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9.2.2.1 PDP Context Activation Procedure
The PDP Context Activation procedure is illustrated in Figure 63 and Figure 64.
PDP上下文的激活流程请参考图例63和64。
Figure 63- PDP Context Activation Procedure for A_Gb mode Figure 64- PDP Context Activation Procedure for Iu mode NOTE 1: All steps in figures 63 and 64, except steps 4 and 8, are common for architecture variants using Gn/Gp based interaction with GGSN and using S4 based interaction with S GW and P GW. For an S4-based interaction with S GW and P GW, procedure steps (A) and (B) are defined in clause 9.2.2.1A.
If Emergency Service is required and an emergency PDP Context is not already active the MS shall request a PDP Context for emergency services via emergency indication in the Activate PDP Context Request message when initiating the PDP Context Request Procedure. An emergency attached MS shall initiate the PDP Context Request procedure directly after the Attach procedure is completed. Any additional emergency PDP Context Activation by an MS shall be rejected by the SGSN if there is already an emergency PDP context activated.
注释1:所有在图例63和64描述的步骤,除了步骤4和8,对于使用Gn/Gp接口和GGSN交互,还是使用S4接口和SGW/PGW交互都是公共的流程。对于使用S4接口和SGW/PGW的交互,步骤A和B在9.2.2.1A中定义。 如果需要紧急服务但又没有一个紧急的PDP上下文是active的,则MS应在发起PDP激活流程时,在Activate PDP Context Request消息中携带紧急指示来请求一个用于紧急业务的PDP上下文。一个已经紧急附着的MS应在附着流程完成之后发起PDP上下文激活流程。如果已经有一个紧急PDP上下文激活的话,则任意额外的PDP上下文激活请求都将被SGSN拒绝。 1) The MS sends an Activate PDP Context Request (NSAPI, TI, PDP Type, PDP Address, Access Point Name, QoS Requested, Protocol Configuration Options, Request Type) message to the SGSN. In this version of the protocol, the MS shall leave PDP Address empty. The MS may use Access Point Name to select a reference point to a certain packet data network and/or to select a service. Access Point Name is a logical name referring to the packet data network and/or to a service that the subscriber wishes to connect to. QoS Requested indicates the desired QoS profile. For an E-UTRAN capable UE, the QoS requested shall include interactive or background traffic class in this message. If the UE is not E-UTRAN capable, in this release the QoS requested should include interactive or background traffic class in this message. If the request is as a result of a Network-Requested PDP context activation procedure, the MS shall not set the PDP Type to IPv4v6, but to the value received in the Request PDP Context Activation message: see clause 9.2.2.2.1. 1)MS发送一个Activate PDP Context Request(NSAPI、TI、PDP Type、PDP Address、APN、Qos Requested、PCO、Request Type)消息给SGSN。在这个版本的协议中,MS应将PDP地址留为空。MS可以使用APN来选择到一个特定PDN网络的参考点并且/或者选择某项服务。APN是一个逻辑的名字,对应到一个PDN网络并且/或者一个签约用户期望连接的服务。"Qos Requested"指示了Qos profile。对于一个具有LTE能力的UE,则请求的QOS应指示交互式或背景类的流量类别。如果UE没有LTE的能力,在这个规范版本中,请求的Qos应指示交互式或背景类的流量类别。如果这个请求消息是作为一个"Network Requested PDP Context Activation"流程的结果,MS则不应将PDP类型设置为IPv4v6,但是应在请求的PDP上下文激活消息中设置,参考9.2.2.2.1。 NOTE 2: In case an S4-SGSN is used in the network the QoS Requested information element shall be ignored in the network.
Protocol Configuration Options is used to transfer the NRSU and Address Allocation Preference to the GGSN and may be used to transfer the BCM as well as optional PDP parameters and/or request to the GGSN (see TS 29.060 [26] and TS 24.229 [75]). Protocol Configuration Options is sent transparently through the SGSN. NRSU indicates MS support of the network requested bearer control. The Protocol Configuration Options may include the Address Allocation Preference indicating that the MS prefers to obtain an IPv4 address only after the PDP Context Accept by means of DHCPv4 as defined in RFC 2131 [47].
注释2:如果场景中是一个S4-SGSN,则Qos Requested IE应被网络侧忽略。 PCO用于传递NRSU和地址分配期望给GGSN并且可用来传递BCM以及可选的PDP参数以及/或者请求给GGSN(参考TS29.060以及TS24.229)。PCO通过SGSN进行透明的传递。NRSU指示了MS对网络侧请求的承载控制的支持能力。PCO也可以包含MS的地址分配期望来指示GGSN,MS是仅期望在PDP上下文接受后通过DHCPV4的方法来获取一个IPv4的地址。 If the SGSN has stored a value for the Maximum APN restriction and the value indicates the most restrictive type, then the SGSN shall reject any Activate PDP Context requests to a different APN, using the PDP Context Activation Reject message including an appropriate error cause.
If the SGSN decides to establish Direct Tunnel between RNC and GGSN, the SGSN provides to the RNC the Direct Tunnel specific parameters in step 5 "RAB Assignment Procedure" and shall initiate PDP Context Update procedure in step 8 to update IP Address and TEID for Downlink data.
Request Type indicates "Handover" when the MS has already an activated PDN GW/HA due to mobility with non-3GPP accesses, and is only interpreted by SGSNs using S4.
如果存储了一个最大APN限制的值并且这个值指示了限制类型,SGSN应拒绝任意到另一个不同APN的PDP上下文激活请求,使用PDP Context Activation Reject消息并包含一个合适的错误代码。 如果决定在RNC和GGSN之间建立直接隧道,则SGSN在步骤5"RAB Assignment流程"中给RNC提供直接隧道相关的参数并且应在第8步发起PDP Context Update流程来更新下行数据的IP地址和TEID。 Request Type在MS因为非3GPP接入的移动已经有一个激活的PDN GW/HA,指示为"Handover"。并仅仅由使用S4接口的SGSN来解释。 The PDP context activation for emergency services shall be exempted from the Maximum APN restriction control. If there is already an emergency bearer activated, the SGSN shall reject any PDP context activation request for normal services if the mobility and access restrictions do not allow the MS to access normal services.
If the message is being sent via a HNB which has a collocated L-GW, it includes the L-GW address in the Direct Transfer message to the SGSN. 对于紧急业务的PDP上下文激活不受最大APN限制的控制。如果已经有紧急承载激活了,并且移动和接入限制不允许MS来接入正常业务的话,则SGSN应拒绝任何正常业务的PDP上下文激活请求。 如果消息是通过带有捆绑LGW的HNB(家庭基站)发送,它将在直传消息中包含L-GW地址给SGSN。
2) In A/Gb mode, security functions may be executed. These procedures are defined in clause "Security Function".
3) In A/Gb mode and if BSS trace is activated, the SGSN shall send an Invoke Trace (Trace Reference, Trace Type, Trigger Id, OMC Identity) message to the BSS. Trace Reference, and Trace Type are copied from the trace information received from the HLR or OMC.
4) The SGSN validates the Activate PDP Context Request using PDP Type (optional), PDP Address (optional), and Access Point Name (optional) provided by the MS and the PDP context subscription records. The SGSN shall use the CSG Subscription Data to authorize the LIPA connection to the APN provided by the MS. A PDP Address may only be sent by an MS implemented according to an earlier protocol release. The validation criteria, the APN selection criteria, and the mapping from APN to a GGSN are described in annex A.
2)对A/Gb模式,可以执行安全功能。这些流程请参考章节“安全功能”。 3)对于A/Gb模式并且BSS的trace功能激活了,SGSN应发送Invoke Trace(Trace Reference, Trace Type, Trigger Id,OMC Identity)消息给BSS。Trace Reference,以及Trace Type是从HLR或OMC收到的trace信息中复制过来的。 4)SGSN使用PDP上下文的签约数据来对MS的Activate PDP Context Request消息中的PDP Type(可选),PDP地址(可选)以及APN(可选)来进行验证。SGSN应使用CSG签约信息来为提供了APN的MS的LIPA连接进行授权。PDP地址仅可以是由一个早期协议版本实现MS发送。验证的原则,APN选择的原则,APN和GGSN的映射请参考附录A。 For an emergency PDP Context Activation the SGSN applies the parameters from SGSN Emergency Configuration Data for the emergency bearer establishment performed in this step and any potentially stored IMSI related subscription data are ignored by the SGSN.
If no GGSN address can be derived or if the SGSN has determined that the Activate PDP Context Request is not valid according to the rules described in annex A, the SGSN rejects the PDP context activation request. If a GGSN address can be derived, the SGSN creates a TEID for the requested PDP context. If the MS requests a dynamic address, the SGSN lets a GGSN allocate the dynamic address. The SGSN may restrict the requested QoS attributes given its capabilities and the current load, and it shall restrict the requested QoS attributes according to the subscribed QoS profile.
对于一个紧急的PDP上下文激活,SGSN将应用SGSN中关于紧急配置数据中的参数来建立紧急承载,其他的可能存储的和IMSI相关的签约数据在SGSN中将被忽略。 如果获取不到GGSN的地址,或者如果SGSN认为这个请求的Activate PDP Context Request消息经过对照附录A的规则进行检查发现是invalid,则SGSN拒绝这个PDP上下文的激活请求。 如果可以获取到GGSN的地址,则SGSN为请求的PDP上下文创建一个TEID。如果MS请求一个动态地址,SGSN将让GGSN来分配动态地址。SGSN可以根据它的能力以及当前的负荷状况来限制MS请求的Qos,并且也应根据用户签约的Qos profile里的数据来限制用户请求的Qos属性。 The SGSN sends a Create PDP Context Request (PDP Type, PDP Address, Access Point Name, QoS Negotiated, Negotiated Evolved ARP, TEID, NSAPI, MSISDN, Selection Mode, Charging Characteristics, Trace Reference, Trace Type, Trigger Id, OMC Identity, Protocol Configuration Options, serving network identity, Maximum APN Restriction IMEISV, CGI/SAI, User CSG Information, RAT type, S-CDR CAMEL information, MS Info Change Reporting support indication, NRSN, Dual Address Bearer Flag, APN-AMBR) message to the affected GGSN. The Negotiated Evolved ARP IE shall contain the Subscribed Evolved ARP value. If the SGSN did not receive a Subscribed Evolved ARP value in subscription data from the HLR the SGSN shall derive this value from the Allocation/Retention Priority of the QoS profile negotiated according to Annex E in TS 23.401 [89]. The inclusion of the Negotiated Evolved ARP IE indicates that the SGSN supports the Evolved ARP feature. The SGSN shall send the serving network identity to the GGSN. Access Point Name shall be the APN Network Identifier of the APN selected according to the procedure described in Annex A. PDP Address shall be empty if a dynamic address is requested. The GGSN may use Access Point Name to find a packet data network and optionally to activate a service for this APN. Selection Mode indicates whether a subscribed APN was selected, or whether a non-subscribed APN sent by an MS or a non-subscribed APN chosen by the SGSN was selected. Selection Mode is set according to Annex A. The GGSN may use Selection Mode when deciding whether to accept or reject the PDP context activation. For example, if an APN requires subscription, the GGSN is configured to accept only the PDP context activation that requests a subscribed APN as indicated by the SGSN with Selection Mode. Charging Characteristics indicates which kind of charging the PDP context is liable for. The charging characteristics on the subscription and individually subscribed APNs as well as the way the SGSN handles Charging Characteristics and chooses to send them or not to the GGSN is defined in TS 32.251 [70]. The SGSN shall include Trace Reference, Trace Type, Trigger Id, and OMC Identity if GGSN trace is activated. The SGSN shall copy Trace Reference, Trace Type, and OMC Identity from the trace information received from the HLR or OMC. The Maximum APN Restriction denotes the most stringent restriction as required by any already active PDP contexts. If there are no already active PDP contexts, this value is set to the least restrictive type (see clause 15.4). If the GGSN receives the Maximum APN Restriction, then the GGSN shall check if the Maximum APN Restriction value does not conflict with the APN Restriction value associated with this PDP context request. If there is no conflict the request shall be allowed, otherwise the request shall be rejected with the SGSN sending a PDP Context Activation Reject Message to the MS including an appropriate error cause. NRSN indicates SGSN support of the network requested bearer control. The Dual Address Bearer Flag shall be set when the MS requests PDN type IPv4v6 and all SGSNs, which the MS may be handed over to, are Release 8 or above supporting dual addressing, which is determined based on node pre configuration by the operator. SGSN发送一个Create PDP Context Request(PDP Type, PDP Address, Access Point Name, QoS Negotiated, Negotiated Evolved ARP, TEID, NSAPI, MSISDN, Selection Mode, Charging Characteristics, Trace Reference, Trace Type, Trigger Id, OMC Identity, Protocol Configuration Options, serving network identity, Maximum APN Restriction IMEISV, CGI/SAI, User CSG Information, RAT type, S-CDR CAMEL information, MS Info Change Reporting support indication, NRSN, Dual Address Bearer Flag, APN-AMBR)消息给相应的GGSN。协商的演进ARP IE应包含签约的演进ARP的值。如果SGSN没有从HLR的签约数据中获取这个值,那SGSN应按照TS23.401附录E的规则,从协商的Qos profile里面的ARP值来获取对应的演进ARP。协商的演进ARP IE指示了SGSN是否支持这个特性。SGSN应发送服务网络ID给GGSN。APN应该是根据附录A的规则选择的APN的Network ID部分。如果请求的是动态地址,则PDP地址 IE应留为空。GGSN可以使用APN来找到对应的PDN网络以及可选的来为这个APN激活某项业务。选择模式指示了是否选择的是一个签约的APN,或者是由MS发送的未签约的APN,或者是由SGSN选择未签约的APN。选择模式根据附录A进行设置。GGSN可以使用选择模式来决定是接受还是拒绝这个PDP上下文的就好哦。例如:如果是一个请求签约的APN,GGSN上配置了可以接受由SGSN通过选择模式指示请求一个签约APN。计费特征CC指示了PDP上下文适用于什么类型的计费。签约数据中的CC以及个别签约的APN以及SGSN处理CC的方法以及选择它们来发送或不发送给GGSN,在TS32.251中定义。如果GGSN trace激活了,SGSN则应在消息中包含Trace Reference, Trace Type, Trigger Id, 和OMC Identity。上述这些和trace有关的信息是从HLR或OMC中收到,并复制过来的。最大APN限制指示了针对任意已经激活的PDP上下文的最严厉的限制。如果没有已经激活的PDP上下文,这个值将设置为最少限制类型(参考章节15.4)。如果GGSN收到了这个最大APN限制,那么GGSN应检查最大APN限制的值和这个PDP上下文请求关联的APN限制的值不冲突。如果没有冲突,则请求被允许,否则请求应被拒绝,并带上合适的原因代码。NRSN指示了SGSN是否支持网络侧请求的承载控制。Dual Address Bearer Flag是在MS请求PDN类型为IPv4v6的时候设置。
For emergency attached UEs IMSI is included if available and if the IMSI cannot be authenticated the IMSI is included and marked as unauthenticated.
The GGSN creates a new entry in its PDP context table and generates a Charging Id. The new entry allows the GGSN to route PDP PDUs between the SGSN and the packet data network, and to start charging. The way the GGSN handles Charging Characteristics that it may have received from the SGSN is defined in TS 32.251 [70]. The GGSN may restrict QoS Negotiated given its capabilities and the current load or increase the QoS Negotiated based on any external input (e.g. policy control). The GGSN then returns a Create PDP Context Response (TEID, PDP Type, PDP Address, Protocol Configuration Options, QoS Negotiated, Negotiated Evolved ARP, Charging Id, Prohibit Payload Compression, APN Restriction, Cause, MS Info Change Reporting Action, CSG Information Reporting Action, BCM, APN-AMBR) message to the SGSN. The GGSN sets the Negotiated Evolved ARP based on local policy or PCC. The Allocation/Retention Priority of the QoS Profile Negotiated is derived from the Evolved ARP according to the mapping principles of TS 23.401 [89], Annex E. The Prohibit Payload Compression indicates that the SGSN should negotiate no data compression for this PDP context. The SGSN shall apply the Negotiated Evolved ARP if received from the GGSN. If the MS has requested PDP type IPv4v6 and both IPv4 and IPv6 addressing is possible in the PDN but the Dual Address Bearer Flag is not set, or only single IP version addressing is possible in the PDN, the GGSN selects a single IP version (either IPv4 or IPv6). If the MS has requested PDP type IPv4 or IPv6, the GGSN uses the PDP type supplied by the MS in case it is supported in the PDN, otherwise an appropriate error cause will be returned. The GGSN allocates a PDP Address according to the selected PDP type. If the GGSN has selected a PDN type different from the one sent by the MS, the GGSN indicates, together with the PDP type IE, a reason cause to the MS why the PDP type has been modified as described in clause 9.2.1. PDP Address is included if the GGSN allocated a PDP address. If the GGSN has been configured by the operator to use External PDN Address Allocation for the requested APN, PDP Address shall be set to 0.0.0.0, indicating that the PDP address shall be negotiated by the MS with the external PDN after completion of the PDP Context Activation procedure. The GGSN shall relay, modify and monitor these negotiations as long as the PDP context is in ACTIVE state, and use the GGSN-Initiated PDP Context Modification procedure to transfer the currently used PDP address to the SGSN and the MS. However, the MS cannot rely on always getting a session management level update of the IP address, which it has negotiated with the external PDN. This is because the P-GW does not update the IP address within the EPS bearer modification procedure, see clause 9.2.3.2A. Protocol Configuration Options contains the BCM as well as optional PDP parameters that the GGSN may transfer to the MS. BCM shall also be sent as a separate IE to the SGSN. These optional PDP parameters may be requested by the MS in the Activate PDP Context Request message, or may be sent unsolicited by the GGSN. Protocol Configuration Options is sent transparently through the SGSN.The Create PDP Context messages are sent over the backbone network. The BCM is used by the SGSN to handle unexpected session management signalling.
GGSN在它的PDP上下文中创建一个新的条目并且生成一个Charging Id.这个新的条目允许GGSN在SGSN和PDN网络之间为PDP PDUs进行路由,并且开始计费。GGSN上处理计费特征码的方法(可能从SGSN上获取)在TS32.251定义。GGSN可以根据它自己的能力以及当前的负荷情况对协商的Qos进行限制,或者根据任何外部输入(例如来自PCRF的策略控制)来增加协商的Qos。GGSN然后将返回一个Create PDP Context Response(TEID、PDP Type、PDP Address、PCO、Qos Negitiated、Negotiated Evolved ARP, Charging Id, Prohibit Payload Compression, APN Restriction, Cause, MS Info Change Reporting Action, CSG Information Reporting Action, BCM, APN-AMBR)消息给SGSN。GGSN根据本地策略或PCC来设置协商的演进ARP。协商的Qos Profile里的ARP是根据TS23.401的映射规则从演进的ARP里提取出来的。"禁止Payload压缩"指示了SGSN应为这个PDP上下文来协商无数据压缩。SGSN如果从GGSN收到协商的演进ARP的话,将应用这个值。如果MS请求的PDP Type IPv4v6并且IPv4和IPv6的地址在PDN网络中都可用的情况下则可为MS提供IPv4或IPv6,但是如果Dual Address Bearer Flag没有设置,或在PDN中仅支持一种单一的IP版本,GGSN将选择这个单一的IP版本(IPv4或IPv6)。如果MS请求的PDP类型是IPv4或IPv6,GGSN则使用MS提供的PDP类型---如果这在PDN网络中支持的话,否则将返回一个合适的原因代码。GGSN根据选择的PDP类型分配一个PDP地址。如果GGSN为MS选择了之前不一样的PDP类型,GGSN则和PDP类型 IE一起,给MS一个指示,告诉MS为什么PDP类型被修改,在9.2.1章节描述。如果GGSN分配了一个PDP地址则要包含这个PDP地址。如果GGSN配置了使用外部PDN地址分配机制(例如DHCP),则PDP地址应设置为0.0.0.0,指示MS应在完成PDP上下文激活流程之后和外部PDN网络协商来获取PDP地址。只要这个PDP上下文一直保持在Active状态,则GGSN应能为这种地址协商提供透传、修改和监控机制,并且能使用GGSN发起的PDP上下文修改流程来传递当前使用的PDP地址给SGSN和MS。然而,MS不能总是依赖于得到一个IP地址的会话管理级别的更新(如果这个IP地址是和外部PDN协商获取的)。这是因为P-GW不能在EPS承载修改流程中更新IP地址,参考9.2.3.2A章节。PCO包含了BCM以及可选的由GGSN传递给MS的PDP参数。BCM应该作为一个单独的IE来发给SGSN。可选的PDP参数可以由MS在Activate PDP Context Request消息中请求,或者由GGSN主动发送。PCO是由SGSN进行透明传递的。Create PDP Context消息通过骨干网络进行发送。BCM被SGSN用于处理不期望的会话管理信令。 If QoS Negotiated received from the SGSN is incompatible with the PDP context being activated, the GGSN rejects the Create PDP Context Request message. The GGSN operator configures the compatible QoS profiles.
If an APN Restriction is received from the GGSN for this PDP Context, then the SGSN shall store this value for the PDP Context and the SGSN shall check this received value with the stored value for the Maximum APN Restriction to ensure there are no conflicts between values. If the consequence of this check results in the PDP context being rejected, the SGSN shall initiate a PDP Context Deactivation and return an appropriate error cause. If the PDP Context is accepted, it shall determine a (new) value for the Maximum APN Restriction. If there is no previously stored value for Maximum APN Restriction, then the Maximum APN Restriction shall be set to the value of the received APN Restriction.
The emergency PDP context activation shall be exempted from the Maximum APN restriction control.
If the MS Info Change Reporting Action and/or the CSG Information Reporting Action are received from the GGSN for this PDP context, then the SGSN shall store this for the PDP context and the SGSN shall report to that GGSN whenever a CGI/SAI/RAI or user CSG information change occurs that meets the GGSN request, as described in clause 15.1.1a.
The GGSN derives the BCM based on NRSU, NRSN and operator policy if previously received in the Create PDP Context Request message. The derived BCM is sent to the MS indicating the Bearer Control Mode applicable to all PDP Contexts within the activated PDP Address/APN pair.
The SGSN shall re-verify and may restrict the QoS Negotiated received in the response from the GGSN against the subscribed QoS profile and additionally restrict the QoS negotiated based on its capabilities and current load. The SGSN shall use this updated QoS Negotiated for the subsequent steps.
The SGSN shall apply a Negotiated Evolved ARP even if it is different from the Subscribed Evolved ARP.
The SGSN determines the UE AMBR to be used by the RAN based on the subscribed UE-AMBR and the APN AMBR for active APNs, see clause 15.2.2.
如果从SGSN收到的"Qos Negotiated"参数和准备激活的PDP上下文不兼容,则GGSN将拒绝这个PDP激活请求。GGSN的运营商配置这个兼容的Qos profile。
如果从GGSN收到了关于这个PDP上下文的APN Restriction,那么SGSN应为这个PDP上下文存储这个值,并且SGSN应检查收到的这个值和Maximum APN Restriction的值,来确保两者没有冲突。如果作为检查的结果导致PDP上下文被拒绝,则SGSN应发起PDP上下文去激活流程并返回一个合适的原因代码。如果PDP上下文接受了,它应决定一个新的Maximum APN Restriction的值。如果之前没有存储Maximum APN Restriction的值,那Maximum APN Restriction的值应根据收到的APN Restriction的值来进行设置。
紧急PDP上下文激活不受Maximum APN Restriction控制的限制。
如果从GGSN收到PDP上下文的MS Info Change Reporting Action and/or the CSG Information Reporting Action,那么SGSN应为这个PDP上下文存储这些值,并且SGSN应在用户所处的CGI/SAI/RAI或用户CSG信息在满足GGSN发生改变的情况下,向GGSN进行报告,这在15.1.1a章节描述。
GGSN根据NRSU、NRSN以及运营商策略来获取BCM,如果前面3个值在之前的Create PDP Context Request消息中收到的话。生成的BCM将发给MS来指示"Bearer Control Mode"将应用到所有的 激活的PDP地址/APN对的所有PDP上下文中。
SGSN应重新验证并且可以根据自己的能力和当前的实际负荷情况来限制从GGSN收到的"Qos Negotiated"。SGSN应使用这个更新后的"Qos Negotiated"用于后续的步骤中。
SGSN应应用收到的协商的演进ARP,即使这个值和签约的演进ARP不同。
SGSN根据签约的UE-AMBR和APN AMBR来为active的APN来决定在RAN中使用的UE AMBR。参考章节15.2.2。
5) In Iu mode, RAB setup is done by the RAB Assignment procedure, see clause "RAB Assignment Procedure".
6) In Iu mode and if BSS trace is activated, the SGSN shall send an Invoke Trace (Trace Reference, Trace Type, Trigger Id, OMC Identity) message to the RAN. Trace Reference, and Trace Type are copied from the trace information received from the HLR or OMC.
NOTE 3: Step 6 is applied when the trace activation is triggered by means of signalling. Another alternative is the triggering of trace activation by the OMC. The details of both Trace Activation procedures are described in TS 32.422 [84].
7) In A/Gb mode, BSS packet flow context procedures may be executed. These procedures are defined in clause "BSS Context".
5)在Iu模式,RAB的建议通过"RAB Assignment流程"完成,参考章节"RAB Assignment流程"。
6)在Iu模式并且如果BSS的trace激活了,SGSN应发送一个Invoke Trace(Trace Reference, Trace Type, Trigger Id, OMC Identity)消息给RAN。Trace Refercen以及Trace Type是从HLR或OMC收到的trace信息中复制过来的。
注释3:步骤6是由信令的方式来触发的trace激活。作为可选的,也可以由网管中心来激活。细节在TS32.422描述。
7)在A/Gb模式,BSS packet flow context流程应被执行。这些流程在章节"BSS Context"中定义。
8) In case the QoS attributes, used as input to step 5 for Iu mode or step 7 for A/Gb mode, have been downgraded during those steps, the SGSN may inform the GGSN about the downgraded QoS attributes by sending an Update PDP Context Request to the affected GGSN. The GGSN shall not attempt to renegotiate the QoS attributes. The No QoS negotiation indication is set in Update PDP Context Request to indicate to the GGSN that the SGSN does not upgrade the previously negotiated QoS attributes and that the GGSN shall accept the provided QoS attributes without negotiation. The GGSN confirms the new QoS attributes by sending an Update PDP Context Response to the SGSN. If the SGSN established Direct Tunnel in step 5 it shall send Update PDP Context Request and include the RNC's Address for User Plane, TEID for downlink data, No QoS negotiation indication and the DTI. DTI is used to instruct the GGSN to apply Direct Tunnel specific error handling as described in clause 13.8. The GGSN(s) shall not include a PCO in the Update PDP Context Response if the No QoS negotiation indication is set.
8)关于Qos属性,如果在用于Iu模式的步骤5中,或者A/Gb模式的步骤7中,被降级了,则SGSN应给受到影响的GGSN发送Update PDP Context Request消息来通知GGSN关于降级的Qos属性。在这个请求消息中将携带一个"No Qos negotiation"指示来告诉GGSN,SGSN不能升级之前协商的Qos,并且GGSN现在也不允许协商这个Qos了,而只能接受这个降级的Qos。GGSN将确认这个新的Qos属性,发送Update PDP Context Response消息给SGSN。如果SGSN在步骤5建立了Direct Tunnel,则它应发送一个Update PDP Context Request消息给GGSN,消息包含了RNC用于下行数据的用户面的地址和TEID,No Qos negotiation指示以及DTI。DTI用于指示GGSN应用直接隧道,错误处理流程在13.8中定义。GGSN发现,如果有No Qos negotiation指示,则不应在Update PDP Context Response消息中包含PCO。
9) The SGSN inserts the NSAPI along with the GGSN address in its PDP context. The PDP address received from the GGSN or from HSS subscription records is inserted in the PDP context. The SGSN selects Radio Priority and Packet Flow Id based on QoS Negotiated, and returns an Activate PDP Context Accept (PDP Type, PDP Address, TI, QoS Negotiated, Radio Priority, Packet Flow Id, Protocol Configuration Options) message to the MS. If the MS indicated in the MS Network Capability it does not support BSS packet flow procedures, then the SGSN shall not include the Packet Flow Id. In A/Gb mode, the QoS Negotiated shall take into account the Aggregate BSS QoS Profile, if any, returned from the BSS. Protocol Configuration Options are used to transfer the BCM to the UE and may be used to transfer optional PDP parameters to the UE (see TS 29.060 [26] and TS 24.229 [75]). Protocol Configuration Options is sent transparently through the SGSN. The BCM indicates the Bearer Control Mode applicable to all PDP Contexts within the activated PDP Address/APN pair. If the BCM parameter is not included in the message then the MS shall set the Bearer Control Mode to 'MS_Only' for the PDP Address/APN pair (see clause 9.2). The SGSN is now able to route PDP PDUs between the GGSN and the MS, and to start charging.
9)SGSN在它的PDP上下文中和GGSN地址一起插入一个NSAPI。PDP地址是从GGSN或者是从HSS的签约记录中收到,也插入到PDP上下文中。SGSN根据"Qos Negotiated"来选择无线优先级和Packet Flow Id,并且给MS返回一个Activate PDP Context Accept(PDP Type, PDP Address, TI, QoS Negotiated, Radio Priority, Packet Flow Id, Protocol Configuration Options)。如果MS在它的MS Network Capability能力集中指示了它不支持BSS packet flow流程,那么SGSN则不应包含Packet Flow Id。在A/Gb模式,在Aggregate BSS Qos Profile中应考虑从BSS返回的"Qos Negotiated"。PCO用于给UE传递BCM并且可以用来传递可选的PDP参数给UE(参考TS29.060和TS24.229)。PCO由SGSN进行透明的传递。BSM指示了应用Bearer Control Mode到所有激活的PDP地址/APN对的所有PDP上下文。如果BCM参数在消息中没有包含,那MS应将Bearer Control Mode设置为'MS_Only'(章节9.2)。SGSN现在可以在GGSN和MS之间路由PDP PDUs了,并且开始计费。
If the MS is incapable of accepting the new QoS Negotiated, the MS should initiate application level signalling to lower the QoS requirements for the concerned application(s). If this is not possible then the MS shall instead de-activate the PDP context with the PDP Context Deactivation Initiated by the MS procedure.
For each PDP Context a different quality of service (QoS) profile may be requested. For example, some PDP contexts may be associated with E mail that can tolerate lengthy response times. Other applications cannot tolerate delay and demand a very high level of throughput, interactive applications being one example. These different requirements are reflected in the QoS profile. The QoS profile is defined in clause "Quality of Service Profile". If a QoS requirement is beyond the capabilities of a PLMN, the PLMN negotiates the QoS profile as close as possible to the requested QoS profile. The MS either accepts the negotiated QoS profile, or deactivates the PDP context.
如果MS没有能力接受新的"Qos Negotiated",MS应从应用层这个级别发起一个信令消息来为相关的应用请求降低Qos的要求。如果这也不行,那么MS应发起一个去激活流程来将PDP上下文去激活。对每个PDP上下文可以请求不同的Qos profile。例如,一些PDP上下文可以和E-mail关联,并能忍受比较长的响应时间。其他的应用则不能忍受延迟并期望一个很高的吞吐量,例如一些交互式的应用。这些不同的需求都反映到Qos profile中。
After an SGSN has successfully updated the GGSN, the PDP contexts associated with an MS is distributed as shown in clause "Information Storage".
If the PDP Context Activation Procedure fails or if the SGSN returns an Activate PDP Context Reject (Cause, Protocol Configuration Options) message, the MS may attempt another activation to the same APN up to a maximum number of attempts.
If the MS requested for a dual address PDP type (IPv4v6) to a given APN and was granted a single address PDP type (IPv4 or IPv6) by the network with a reason cause 'single address bearers only', the MS should request for the activation of a parallel PDP Context to the same APN with a single address PDP type (IPv4 or IPv6) other than the one already activated.
在SGSN和GGSN成功的更新完之后,和MS相关的PDP上下文将被分发,在“信息存储”章节描述。
如果PDP Context Activation流程失败或者如果SGSN返回了一个Activate PDP Context Reject(Cause,PCO)消息,MS可以在一个最大次数的范围内发起到相同APN的另一次激活。
如果MS请求APN对应的PDN网络分配一个双地址PDP类型(IPv4v6),但网络侧只分配了一个单一的地址PDP类型(IPv4或IPv6)并且原因是'single address bearers only',MS应再发起一个并行的PDP上下文激活请求,请求分配另外一个单一的PDP类型的地址。
If the MS requested for a PDP type IPv4v6 to a given APN and was granted PDP type IPv4 with no reason cause indicating that only the assigned PDP type is allowed, the MS should request for the activation of a parallel PDP Context to the same APN with PDP type IPv6.
If the MS receives no reason cause in response to an IPv4v6 PDP type and it receives an IPv6 prefix and Interface Identifier apart from the IPv4 address or 0.0.0.0 in the PDP Address field, it considers that the request for a dual address PDP was successful. It can wait for the Router Advertisement from the network with the IPv6 prefix information or it may send Router Solicitation if necessary.
如果MS请求APN对应的PDN网络分配一个双地址PDP类型(IPv4v6),但网络侧只分配了一个单一的地址PDP类型是IPv4并没有携带原因值来指示只允许使用分配的PDP类型,MS应发起到相同APN的并行的PDP激活请求来请求分配IPv6的地址类型。
如果MS针对请求的IPv4v6 PDP类型的响应中没有原因代码,但是它收到了一个IPv6的前缀和一个在PDP地址字段中除了IPv4地址或0.0.0.0地址以外的接口ID,它将认为请求的双地址PDP类型是成功的。它将等待网络侧的一个路由通告消息,来通告一个IPv6的地址前缀信息或如果有必要的话,它将发送一个RS消息。
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发表于 2011-6-8 20:52:22
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