Difference between revisions of "My 3GPP 33.501 notes"

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* '''SBA domain security (V)''': the set of security features that enables network functions of the SBA architecture to securely communicate within the serving network domain and with other network domains . Such features include network function registration, discovery, and authorization security aspects, as well as the protection for the service-based interfaces. SBA domain security is a new security feature compared to TS 33.401.
* '''SBA domain security (V)''': the set of security features that enables network functions of the SBA architecture to securely communicate within the serving network domain and with other network domains . Such features include network function registration, discovery, and authorization security aspects, as well as the protection for the service-based interfaces. SBA domain security is a new security feature compared to TS 33.401.
* '''Visibility and configurability of security (VI)''': the set of features that enable the user to be informed whether a security feature is in operation or not.
* '''Visibility and configurability of security (VI)''': the set of features that enable the user to be informed whether a security feature is in operation or not.
== The 5G System architecture introduces the following security entities in the 5G Core network § 4.3 ==
* AUSF: AUthentication Server Function;
* ARPF: Authentication credential Repository and Processing Function;
* SIDF: Subscription Identifier De-concealing Function;
* SEAF: SEcurity Anchor Function.




<center>[[Telecommunications_info|To Telecommunications Info]]</center>
<center>[[Telecommunications_info|To Telecommunications Info]]</center>

Revision as of 14:07, 9 September 2022

Definitions

5G security context

The state that is established locally at the UE and a serving network domain and represented by the "5G security context data" stored at the UE and a serving network.

NOTE 1: The "5G security context data" consists of the 5G NAS security context, and the 5G AS security context for 3GPP access and/or the 5G AS security context for non-3GPP access.

NOTE 2: A 5G security context has type "mapped", "full native" or "partial native". Its state can either be "current" or "non-current". A context can be of one type only and be in one state at a time. The state of a particular context type can change over time. A partial native context can be transformed into a full native. No other type transformations are possible.

5G AS security context for 3GPP access

The cryptographic keys at AS level with their identifiers, the Next Hop parameter (NH), the Next Hop Chaining Counter parameter (NCC) used for next hop access key derivation, the identifiers of the selected AS level cryptographic algorithms, the UE security capabilities, and the UP Security Policy at the network side, UP security activation status and the counters used for replay protection.

NOTE 3: NH and NCC need to be stored also at the AMF during connected mode.

NOTE 4: UP security activation status is sent from gNB/ng-eNB in step 1b in clause 6.6.2 corresponding to the active PDU session(s).

5G AS security context for non-3GPP access

The key KN3IWF, the cryptographic keys, cryptographic algorithms and tunnel security association parameters used at IPsec layer for the protection of IPsec SA.

5G AS Secondary Cell security context

The cryptographic keys at AS level for secondary cell with their identifiers, the identifier of the selected AS level cryptographic algorithms for secondary cell, the UP Security Policy at the network side, and counters used for replay protection.

Home Network Public Key Identifier

An identifier used to indicate which public/private key pair is used for SUPI protection and de-concealment of the SUCI.

subscription credential(s)

The set of values in the USIM and in the home operator's network, consisting of at least the long-term key(s) and the subscription identifier SUPI, used to uniquely identify a subscription and to mutually authenticate the UE and 5G core network.

subscription identifier de-concealing function

The Subscription Identifier De-concealing Function (SIDF) service offered by the network function UDM in the home network of the subscriber responsible for de-concealing the SUPI from the SUCI.

UE 5G security capability

The UE security capabilities for 5G AS and 5G NAS.

UE security capabilities

The set of identifiers corresponding to the ciphering and integrity algorithms implemented in the UE.

NOTE 9: This includes capabilities for NG-RAN and 5G NAS, and includes capabilities for EPS, UTRAN and GERAN if these access types are supported by the UE.

Security Domains § 4.1

  • Network access security (I): the set of security features that enable a UE to authenticate and access services via the network securely, including the 3GPP access and Non-3GPP access, and in particularly, to protect against attacks on the (radio) interfaces. In addition, it includes the security context delivery from SN to AN for the access security.
  • Network domain security (II): the set of security features that enable network nodes to securely exchange signalling data and user plane data.
  • User domain security (III): the set of security features that secure the user access to mobile equipment.
  • Application domain security (IV): the set of security features that enable applications in the user domain and in the provider domain to exchange messages securely. Application domain security is out of scope of the present document.
  • SBA domain security (V): the set of security features that enables network functions of the SBA architecture to securely communicate within the serving network domain and with other network domains . Such features include network function registration, discovery, and authorization security aspects, as well as the protection for the service-based interfaces. SBA domain security is a new security feature compared to TS 33.401.
  • Visibility and configurability of security (VI): the set of features that enable the user to be informed whether a security feature is in operation or not.

The 5G System architecture introduces the following security entities in the 5G Core network § 4.3

  • AUSF: AUthentication Server Function;
  • ARPF: Authentication credential Repository and Processing Function;
  • SIDF: Subscription Identifier De-concealing Function;
  • SEAF: SEcurity Anchor Function.


To Telecommunications Info