4 Default Values

31.1213GPPRelease 16TSUICC-terminal interfaceUniversal Subscriber Identity Module (USIM) application test specification

All tests defined in the subsequent clauses apply to Terminals using card types specified in ETSI TS 102 221 [5], unless otherwise stated.

The following sequence of tests confirms:

a) the correct interpretation of data read from the USIM (Universal Subscriber Identification Module) by the Terminal;

b) the correct writing of data to the USIM by the Terminal;

c) the initiation of appropriate procedures by the Terminal;

d) High level protocols.

All tests apply to the USIM application on the UICC.

A USIM simulator will be required as part of the USS. Alternatively, to perform the logical tests, USIMs programmed with specific data may be used. The USIM data is not defined within the initial conditions of the tests unless it differs from the default values defined below.

4.1 Definition of default values for USIM-Terminal interface testing (Default UICC)

A USIM containing the following default values is used for all tests of this present document unless otherwise stated.

USIM AID value shall follows the PIX coding for ‘3GPP USIM’ from ETSI TS 101 220 [54] annex E.

The service "Non-Access Stratum configuration by USIM" shall not be available unless otherwise specified.

For each data item, the logical default values and the coding within the elementary files (EF) of the USIM follow.

NOTE 1: Bx represents byte x of the coding.

NOTE 2: Unless otherwise defined, the coding values are hexadecimal.

4.1.1 Values of the EF’s (Default UICC)

4.1.1.1 EF_IMSI (IMSI)

Logically: 2460813579

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9
Hex	06	21	64	80	31	75	F9	FF	FF

4.1.1.2 EF_AD (Administrative Data)

Logically: Normal operation

OFM to be deactivated by the Terminal

MNC: 3 digit

Coding:	B1	B2	B3	B4
Hex	00	00	00	03

4.1.1.3 EF_LOCI (Location Information)

Logically: LAI-MCC: 246

LAI-MNC: 081

LAI-LAC: 0001

TMSI: "FF .. FF"

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9	B10	B11
Hex	FF	FF	FF	FF	42	16	80	00	01	FF	00

4.1.1.4 EF_Keys (Ciphering and Integrity Keys)

Logically: Key Set Identifier KSI: 0x

Ciphering Keys CK: xx

Integrity Keys IK: xx

Coding:

B1

B2

B3

…

B16

B17

B18

…

B30

B31

B32

B33

Hex

0x

xx

xx

…

xx

xx

xx

…

xx

xx

xx

xx

4.1.1.5 EF_KeysPS (Ciphering and Integrity Keys for Packet Switched domain)

Logically: Key Set Identifier KSI: 0x

Ciphering Keys CK: xx

Integrity Keys IK: xx

Coding:	B1	B2	B3	…	B16	B17	B18	…	B31	B32	B33
Hex	0x	xx	xx	…	xx	xx	xx	…	xx	xx	xx

4.1.1.6 EF_ACC (Access Control Class)

Logically: One and one access class from 0 – 9, e.g. class 7 for which the coding is "00 80".

4.1.1.7 EF_FPLMN (Forbidden PLMNs)

Besides of the 4 mandatory EF_FPLMN 2 optional EF_FPLMN are defined according to TS 31.102 [4], clause 4.2.16.

Logically: PLMN1: 234 001 (MCC MNC)

PLMN2: 234 002

PLMN3: 234 003

PLMN4: 234 004

PLMN5: 234 005

PLMN6: 234 006

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9	B10	B11	B12
Hex	32	14	00	32	24	00	32	34	00	32	44	00
	B13	B14	B15	B16	B17	B18
	32	54	00	32	64	00

4.1.1.8 EF_UST (USIM Service Table)

Logically:

Service n°1:		Local Phone Book	available
Service n°2:		Fixed Dialling Numbers (FDN)	available
Service n°6:		Barred Dialling Numbers (BDN)	available
Service n°17:		Group Identifier Level 1	not available
Service n°18:		Group Identifier Level 2	not available
Service n°20:		User controlled PLMN selector with Access Technology	available
Service n°27:		GSM Access	available
Service n°33:		shall be set to ‘1’	available
Service n°34:		Enabled Services Table	available

Coding:	B1	B2	B3	B4	B5
Binary	xx1x xx11	xxxx xxxx	xxxx 1×00	xxxx x1xx	xxxx xx11

The coding of EF_UST shall conform with the capabilities of the USIM used.

4.1.1.9 EF_EST (Enable Service Table)

1.1.9 EF_EST (Enable Service Table)

Logically:

Service n°1:		Fixed Dialling Numbers (FDN)	deactivated
Service n°2:		Barred Dialling Numbers (BDN	deactivated
Service n°3:		APN Control List (ACL)	deactivated

Coding:	B1
Binary	xxxx x000

…

The coding of EF_EST shall conform with the capabilities of the USIM, unused Bits are set to ‘0’.

4.1.1.10 EF_ADN (Abbreviated Dialling Number)

Logically:

At least 10 records, each non empty record unique.

Record 1: Length of alpha identifier: 32 characters;

Alpha identifier: "ABCDEFGHIJKLMNOPQRSTUVWXYZABCDEF";

Length of BCD number: "03";

TON and NPI: Telephony and Unknown;

Dialled number: 123;

CCI: None;

Ext1: None.

Record 1:

Coding:

B1

B2

B3

…

B32

B33

B34

B35

B36

B37

B38

B39

…

B46

Hex

41

42

43

…

46

03

81

21

F3

FF

FF

FF

…

FF

4.1.1.11 EF_PLMNwACT (User Controlled PLMN Selector with Access Technology)

Besides of the 8 mandatory PLMNwACT entries 4 optional PLMNwACT entries are defined according to TS 31.102 [4], clause 4.2.5. The Radio Access Technology identifier for the first two PLMN (1^st PLMN and 2^nd PLMN) are set to both UTRAN and GSM, all other PLMN to UTRAN only.

Logically: 1^st PLMN: 244 081 (MCC MNC)

1^st ACT: UTRAN

2^nd PLMN: 244 081

2^nd ACT: GSM

3^rd PLMN: 244 082

3^rd ACT: UTRAN

4^th PLMN: 244 082

4^th ACT: GSM

5^th PLMN: 244 003

5^th ACT: UTRAN

6^th PLMN: 244 004

6^th ACT: UTRAN

7^th PLMN: 244 005

7^th ACT: UTRAN

8^th PLMN: 244 006

8^th ACT: UTRAN

9^th PLMN: 244 007

9^th ACT: UTRAN

10^th PLMN: 244 008

10^th ACT: UTRAN

11^th PLMN: 244 009

11^th ACT: UTRAN

12^th PLMN: 244 010

12^th ACT: UTRAN

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9	B10	B11	B12	B13	B14	B15
Hex	42	14	80	80	00	42	14	80	00	80	42	24	80	80	00
	B16	B17	B18	B19	B20	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	42	24	80	00	80	42	34	00	80	00	42	44	00	80	00
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40	B41	B42	B43	B44	B45
	42	54	00	80	00	42	64	00	80	00	42	74	00	80	00
	B46	B47	B48	B49	B50	B51	B52	B53	B54	B55	B56	B57	B58	B59	B60
	42	84	00	80	00	42	94	00	80	00	42	04	10	80	00

4.1.1.12 EF_OPLMNwACT (Operator Controlled PLMN Selector with Access Technology)

The Radio Access Technology identifier for the first PLMN is set to both UTRAN and GSM, the other remaining PLMNs to UTRAN only.

Logically: 1^st PLMN: 254 001 (MCC MNC)

1^st ACT: UTRAN

2^nd PLMN: 254 001

2^nd ACT: GSM

3^rd PLMN: 254 002

3^rd ACT: UTRAN

4^th PLMN: 254 003

4^th ACT: UTRAN

5^th PLMN: 254 004

5^th ACT: UTRAN

6^th PLMN: 254 005

6^th ACT: UTRAN

7^th PLMN: 254 006

7^th ACT: UTRAN

8^th PLMN: 254 007

8^th ACT: UTRAN

Coding:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Hex	52	14	00	80	00	52	14	00	00	80
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	52	24	00	80	00	52	34	00	80	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	44	00	80	00	52	54	00	80	00
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	52	64	00	80	00	52	74	00	80	00

4.1.1.13 Void

4.1.1.14 PIN

Key reference: 01

Logically: 2468

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	32	34	36	38	FF	FF	FF	FF

4.1.1.15 PIN2

Key reference: 81

Logically: 3579

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	33	35	37	39	FF	FF	FF	FF

4.1.1.16 Unblock PIN

Key reference: 01

Logically: 13243546

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	31	33	32	34	33	35	34	36

4.1.1.17 Unblock PIN2

Key reference: 81

Logically: 08978675

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	30	38	39	37	38	36	37	35

4.1.1.18 Other Values of the USIM

All other values of Efs provided by the USIM shall be set to the default values defined in the annex E of TS 31.102 [4]. Some Efs (like the GSM Access files) may necessary for some tests and apply only to those test cases.

4.1.1.19 EF_PSLOCI (Packet Switch Location Information)

Logically: RAI-MCC: 246

RAI-MNC: 081

RAI-LAC: 0001

RAI-RAC: 05

P-TMSI: "FF….FF"

P-TMSI signature value: "FF…FF"

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9	B10	B11
Hex	FF	FF	FF	FF	FF	FF	FF	42	16	80	00
Coding:	B12	B13	B14
Hex	01	05	00

4.1.1.20 Universal PIN

Key reference: 11

Logically: 2839

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	32	38	33	39	FF	FF	FF	FF

4.1.1.21 Unblock Universal PIN

Key reference: 11

Logically: 02030405

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	30	32	30	33	30	34	30	35

4.2 Definition of FDN UICC

The FDN test cases require a different configuration than the one described in clause 4.1. For that purpose a default FDN UICC is defined. In general the values of the FDN UICC are identical to the default UICC, with the following exceptions.

4.2.1 Values of the EF’s (FDN UICC)

4.2.1.1 EF_UST (USIM Service Table)

Settings from clause 4.1 (Default UICC) of the present document apply.

4.2.1.2 EF_EST (Enable Service Table)

Logically:

Settings from clause 4.1 (Default UICC) of the present document apply with the following changes:

Service n°1:

Fixed Dialling Numbers (FDN)

activated

Coding:	B1
Binary	xxxx x001

The coding of EF_EST shall conform with the capabilities of the USIM, unused Bits are set to ‘0’..

4.2.1.3 EF_FDN (Fixed Dialling Numbers)

Logically:

Record 1: Length of alpha identifier: 6 characters;

Alpha identifier: "FDN111";

Length of BCD number: "06";

TON and NPI: Telephony and International;

Dialled number: +1357924680;

CCI2: None;

Ext2: None.

Coding for record 1:

B1

B2

B3

B4

B5

B6

B7

B8

B9

B10

B11

B12

B13

Hex

46

44

4E

31

31

31

06

91

31

75

29

64

08

B14

B15

B16

B17

B18

B19

B20

FF

FF

FF

FF

FF

FF

FF

Record 2: Length of alpha identifier: 6 characters;

Alpha identifier: "FDN222";

Length of BCD number: "04";

TON and NPI: Telephony and Unknown;

Dialled number: 24680;

CCI2: None;

Ext2: None.

Coding for record 2:

B1

B2

B3

B4

B5

B6

B7

B8

B9

B10

B11

B12

B13

Hex

46

44

4E

32

32

32

04

81

42

86

F0

FF

FF

B14

B15

B16

B17

B18

B19

B20

FF

FF

FF

FF

FF

FF

FF

Record 3: Length of alpha identifier: 6 characters;

Alpha identifier: "FDN333";

Length of BCD number: "0B";

TON and NPI: Telephony and International;

Dialled number: +12345678901234567890;

CCI2: None;

Ext2: None.

Coding for record 3:

B1

B2

B3

B4

B5

B6

B7

B8

B9

B10

B11

B12

B13

Hex

46

44

4E

33

33

33

0B

91

21

43

65

87

09

B14

B15

B16

B17

B18

B19

B20

21

43

65

87

09

FF

FF

4.2.1.4 EF_ECC (Emergency Call Codes)

Logically: Emergency call code: "122";

Emergency call code alpha identifier: "TEST";

Emergency call Service Category: Mountain Rescue.

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	21	F2	FF	54	45	53	54	10

4.2.1.5 Other Values of the USIM

All other values of Efs provided by the USIM shall be set to the default values defined in the annex E of TS 31.102 [4]. Some Efs (like the GSM Access files) may necessary for some tests and apply only to those test cases.

4.3 Void

4.4 Definition of E-UTRAN/EPC UICC

The E-UTRAN/EPC test cases require a different configuration than the one described in clause 4.1. For that purpose a default E-UTRAN/EPC UICC is defined. In general the values of the E-UTRAN/EPC UICC are identical to the default UICC, with the following exceptions:

4.4.1 EF_UST (USIM Service Table)

Logically:

Settings from clause 4.1 (Default UICC) of the present document apply with the following changes:

Service n°85:		EPS Mobility Management Information	available
Service n°86:		Allowed CSG Lists and corresponding indications	available

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Binary:	xx1x xx11	xxxx xxxx	xxxx 1×00	xxxx x1xx	xxxx xx11	xxxx xxxx	xxxx xxxx	xxxx xxxx
	B9	B10	B11
	xxxx xxxx	xxxx xxxx	xx11 xxxx

The coding of EF_UST shall conform with the capabilities of the USIM used.

4.4.2 EF_EPSLOCI (EPS Information)

Logically: GUTI: 24608100010266431122

Last visited registered TAI: 246/081/0001

EPS update status: not updated

Byte:	B1	B2	B3	B4	B5	B6	B7	B8	B9	B10	B11
Hex:	0B	F6	42	16	80	00	01	02	66	43	11
	B12	B13	B14	B15	B16	B17	B18
	22	42	16	80	00	01	01

4.4.3 EF_PLMNwACT (User Controlled PLMN Selector with Access Technology)

Besides of the 8 mandatory PLMNwACT entries 4 optional PLMNwACT entries are defined according to TS 31.102 [4], clause 4.2.5. The Radio Access Technology identifiers are set either to E-UTRAN only, UTRAN only or GSM only.

Logically: 1^st PLMN: 244 081 (MCC MNC)

1^st ACT: E-UTRAN

2^nd PLMN: 244 081

2^nd ACT: GSM

3^rd PLMN: 244 083

3^rd ACT: E-UTRAN

4^th PLMN: 244 082

4^th ACT: GSM

5^th PLMN: 244 003

5^th ACT: E-UTRAN

6^th PLMN: 244 004

6^th ACT: UTRAN

7^th PLMN: 244 005

7^th ACT: UTRAN

8^th PLMN: 244 081

8^th ACT: UTRAN

9^th PLMN: 244 007

9^th ACT: UTRAN

10^th PLMN: 244 008

10^th ACT: E-UTRAN

11^th PLMN: 244 009

11^th ACT: UTRAN

12^th PLMN: 244 010

12^th ACT: E-UTRAN

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9	B10	B11	B12	B13	B14	B15
Hex	42	14	80	40	00	42	14	80	00	80	42	34	80	40	00
	B16	B17	B18	B19	B20	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	42	24	80	00	80	42	34	00	40	00	42	44	00	80	00
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40	B41	B42	B43	B44	B45
	42	54	00	80	00	42	14	80	80	00	42	74	00	80	00
	B46	B47	B48	B49	B50	B51	B52	B53	B54	B55	B56	B57	B58	B59	B60
	42	84	00	40	00	42	94	00	80	00	42	04	10	40	00

4.4.4 EF_OPLMNwACT (Operator Controlled PLMN Selector with Access Technology)

The Radio Access Technology identifier for the first PLMN is set to both UTRAN and GSM, the other remaining PLMNs to UTRAN only or E-UTRAN only.

Logically: 1^st PLMN: 254 001 (MCC MNC)

1^st ACT: E-UTRAN

2^nd PLMN: 254 001

2^nd ACT: GSM

3^rd PLMN: 254 002

3^rd ACT: E-UTRAN

4^th PLMN: 254 003

4^th ACT: E-UTRAN

5^th PLMN: 254 004

5^th ACT: UTRAN

6^th PLMN: 254 005

6^th ACT: UTRAN

7^th PLMN: 254 006

7^th ACT: UTRAN

8^th PLMN: 254 007

8^th ACT: UTRAN

Coding:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Hex	52	14	00	40	00	52	14	00	00	80
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	52	24	00	40	00	52	34	00	40	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	44	00	80	00	52	54	00	80	00
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	52	64	00	80	00	52	74	00	80	00

4.4.5 EF_ACSGL (Allowed CSG Lists)

For testing 2 CSG lists are defined and stored together in record one.

Logically:

1^st CSG list

PLMN: 246 081 (MCC MNC)

1^st CSG list 1^st CSG Type indication 02

1^st CSG list 1^st CSG HNB Name indication 02

1^st CSG list 1^st CSG CSG ID: 02 (27bit)

1^st CSG list 2^nd CSG Type indication 03

1^st CSG list 2^nd CSG HNB Name indication 03

1^st CSG list 2^nd CSG CSG ID: 03 (27bit)

2^nd CSG list

PLMN: 244 081 (MCC MNC)

2^nd CSG list 1^st CSG Type indication 08

2^nd CSG list 1^st CSG HNB Name indication 08

2^nd CSG list 1^st CSG CSG ID: 08 (27bit)

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	A0	15	80	03	42	16	80	81	06	02
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	02	00	00	00	5F	81	06	03	03	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	00	00	7F	A0	0D	80	03	42	14	80
	B31	B32	B33	B34	B35	B36	B37	B38	B39	..
	81	06	08	08	00	00	01	1F	FF	FF
	Bxx
	FF

All other records are empty.

4.4.6 EF_CSGT (CSG Type)

Record 1:

Logically: Group ONE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	4F	00	4E	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 2:

Logically: Group TWO

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	54	00	57	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	4F	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 3:

Logically: Group THREE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	54	00	48	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	00	45	00	45	FF	FF	FF	FF	FF

Record 4:

Logically: Group FOUR

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	15	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	46	00	4F	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	55	00	52	FF	FF	FF	FF	FF	FF	FF

Record 5:

Logically: Group FIVE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	15	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	46	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	56	00	45	FF	FF	FF	FF	FF	FF	FF

Record 6:

Logically: Group SIX

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	53	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	58	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 7:

Logically: Group SEVEN

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	53	00	45	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	56	00	45	00	4E	FF	FF	FF	FF	FF

Record 8:

Logically: Group EIGHT

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	45	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	47	00	48	00	54	FF	FF	FF	FF	FF

4.4.7 EF_HNBN (Home (e)NodeB Name)

Record 1:

Logically: Home ONE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	4F	00	4E	00	45	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 2:

Logically: Home TWO

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	54	00	57	00	4F	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 3:

Logically: Home THREE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	54	00	48	00	52	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	00	45	FF	FF	FF	FF	FF	FF	FF

Record 4:

Logically: Home FOUR

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	13	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	46	00	4F	00	55	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 5:

Logically: Home FIVE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	13	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	46	00	49	00	56	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 6:

Logically: Home SIX

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	53	00	49	00	58	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 7:

Logically: Home SEVEN

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	53	00	45	00	56	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	00	4E	FF	FF	FF	FF	FF	FF	FF

Record 8:

Logically: Home EIGHT

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	45	00	49	00	47	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	48	00	54	FF	FF	FF	FF	FF	FF	FF

4.4.8 EF_EPSNSC (EPS NAS Security Context)

Logically: Key Set Identifier KSI_ASME: ’07’ (no key available)

ASME Key (KSI_ASME): 32 byte key, any value

Uplink NAS count: ’00’

Downlink NAS count: ’01’

Identifiers of selected NAS
integrity and encryption algorithm: ’01’

Byte:	B1	B2	B3	B4	B5	B6	B7	B8	…	B39
Coding:	A0	34	80	01	07	81	20	xx	…	xx
	B40	B41	B42	B43	B44	B45	B46	B47	B48	B49
	82	04	00	00	00	00	83	04	00	00
	B50	B51	B52	B53	B54
	00	01	84	01	01

4.5 Definition of E-UTRAN/EPC ISIM-UICC

4.5.1 Applications on the E-UTRAN/EPC ISIM-UICC

The E-UTRAN/EPC ISIM-UICC shall contain a USIM as defined in clause 4.5.2 and an ISIM as defined in clause 4.5.3.

4.5.2 Default USIM values on E-UTRAN/EPC ISIM-UICC

The E-UTRAN/EPC ISIM-UICC related test cases require a USIM to access the E-UTRAN/EPC. For this purpose the USIM shall be configured as defined in clause 4.4.

4.5.3 Default ISIM values on E-UTRAN/EPC ISIM-UICC

The E-UTRAN/EPC ISIM-UICC shall contain an ISIM for IMS access with the following values:

4.5.3.1 EF_AD (Administrative Data)

Logically: Normal Operation

Byte:	B1	B2	B3
Coding:	00	00	00

4.5.3.2 EF_IST (ISIM Service Table)

Logically:

Service n°1:		P-CSCF address	available
Service n°2:		Generic Bootstrapping Architecture (GBA)	not available
Service n°3:		HTTP Digest	not available
Service n°4:		GBA-based Local Key Establishment Mechanism	not available
Service n°5:		Support of P-CSCF discovery for IMS Local Break Out	not available
Service n°6:		Short Message Storage (SMS)	available
Service n°7:		Short Message Status Reports (SMSR)	available
Service n°8:		Support for SM-over-IP including data download via SMS-PP as defined in TS 31.111	available

Coding:	B1
Binary:	1110 0001

4.5.3.3 EF_IMPI (IMS private user identity)

Logically: 001010123456789@test.3gpp.com

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	1D	30	30	31	30	31	30	31	32
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	33	34	35	36	37	38	39	40	74	65
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	73	74	2E	33	67	70	70	2E	63	6F
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	6D	FF	FF	FF	FF	FF	FF	FF	FF	FF

4.5.3.4 EF_DOMAIN (Home Network Domain Name)

Logically: test.3gpp.com

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	0D	74	65	73	74	2E	33	67	70
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	70	2E	63	6F	6D	FF	FF	FF	FF	FF

4.5.3.5 EF_IMPU (IMS public user identity)

Record 1 :

Logically: sip:001010123456789@ims.mnc246.mcc081.3gppnetwork.org

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	35	73	69	70	3A	30	30	31	30
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	31	30	31	32	33	34	35	36	37	38
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	39	40	69	6D	73	2E	6D	6E	63	32
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	34	36	2E	6D	63	63	30	38	31	2E
	B41	B42	B43	B44	B45	B46	B47	B48	B49	B50
	33	67	70	70	6E	65	74	77	6F	72
	B51	B52	B53	B54	B55	B56	B57	B58	B59	B60
	6B	2E	6F	72	67	FF	FF	FF	FF	FF

Record 2:

Logically: sip:+11234567890@test.3gpp.com

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	1E	73	69	70	3A	2B	31	31	32
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	33	34	35	36	37	38	39	30	40	74
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	65	73	74	2E	33	67	70	70	2E	63
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	6F	6D	FF	FF	FF	FF	FF	FF	FF	FF
	B41	B42	B43	B44	B45	B46	B47	B48	B49	B50
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF
	B51	B52	B53	B54	B55	B56	B57	B58	B59	B60
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 3:

Logically: sip: user@test.3gpp.com

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	16	73	69	70	3A	75	73	65	72
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	40	74	65	73	74	2E	33	67	70	70
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	2E	63	6F	6D	FF	FF	FF	FF	FF	FF
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF
	B41	B42	B43	B44	B45	B46	B47	B48	B49	B50
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF
	B51	B52	B53	B54	B55	B56	B57	B58	B59	B60
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

4.5.3.6 EF_P-CSCF (P-CSCF ADDRESS)

Logically:

Address Type: FQDN

P-CSCF Address: pcscf1.anyims.test.3gpp.com

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	1C	00	70	63	73	63	66	31	2E
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	61	6E	79	69	6D	73	2E	74	65	73
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	74	2E	33	67	70	70	2E	63	6F	6D
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Note: This EF does not apply for 3GPP and shall not be used by a terminal using a 3GPP access network or a 3GPP Interworking WLAN.

4.5.3.7 EF_SMS (Short Message Service)

At least 10 records.

All records shall be empty.

Logically: Status byte set to empty.

Record 1-x (x ≥10):

Byte:

B1

B2

B3

B4

B5

B6

B7

B8

B9

B10

B11

B12

…

B176

Coding:

00

FF

FF

FF

FF

FF

FF

FF

FF

FF

FF

FF

…

FF

4.5.3.8 EF_SMSR (Short message status reports)

This EF shall contain as many records as EF_SMS.

All records shall be empty.

Logically: Status byte set to empty.

Record 1-x (x ≥10):

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	00	FF	FF	FF	FF	FF	FF	FF	FF	FF
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

4.5.3.9 EF_SMSP (Short message service parameters)

Logically:

Record 1:

Record length: 28 bytes

Parameter Indicators:

TP-Destination Address: Parameter absent

TS-Service Centre Address: Parameter present

TP-Protocol Identifier: Parameter absent

TP-Data Coding Scheme: Parameter absent

TP-Validity Period: Parameter absent

TS-Service Centre Address:

TON: International Number

NPI: "ISDN / telephone numbering plan"

Dialled number string: "112233445566778"

Byte:

B1

B2

B3

…

B13

B14

B15

B16

B17

B18

B19

B20

B21

B22

B23

Coding:

FD

FF

FF

…

FF

09

91

11

22

33

44

55

66

77

F8

B24

B25

B26

B27

B28

FF

FF

FF

FF

FF

All other records shall be empty.

4.5.3.10 EF_SMSS (SMS Status)

Logically: Last used TP-MR set to"00".

Memory capacity available (flag unset b1="1").

Byte:	B1	B2
Coding:	00	FF

4.5.4 Default values at DF_TELECOM

4.5.4.1 EF_PSISMSC (Public Service Identity of the SM-SC)

1 record only.

Logically:

Record 1:

Public Service Identity of the SM-SC: tel:+112233445566778

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	14	74	65	6C	3A	2B	31	31	32
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	32	33	33	34	34	35	35	36	36	37
	B21	B22	B23	B24	B25	B26	B27	B28	…	Bxx
	37	38	FF	FF	FF	FF	FF	FF	…	FF

4.6 Definition of ACSGL/OCSGL E-UTRAN/EPC UICC

The ACSGL/OCSGL E-UTRAN/EPC test cases require a different configuration than the one described in clause 4.4. For that purpose a default ACSGL/OCSGL E-UTRAN/EPC UICC is defined. In general the values of the ACSGL/OCSGL E-UTRAN/EPC UICC are identical to the E-UTRAN/EPC UICC, with the following exceptions:

4.6.1 EF_UST (USIM Service Table)

Logically:

Settings from clause 4.1 (Default UICC) of the present document apply with the following changes:

Service n°85:		EPS Mobility Management Information	available
Service n°86:		Allowed CSG Lists and corresponding indications	available
Service n°90:		Operator CSG Lists and corresponding indications	available
Service n°92:		Support of CSG Display Control	available

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Binary:	xx1x xx11	xxxx xxxx	xxxx 1×00	xxxx x1xx	xxxx xx11	xxxx xxxx	xxxx xxxx	xxxx xxxx
	B9	B10	B11	B12
	xxxx xxxx	xxxx xxxx	xx11 xxxx	xxxx 1x1x

The coding of EF_UST shall conform to the capabilities of the USIM used.

4.6.2 EF_AD (Administrative Data)

Logically: Normal operation

OFM to be deactivated by the Terminal

MNC: 3 digit
all available CSGs can be displayed without any restriction (B3)

Coding:	B1	B2	B3	B4
Hex	00	00	00	03

4.6.3 EF_OCSGL (Operator CSG Lists)

For testing 2 CSG lists are defined and stored together in record one.

Logically:

1^st CSG list

PLMN: 246 081 (MCC MNC)

1^st CSG list 1^st CSG Type indication 01

1^st CSG list 1^st CSG HNB Name indication 01

1^st CSG list 1^st CSG CSG ID: 01 (27bit)

1^st CSG list 2^nd CSG Type indication 05

1^st CSG list 2^nd CSG HNB Name indication 05

1^st CSG list 2^nd CSG CSG ID: 05 (27bit)

CSG display indicator: All available CSG Ids can be displayed during a manual CSGselection 00

2^nd CSG list

PLMN: 244 081 (MCC MNC)

2^nd CSG list 1^st CSG Type indication 07

2^nd CSG list 1^st CSG HNB Name indication 07

2^nd CSG list 1^st CSG CSG ID: 07 (27bit)

CSG display indicator: All available CSG Ids can be displayed during a manual CSGselection 00

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	A0	18	80	03	42	16	80	81	06	01
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	01	00	00	00	3F	81	06	05	05	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	00	00	BF	82	01	00	A0	10	80	03
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	42	14	80	81	06	07	07	00	00	00
	B41	B42	B43	B44
	FF	82	01	00

All other records are empty.

4.6.4 EF_OCSGT (Operator CSG Type)

Record 1:

Logically: OMode ONE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	4F	00	4D	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	64	00	65	00	20	00	4F	00	4E	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 2:

Logically: OMode TWO

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	4F	00	4D	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	64	00	65	00	20	00	54	00	57	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	4F	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 3:

Logically: OMode THREE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	4F	00	4D	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	64	00	65	00	20	00	54	00	48	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	00	45	00	45	FF	FF	FF	FF	FF

Record 4:

Logically: OMode FOUR

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	15	80	00	4F	00	4D	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	64	00	65	00	20	00	46	00	4F	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	55	00	52	FF	FF	FF	FF	FF	FF	FF

Record 5:

Logically: Group FIVE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	15	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	46	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	56	00	45	FF	FF	FF	FF	FF	FF	FF

Record 6:

Logically: Group SIX

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	53	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	58	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 7:

Logically: Group SEVEN

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	53	00	45	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	56	00	45	00	4E	FF	FF	FF	FF	FF

Record 8:

Logically: Group EIGHT

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	45	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	47	00	48	00	54	FF	FF	FF	FF	FF

4.6.5 EF_OHNBN (Operator Home (e)NodeB Name)

Record 1:

Logically: Home ONE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	4F	00	4E	00	45	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 2:

Logically: Home TWO

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	54	00	57	00	4F	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 3:

Logically: Home THREE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	54	00	48	00	52	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	00	45	FF	FF	FF	FF	FF	FF	FF

Record 4:

Logically: Home FOUR

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	13	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	46	00	4F	00	55	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 5:

Logically: Home FIVE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	13	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	46	00	49	00	56	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 6:

Logically: Home SIX

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	53	00	49	00	58	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 7:

Logically: Home SEVEN

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	53	00	45	00	56	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	00	4E	FF	FF	FF	FF	FF	FF	FF

Record 8:

Logically: Home EIGHT

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	45	00	49	00	47	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	48	00	54	FF	FF	FF	FF	FF	FF	FF

4.7 Definition of Non Access Stratum Configuration UICC

In general the values of the UICC configuration are identical to the default UICC, with the following exceptions:

4.7.1 Values of the EFs

4.7.1.1 EF_UST (USIM Service Table)

Logically:

Settings from clause 4.1 (Default UICC) of the present document apply with the following changes:

Service n°96:

Non-Access Stratum configuration by USIM

available

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Binary:	xx1x xx11	xxxx xxxx	xxxx 1×00	xxxx x1xx	xxxx xx11	xxxx xxxx	xxxx xxxx	xxxx xxxx
	B9	B10	B11	B12
	xxxx xxxx	xxxx xxxx	xxxx xxxx	1xxx xxxx

The coding of EF_UST shall conform to the capabilities of the USIM used.

4.7.1.2 EF_NASCONFIG (Non Access Stratum Configuration)

Logically: NAS signalling priority value: 00

NMO I Behaviour value: 00

Attach with IMSI value: 00

Minimum Periodic Search Timer value: 00

Extended access barring value: 00

Timer T3245 Behaviour value: 00

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	01	00	81	01	00	82	01	00	83
	B11	B12	B13	B14	B15	B16	B17	B18
	01	00	84	01	00	85	01	00

4.8 Definition of Non Access Stratum Configuration of E‑UTRAN/EPC UICC

In general the values of the UICC configuration are identical to the default UICC, with the following exceptions:

4.8.1 EF_UST (USIM Service Table)

Logically:

Settings from clause 4.1 (Default UICC) of the present document apply with the following changes:

Service n°85:		EPS Mobility Management Information	available
Service n°86:		Allowed CSG Lists and corresponding indications	available
Service n°96:		Non-Access Stratum configuration by USIM	available

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Binary:	xx1x xx11	xxxx xxxx	xxxx 1×00	xxxx x1xx	xxxx xx11	xxxx xxxx	xxxx xxxx	xxxx xxxx
	B9	B10	B11	B12
	xxxx xxxx	xxxx xxxx	xx11 xxxx	1xxx xxxx

The coding of EF_UST shall conform with the capabilities of the USIM used.

4.8.2 EF_EPSLOCI (EPS Information)

Logically: GUTI: 24608100010266431122

Last visited registered TAI: 246/081/0001

EPS update status: not updated

Byte:	B1	B2	B3	B4	B5	B6	B7	B8	B9	B10	B11
Hex:	0B	F6	42	16	80	00	01	02	66	43	11
	B12	B13	B14	B15	B16	B17	B18
	22	42	16	80	00	01	01

4.8.3 EF_PLMNwACT (User Controlled PLMN Selector with Access Technology)

Besides of the 8 mandatory PLMNwACT entries 4 optional PLMNwACT entries are defined according to TS 31.102 [4], clause 4.2.5. The Radio Access Technology identifiers are set either to E-UTRAN only, UTRAN only or GSM only.

Logically: 1^st PLMN: 244 081 (MCC MNC)

1^st ACT: E-UTRAN

2^nd PLMN: 244 081

2^nd ACT: GSM

3^rd PLMN: 244 083

3^rd ACT: E-UTRAN

4^th PLMN: 244 082

4^th ACT: GSM

5^th PLMN: 244 003

5^th ACT: E-UTRAN

6^th PLMN: 244 004

6^th ACT: UTRAN

7^th PLMN: 244 005

7^th ACT: UTRAN

8^th PLMN: 244 081

8^th ACT: UTRAN

9^th PLMN: 244 007

9^th ACT: UTRAN

10^th PLMN: 244 008

10^th ACT: E-UTRAN

11^th PLMN: 244 009

11^th ACT: UTRAN

12^th PLMN: 244 010

12^th ACT: E-UTRAN

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9	B10	B11	B12	B13	B14	B15
Hex	42	14	80	40	00	42	14	80	00	80	42	34	80	40	00
	B16	B17	B18	B19	B20	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	42	24	80	00	80	42	34	00	40	00	42	44	00	80	00
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40	B41	B42	B43	B44	B45
	42	54	00	80	00	42	14	80	80	00	42	74	00	80	00
	B46	B47	B48	B49	B50	B51	B52	B53	B54	B55	B56	B57	B58	B59	B60
	42	84	00	40	00	42	94	00	80	00	42	04	10	40	00

4.8.4 EF_OPLMNwACT (Operator Controlled PLMN Selector with Access Technology)

The Radio Access Technology identifier for the first PLMN is set to both UTRAN and GSM, the other remaining PLMNs to UTRAN only or E-UTRAN only.

Logically: 1^st PLMN: 254 001 (MCC MNC)

1^st ACT: E-UTRAN

2^nd PLMN: 254 001

2^nd ACT: GSM

3^rd PLMN: 254 002

3^rd ACT: E-UTRAN

4^th PLMN: 254 003

4^th ACT: E-UTRAN

5^th PLMN: 254 004

5^th ACT: UTRAN

6^th PLMN: 254 005

6^th ACT: UTRAN

7^th PLMN: 254 006

7^th ACT: UTRAN

8^th PLMN: 254 007

8^th ACT: UTRAN

Coding:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Hex	52	14	00	40	00	52	14	00	00	80
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	52	24	00	40	00	52	34	00	40	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	44	00	80	00	52	54	00	80	00
	B31	B32	B33	B34	B35	B36	B37	B38	B39	B40
	52	64	00	80	00	52	74	00	80	00

4.8.5 EF_ACSGL (Allowed CSG Lists)

For testing 2 CSG lists are defined and stored together in record one.

Logically:

1^st CSG list

PLMN: 246 081 (MCC MNC)

1^st CSG list 1^st CSG Type indication 02

1^st CSG list 1^st CSG HNB Name indication 02

1^st CSG list 1^st CSG CSG ID: 02 (27bit)

1^st CSG list 2^nd CSG Type indication 03

1^st CSG list 2^nd CSG HNB Name indication 03

1^st CSG list 2^nd CSG CSG ID: 03 (27bit)

2^nd CSG list

PLMN: 244 081 (MCC MNC)

2^nd CSG list 1^st CSG Type indication 08

2^nd CSG list 1^st CSG HNB Name indication 08

2^nd CSG list 1^st CSG CSG ID: 08 (27bit)

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	A0	15	80	03	42	16	80	81	06	02
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	02	00	00	00	5F	81	06	03	03	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	00	00	7F	A0	0D	80	03	42	14	80
	B31	B32	B33	B34	B35	B36	B37	B38	B39	..
	81	06	08	08	00	00	01	1F	FF	FF
	Bxx
	FF

All other records are empty.

4.8.6 EF_CSGT (CSG Type)

Record 1:

Logically: Group ONE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	4F	00	4E	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 2:

Logically: Group TWO

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	54	00	57	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	4F	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 3:

Logically: Group THREE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	54	00	48	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	00	45	00	45	FF	FF	FF	FF	FF

Record 4:

Logically: Group FOUR

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	15	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	46	00	4F	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	55	00	52	FF	FF	FF	FF	FF	FF	FF

Record 5:

Logically: Group FIVE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	15	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	46	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	56	00	45	FF	FF	FF	FF	FF	FF	FF

Record 6:

Logically: Group SIX

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	13	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	53	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	58	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 7:

Logically: Group SEVEN

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	53	00	45	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	56	00	45	00	4E	FF	FF	FF	FF	FF

Record 8:

Logically: Group EIGHT

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	89	17	80	00	47	00	72	00	6F	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	75	00	70	00	20	00	45	00	49	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	47	00	48	00	54	FF	FF	FF	FF	FF

4.8.7 EF_HNBN (Home (e)NodeB Name)

Record 1:

Logically: Home ONE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	4F	00	4E	00	45	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 2:

Logically: Home TWO

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	54	00	57	00	4F	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 3:

Logically: Home THREE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	54	00	48	00	52	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	00	45	FF	FF	FF	FF	FF	FF	FF

Record 4:

Logically: Home FOUR

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	13	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	46	00	4F	00	55	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	52	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 5:

Logically: Home FIVE

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	13	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	46	00	49	00	56	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 6:

Logically: Home SIX

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	11	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	53	00	49	00	58	FF
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	FF	FF	FF	FF	FF	FF	FF	FF	FF	FF

Record 7:

Logically: Home SEVEN

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	53	00	45	00	56	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	45	00	4E	FF	FF	FF	FF	FF	FF	FF

Record 8:

Logically: Home EIGHT

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	15	80	00	48	00	6F	00	6D	00
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	65	00	20	00	45	00	49	00	47	00
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	48	00	54	FF	FF	FF	FF	FF	FF	FF

4.8.8 EF_EPSNSC (EPS NAS Security Context)

Logically: Key Set Identifier KSI_ASME: ’07’ (no key available)

ASME Key (KSI_ASME): 32 byte key, any value

Uplink NAS count: ’00’

Downlink NAS count: ’01’

Identifiers of selected NAS
integrity and encryption algorithm: ’01’

Byte:	B1	B2	B3	B4	B5	B6	B7	B8	…	B39
Coding:	A0	34	80	01	07	81	20	xx	…	xx
	B40	B41	B42	B43	B44	B45	B46	B47	B48	B49
	82	04	00	00	00	00	83	04	00	00
	B50	B51	B52	B53	B54
	00	01	84	01	01

4.8.9 EF_NASCONFIG (Non Access Stratum Configuration)

Logically:

NAS signalling priority value: Reserved (NAS signalling low priority is not used)

NMO I Behaviour value: "NMO I, Network Mode of Operation I" indication is not used

Attach with IMSI value: normal behaviour is applied

Minimum Periodic Search Timer value: 00

Extended access barring value: extended access barring is not applied for the UE

Timer T3245 Behaviour value: T3245 not used

Override NAS signalling low priority: Indicates that the UE cannot override the NAS signalling low priority indicator

Override Extended access barring: Indicates that the UE cannot override extended access barring

Fast First Higher Priority PLMN Search: Indicates that the Fast First Higher Priority PLMN Search is not enabled

EUTRA Disabling Allowed For EMM Cause15: disabled

SM_RetryWaitTime: 00

SM_RetryAtRATChange: UE is allowed to retry the corresponding ESM procedure in S1 mode if an SM procedure was rejected in A/Gb or Iu mode, and to retry the corresponding SM procedure in A/Gb or Iu mode if an ESM procedure was rejected in S1 mode.

Byte:	B01	B02	B03	B04	B05	B06	B07	B08	B09	B10
Coding:	80	01	00	81	01	00	82	01	00	83
	B11	B12	B13	B14	B15	B16	B17	B18	B19	B20
	01	00	84	01	00	85	01	00	86	01
	B21	B22	B23	B24	B25	B26	B27	B28	B29	B30
	00	87	01	00	88	01	00	89	01	00
	B31	B32	B33	B34	B35	B36
	8A	01	00	8B	01	00

4.9 Definition of 5G-NR UICC

4.9.0 Introduction

The 5G-NR test cases require a different configuration than the one described in clause 4.1. For that purpose, a default 5G-NR UICC is defined. In general, the values of the 5G-NR UICC are identical to the default UICC, with the following exceptions:

4.9.1 EF_UST (USIM Service Table)

Logically:

Settings from clause 4.1 (Default UICC) of the present document apply with the following changes:

Service n°85:		EPS Mobility Management Information	available
Service n°86:		Allowed CSG Lists and corresponding indications	available
Service n°122:		5GS Mobility Management Information	available
Service n°123:		5G Security Parameters	available
Service n°124:		Subscription identifier privacy support	available
Service n°125:		SUCI calculation by the USIM	not available

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Binary:	xxxx xx1x	xxxx xxxx	xxxx 1×00	xxxx x1xx	xxxx xx11	xxxx xxxx	xxxx xxxx	xxxx xxxx
	B9	B10	B11	…	B16
	xxxx xxxx	xxxx xxxx	xx11 xxxx	…	xxx0 111x

4.9.2 EF_IMSI (IMSI)

Logically: 246081357935793

Coding:	B1	B2	B3	B4	B5	B6	B7	B8	B9
Hex	08	29	64	80	31	75	39	75	39

4.9.3 EF_5GS3GPPLOCI (5GS 3GPP location information)

Logically:

5G-GUTI: FF FF FF FF FF FF FF FF FF FF

TAI: 246 081 000000

5GS update status: 5U2 NOT UPDATED

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	FF	FF	FF	FF	FF	FF	FF	FF
	B9	B10	B11	B12	B13	B14	B15	B16
	FF	FF	FF	FF	FF	42	16	80
	B17	B18	B19	B20
	00	00	00	01

4.9.4 EF_{SUCI_Calc_Info} (Subscription Concealed Identifier Calculation Information EF)

Logically:

Protection Scheme Identifier List data object

Protection Scheme Identifier 1 – ECIES scheme profile B

Key Index 1: 1

Protection Scheme Identifier 2 – ECIES scheme profile A

Key Index 2: 2

Protection Scheme Identifier 3 – null-scheme

Key Index 3: 0

Home Network Public Key List data object

Home Network Public Key 1 Identifier: 27

Home Network Public Key 1:

– 04 72 DA 71 97 62 34 CE 83 3A 69 07 42 58 67 B8 2E 07 4D 44 EF 90 7D FB 4B 3E 21 C1 C2 25 6E BC D1 5A 7D ED 52 FC BB 09 7A 4E D2 50 E0 36 C7 B9 C8 C7 00 4C 4E ED C4 F0 68 CD 7B F8 D3 F9 00 E3 B4

Home Network Public Key 2 Identifier: 30

Home Network Public Key 2:

– 5A 8D 38 86 48 20 19 7C 33 94 B9 26 13 B2 0B 91 63 3C BD 89 71 19 27 3B F8 E4 A6 F4 EE C0 A6 50

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	A0	06	02	01	01	02	00	00
	B9	B10	B11	B12	B13	B14	B15	B16
	A1	6B	80	01	1B	81	41	04
	B17	B18	B19	B20	B21	B22	B23	B24
	72	DA	71	97	62	34	CE	83
	B25	B26	B27	B28	B29	B30	B31	B32
	3A	69	07	42	58	67	B8	2E
	B33	B34	B35	B36	B37	B38	B39	B40
	07	4D	44	EF	90	7D	FB	4B
	B41	B42	B43	B44	B45	B46	B47	B48
	3E	21	C1	C2	25	6E	BC	D1
	B49	B50	B51	B52	B53	B54	B55	B56
	5A	7D	ED	52	FC	BB	09	7A
	B57	B58	B59	B60	B61	B62	B63	B64
	4E	D2	50	E0	36	C7	B9	C8
	B65	B66	B67	B68	B69	B70	B71	B72
	C7	00	4C	4E	ED	C4	F0	68
	B73	B74	B75	B76	B77	B78	B79	B80
	CD	7B	F8	D3	F9	00	E3	B4
	B81	B82	B83	B84	B85	B86	B87	B88
	80	01	1E	81	20	5A	8D	38
	B89	B90	B91	B92	B93	B94	B95	B96
	86	48	20	19	7C	33	94	B9
	B97	B98	B99	B100	B101	B102	B103	B104
	26	13	B2	0B	91	63	3C	BD
	B105	B106	B107	B108	B109	B110	B111	B112
	89	71	19	27	3B	F8	E4	A6
	B113	B114	B115	B116	B117
	F4	EE	C0	A6	50

4.9.5 EF_{Routing_Indicator} (Routing Indicator EF)

Logically:

Routing Indicator: 17

Coding:	B1	B2	B3	B4
Hex	71	FF	00	00

4.10 Definition of 5G-NR UICC – non-IMSI SUPI Type

The 5G-NR non-IMSI SUPI Type test cases require a different configuration than the one described in clause 4.9. For that purpose, a default 5G-NR UICC – non-IMSI SUPI Type is defined. In general, the values of the 5G-NR UICC – non-IMSI SUPI Type are identical to the 5G-NR UICC, with the following exceptions:

USIM AID value shall follows the PIX coding for ‘3GPP USIM (non-IMSI SUPI Type)’ from ETSI TS 101 220 [54] annex E.

4.10.1 EF_UST (USIM Service Table)

Settings from clause 4.9 (Default 5G-NR UICC) of the present document apply with the following changes:

Logically:

Service n°130

Support for SUPI of type NSI or GLI or GCI

available

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Binary:	xxxx xx1x	xxxx xxxx	xxxx 1×00	xxxx x1xx	xxxx xx11	xxxx xxxx	xxxx xxxx	xxxx xxxx
	B9	B10	B11		B16	B17
	xxxx xxxx	xxxx xxxx	xx11 xxxx	…..	xxx0 111x	xxxx xx1x

4.10.2 EF_IMSI (IMSI)

This file shall not be available.

4.10.3 EF_{SUPI_NAI} (SUPI as Network Access Identifier)

This file shall be available.

Logically: 00-00-5E-00-53-00@5gc.mnc012.mcc345.3gppnetwork.org

Username: 00-00-5E-00-53-00

Realm: 5gc.mnc012.mcc345.3gppnetwork.org

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	82	33	30	30	2D	30	30	2D
	B9	B10	B11	B12	B13	B14	B15	B16
	35	45	2D	30	30	2D	35	33
	B17	B18	B19	B20	B21	B22	B23	B24
	2D	30	30	40	35	67	63	2E
	B25	B26	B27	B28	B29	B30	B31	B32
	6D	6E	63	30	31	32	2E	6D
	B33	B34	B35	B36	B37	B38	B39	B40
	63	63	33	34	35	2E	33	67
	B41	B42	B43	B44	B45	B46	B47	B48
	70	70	6E	65	74	77	6F	72
	B49	B50	B51	B52	B53
	6B	2E	6F	72	67

4.10.4 EF_5GS3GPPLOCI (5GS 3GPP location information)

Settings from clause 4.9.3 of the present document apply.

4.10.5 EF_{SUCI_Calc_Info} (Subscription Concealed Identifier Calculation Information EF)

Logically:

Protection Scheme Identifier List data object

Protection Scheme Identifier 1 – ECIES scheme profile B

Key Index 1: 1

Protection Scheme Identifier 2 – ECIES scheme profile A

Key Index 2: 2

Protection Scheme Identifier 3 – null-scheme

Key Index 3: 0

Home Network Public Key List data object

Home Network Public Key 1 Identifier: 27

Home Network Public Key 1:

– 04 72 DA 71 97 62 34 CE 83 3A 69 07 42 58 67 B8 2E 07 4D 44 EF 90 7D FB 4B 3E 21 C1 C2 25 6E BC D1 5A 7D ED 52 FC BB 09 7A 4E D2 50 E0 36 C7 B9 C8 C7 00 4C 4E ED C4 F0 68 CD 7B F8 D3 F9 00 E3 B4

Home Network Public Key 2 Identifier: 30

Home Network Public Key 2:

– 5A 8D 38 86 48 20 19 7C 33 94 B9 26 13 B2 0B 91 63 3C BD 89 71 19 27 3B F8 E4 A6 F4 EE C0 A6 50

Coding:	B1	B2	B3	B4	B5	B6	B7	B8
Hex	A0	06	02	01	01	02	00	00
	B9	B10	B11	B12	B13	B14	B15	B16
	A1	6B	80	01	1B	81	41	04
	B17	B18	B19	B20	B21	B22	B23	B24
	72	DA	71	97	62	34	CE	83
	B25	B26	B27	B28	B29	B30	B31	B32
	3A	69	07	42	58	67	B8	2E
	B33	B34	B35	B36	B37	B38	B39	B40
	07	4D	44	EF	90	7D	FB	4B
	B41	B42	B43	B44	B45	B46	B47	B48
	3E	21	C1	C2	25	6E	BC	D1
	B49	B50	B51	B52	B53	B54	B55	B56
	5A	7D	ED	52	FC	BB	09	7A
	B57	B58	B59	B60	B61	B62	B63	B64
	4E	D2	50	E0	36	C7	B9	C8
	B65	B66	B67	B68	B69	B70	B71	B72
	C7	00	4C	4E	ED	C4	F0	68
	B73	B74	B75	B76	B77	B78	B79	B80
	CD	7B	F8	D3	F9	00	E3	B4
	B81	B82	B83	B84	B85	B86	B87	B88
	80	01	1E	81	20	5A	8D	38
	B89	B90	B91	B92	B93	B94	B95	B96
	86	48	20	19	7C	33	94	B9
	B97	B98	B99	B100	B101	B102	B103	B104
	26	13	B2	0B	91	63	3C	BD
	B105	B106	B107	B108	B109	B110	B111	B112
	89	71	19	27	3B	F8	E4	A6
	B113	B114	B115	B116	B117
	F4	EE	C0	A6	50

4.10.6 EF_{Routing_Indicator} (Routing Indicator EF)

Settings from clause 4.9.5 of the present document apply.

4.10.7 EF_AD (Administrative Data)

Logically: Normal operation

OFM to be deactivated by the Terminal

Length of MNC in the IMSI: 0

Coding:	B1	B2	B3	B4
Hex	00	00	00	00