QoS and the path.
• Contains the following information elements:
Information element Description
Quality of Service QoS negotiated by the MS
SGSN Address for signalling Specific address for signalling.
SGSN Address for user traffic Specific address for user traffic.
Flow Label Data I Specifies a downlink (GGSN -> SGSN) flow label for G-PDUs
Flow Label Signalling Specifies a downlink (GGSN -> SGSN) flow label for signalling msgs.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
Update PDP Context Response • Sent as a response to the Update PDP Context Request .
• Contains the following information elements:
•
Information element Description
Cause Used to indicate error conditions (i.e. cannot allocate dynamic IP address, network prefix not supported, etc.)
Quality of Service QoS may be negotiated downwards
GGSN Address for signalling Specific address for signalling.
GGSN Address for user traffic Specific address for user traffic.
Flow Label Data I Specifies a downlink (GGSN -> SGSN) flow label for G-PDUs
Flow Label Signalling Specifies a downlink (GGSN -> SGSN) flow label for signalling msgs.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
Delete PDP Context Request • Sent as part of the GPRS Detach Procedure or the GPRS PDP Context Deactivation procedure to
deactivate an activated PDP Context.
• Contains Private Extension Information Element.
Delete PDP Context Response • Sent as a response to the Delete PDP Context Request.
• Contains Cause and Private Extension Information Elements.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
Create AA PDP Context Request • Sent as part of the GPRS Anonymous Access PDP Context Activation.
• Used to create a tunnel between a context in the SGSN and a context in the GGSN.
• Contains the following information elements:
Information element Description
Quality of Service QoS negotiated by the MS at Anonymous Access PDP context activa-tion
SGSN Address for signalling Specific address for signalling.
SGSN Address for user traffic Specific address for user traffic.
Selection Mode Indicates the source of the Access Point Name (APN)
Flow Label Data I Specifies a downlink (GGSN -> SGSN) flow label for G-PDUs
Flow Label Signalling Specifies a downlink (GGSN -> SGSN) flow label for signalling msgs.
End User Address Contains the address of the Anonymous Server.
Access Point Name May be used by GGSN to differentiate accesses to different external networks. APN is either ‘MS provided, subscription not verified’ or ‘Network provided, subscription not verified’.
Protocol configuration options Applies to IP protocol only.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
Create AA PDP Context Response • Contains the following information elements:
Information element Description
Cause Non-zero value indicates error conditions
Quality of Service QoS may be negotiated downwards
GGSN Address for signalling Specific address for signalling.
GGSN Address for user traffic Specific address for user traffic.
Reordering Required Indicates if reordering of messages is required. May be negotiated downwards (from Yes to No) by GGSN.
Flow Label Data I Specifies a downlink (GGSN -> SGSN) flow label for G-PDUs
Flow Label Signalling Specifies a downlink (GGSN -> SGSN) flow label for signalling msgs.
End User Address Contains the requested PDP type with the PDP addr field empty
Protocol configuration options Applies to IP protocol only.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
Delete AA PDP Context Request • Sent as part of the GPRS PDP Anonymous Access Context Deactivation procedure to deactivate
an activated PDP Context.
• Contains Cause and Private Extension Information Elements:
Delete AA PDP Context Response • Sent as a response to the Delete AA PDP Context Request.
• Contains Cause and Private Extension Information Elements:
Error Indication • Sent to the GGSN when a tunnel PDU is received for the following conditions:
— No PDP context exists
— PDP context is inactive
— No MM context exists
— GGSN deletes its PDP context when the message is received.
• Sent by the new SGSN to the old SGSN if no PDP context exists or is inactive for a received tunnel PDU. The old SGSN deletes its PDP context when message is received.
• Sent by the GGSN to the SGSN if no PDP context exists for a received tunnel PDU. The SGSN re-establishes the PDP context to the GGSN when the message is received.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Tunnel Management
PDU Notification Request• When receiving a Tunneled PDU (T-PDU), the GGSN checks if a PDP context is established for
the given PDP address.
• If no PDP context has been established, the GGSN may initiate the Network-requested PDP Context Activation procedure by sending a PDU Notification Request to the SGSN.
• Message contains End User Address and Private Extension .
PDU Notification Response• Sent by the SGSN to the GGSN in response to the PDU Notification Request.
• Message contains Cause and Private Extension .
PDU Notification Reject Request• Sent when the PDP context requested by the GGSN cannot be established.
• Message contains a Cause indicating the reason why the Context could not be established, an End User Address and Private Extension .
• Upon receipt of this message, the GGSN may reject or discard the stored T-PDUs, depending on the PDP type.
PDU Notification Reject Response• Sent by the GGSN to the SGSN as a response to a PDU Notification Reject Request .
• Message contains a Cause.
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GPRS Overview GPRS - PDP Context Activation Procedure
MS SGSN GGSN
1. Activate PDP Context Request
2. Security Functions
3. Create PDP Context Request
4. Create PDP Context Response
5. Activate PDP Context Accept
1. The MS sends an Activate PDP Context Request ( NSAPI, PDP type, PDP Address, Access Point Name, Qos Requested, PDP Configuration Options) message to the SGSN. Access Point Name is either a GGSN IP address or a logical name referring to the GGSN to be used . PDP Configuration Options is send transparently through the SGSN to the GGSN.
2. Security Functions are optionally executed (previously discussed).
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GPRS Overview GPRS - PDP Context Activation Procedure (continued)
3. The SGSN receives the Activate PDP Context Request :
— The SGSN checks that the MS is allowed to activate the PDP address against the subscription data that was stored in the SGSN during GPRS Attach. If allowed, the SGSN creates a Tunnel Identifier (TID) for the requested PDP context by combining the IMSI stored in the MM context with the NSAPI received from the MS. The GGSN used is the GGSN address stored in the PDP context (or if the PDP address in the context indicates that a dynamic address is allowed, the GGSN indicated by the Access Point Name in the Activate PDP Context message is used).
— The SGSN sends a Create PDP Context Request ( PDP Type, PDP Address, Access Point Name, QoS Negotiated, TID, PDP Configuration Options) to the GGSN.
4. The GGSN receives the Create PDP Context Request :
— The GGSN creates a new entry in its PDP context table, which allows the GGSN to route PDP PDUs between the SGSN and external PDP Network.
— The GGSN sends a Create PDP Context Response(PDP Address, BB Protocol, Reordering Required, PDP Configuration Options, Cause) message to the SGSN. The PDP address is included if the GGSN allocated a PDP address. BB protocol indicates whether TCP or UDP shall be used to transport user data on the backbone network between the SGSN and GGSN. Reordering Required indicates whetehr the SGSN shall reorder N-PDUs before delivering to the MS.
5. The SGSN receives the Create PDP Context Response message:
— The SGSN inserts the NSAPI along with the GGSN address in its PDP context. If the MS requested a dynamic address, the PDP adddress received from the GGSN is inserted in the PDP context.
— The SGSN sends as Activate PDP Context Accept ( PDP Type, PDP Address, NSAPI, QoS Negotiated, PDP Configuration Options) message to the MS.
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GPRS Overview GPRS - Network-Requested PDP Context Activation Procedure
MS HLR GGSN
2. Send Routing Info for GPRS
4. PDU Notification Request
6. Request PDP Context Activation
SGSN1. PDP PDU
3. Send Routing Info for GPRS Ack
5. PDU Notification Response
7. PDP Context Activation Procedure
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GPRS Overview GPRS - Network-Requested PDP Context Activation Procedure (continued)
1. When a PDP PDU is received, the GGSN determines if the Network-Requested PDP Context Activation Procedure needs to be initiated. (The GGSN may store subsequent PDUs received for the same PDP address). The GGSN may send a Send Routing Information for GPRS(IMSI) message to the HLR.
2. The HLR receives the Send Routing Information for GPRS message:
— If the HLR determines the request can be served, the HLR includes the IP address of the SGSN that currently serves the MS in the Send Routing Information for GPRS Response (IMSI, SGSN Address, Cause) message.
3. The GGSN receives the Send Routing Information for GPRS Response
— If the SGSN address is present and Cause is not present or equals “No Paging Response”, the GGSN sends a PDU Notification Request (IMSI, PDP Type, PDP Address) message to the SGSN indicated by the HLR.
— Otherwise, the GGSN sets the MNRG (Mobile Station Not Reachable) flag for that MS.
4. The SGSN receives the PDU Notification Request .
5. The SGSN sends a PDU Notification Response (Cause) message to the GGSN to acknowledge that it will request the MS to activate the PDP context indicated by the PDP Address.
6. The SGSN sends a Request PDP Context Activation ( PDP type, PDP Address) message to the MS to activate the indicated PDP context.
7. The PDP context is activated per the PDP Context Activation Procedure described previously.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Location Management
The following location management messages are used to obtain subscriber location information from the HLR to support the Network-Requested PDP Context Activation. If the GGSN does not have an SS7 MAP interface the messages are sent via a GTP-MAP protocol converting GSN in the GPRS backbone network:
• Send Routing Information Request - sent by the GGSN to obtain location information for the MS. Message contains the IMSI of the MS and Private Extension .
• Send Routing Information Response - sent by the HLR to return the address of the SGSN currently serving the MS. Contains Cause, IMSI, IP address of the SGSN, Map Cause and Private Extension .
• Failure Report - sent by the GGSN to the HLR when a PDU reject message is received. GGSN sets the Mobile Detached Flag for GPRS (MDFG) and requests the HLR to set the flag and add the GGSN to the list of nodes to report to when activity from the subscriber that owns the PDP address is detected. Message contains the subscriber IMSI and Private Extension .
• Failure Report Response - sent by the HLR to the GGSN to acknowledge receipt of Failure Report. Contains Cause, MAP Cause and Private Extension .
• Note MS Present - When the HLR receives a message from a mobile with MDFG set, it clears the MDFG and sends the Note MS Present message to all GGSN’s in the subscriber’s list. Contains subscriber IMSI, GSN Address and Private Extension .
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Mobility Management
The following mobility management messages are used for GPRS Attach and Inter-SGSN Routing Update:
Identification Request
• Sent by the new SGSN to the old SGSN to request the IMSI for a MS when a GPRS Attach is done with a P-TMSI and the MS has changed SGSNs since the GPRS Detach was done.
• Contains the following parameters:
Information element Description
RAI Routeing Area Identity from old SGSN.
P-TMSI Packet TMSI from old SGSN.
P-TMSI Signature Conditionally provided by the MS to the new SGSN for identification checking purposes per GSM 03.60 and 04.08.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Mobility Management
Identification Response
• Sent in response to the Identification request.
• Contains the following parameters:
Information element Description
Cause Only value in the message if Cause is anything other than ‘Request Accepted’.
IMSI IMSI of MS, matching the P-TMSI and RAI in the Identification Request.
Authentication Triplet Authentication triplets for MS.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Mobility Management (continued)
SGSN Context Request
• Sent by the new SGSN to the old SGSN to request the MM and PDP Contexts for the MS.
Information element Description
RAI Routeing Area Identity
TLLI Temporary Logical Link Identifier
P-TMSI Signature Conditionally provided by the MS to the new SGSN for identification checking purposes per GSM 03.60 and 04.08.
Receive State Variable (V(r)) From the LLC in the old SGSN.
Flow Label Signalling Specifies a flow label chosen by the old SGSN. The new SGSN includes this flow label in the GTP header of all subsequent signalling msgs sent from new SGSN to the old SGSN related to the PDP context(s) requested.
MM Context Contains the Mobility Management, MS and security parms.
PDP Context Contains the session mgmt parms.
Private Extension Contains vendor or operator specific information.
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GPRS Overview GPRS - GPRS Tunnelling Protocol - Mobility Management (continued)
SGSN Context Response
• Sent by the old SGSN to the new SGSN.
• Contains the following:
Information element Description
Cause Non-zero value indicates error conditions
IMSI IMSI of MS, matching the TLLI and RAI in the SGSN Context Request.
Receive State Variable (V(r)) From the LLC in the old SGSN.
Flow Label Signalling Specifies a flow label chosen by the old SGSN. The new SGSN includes this flow label in the GTP header of all subsequent signalling msgs sent from new SGSN to the old SGSN related t the PDP context(s) requested.
MM Context Contains the Mobility Management, MS and security parms.
PDP Context Contains the session mgmt parms.
Private Extension Contains vendor or operator specific information.
Version 1.0Mary Barnes - IP10
38November 4, 1998
GPRS Overview GPRS - GPRS Network - Routing in Home PLMN to/from External PDN
BSS GGSN SGSNMS External
SNDCP PDU (TLLI, NSAPI, PDP PDU)
PDN
oContext: TLLI + NSAPI -> GGSN +TID
GTP PDU (TID, PDP PDU)
oContext: TID -> PDP Context (PDP Address)
PDP PDU
PDP PDU
oContext: PDP Address-> TID -> SGSN + TID
GTP PDU (TID, PDP PDU)
oContext: TID -> TLLI + NSAPI + RAI + CI
SNDCP PDU (TLLI, NSAPI, PDP PDU)
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39November 4, 1998
GPRS Overview
GGSN BG
SGSN SGSN
Intra-PLMN Backbone
Packet Data Network
Inter-PLMN Backbone
GGSNBG
SGSN SGSN
Intra-PLMN Backbone
Gp GpGi Gi
GPRS - GPRS Network - Backbone Networks
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40November 4, 1998
GPRS Overview
BSS GGSN SGSNMS External
SNDCP PDU (TLLI, NSAPI, PDP PDU)
PDN
oContext: TLLI + NSAPI -> GGSN +TID
GTP PDU (TID, PDP PDU)
oContext: TID -> PDP Context (PDP Address)
PDP PDU
PDP PDU
oContext: PDP Address-> TID -> SGSN + TID
GTP PDU (TID, PDP PDU)
oContext: TID -> TLLI + NSAPI + RAI + CI
SNDCP PDU (TLLI, NSAPI, PDP PDU)
GGSNPDN
Visited PLMN Home PLMN
GPRS - GPRS Network - Data Routing for a Roaming MS
Version 1.0Mary Barnes - IP10
41November 4, 1998
GPRS Overview GPRS - References
[1] GPRS (General Packet Radio Service). Overview and Strategy Proposal, Nik Allen and John Candish, 20-97-0042, version 1.0.0, May 11, 1998.
[2] GSM 03.60 (version 6.1.1) - General Packet Radio Service (GPRS); Service Description; Stage 2.
[3] GSM 09.60 (version 6.1.0) - General Packet Radio Service (GPRS); GPRS Tunnelling Protocol (GTP) across the Gn and Gp Interface.
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GPRS Overview GPRS - Channel Types
Packet Data Traffic Channels:
• Carry user information and signalling information (e.g. Session Management (SM) and Mobility Management (MM)) in packet mode.
• Allow a plurality of information streams, associated with different users to be multiplexed in a pre-emptive and dynamic fashion.
• Signalling functions between MS and BSS are carried out over control channels.