1 BEGIN:VCARD

     2 VERSION:2.1

     3 N:;FFA

     4 FN:FFAvvvvvvvvvvvvdddddddddddddddddd

     5 NICKNAME:Test1

     6 ORG:Symbian Foundation

     7 adsdfdfkljdlfijdklfjkldjflkjflkjalkdjalkdjlkajdl[asdjsadjsfgfasddfdsfdfdfdfdfdfdfdfdfdfdfdsfdsfdsfdsfdslfkkdlksfmldksfmlkdsmflkdsmflkdsmflksdmklfsdmffgfasddfdsfdfdfdfdfdfdfdfdfdfdfdsfdsfdsfdsfdslfkkdlksfmldksfmlkdsmflkakljdklasdjklasjdklsajdklasjd;Bluetooth

     8 

     9 flkdkfldskjfkldsjflkdsjklfjdsklfjdklfjkldsfjkldsjfkldsjfklsdjflkdsjflkdsjffgfasddfdsfdfdfdfdfdfdfdfdfdfdfdsfdsfdsfdsfdslfkkdlksfmldksfmlkdsmflkdsmflkdsmflksdmklfsdmffgfasddfdsfdfdfdfdfdfdfkjfkljfkdljfksdljfkljfkljlkdsajdklsajdklasjdklasjdksaaflkdkfldskjfkldsjflkdsjklfjdsklfjdklfjkldsfjkldsjfkldsjfklsdjflkdsjflkdsjffgfasddfdsfdfdfdfdfdfdfdfdfdfdfdsfdsfdsfdsfdslfkkdlksfmldksfmlkdsmflkdsmflkdsmflksdmdfdfdfdsfdsfdsfdsfdslfkkdlksfmldksfmlkdsmflkdsmflkdsmflksdmklfsdmffgfasddfdsfdfdfdfdfdfdfdfdfdfdfdsfjdklfjkldsfjkldsjfkldsjfklsdjflkdsjflkdsjffgfasddfdsfdfdfdfdfdfdfdfdfdfdfdsfdsfdsfdsfdslfkkdlksfmldksfmlkdsmflkdsmflkdsmflksdmklfsdmffgfasddfdsfdfdfdfdfdfdfkjfkljfkdljfksdljfkljfkljlkdsajdklsajdklasjdklasjdksaadsdfdfkljdlfijdklfjkldjflkjflkjalkdjalkdjlkajdl[asdjsadjsfgfasddfdsfdfdfdfdfdfdfdfdfdfdfdslkdsmflksdmklfsdmffgfasddfdsfdfdfdfdfdfdfdfdfdfdfdsfdsfdsfdsfdslfkkdlksfmldksfmlkdsmflkakljdklasdjklasjdklsajdklasjd;Bluetooth

    10 Tield: Obsolete term fo=

    11 r Elementary File.=0D=0ADedicated File (DF): A file containing access condit=

    12 ions and optionally Elementary Files (EFs) or other=0D=0ADedicated Files (=

    13 DFs).=0D=0Adirectory: General term for MF and DF.=0D=0AElementary File (EF):=

    14  A file containing access conditions and data and no other files.=0D=0Afile:=

    15  A directory or an organised set of bytes or records in the SIM.=0D=0Afile i=

    16 dentifier: The 2 bytes which address a file in the SIM.=0D=0AGSM or DCS 1800=

    17  application: Set of security mechanisms files data and protocols required=

    18  by GSM=0D=0Aor DCS 1800.=0D=0AGSM session: That part of the card session de=

    19 dicated to the GSM operation.=0D=0AIC card SIM: Obsolete term for ID-1 SIM.=

    20 =0D=0AID-1 SIM: The SIM having the format of an ID-1 card (see ISO 7816-1 [2=

    21 3]).=0D=0AMaster File (MF): The unique mandatory file containing access cond=

    22 itions and optionally DFs and/or EFs.=0D=0Apadding: One or more bits appende=

    23 d to a message in order to cause the message to contain the required=0D=0Anu=

    24 mber of bits or bytes.=0D=0Aplug-in SIM: A second format of SIM (specified i=

    25 n clause 4).=0D=0Arecord: A string of bytes within an EF handled as a single=

    26  entity (see clause 6).=0D=0Arecord number: The number which identifies a re=

    27 cord within an EF.=0D=0Arecord pointer: The pointer which addresses one reco=

    28 rd in an EF.=0D=0APage 12=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0Aro=

    29 ot directory: Obsolete term for Master File.=0D=0A3.2 Abbreviations=0D=0AFor=

    30  the purposes of this ETS the following abbreviations apply. In addition to =

    31 the following abbreviations=0D=0Aused in this ETS are listed in GSM 01.04 [2=

    32 ].=0D=0AA3 Algorithm 3 authentication algorithm; used for authenticating th=

    33 e subscriber=0D=0AA5 Algorithm 5 cipher algorithm; used for enciphering/dec=

    34 iphering data=0D=0AA8 Algorithm 8 cipher key generator; used to generate Kc=

    35 =0D=0AA38 A single algorithm performing the functions of A3 and A8=0D=0AACM =

    36 Accumulated Call Meter=0D=0AADN Abbreviated Dialling Number=0D=0AADM Access =

    37 condition to an EF which is under the control of the authority which=0D=0Acr=

    38 eates this file=0D=0AALW ALWays=0D=0AAoC Advice of Charge=0D=0AAPDU Applicat=

    39 ion Protocol Data Unit=0D=0AATR Answer To Reset=0D=0ABCCH Broadcast Control =

    40 CHannel=0D=0ABCD Binary Coded Decimal=0D=0ABTS Base Transmitter Station=0D=

    41 =0ACB Cell Broadcast=0D=0ACBMI Cell Broadcast Message Identifier=0D=0ACCITT =

    42 The International Telegraph and Telephone Consultative Committee (now also=

    43 =0D=0Aknown as the ITU Telecommunications Standardization sector)=0D=0ACCP C=

    44 apability/Configuration Parameter=0D=0ACHV Card Holder Verification informat=

    45 ion; access condition used by the SIM for the=0D=0Averification of the ident=

    46 ity of the user=0D=0ACLA CLAss=0D=0ADCS Digital Cellular System=0D=0ADF Dedi=

    47 cated File (abbreviation formerly used for Data Field)=0D=0ADTMF Dual Tone M=

    48 ultiple Frequency=0D=0AEF Elementary File=0D=0AETSI European Telecommunicati=

    49 ons Standards Institute=0D=0Aetu elementary time unit=0D=0AFDN Fixed Diallin=

    50 g Number=0D=0AGSM Global System for Mobile communications=0D=0AHPLMN Home PL=

    51 MN=0D=0AIC Integrated Circuit=0D=0AICC Integrated Circuit(s) Card=0D=0AID ID=

    52 entifier=0D=0AIEC International Electrotechnical Commission=0D=0AIMSI Intern=

    53 ational Mobile Subscriber Identity=0D=0AISO International Organization for S=

    54 tandardization=0D=0AKc Cryptographic key; used by the cipher A5=0D=0AKi Subs=

    55 criber authentication key; the cryptographic key used by the authentication=

    56 =0D=0Aalgorithm A3 and cipher key generator A8=0D=0ALAI Location Area Inf=

    57 ormation; information indicating a cell or a set of cells=0D=0Algth The (spe=

    58 cific) length of a data unit=0D=0ALND Last Number Dialled=0D=0ALSB Least Sig=

    59 nificant Bit=0D=0AMCC Mobile Country Code=0D=0AME Mobile Equipment=0D=0AMF M=

    60 aster File=0D=0AMMI Man Machine Interface=0D=0AMNC Mobile Network Code=0D=

    61 =0AMS Mobile Station=0D=0AMSISDN Mobile Station international ISDN number=

    62 =0D=0AMSB Most Significant Bit=0D=0APage 13=0D=0AGSM 11.11 Version 5.0.0 Dec=

    63 ember 1995=0D=0ANET NETwork=0D=0ANEV NEVer=0D=0ANPI Numbering Plan Identifie=

    64 r=0D=0APIN/PIN2 Personal Identification Number / Personal Identification Num=

    65 ber 2 (obsolete=0D=0Aterms for CHV1 and CHV2 respectively)=0D=0APLMN Public=

    66  Land Mobile Network=0D=0APTS Protocol Type Select (response to the ATR)=0D=

    67 =0APUK/PUK2 PIN Unblocking Key / PIN2 Unblocking Key (obsolete terms for UNB=

    68 LOCK CHV1=0D=0Aand UNBLOCK CHV2 respectively)=0D=0ARAND A RANDom challenge =

    69 issued by the network=0D=0ARFU Reserved for Future Use=0D=0ASIM Subscriber I=

    70 dentity Module=0D=0ASMS Short Message Service=0D=0ASRES Signed RESponse calc=

    71 ulated by a SIM=0D=0ASSC Supplementary Service Control string=0D=0ASW1/SW2 S=

    72 tatus Word 1 / Status Word 2=0D=0ATMSI Temporary Mobile Subscriber Identity=

    73 =0D=0ATON Type Of Number=0D=0ATP Transfer layer Protocol=0D=0ATS Technical S=

    74 pecification=0D=0AUNBLOCK CHV1/2 value to unblock CHV1/CHV2=0D=0AVPLMN Visit=

    75 ed PLMN=0D=0A3.3 Symbols=0D=0AVcc Supply voltage=0D=0AVpp Programming voltag=

    76 e=0D=0A'0' to '9' and 'A' to 'F' The sixteen hexadecimal digits=0D=0A4 Physi=

    77 cal characteristics=0D=0ATwo physical types of SIM are specified. These are =

    78 the "ID-1 SIM" and the "Plug-in SIM".=0D=0AThe physical characteristics of b=

    79 oth types of SIM shall be in accordance with ISO 7816-12 [23 24] unless=

    80 =0D=0Aotherwise specified. The following additional requirements shall be ap=

    81 plied to ensure proper operation in=0D=0Athe GSM environment.=0D=0A4.1 Forma=

    82 t and layout=0D=0AThe information on the exterior of either SIM should inclu=

    83 de at least the individual account identifier and the=0D=0Acheck digit of th=

    84 e IC Card Identification (see clause 10 EFICCID).=0D=0A4.1.1 ID-1 SIM=0D=

    85 =0AFormat and layout of the ID-1 SIM shall be in accordance with ISO 7816-1=

    86 2 [23 24].=0D=0AThe card shall have a polarisation mark (see TS GSM 02.07 [=

    87 3]) which indicates how the user should=0D=0Ainsert the card into the ME.=

    88 =0D=0AThe ME shall accept embossed ID-1 cards. The embossing shall be in acc=

    89 ordance with ISO 7811=0D=0A[20 21]. The contacts of the ID-1 SIM shall be l=

    90 ocated on the front (embossed face see ISO 7810 [20])=0D=0Aof the card.=0D=

    91 =0A4.1.2 Plug-in SIM=0D=0AThe Plug-in SIM has a width of 25 mm a height of =

    92 15 mm a thickness the same as an ID-1 SIM and a=0D=0Afeature for orientatio=

    93 n. See figure A.1 in normative annex A for details of the dimensions of the =

    94 card and=0D=0Athe dimensions and location of the contacts.=0D=0AAnnexes A.1 =

    95 and A.2 of ISO 7816-1 [23] do not apply to the Plug-in SIM.=0D=0APage 14=0D=

    96 =0AGSM 11.11 Version 5.0.0 December 1995=0D=0AAnnex A of ISO 7816-2 [24] app=

    97 lies with the location of the reference points adapted to the smaller size.=

    98 =0D=0AThe three reference points P1 P2 and P3 measure 75 mm 33 mm and 20=

    99 8 mm respectively from 0.=0D=0AThe values in Table A.1 of ISO 7816-2 [24]=

   100  are replaced by the corresponding values of figure A.1.=0D=0A4.2 Temperatur=

   101 e range for card operation=0D=0AThe temperature range for full operational u=

   102 se shall be between -25=B0C and +70=B0C with occasional peaks of=0D=0Aup to =

   103 +85=B0C. "Occasional" means not more than 4 hours each time and not over 100=

   104  times during the life=0D=0Atime of the card.=0D=0A4.3 Contacts=0D=0A4.3.1 P=

   105 rovision of contacts=0D=0AME: There shall not be any contacting elements in =

   106 positions C4 and C8. Contact C6 need not be=0D=0Aprovided for Plug-in SIMs.=

   107 =0D=0ASIM: Contacts C4 and C8 need not be provided by the SIM. Contact C6 sh=

   108 all not be bonded in the SIM=0D=0Afor any function other than supplying Vpp.=

   109 =0D=0A4.3.2 Activation and deactivation=0D=0AThe ME shall connect activate =

   110 and deactivate the SIM in accordance with the Operating Procedures=0D=0Aspec=

   111 ified in ISO/IEC 7816-3 [25].=0D=0AFor any voltage level monitored during t=

   112 he activation sequence or during the deactivation sequence=0D=0Afollowing s=

   113 oft power-down the order of the contact activation/deactivation shall be re=

   114 spected.=0D=0ANOTE 1: Soft Power switching is defined in TS GSM 02.07 [3].=

   115 =0D=0ANOTE 2: It is recommended that whenever possible the deactivation sequ=

   116 ence defined in=0D=0AISO/IEC 7816-3 [25] should be followed by the ME on all=

   117  occasions when the ME is=0D=0Apowered down.=0D=0AIf the SIM clock is alread=

   118 y stopped and is not restarted the ME is allowed to deactivate all the cont=

   119 acts in=0D=0Aany order provided that all signals reach low level before Vcc=

   120  leaves high level. If the SIM clock is already=0D=0Astopped and is restarte=

   121 d before the deactivation sequence then the deactivation sequence specified=

   122  in=0D=0AISO/IEC 7816-3 [25] subclause 5.4 shall be followed.=0D=0AWhen Vpp =

   123 is connected to Vcc as allowed by GSM (see clause 5) then Vpp will be acti=

   124 vated and=0D=0Adeactivated with Vcc at the time of the Vcc activation/deact=

   125 ivation as given in the sequences of ISO/IEC=0D=0A7816-3 [25] subclauses 5.=

   126 1 and 5.4.=0D=0AThe voltage level of Vcc used by GSM differs from that spe=

   127 cified in ISO/IEC 7816-3 [25]. Vcc is powered=0D=0Awhen it has a value betwe=

   128 en 45 V and 55 V.=0D=0A4.3.3 Inactive contacts=0D=0AThe voltages on contac=

   129 ts C1 C2 C3 C6 and C7 of the ME shall be between 0 and =B1 04 volts refe=

   130 renced=0D=0Ato ground (C5) when the ME is switched off with the power source=

   131  connected to the ME. The=0D=0Ameasurement equipment shall have a resistance=

   132  of 50 kohms when measuring the voltage on C2 C3 C6=0D=0Aand C7. The resis=

   133 tance shall be 10 kohms when measuring the voltage on C1.=0D=0A4.3.4 Contact=

   134  pressure=0D=0AThe contact pressure shall be large enough to ensure reliable=

   135  and continuous contact (e.g. to overcome=0D=0Aoxidisation and to prevent in=

   136 terruption caused by vibration). The radius of any curvature of the contacti=

   137 ng=0D=0Aelements shall be greater than or equal to 08 mm over the contact a=

   138 rea.=0D=0APage 15=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0AUnder no c=

   139 ircumstances may a contact force be greater than 05 N per contact.=0D=0A4.4=

   140  Precedence=0D=0AFor Mobile Equipment which accepts both an ID-1 SIM and a =

   141 Plug-in SIM the ID-1 SIM shall take=0D=0Aprecedence over the Plug-in SIM (s=

   142 ee TS GSM 02.17 [6]).=0D=0A4.5 Static Protection=0D=0AConsidering that the S=

   143 IM is a CMOS device the ME manufacturer shall take adequate precautions (in=

   144 =0D=0Aaddition to the protection diodes inherent in the SIM) to safeguard th=

   145 e ME SIM and SIM/ME interface=0D=0Afrom static discharges at all times and=

   146  particularly during SIM insertion into the ME.=0D=0A5 Electronic signals an=

   147 d transmission protocols=0D=0AElectronic signals and transmission protocols =

   148 shall be in accordance with ISO/IEC 7816-3 [25] unless=0D=0Aspecified otherw=

   149 ise. The following additional requirements shall be applied to ensure proper=

   150  operation in=0D=0Athe GSM environment.=0D=0AThe choice of the transmission =

   151 protocol(s) to be used to communicate between the SIM and the ME shall=0D=

   152 =0Aat least include that specified and denoted by T=3D0 in ISO/IEC 7816-3 [2=

   153 5].=0D=0AThe values given in the tables hereafter are derived from ISO/IEC 7=

   154 816-3 [25] subclause 4.2 with the=0D=0Afollowing considerations:=0D=0A- VOH=

   155  and VOL always refer to the device (ME or SIM) which is driving the interfa=

   156 ce. VIH and VIL=0D=0Aalways refer to the device (ME or SIM) which is operati=

   157 ng as a receiver on the interface.=0D=0A- This convention is different to th=

   158 e one used in ISO/IEC 7816-3 [25] which specifically defines an=0D=0AICC fo=

   159 r which its current conventions apply. The following clauses define the spec=

   160 ific core=0D=0Arequirements for the SIM which provide also the basis for Ty=

   161 pe Approval. For each state (VOH VIH=0D=0AVIL and VOL) a positive current =

   162 is defined as flowing out of the entity (ME or SIM) in that state.=0D=0A- Th=

   163 e high current options of ISO/IEC 7816-3 [25] for VIH and VOH are not specif=

   164 ied for the SIM as=0D=0Athey apply to NMOS technology requirements. No reali=

   165 sation of the SIM using NMOS is foreseen.=0D=0A5.1 Supply voltage Vcc (conta=

   166 ct C1)=0D=0AThe SIM shall be operated within the following limits:=0D=0ATabl=

   167 e 1: Electrical characteristics of Vcc under normal operating conditions=0D=

   168 =0ASymbol Minimum Maximum Unit=0D=0AVcc 45 55 V=0D=0AIcc 10 mA=0D=0AThe cu=

   169 rrent consumption of the SIM shall not exceed the value given in table 1 at =

   170 any frequency accepted=0D=0Aby the SIM.=0D=0AWhen the SIM is in idle state (=

   171 see below) the current consumption of the card shall not exceed 200 =B5A at =

   172 1=0D=0AMHz and 25=B0C.=0D=0AThe ME shall source the maximum current requirem=

   173 ents defined above. It shall also be able to counteract=0D=0Aspikes in the c=

   174 urrent consumption of the card up to a maximum charge of 40 nAs with no more=

   175  than 400 ns=0D=0Aduration and an amplitude of at most 200 mA ensuring that=

   176  the supply voltage stays in the specified range.=0D=0ANOTE: A possible solu=

   177 tion would be to place a capacitor (e.g. 100 nF ceramic) as close as=0D=0Ap=

   178 ossible to the contacting elements.=0D=0APage 16=0D=0AGSM 11.11 Version 5.0.=

   179 0 December 1995=0D=0A5.2 Reset (RST) (contact C2)=0D=0AThe ME shall operate =

   180 the SIM within the following limits:=0D=0ATable 2: Electrical characteristic=

   181 s of RST under normal operating conditions=0D=0ASymbol Conditions Minimum Ma=

   182 ximum=0D=0AVOH IOHmax =3D +20=B5A Vcc-07 Vcc (note)=0D=0AVOL IOLmax =3D -20=

   183 0 =B5A 0V (note) 06V=0D=0AtR tF Cout =3D Cin =3D 30pF 400=B5s=0D=0ANOTE: To=

   184  allow for overshoot the voltage on RST shall remain=0D=0Abetween -03V and =

   185 Vcc+03V during dynamic operation.=0D=0A5.3 Programming voltage Vpp (contact=

   186  C6)=0D=0ASIMs shall not require any programming voltage on Vpp. The ME need=

   187  not provide contact C6. If the ME=0D=0Aprovides contact C6 then in the ca=

   188 se of the ID-1 SIM the same voltage shall be supplied on Vpp as on=0D=0AVcc=

   189  while in the case of Plug-in SIMs the ME need not provide any voltage on C6=

   190 . Contact C6 may be=0D=0Aconnected to Vcc in any ME but shall not be connect=

   191 ed to ground.=0D=0A5.4 Clock CLK (contact C3)=0D=0AThe SIM shall support 1 t=

   192 o 5 MHz. The clock shall be supplied by the ME. No "internal clock" SIMs sha=

   193 ll be=0D=0Aused.=0D=0AIf a frequency of 13/4 MHz is needed by the SIM to run=

   194  the authentication procedure in the allotted time=0D=0A(see TS GSM 03.20 [1=

   195 0]) bit 2 of byte 1 in the directory characteristics shall be set to 1. Oth=

   196 erwise a=0D=0Aminimum frequency of 13/8 MHz may be used.=0D=0AThe duty cycle=

   197  shall be between 40% and 60% of the period during stable operation.=0D=0ATh=

   198 e ME shall operate the SIM within the following limits:=0D=0ATable 3: Electr=

   199 ical characteristics of CLK under normal operating conditions=0D=0ASymbol Co=

   200 nditions Minimum Maximum=0D=0AVOH IOHmax =3D +20=B5A 07xVcc Vcc (note)=0D=

   201 =0AVOL IOLmax =3D -200 =B5A 0V (note) 05V=0D=0AtR tF Cout =3D Cin =3D 30pF =

   202 9 % of period with a maximum=0D=0Aof 05=B5s=0D=0ANOTE: To allow for oversho=

   203 ot the voltage on CLK shall remain between -03V=0D=0Aand Vcc+03V during dy=

   204 namic operation.=0D=0A5.5 I/O (contact C7)=0D=0ATable 4 defines the electric=

   205 al characteristics of the I/O (contact C7). The values given in the table ha=

   206 ve the=0D=0Aeffect of defining the values of the pull-up resistor in the ME =

   207 and the impedances of the drivers and=0D=0Areceivers in the ME and SIM.=0D=

   208 =0APage 17=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0ATable 4: Electric=

   209 al characteristics of I/O under normal operating conditions=0D=0ASymbol Cond=

   210 itions Minimum Maximum=0D=0AVIH IIHmax =3D =B120=B5A (note 2) 07xVcc Vcc+0=

   211 3V=0D=0AVIL IILmax =3D +1mA -03V 08V=0D=0AVOH (note 1) IOHmax =3D +20=B5A =

   212 38V Vcc (note 3)=0D=0AVOL IOLmax =3D -1mA 0V (note 3) 04V=0D=0AtR tF Cout =

   213 =3D Cin =3D 30pF 1=B5s=0D=0ANOTE 1: It is assumed that a pull-up resistor is=

   214  used in the interface device=0D=0A(recommended value: 20kohms).=0D=0ANOTE 2=

   215 : During static conditions (idle state) only the positive value can apply.=

   216 =0D=0AUnder dynamic operating conditions (transmission) short term voltage=

   217 =0D=0Aspikes on the I/O line may cause a current reversal.=0D=0ANOTE 3: To a=

   218 llow for overshoot the voltage on I/O shall remain between -03V and=0D=0AVc=

   219 c+03V during dynamic operation.=0D=0A5.6 States=0D=0AThere are two states f=

   220 or the SIM while the power supply is on:=0D=0A- The SIM is in operating stat=

   221 e when it executes a command. This state also includes transmission=0D=0Afro=

   222 m and to the ME.=0D=0A- The SIM is in idle state at any other time. It shall=

   223  retain all pertinent data during this state.=0D=0AThe SIM may support a clo=

   224 ck stop mode. The clock shall only be switched off subject to the conditions=

   225 =0D=0Aspecified in the directory characteristics (see clause 9).=0D=0AClock =

   226 stop mode. An ME of Phase 2 or later shall wait at least five (5) elementary=

   227  time units after having=0D=0Areceived the last bit of the response before i=

   228 t switches off the clock (if it is allowed to do so). It shall wait=0D=0Aat =

   229 least two (2) elementary time units before it sends the first command after =

   230 having started the clock.=0D=0ATo achieve phase compatibility the following=

   231  procedure shall be adhered to:=0D=0AA SIM of Phase 2 or later shall always =

   232 send the status information "normal ending of the command" after=0D=0Athe su=

   233 ccessful interpretation of the command SLEEP received from a Phase 1 ME. An =

   234 ME of Phase 2 or=0D=0Alater shall not send a SLEEP command.=0D=0AA Phase 1 M=

   235 E shall wait at least two (2) elementary time units after having received th=

   236 e compulsory=0D=0Aacknowledgement SW1 SW2 of the SLEEP command before it swi=

   237 tches off the clock (if it is allowed to do=0D=0Aso). It shall wait at least=

   238  two (2) elementary time units before it sends the first command after havin=

   239 g=0D=0Astarted the clock.=0D=0A5.7 Baudrate=0D=0AThe baudrate for all commun=

   240 ications shall be: (clock frequency)/372.=0D=0A5.8 Answer To Reset (ATR)=0D=

   241 =0AThe ATR is information presented by the SIM to the ME at the beginning of=

   242  the card session and gives=0D=0Aoperational requirements.=0D=0A5.8.1 Struct=

   243 ure and contents=0D=0AThe following table gives an explanation of the charac=

   244 ters specified in ISO/IEC 7816-3 [25] and the=0D=0Arequirements for their us=

   245 e in GSM. The answer to reset consists of at most 33 characters. The ME shal=

   246 l=0D=0APage 18=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0Abe able to re=

   247 ceive interface characters for transmission protocols other than T=3D0 hist=

   248 orical characters and=0D=0Aa check byte even if only T=3D0 is used by the M=

   249 E.=0D=0ATable 5: ATR=0D=0ACharacter Contents sent by=0D=0Athe card=0D=0Aa) e=

   250 valuation by the ME=0D=0Ab) reaction by the ME=0D=0A1. Initial=0D=0Acharacte=

   251 r=0D=0ATS=0D=0Acoding convention for all=0D=0Asubsequent characters=0D=0A(di=

   252 rect or inverse=0D=0Aconvention)=0D=0Aalways a) always=0D=0Ab) using appropr=

   253 iate convention=0D=0A2. Format=0D=0Acharacter=0D=0AT0=0D=0Asubsequent interf=

   254 ace=0D=0Acharacters number of=0D=0Ahistorical characters=0D=0Aalways a) alw=

   255 ays=0D=0Ab) identifying the subsequent=0D=0Acharacters accordingly=0D=0A3. I=

   256 nterface=0D=0Acharacter=0D=0A(global)=0D=0ATA1=0D=0Aparameters to calculate=

   257 =0D=0Athe work etu=0D=0Aoptional a) always if present=0D=0Ab) if TA1 is not =

   258 '11' PTS procedure=0D=0Ashall be used (see subclause 5.8.2)=0D=0A4. Interfa=

   259 ce=0D=0Acharacter=0D=0A(global)=0D=0ATB1=0D=0Aparameters to calculate=0D=0At=

   260 he programming voltage=0D=0Aand current=0D=0Aoptional a) always if present=

   261 =0D=0Ab) if PI1 is not 0 then reject the SIM=0D=0A(in accordance with subcl=

   262 ause 5.10)=0D=0A5. Interface=0D=0Acharacter=0D=0A(global)=0D=0ATC1=0D=0Apara=

   263 meters to calculate=0D=0Athe extra guardtime=0D=0Arequested by the card; no=

   264 =0D=0Aextra guardtime is used to=0D=0Asend characters from the=0D=0Acard to =

   265 the ME=0D=0Aoptional a) always if present=0D=0Ab) if TC1 is neither 0 nor 25=

   266 5 then=0D=0Areject the SIM (in accordance with=0D=0Asubclause 5.10); see th=

   267 e note after=0D=0Athe table=0D=0A6. Interface=0D=0Acharacter=0D=0ATD1=0D=0Ap=

   268 rotocol type; indicator=0D=0Afor the presence of interface=0D=0Acharacters=

   269 =0D=0Aspecifying rules to be=0D=0Aused for transmissions=0D=0Awith the given=

   270  protocol=0D=0Atype=0D=0Aoptional a) always if present=0D=0Ab) identifying t=

   271 he subsequent=0D=0Acharacters accordingly=0D=0A7. Interface=0D=0Acharacter=

   272 =0D=0A(specific)=0D=0ATA2=0D=0Anot used for protocol T=3D0 optional a) optio=

   273 nal=0D=0Ab) --------=0D=0A8. Interface=0D=0Acharacter=0D=0A(global)=0D=0ATB2=

   274 =0D=0Aparameter to calculate=0D=0Athe programming voltage=0D=0Anever the all=

   275 owed value of TB1 above=0D=0Adefines that an external=0D=0Aprogramming volta=

   276 ge is not=0D=0Aapplicable=0D=0A9. Ine given protocol=0D=

   277 =0Atype=0D=0Aoptional a) always if present=0D=0Ab) identifying the subsequen=

   278 t=0D=0Acharacters accordingly=0D=0APage 19=0D=0AGSM 11.11 Version 5.0.0 Dece=

   279 mber 1995=0D=0ATable 5: ATR (concluded)=0D=0ACharacter Contents sent by=0D=

   280 =0Athe card=0D=0Aa) evaluation by the ME=0D=0Ab) reaction by the ME=0D=0A11.=

   281  Interface=0D=0Acharacter=0D=0ATAi TBi TCi=0D=0A(i>2)=0D=0Acharacters whic=

   282 h contain=0D=0Ainterface characters for=0D=0Aother transmission=0D=0Aprotoco=

   283 ls=0D=0Aoptional a) optional=0D=0Ab) --------=0D=0A12. Historical=0D=0Achara=

   284 cters=0D=0AT1

   285 .TK=0D=0Acontents not specified in=0D=0AISO/IEC=0D=0Aoption=

   286 al a) optional=0D=0Ab) --------=0D=0A13. Check=0D=0Acharacter=0D=0ATCK=0D=

   287 =0Acheck byte (exclusive -=0D=0AORing)=0D=0Anot sent if=0D=0Aonly T=3D0 is=

   288 =0D=0Aindicated in=0D=0Athe ATR; in=0D=0Aall other=0D=0Acases TCK=0D=0Ashall=

   289  be=0D=0Asent=0D=0Aa) optional=0D=0Ab as follows:=0D=

   290 =0Aa) for MEs only supporting default speed (F=3D372 D=3D1)=0D=0A=C9=CD=CD=

   291 =BB Reset =C9=CD=CD=CD=BB=0D=0A=BAME=BA =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   292 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   293 =C4=C4=C4=C4=C4> =BASIM=BA=0D=0A=C8=CD=CD=BC =C8=CD=CD=CD=BC=0D=0AATR=0D=0A<=

   294 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   295 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4 TA1 not '11'=0D=0A=DA=C4=C4=C4=

   296 =C4=C4=C2=C4=C4=C4=C4=BF=0D=0A=B3PTSS=3D=B3'FF'=B3 PTS Request=0D=0A=B3PTS0=

   297 =3D=B3'00'=C3=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   298 =C4=C4=C4=C4=C4=C4=C4=C4=C4>=0D=0A=B3PCK =3D=B3'FF'=B3=0D=0A=C0=C4=C4=C4=C4=

   299 =C4=C1=C4=C4=C4=C4=D9=0D=0A=DA=C4=C4=C4=C4=C4=C2=C4=C4=C4=C4=BF=0D=0APTS Res=

   300 ponse =B3PTSS=3D=B3'FF'=B3=0D=0A<=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   301 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=B4PTS0=3D=B3'00'=B3=0D=0A=B3PC=

   302 K =3D=B3'FF'=B3=0D=0A=C0=C4=C4=C4=C4=C4=C1=C4=C4=C4=C4=D9=0D=0AFigure 1: PTS=

   303  procedure=0D=0APTS Request and PTS Response consist of the three (3) charac=

   304 ters PTSS PTSO and PCK of which=0D=0APTSS is sent first.=0D=0AAfter this pr=

   305 ocedure the protocol T=3D0 and the parameters F=3D372 D=3D1 and N=3D0 will =

   306 be used.=0D=0Ab) for MEs only supporting enhanced speed (F=3D512 D=3D8)=0D=

   307 =0APage 20=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0A=C9=CD=CD=BB Rese=

   308 t =C9=CD=CD=CD=BB=0D=0A=BAME=BA =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   309 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   310 =C4=C4> =BASIM=BA=0D=0A=C8=CD=CD=BC =C8=CD=CD=CD=BC=0D=0AATR=0D=0A<=C4=C4=

   311 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   312 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4 TA1 =3D '94'=0D=0A=DA=C4=C4=C4=C4=C4=

   313 =C2=C4=C4=C4=C4=BF=0D=0A=B3PTSS=3D=B3'FF'=B3 PTS Request=0D=0A=B3PTS0=3D=B3'=

   314 10'=C3=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   315 =C4=C4=C4=C4=C4=C4>=0D=0A=B3PTS1=3D=B3'94'=B3=0D=0A=B3PCK =3D=B3'7B'=B3=0D=

   316 =0A=C0=C4=C4=C4=C4=C4=C1=C4=C4=C4=C4=D9=0D=0A=DA=C4=C4=C4=C4=C4=C2=C4=C4=C4=

   317 =C4=BF=0D=0APTS Response =B3PTSS=3D=B3'FF'=B3=0D=0A<=C4=C4=C4=C4=C4=C4=C4=

   318 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C

   319 and the parameters F=3D512 D=3D8 and N=3D0 will be used.=0D=0A5.8.3 Speed e=

   320 nhancement=0D=0AIf speed enhancement is implemented the ME and the SIM shall=

   321  at least support F=3D512 and D=3D8 in=0D=0Aaddition to F=3D372 and D=3D1. H=

   322 owever other values may also be supported. If the ME requests PTS using=0D=

   323 =0Avalues other than those above then the PTS procedure shall be initiated a=

   324 ccordingly.=0D=0AThe SIM shall support the default value (F=3D372 and D=3D1)=

   325 . If the speed enhancement is supported by the=0D=0ASIM it is mandatory that=

   326  F=3D512 and D=3D8 is supported. However the value in TA1 may even indicate=

   327  a=0D=0Afaster speed (F=3D512 and D=3D16). The SIM may also support other va=

   328 lues between the default value=0D=0A(F=3D372 and D=3D1) and the values indic=

   329 ated in TA1. The SIM shall offer the negotiable mode to ensure=0D=0Abackwar=

   330 ds compatibility with exing MEs. In the negotiable mode the SIM will use def=

   331 ault values even if=0D=0Aother parameters are offered in the ATR if the PTS =

   332 procedure is not initiated.=0D=0AThe ME shall support the default value (F=

   333 =3D372 and D=3D1). If the speed enhancement is supported in the ME=0D=0Ait i=

   334 s mandatory to support F=3D512 and D=3D8. The ME may additionally support ot=

   335 her values.=0D=0AIf the SIM does not answer the PTS request within the initi=

   336 al waiting time the ME shall reset the SIM. After=0D=0Atwo failed PTS attemp=

   337 ts using F=3D512 and D=3D8 or values indicated in TA1 (no PTS response from=

   338  the=0D=0ASIM) the ME shall initiate PTS procedure using default values. If =

   339 this also fails (no PTS response from the=0D=0ASIM) the ME may proceed using=

   340  default values without requesting PTS=0D=0AIf the SIM does not support the =

   341 values requested by the ME the SIM shall respond to the PTS request=0D=0Ain=

   342 dicating the use of default values.=0D=0A5.9 Bit/character duration and samp=

   343 ling time=0D=0AThe bit/character duration and sampling time specified in ISO=

   344 /IEC 7816-3 [25] subclauses 6.1.1 and=0D=0A6.1.2 are valid for all communi=

   345 cations.=0D=0A5.10 Error handling=0D=0AFollowing receipt of an ATR which is=

   346  not in accordance with this specification e.g. because of forbidden=0D=0AA=

   347 TR characters or too few bytes being transmitted the ME shall perform a Res=

   348 et. The ME shall not reject=0D=0Athe SIM until at least three consecutive wr=

   349 ong ATRs are received.=0D=0ADuring the transmission of the ATR and the proto=

   350 col type selection the error detection and character=0D=0Arepetition proced=

   351 ure specified in ISO/IEC 7816-3 [25] subclause 6.1.3 is optional for the M=

   352 E. For the=0D=0Asubsequent transmission on the basis of T=3D0 this procedure=

   353  is mandatory for the ME.=0D=0APage 21=0D=0AGSM 11.11 Version 5.0.0 December=

   354  1995=0D=0AFor the SIM the error detection and character repetition procedur=

   355 e is mandatory for all communications.=0D=0A6 Logical Model=0D=0AThis clause=

   356  describes the logical structure for a SIM the code associated with it and=

   357  the structure of files=0D=0Aused.=0D=0A6.1 General description=0D=0AFigure =

   358 3 shows the general structural relationships which may exist between files. =

   359 The files are organised=0D=0Ain a hierarchical structure and are of one of t=

   360 hree types as defined below. These=0D=0Afiles may be either administrative o=

   361 r application specific. The operating system=0D=0Ahandles the access to the =

   362 data stored in different files.=0D=0A=C9=CD=CD=CD=CD=CD=CD=CD=CD=CD=CB=CD=

   363 =CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=

   364 =CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=BB=0D=0A=BA =

   365 MF =BA =BA=0D=0A=BA =BA =C9=CD=CD=CD=CD=CD=CB=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=

   366 =CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=BB =BA=0D=0A=CC=CD=CD=

   367 =CD=CD=CD=CD=CD=CD=CD=BC =BA DF2 =BA =DA=C4=C4=C4=C4=BF =BA =BA=0D=0A=BA =

   368 =CC=CD=CD=CD=CD=CD=BC =B3 EF =B3 =BA =BA=0D=0A=BA =C9=CD=CD=CD=CD=CD=CB=CD=

   369 =CD=CD=CD=CD=CA=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=

   370 =CD=CD=BB =C0=C4=C4=C4=C4=D9 =BA =BA=0D=0A=BA =BA DF1 =BA =BA =BA =BA=0D=0A=

   371 =BA =CC=CD=CD=CD=CD=CD=BC =C9=CD=CD=CD=CD=CD=CD=CB=CD=CD=CD=CD=CD=CD=CD=CD=

   372 =CD=CD=CD=CD=BB =BA =DA=C4=C4=C4=C4=BF =BA =BA=0D=0A=BA =BA =BA DF11 =BA =

   373 =C9=CD=CD=CD=CD=CD=CD=CD=BB =BA =BA =B3 EF =B3 =BA =BA=0D=0A=BA =BA =CC=CD=

   374 =CD=CD=CD=CD=CD=BC =BA DF111 =BA =BA =BA =C0=C4=C4=C4=C4=D9 =BA =BA=0D=0A=

   375 =BA =BA =C9=CD=CD=CD=CD=CD=CD=CB=CD=CA=CD=CD=CD=CD=CD=CD=CD=CD=BB=C8=CD=CD=

   376 =CD=CD=CD=CD=CD=BC =BA =BA 

   377 

   378  =BA =BA=0D=0A=BA =BA =BA DF12 =BA =DA=C4=C4=

   379 =C4=C4=BF =CC=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=BC =CC=CD=CD=CD=CD=CD=CD=CD=CD=

   380 =CD=CD=BC =BA=0D=0A=BA =BA =CC=CD=CD=CD=CD=CD=CD=BC =B3 EF =B3 =BA =DA=C4=

   381 =C4=C4=C4=BF =BA =BA=0D=0A=BA =BA =BA =C0=C4=C4=C4=C4=D9 =BA =B3 EF =B3 =BA =

   382 =DA=C4=C4=C4=C4=BF =BA=0D=0A=BA =BA =C8=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=

   383 =CD=CD=CD=CD=CD=BC =C0=C4=C4=C4=C4=D9 =BA =B3 EF =B3 =BA=0D=0A=BA =BA =BA =

   384 =C0=C4=C4=C4=C4=D9 =BA=0D=0A=BA =C8=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=

   385 =CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=BC =BA=0D=

   386 =0A=BA =DA=C4=C4=C4=C4=BF =DA=C4=C4=C4=C4=BF =BA=0D=0A=BA =B3 EF =B3 =B3 EF =

   387 =B3 =BA=0D=0A=BA =C0=C4=C4=C4=C4=D9 =C0=C4=C4=C4=C4=D9 =BA=0D=0A=BA 

   388 

   389  =

   390 =BA=0D=0A=C8=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=

   391 =CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=

   392 =CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=BC=0D=0AFigure 3: Organisation of memory=

   393 =0D=0AFiles are composed of a header which is internally managed by the SIM=

   394  and optionally a body part. The=0D=0Ainformation of the header is related =

   395 to the structure and attributes of the file and may be obtained by using=0D=

   396 =0Athe commands GET RESPONSE or STATUS. This information is fixed during the=

   397  administrative phase. The=0D=0Abody part contains the data of the file.=0D=

   398 =0A6.2 File identifier=0D=0AA file ID is used to address or identify each sp=

   399 ecific file. The file ID consists of two bytes and shall be=0D=0Acoded in he=

   400 xadecimal notation. They are specified in clause 10.=0D=0AThe first byte ide=

   401 ntifies the type of file and for GSM is:=0D=0A- '3F': Master File;=0D=0A- '=

   402 7F': Dedicated File;=0D=0A- '2F': Elementary File under the Master File;=0D=

   403 =0A- '6F': Elementary File under a Dedicated File.=0D=0APage 22=0D=0AGSM 11.=

   404 11 Version 5.0.0 December 1995=0D=0AFile IDs shall be subject to the followi=

   405 ng conditions:=0D=0A- the file ID shall be assigned at the time of creation =

   406 of the file concerned;=0D=0A- no two files under the same parent shall have =

   407 the same ID;=0D=0A- a child and any parent either immediate or remote in th=

   408 e hierarchy e.g. grandparent shall=0D=0Anever have the same file ID.=0D=

   409 =0AIn this way each file is uniquely identified.=0D=0A6.3 Dedicated files=

   410 =0D=0AA Dedicated File (DF) is a functional grouping of files consisting of =

   411 itself and all those fi Master File (MF) and may coexist on a =

   412 multi-application card.=0D=0A6.4 Elementary files=0D=0AAn Elementary File (E=

   413 F) is composed of a header and a body part. The following three structures o=

   414 f an EF=0D=0Aare used by GSM.=0D=0A6.4.1 Transparent EF=0D=0AAn EF with a tr=

   415 ansparent structure consists of a sequence of bytes. When reading or updatin=

   416 g the=0D=0Asequence of bytes to be acted upon is referenced by a relative a=

   417 ddress (offset) which indicates the start=0D=0Aposition (in bytes) and the=

   418  number of bytes to be read or updated. The first byte of a transparent EF h=

   419 as=0D=0Athe relative address '00 00'. The total data length of the body of t=

   420 he EF is indicated in the header of the=0D=0AEF.=0D=0A=DA=C4=C4=C4=C4=C4=C4=

   421 =C4=C4=C4=C4=C4=C4=C4=BF=0D=0AHeader =B3 =B3=0D=0A=C6=CD=CD=CD=CD=CD=CD=CD=

   422 =CD=CD=CD=CD=CD=CD=B5=0D=0A=B3 =B3=0D=0ABody =B3 Sequence =B3=0D=0A=B3 of =

   423 =B3=0D=0A=B3 bytes =B3=0D=0A=B3 =B3=0D=0A=B3 =B3=0D=0A=C0=C4=C4=C4=C4=C4=C4=

   424 =C4=C4=C4=C4=C4=C4=C4=D9=0D=0AFigure 4: Structure of a transparent EF=0D=0AN=

   425 OTE: This structure was previously referred to as "binary" in GSM.=0D=0A6.4.=

   426 2 Linear fixed EF=0D=0AAn EF with linear fixed structure consists of a seque=

   427 nce of records all having the same (fixed) length. The=0D=0Afirst record is =

   428 record number 1. The length of a record as well as this value multiplied by =

   429 the number of=0D=0Arecords are indicated in the header of the EF.=0D=0APage =

   430 23=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0A=DA=C4=C4=C4=C4=C4=C4=C4=

   431 =C4=C4=C4=C4=C4=C4=BF=0D=0AHeader =B3 =B3=0D=0A=C6=CD=CD=CD=CD=CD=CD=CD=CD=

   432 =CD=CD=CD=CD=CD=B5=0D=0ABody =B3 Record 1 =B3=0D=0A=C3=C4=C4=C4=C4=C4=C4=C4=

   433 =C4=C4=C4=C4=C4=C4=B4=0D=0A=B3 Record 2 =B3=0D=0A=C3=C4=C4=C4=C4=C4=C4=C4=

   434 =C4=C4=C4=C4=C4=C4=B4=0D=0A=B3 : =B3=0D=0A=B3 : =B3=0D=0A=C3=C4=C4=C4=C4=C4=

   435 =C4=C4=C4=C4=C4=C4=C4=C4=B4=0D=0A=B3 Record n =B3=0D=0A=C0=C4=C4=C4=C4=C4=

   436 =C4=C4=C4=C4=C4=C4=C4=C4=D9=0D=0AFigure 5: Structure of a linear fixed file=..=0D=0AThere are several methods to access records within an EF of this type:=

   437 =0D=0A- absolutely using the record number;=0D=0A- when the record pointer i=

   438 s not set it shall be possible to perform an action on the first or the=0D=

   439 =0Alast record;=0D=0A- when the record pointer is set it shall be possible t=

   440 o perform an action on this record the next=0D=0Arecord (unless the record =

   441 pointer is set to the last record) or the previous record (unless the=0D=0Ar=

   442 ecord pointer is set to the first record);=0D=0A- by identifying a record us=

   443 ing pattern seek starting=0D=0A- forwards from the beginning of the file;=

   444 =0D=0A- forwards from the record following the one at which the record point=

   445 er is set (unless=0D=0Athe record pointer is set to the last record);=0D=0A-=

   446  backwards from the end of the file;=0D=0A- backwards from the record preced=

   447 ing the one at which the record pointer is set (unless=0D=0Athe record point=

   448 er is set to the first record).=0D=0AIf an action following selection of a r=

   449 ecord is aborted then the record pointer shall remain set at the record=0D=

   450 =0Aat which it was set prior to the action.=0D=0ANOTE 1: It is not possible=

   451  at present to have more than 255 records in a file of this type and=0D=

   452 =0Aeach record cannot be greater than 255 bytes.=0D=0ANOTE 2: This structure=

   453  was previously referred to as "formatted" in GSM.=0D=0A6.4.3 Cyclic EF=0D=

   454 =0ACyclic files are used for storing records in chronological order. When al=

   455 l records have been used for=0D=0Astorage then the next storage of data sha=

   456 ll overwrite the o record n. The last updated record containi=

   457 ng the newest data is record number=0D=0A1 and the oldest data is held in r=

   458 ecord number n.=0D=0A=DA=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=BF=0D=0AHead=

   459 er =B3 =B3=0D=0A=C6=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=CD=B5=0D=0ABody =B3 =

   460 Record 1 =B3=C4=C4=BF=0D=0A=C3=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=B4 =

   461 =B3=0D=0A=B3 Record 2 =B3 =B3=0D=0A=C3=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   462 =C4=B4 =B3=0D=0A=B3 : =B3 =B3=0D=0A=B3 : =B3 =B3=0D=0A=C3=C4=C4=C4=C4=C4=C4=

   463 =C4=C4=C4=C4=C4=C4=C4=B4 =B3=0D=0A=B3 Record n =B3=C4=C4=D9=0D=0A=C0=C4=C4=

   464 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=D9=0D=0AFigure 6: Structure of a cyclic fi=

   465 le=0D=0APage 24=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0AFor update o=

   466 perations only PREVIOUS record shall be used. For reading operations the me=

   467 thods of=0D=0Aaddressing are Next Previous Current and Record Number.=0D=

   468 =0AAfter selection of a cyclic file (for either operation) the record point=

   469 er shall address the record updated or=0D=0Aincreased last. If an action fol=

   470 lowing selection of a record is aborted then the record pointer shall remai=

   471 n=0D=0Aset at the record at which it was set prior to the action.=0D=0ANOTE:=

   472  It is not possible at present to have more than 255 records in a file of =

   473 this type and=0D=0Aeach record cannot be greater than 255 bytes.=0D=0A6.5 M=

   474 ethods for selecting a file=0D=0AAfter the Answer To Reset (ATR) the Master=

   475  File (MF) is implicitly selected and becomes the Current=0D=0ADirectory. Ea=

   476 ch file may then be selected by using the SELECT function in accordance with=

   477  the following=0D=0Arules.=0D=0ASelecting a DF or the MF sets the Current Di=

   478 rectory. After such a selection there is no current EF.=0D=0ASelecting an EF=

   479  sets the current EF and the Current Directory remains the DF or MF which is=

   480  the parent of=0D=0Athis EF. The current EF is always a child of the Current=

   481  Directory.=0D=0AAny application specific command shall only be operable if =

   482 it is specific to the Current Directory.=0D=0AThe following files may be sel=

   483 ected from the last selected file:=0D=0A- any file which is an immediate chi=

   484 ld of the Current Directory;=0D=0A- any DF which is an immediate child of th=

   485 e parent of the current DF;=0D=0A- the parent of the Current Directory;=0D=

   486 =0A- the current DF;=0D=0A- the MF.=0D=0AThis means in particular that a DF =

   487 shall be selected prior to the selection of any of its EFs. All selections=

   488 =0D=0Aare made using the file ID.=0D=0AThe following figure gives the logica=

   489 l structure for the GSM application. GSM defines only one level of DFs=0D=

   490 =0Aunder the MF.=0D=0AFigure 7: Logical structure=0D=0AThe following table g=

   491 ives the valid selections for GSM for the logical structure in figure 7. Res=

   492 election of=0D=0Athe last selected file is also allowed but not shown.=0D=

   493 =0APage 25=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0ATable 6: File sel=

   494 ection=0D=0ALast selected file Valid Selections=0D=0AMF=0D=0ADF1=0D=0ADF2=

   495 =0D=0AEF1=0D=0AEF2=0D=0AEF3=0D=0AEF4=0D=0ADF1 DF2 EF1=0D=0AMF DF2 EF2=

   496 =0D=0AMF DF1 EF3 EF4=0D=0AMF DF1 DF2=0D=0AMF DF1 DF2=0D=0AMF DF1 DF=

   497 2 EF4=0D=0AMF DF1 DF2 EF3=0D=0A6.6 Reservation of file IDs=0D=0AIn addit=

   498 ion to the identifiers used for the files specified in this TS the followin=

   499 g file IDs are reserved for use=0D=0Aby GSM.=0D=0ADedicated Files:=0D=0A- ad=

   500 ministrative use:=0D=0A'7F 4X';=0D=0A- operational use:=0D=0A'7F 10' (DFTELE=

   501 COM) '7F 20' (DFGSM) '7F 21' (DFDCS1800) and '7F 2X' where X=0D=0Aranges=

   502  from '2' to 'F'.=0D=0AElementary files:=0D=0A- administrative use:=0D=0A'6F=

   503  XX' in the DFs '7F 4X';=0D=0A'6F 1X' in the DFs '7F 10' '7F 20' '7F 21';=

   504 =0D=0A'2F 01' '2F EX' in the MF '3F 00';=0D=0A- operational use:=0D=0A'6F 2=

   505 X' '6F 3X' '6F 4X' in '7F 10' and '7F 2X';=0D=0A'2F 1X' in the MF '3F 00'.=

   506 =0D=0AIn all the above X ranges unless otherwise stated from '0' to 'F'.=

   507 =0D=0A7 Security features=0D=0AThe security aspects of GSM are described in =

   508 the normative references TS GSM 02.09 [4] and=0D=0ATS GSM 03.20 [10]. This c=

   509 lause gives information related to security features supported by the SIM to=

   510 =0D=0Aenable the following:=0D=0A- authentication of the subscriber identity=

   511  to the network;=0D=0A- data confidentiality over the air interface;=0D=0A- =

   512 file access conditions.=0D=0A7.1 Authentication and cipher key generation pr=

   513 ocedure=0D=0AThis subclause describes the authentication mechanism and ciphe=

   514 r key generation which are invoked by=0D=0Athe network. For the specificatio=

   515 n of the corresponding procedures across the SIM/ME interface see=0D=0Aclaus=

   516 e 11.=0D=0AThe network sends a Random Number (RAND) to the MS. The ME passes=

   517  the RAND to the SIM in the=0D=0Acommand RUN GSM ALGORITHM. The SIM returns =

   518 the values SRES and Kc to the ME which are derived=0D=0Ausing the algorithms=

   519  and processes given below. The ME sends SRES to the network. The network=

   520 =0D=0Acompares this value with the value of SRES which it calculates for its=

   521 elf. The comparison of these SRES=0D=0Avalues provides the authentication. T=

   522 he value Kc is used by the ME in any future enciphered=0D=0Acommunications w=

   523 ith the network until the next invocation of this mechanism.=0D=0APage 26=

   524 =0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0AA subscriber authentication=

   525  key Ki is used in this procedure. This key Ki has a length of 128 bits and =

   526 is=0D=0Astored within the SIM for use in the algorithms described below.=0D=

   527 =0A7.2 Algorithms and processes=0D=0AThe names and parameters of the algorit=

   528 hms supported by the SIM are defined in TS GSM 03.20 [10].=0D=0AThese are:=

   529 =0D=0A- Algorithm A3 to authenticate the MS to the network;=0D=0A- Algorithm=

   530  A8 to generate the encryption key.=0D=0AThese algorithms may exist either d=

   531 iscretely or combined (into A38) within the SIM. In either case the=0D=0Aout=

   532 put on the SIM/ME interface is 12 bytes. The inputs to both A3 and A8 or A3=

   533 8 are Ki (128 bits)=0D=0Ainternally derived in the SIM and RAND (128 bits)=

   534  across the SIM/ME interface. The output is SRES (32=0D=0Abits)/Kc (64 bits)=

   535  the coding of which is defined in the command RUN GSM ALGORITHM in clause 9=

   536 .=0D=0A7.3 File access conditions=0D=0AEvery file has its own specific acces=

   537 s condition for each command. The relevant access condition of the=0D=0Alast=

   538  selected file shall be fulfilled before the requested action can take place=

   539 .=0D=0AFor each file:=0D=0A- the access conditions for the commands READ and=

   540  SEEK are identical;=0D=0A- the access conditions for the commands SELECT an=

   541 d STATUS are ALWays.=0D=0ANo file access conditions are currently assigned b=

   542 y GSM to the MF and the DFs.=0D=0AThe access condition levels are defined in=

   543  the following table:=0D=0ATable 7: Access condition level coding=0D=0ALevel=

   544  Access Condition=0D=0A0=0D=0A1=0D=0A2=0D=0A3=0D=0A4 to 14=0D=0A15=0D=0AALWa=

   545 ys=0D=0ACHV1=0D=0ACHV2=0D=0AReserved for GSM Future Use=0D=0AADM=0D=0ANEVer=

   546 =0D=0AThe meaning of the file access conditions is as follows:=0D=0AALWAYS: =

   547 the action can be performed without any restriction;=0D=0ACHV1 (card holder =

   548 verification 1): the action shall only be possible if one of the following t=

   549 hree=0D=0Aconditions is fulfilled:=0D=0A- a correct CHV1 value has already b=

   550 een presented to the SIM during the current session;=0D=0A- the CHV1 enabled=

   551 /disabled indicator is set to "disabled";=0D=0A- UNBLOCK CHV1 has been succe=

   552 ssfully performed during the current session;=0D=0ACHV2: the action shall on=

   553 ly be possible if one of the following two conditions is fulfilled:=0D=0A- a=

   554  correct CHV2 value has already been presented to the SIM during the current=

   555  session;=0D=0APage 27=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0A- UNB=

   556 LOCK CHV2 has been successfully performed during the current session;=0D=0AA=

   557 DM: allocation of these levels and the respective requirements for their ful=

   558 filment are the=0D=0Aresponsibility of the appropriate administrative author=

   559 ity;=0D=0ANEVER: the action cannot be performed over the SIM/ME interface. T=

   560 he SIM may perform the=0D=0Aaction internally.=0D=0ACondition levels are not=

   561  hierarchical. For instance correct presentation of CHV2 does not allow act=

   562 ions to=0D=0Abe performed which require presentation of CHV1. A condition le=

   563 vel which has been satisfied remains valid=0D=0Auntil the end of the GSM ses=

   564 sion as long as the corresponding secret code remains unblocked i.e. after=

   565 =0D=0Athree consecutive wrong attempts not necessarily in the same card ses=

   566 sion the access rights previously=0D=0Agranted by this secret code are lost=

   567  immediately. A satisfied CHV condition level applies to both DFGSM=0D=0Aand=

   568  DFTELECOM.=0D=0AThe ME shall determine whether CHV2 is available by using t=

   569 he response to the STATUS command. If=0D=0ACHV2 is "not initialised" then CH=

   570 V2 commands e.g. VERIFY CHV2 shall not be executable.=0D=0A8 Description o=

   571 f the functions=0D=0AThis clause gives a functional description of the comma=

   572 nds and their respective responses. Associated=0D=0Astatus conditions error=

   573  codes and their corresponding coding are specified in clause 9.=0D=0AIt sha=

   574 ll be mandatory for all cards complying with this Standard to support all fu=

   575 nctions described in this=0D=0AStandard. The command GET RESPONSE which is n=

   576 eeded for the protocol T=3D0 is specified in clause 9.=0D=0AThe following ta=

   577 ble lists the file types and structures together with the functions which ma=

   578 y act on them=0D=0Aduring a GSM session. These are indicated by an asterisk =

   579 (*).=0D=0ATable 8: Functions on files in GSM session=0D=0AFile=0D=0AFunction=

   580  MF DF EF transparent EF linear fixed EF cyclic=0D=0ASELECT *=0D=0AS=

   581 TATUS *=0D=0AREAD BINARY *=0D=0AUPDATE BINARY *=0D=0AREAD RECORD *=

   582 =0D=0AUPDATE RECORD *=0D=0ASEEK *=0D=0AINCREASE *=0D=0AINVALIDATE *=

   583 =0D=0AREHABILITATE *=0D=0A8.1 SELECT=0D=0AThis function selects a file a=

   584 ccording to the methods described in clause 6. After a successful selection =

   585 the=0D=0Arecord pointer in a linear fixed file is undefined. The record poin=

   586 ter in a cyclic file shall address the last=0D=0Arecord which has been updat=

   587 ed or increased.=0D=0AInput:=0D=0A- file ID.=0D=0AOutput:=0D=0A- if the sele=

   588 cted file is the MF or a DF:=0D=0Afile ID total memory space available CHV=

   589  enabled/disabled indicator CHV status and other GSM=0D=0Aspecific data;=

   590 =0D=0APage 28=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0A- if the selec=

   591 ted file is an EF:=0D=0Afile ID file size access conditions invalidated/n=

   592 ot invalidated indicator structure of EF and length of=0D=0Athe records in =

   593 case of linear fixed structure or cyclic structure.=0D=0A8.2 STATUS=0D=0AThi=

   594 s function returns information concerning the current directory. A current E=

   595 F is not affected by the=0D=0ASTATUS function.=0D=0AInput:=0D=0A- none.=0D=

   596 =0AOutput:=0D=0A- file ID total memory space available CHV enabled/disable=

   597 d indicator CHV status and other GSM=0D=0Aspecific data (identical to SELEC=

   598 T above).=0D=0A8.3 READ BINARY=0D=0AThis function reads a string of bytes fr=

   599 om the current transparent EF. This function shall only be performed=0D=0Aif=

   600  the READ access condition for this EF is satisfied.=0D=0AInput:=0D=0A- rela=

   601 tive address and the length of the string.=0D=0AOutput:=0D=0A- string of byt=

   602 es.=0D=0A8.4 UPDATE BINARY=0D=0AThis function updates the current transparen=

   603 t EF with a string of bytes. This function shall only be=0D=0Aperformed if t=

   604 he UPDATE access condition for this EF is satisfied. An update can be consid=

   605 ered as a=0D=0Areplacement of the string already present in the EF by the st=

   606 ring given in the update command.=0D=0AInput:=0D=0A- relative address and th=

   607 e length of the string;=0D=0A- string of bytes.=0D=0AOutput:=0D=0A- none.=

   608 =0D=0A8.5 READ RECORD=0D=0AThis function reads one complete record in the cu=

   609 rrent linear fixed or cyclic EF. The record to be read is=0D=0Adescribed by =

   610 the modes below. This function shall only be performed if the READ access co=

   611 ndition for this=0D=0AEF is satisfied. The record pointer shall not be chang=

   612 ed by an unsuccessful READ RECORD function.=0D=0AFour modes are defined:=0D=

   613 =0ACURRENT The current record is read. The record pointer is not affected.=

   614 =0D=0AABSOLUTE The record given by the record number is read. The record poi=

   615 nter is not affected.=0D=0ANEXT The record pointer is incremented before the=

   616  READ RECORD function is performed and the=0D=0Apointed record is read. If t=

   617 he record pointer has not been previously set within the selected EF then=

   618 =0D=0AREAD RECORD (next) shall read the first record and set the record poin=

   619 ter to this record.=0D=0AIf the record pointer addresses the last record in =

   620 a linear fixed EF READ RECORD (next) shall not=0D=0Acause the record pointe=

   621 r to be changed and no data shall be read.=0D=0APage 29=0D=0AGSM 11.11 Vers=

   622 ion 5.0.0 December 1995=0D=0AIf the record pointer addresses the last record=

   623  in a cyclic EF READ RECORD (next) shall set the=0D=0Arecord pointer to the=

   624  first record in this EF and this record shall be read.=0D=0APREVIOUS The re=

   625 cord pointer is decremented before the READ RECORD function is performed=0D=

   626 =0Aand the pointed record is read. If the record pointer has not been previo=

   627 usly set within the selected=0D=0AEF then READ RECORD (previous) shall read=

   628  the last record and set the record pointer to this=0D=0Arecord.=0D=0AIf the=

   629  record pointode only) and the length of the record.=0D=0AOut=

   630 put:=0D=0A- the record.=0D=0A8.6 UPDATE RECORD=0D=0AThis function updates on=

   631 e complete record in the current linear fixed or cyclic EF. This function sh=

   632 all only=0D=0Abe performed if the UPDATE access condition for this EF is sat=

   633 isfied. The UPDATE can be considered as=0D=0Aa replacement of the relevant r=

   634 ecord data of the EF by the record data given in the command. The record=0D=

   635 =0Apointer shall not be changed by an unsuccessful UPDATE RECORD function.=

   636 =0D=0AThe record to be updated is described by the modes below. Four modes a=

   637 re defined of which only=0D=0APREVIOUS is allowed for cyclic files:=0D=0ACUR=

   638 RENT The current record is updated. The record pointer is not affected.=0D=

   639 =0AABSOLUTE The record given by the record number is updated. The record poi=

   640 nter is not affected.=0D=0ANEXT The record pointer is incremented before the=

   641  UPDATE RECORD function is performed and=0D=0Athe pointed record is updated.=

   642  If the record pointer has not been previously set within the selected=0D=

   643 =0AEF then UPDATE RECORD (next) shall set the record pointer to the first r=

   644 ecord in this EF and this=0D=0Arecord shall be updated. If the record pointe=

   645 r addresses the last record in a linear fixed EF=0D=0AUPDATE RECORD (next) =

   646 shall not cause the record pointer to be changed and no record shall be=0D=

   647 =0Aupdated.=0D=0APREVIOUS For a linear fixed EF the record pointer is decrem=

   648 ented before the UPDATE RECORD=0D=0Afunction is performed and the pointed re=

   649 cord is updated. If the record pointer has not been=0D=0Apreviously set with=

   650 in the selected EF then UPDATE RECORD (previous) shall set the record point=

   651 er=0D=0Ato the last record in this EF and this record shall be updated. If t=

   652 he record pointer addresses the=0D=0Afirst record in a linear fixed EF UPDA=

   653 TE RECORD (previous) shall not cause the record pointer to=0D=0Abe changed =

   654 and no record shall be updated.=0D=0AFor a cyclic EF the record containing t=

   655 he oldest data is updated the record pointer is set to this=0D=0Arecord and=

   656  this record becomes record number 1.=0D=0AInput:=0D=0A- mode record number=

   657  (absolute mode only) and the length of the record;=0D=0A- the data used for=

   658  updating the record.=0D=0AOutput:=0D=0A- none.=0D=0A8.7 SEEK=0D=0AThis func=

   659 tion searches through the current linear fixed EF to find a record starting =

   660 with the given pattern.=0D=0AThis function shall only be performed if the RE=

   661 AD access condition for this EF is satisfied. Two types of=0D=0ASEEK are def=

   662 ined:=0D=0APage 30=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0AType 1 Th=

   663 e record pointer is set to the record containing the pattern no output is a=

   664 vailable.=0D=0AType 2 The record pointer is set to the record containing the=

   665  pattern the output is the record=0D=0Anumber.=0D=0ANOTE: A Phase 1 SIM onl=

   666 y executes type 1 of the SEEK function.=0D=0AThe SIM shall be able to accept=

   667  any pattern length from 1 to 16 bytes inclusive. The length of the pattern=

   668 =0D=0Ashall not exceed the record length.=0D=0AFour modes are defined:=0D=

   669 =0A- from the beginning forwards;=0D=0A- from the end backwards;=0D=0A- from=

   670  the next location forwards;=0D=0A- from the previous location backwards.=

   671 =0D=0AIf the record pointer has not been previously set (its status is undef=

   672 ined) within the selected linear fixed EF=0D=0Athen the search begins:=0D=

   673 =0A- with the first record in the case of SEEK from the next location forwar=

   674 ds or=0D=0A- with the last record in the case of SEEK from the previous loca=

   675 tion backwards.=0D=0AAfter a successful SEEK the record pointer is set to t=

   676 he record in which the pattern was found. The record=0D=0Apointer shall not =

   677 be changed by an unsuccessful SEEK function.=0D=0AInput:=0D=0A- type and mod=

   678 e;=0D=0A- pattern;=0D=0A- length of the pattern.=0D=0AOutput:=0D=0A- type 1:=

   679  none;=0D=0A- type 2: status/record number=0D=0A8.8 INCREASE=0D=0AThis funct=

   680 ion adds the value given by the ME to the value of the last increased/update=

   681 d record of the=0D=0Acurrent cyclic EF and stores the result into the oldes=

   682 t record. The record pointer is set to this record and=0D=0Athis record beco=

   683 mes record number 1. This function shall be used only if this EF has an INCR=

   684 EASE access=0D=0Acondition assigned and this condition is fulfilled (see byt=

   685 es 8 and 10 in the response parameters/data of the=0D=0Acurrent EF clause 9=

   686 ). The SIM shall not perform the increase if the result would exceed the max=

   687 imum=0D=0Avalue of the record (represented by all bytes set to 'FF').=0D=0AI=

   688 nput:=0D=0A- the value to be added.=0D=0AOutput:=0D=0A- value of the increas=

   689 ed record;=0D=0A- value which has been added.=0D=0A8.9 VERIFY CHV=0D=0AThis =

   690 function verifies the CHV presented by the ME by comparing it with the relev=

   691 ant one stored in the=0D=0ASIM. The verification process is subject to the f=

   692 ollowing conditions being fulfilled:=0D=0A- CHV is not disabled;=0D=0A- CHV =

   693 is not blocked.=0D=0APage 31=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=

   694 =0AIf the access condition for a function to be performed on the last select=

   695 ed file is CHV1 or CHV2 then a=0D=0Asuccessful verification of the relevant=

   696  CHV is required prior to the use of the function on this file unless the=

   697 =0D=0ACHV is disabled.=0D=0AIf the CHV presented is correct the number of r=

   698 emaining CHV attempts for that CHV shall be reset to its=0D=0Ainitial value =

   699 3.=0D=0AIf the CHV presented is false the number of remaining CHV attempts =

   700 for that CHV shall be decremented.=0D=0AAfter 3 consecutive false CHV presen=

   701 tations not necessarily in the same card session the respective CHV=0D=0As=

   702 hall be blocked and the access condition can never be fulfilled until the UN=

   703 BLOCK CHV function has been=0D=0Asuccessfully performed on the respective CH=

   704 V.=0D=0AInput:=0D=0A- indication CHV1/CHV2 CHV.=0D=0AOutput:=0D=0A- none.=

   705 =0D=0A8.10 CHANGE CHV=0D=0AThis function assigns a new value to the relevant=

   706  CHV subject to the following conditions being fulfilled:=0D=0A- CHV is not =

   707 disabled;=0D=0A- CHV is not blocked.=0D=0AThe old and new CHV shall be prese=

   708 nted.=0D=0AIf the old CHV presented is correct the number of remaining CHV =

   709 attempts for that CHV shall be reset to=0D=0Aits initial value 3 and the new=

   710  value for the CHV becomes valid.=0D=0AIf the old CHV presented is false th=

   711 e number of remaining CHV attempts for that CHV shall be=0D=0Adecremented an=

   712 d the value of the CHV is unchanged. After 3 consecutive false CHV presentat=

   713 ions not=0D=0Anecessarily in the same card session the respective CHV shal=

   714 l be blocked and the access condition can=0D=0Anever be fulfilled until the =

   715 UNBLOCK CHV function has been performed successfully on the respective CHV.=

   716 =0D=0AInput:=0D=0A- indication CHV1/CHV2 old CHV new CHV.=0D=0AOutput:=0D=

   717 =0A- none.=0D=0A8.11 DISABLE CHV=0D=0AThis function may only be applied to C=

   718 HV1. The successful execution of this function has the effect that=0D=0Afile=

   719 s protected by CHV1 are now accessible as if they were marked "ALWAYS". The =

   720 function DISABLE=0D=0ACHV shall not be executed by the SIM when CHV1 is alre=

   721 ady disabled or blocked.=0D=0AIf the CHV1 presented is correct the number o=

   722 f remaining CHV1 attempts shall be reset to its initial value=0D=0A3 and CHV=

   723 1 shall be disabled.=0D=0AIf the CHV1 presented is false the number of rema=

   724 ining CHV1 attempts shall be decremented and CHV1=0D=0Aremains enabled. Afte=

   725 r 3 consecutive false CHV1 presentations not necessarily in the same card s=

   726 ession=0D=0ACHV1 shall be blocked and the access condition can never be ful=

   727 filled until the UNBLOCK CHV function has=0D=0Abeen successfully performed o=

   728 n CHV1.=0D=0AInput:=0D=0A- CHV1.=0D=0AOutput:=0D=0A- none.=0D=0APage 32=0D=

   729 =0AGSM 11.11 Version 5.0.0 December 1995=0D=0A8.12 ENABLE CHV=0D=0AThis func=

   730 tion may only be applied to CHV1. It is the reverse function of DISABLE CHV.=

   731  The function=0D=0AENABLE CHV shall not be executed by the SIM when CHV1 is =

   732 already enabled or blocked.=0D=0AIf the CHV1 presented is correct the numbe=

   733 r of remaining CHV1 attempts shall be reset to its initial value=0D=0A3 and =

   734 CHV1 shall be enabled.=0D=0AIf the CHV1 presented is false the number of re=

   735 maining CHV1 attempts shall be decremented and CHV1=0D=0Aremains disabled. A=

   736 fter 3 consecutive false CHV1 presentations not necessarily in the same car=

   737 d session=0D=0ACHV1 shall be blocked and the access condition can never be =

   738 fulfilled until the UNBLOCK CHV function has=0D=0Abeen successfully performe=

   739 d on CHV1.=0D=0AInput:=0D=0A- CHV1.=0D=0AOutput:=0D=0A- none.=0D=0A8.13 UNBL=

   740 OCK CHV=0D=0AThis function unblocks a CHV which has been blocked by 3 consec=

   741 utive wrong CHV presentations. This=0D=0Afunction may be performed whether o=

   742 r not the relevant CHV is blocked.=0D=0AIf the UNBLOCK CHV presented is corr=

   743 ect the value of the CHV presented together with the UNBLOCK=0D=0ACHV is =

   744 assigned to that CHV the number of remaining UNBLOCK CHV attempts for that =

   745 UNBLOCK CHV=0D=0Ais reset to its initial value 10 and the number of remainin=

   746 g CHV attempts for that CHV is reset to its initial=0D=0Avalue 3. After a su=

   747 ccessful unblocking attempt the CHV is enabled and the relevant access condi=

   748 tion level=0D=0Ais satisfied.=0D=0AIf the presented UNBLOCK CHV is false th=

   749 e number of remaining UNBLOCK CHV attempts for that=0D=0AUNBLOCK CHV shall b=

   750 e decremented. After 10 consecutive false UNBLOCK CHV presentations not=0D=

   751 =0Anecessarily in the same card session the respective UNBLOCK CHV shall be=

   752  blocked. A false UNBLOCK=0D=0ACHV shall have no effect on the status of the=

   753  respective CHV itself.=0D=0AInput:=0D=0A- indication CHV1/CHV2 the UNBLOCK=

   754  CHV and the new CHV.=0D=0AOutput:=0D=0A- none.=0D=0A8.14 INVALIDATE=0D=0ATh=

   755 is function invalidates the current EF. After an INVALIDATE function the res=

   756 pective flag in the file status=0D=0Ashall be changed accordingly. This func=

   757 tion shall only be performed if the INVALIDATE access condition for=0D=0Athe=

   758  current EF is satisfied.=0D=0APage 33=0D=0AGSM 11.11 Version 5.0.0 December=

   759  1995=0D=0AAn invalidated file shall no longer be available within the appli=

   760 cation for any function except for the SELECT=0D=0Aand the REHABILITATE func=

   761 tions.=0D=0AInput:=0D=0A- none.=0D=0AOutput:=0D=0A- none.=0D=0A8.15 REHABILI=

   762 TATE=0D=0AThis function rehabilitates the invalidated current EF. After a RE=

   763 HABILITATE function the respective flag in=0D=0Athe file status shall be cha=

   764 nged accordingly. This function shall only be performed if the REHABILITATE=

   765 =0D=0Aaccess condition for the current EF is satisfied.=0D=0AInput:=0D=0A- n=

   766 one.=0D=0AOutput:=0D=0A- none.=0D=0A8.16 RUN GSM ALGORITHM=0D=0AThis functio=

   767 n is used during the procedure for authenticating the SIM to a GSM network a=

   768 nd to calculate a=0D=0Acipher key. The card runs the specified algorithms A3=

   769  and A8 using a 16 byte random number and the=0D=0Asubscriber authentication=

   770  key Ki which is stored in the SIM. The function returns the calculated res=

   771 ponse=0D=0ASRES and the cipher key Kc.=0D=0AThe function shall not be execut=

   772 able unless DFGSM has been selected as the Current Directory and a=0D=0Asucc=

   773 essful CHV1 verification procedure has been performed (see 11.3.1).=0D=0AInp=

   774 ut:=0D=0A- RAND.=0D=0AOutput:=0D=0A- SRES Kc.=0D=0AThe contents of Kc shall=

   775  be presented to algorithm A5 by the ME in its full 64 bit format as deliver=

   776 ed by the=0D=0ASIM.=0D=0A8.17 SLEEP=0D=0AThis is an obsolete GSM function wh=

   777 ich was issued by Phase 1 MEs. The function shall not be used by an=0D=0AME =

   778 of Phase 2 or later.=0D=0A9 Description of the commands=0D=0AThis clause sta=

   779 tes the general principles for mapping the functions described in clause 8 o=

   780 nto Application=0D=0AProtocol Data Units which are used by the transmission =

   781 protocol.=0D=0A9.1 Mapping principles=0D=0AAn APDU can be a command APDU or =

   782 a response APDU.=0D=0APage 34=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=

   783 =0AA command APDU has the following general format:=0D=0A=DA=C4=C4=C4=C4=C2=

   784 =C4=C4=C4=C4=C2=C4=C4=C4=C4=C2=C4=C4=C4=C4=C2=C4=C4=C4=C4=C2=C4=C4=C4=C4=C4=

   785 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   786 =C4=C4=BF=0D=0A=B3CLA =B3INS =B3 P1 =B3 P2 =B3 P3 =B3 Data =B3=0D=0A=C0=C4=

   787 =C4=C4=C4=C1=C4=C4=C4=C4=C1=C4=C4=C4=C4=C1=C4=C4=C4=C4=C1=C4=C4=C4=C4=C1=C4=

   788 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   789 =C4=C4=C4=C4=C4=C4=D9=0D=0AThe response APDU has the following general forma=

   790 t:=0D=0A=DA=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   791 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C2=C4=

   792 =C4=C4=C4=C4=C2=C4=C4=C4=C4=C4=BF=0D=0A=B3 Data =B3 SW1 =B3 SW2 =B3=0D=0A=

   793 =C0=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   794 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C1=C4=C4=C4=C4=

   795 =C4=C1=C4=C4=C4=C4=C4=D9=0D=0AAn APDU is transported by the T=3D0 transmissi=

   796 on protocol without any change. Other protocols might=0D=0Aembed an APDU int=

   797 o their own transport structure (ISO/IEC 7816-3 [25]).=0D=0AThe bytes have t=

   798 he following meaning:=0D=0A- CLA is the class of instruction (ISO/IEC 7816-3=

   799  [25]) 'A0' is used in the GSM application;=0D=0A- INS is the instruction c=

   800 ode (ISO/IEC 7816-3 [25]) as defined in this subclause for each command;=0D=

   801 =0A- P1 P2 P3 are parameters for the instruction. They are specified in ta=

   802 ble 9. 'FF' is a valid value for=0D=0AP1 P2 and P3. P3 gives the length of =

   803 the data element. P3=3D'00' introduces a 256 byte data transfer=0D=0Afrom th=

   804 e SIM in an outgoing data transfer command (response direction). In an ingoi=

   805 ng data transfer=0D=0Acommand (command direction) P3=3D'00' introduces no t=

   806 ransfer of data.=0D=0A- SW1 and SW2 are the status words indicating the succ=

   807 essful or unsuccessful outcome of the=0D=0Acommand.=0D=0AFor some of the fun=

   808 ctions described in clause 8 it is necessary for T=3D0 to use a supplementar=

   809 y transport=0D=0Aservice command (GET RESPONSE) to obtain the output data. F=

   810 or example the SELECT function needs=0D=0Athe following two commands:=0D=

   811 =0A- the first command (SELECT) has both parameters and data serving as inpu=

   812 t for the function;=0D=0A- the second command (GET RESPONSE) has a parameter=

   813  indicating the length of the data to be=0D=0Areturned.=0D=0AIf the length o=

   814 f the response data is not known beforehand then its correct length may be =

   815 obtained by=0D=0Aapplying the first command and interpreting the status word=

   816 s. SW1 shall be '9F' and SW2 shall give the=0D=0Atotal length of the data. O=

   817 ther status words may be present in case of an error. The various cases are:=

   818 =0D=0ACase 1: No input / No output=0D=0A=B3CLA=B3INS=B3P1=B3P2=B3P3=B3 =B3SW=

   819 1=B3SW2=B3=0D=0A=C0=C4=C4=C4=C1=C4=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C2=D9 =C0=

   820 =C4=C2=C4=C1=C4=C2=C4=D9=0D=0Algth (=3D'00') '90''00'=0D=0ACase 2: No input =

   821 / Output of known length=0D=0A=B3CLA=B3INS=B3P1=B3P2=B3P3=B3 =B3 DATA with l=

   822 ength lgth =B3SW1=B3SW2=B3=0D=0A=C0=C4=C4=C4=C1=C4=C4=C4=C1=C4=C4=C1=C4=C4=

   823 =C1=C4=C2=D9 =C0=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   824 =C4=C4=C4=C4=C1=C4=C2=C4=C1=C4=C2=C4=D9=0D=0Algth '90''00'=0D=0ANOTE: lgth=

   825 =3D'00' causes a data transfer of 256 bytes.=0D=0ACase 3: No Input / Output =

   826 of unknown length=0D=0A=B3CLA=B3INS=B3P1=B3P2=B3P3=B3 =B3SW1=B3SW2=B3=0D=0A=

   827 =C0=C4=C4=C4=C1=C4=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C2=D9 =C0=C4=C2=C4=C1=C4=

   828 =C2=C4=D9=0D=0Algth (=3D'00') '9F' lgth1=0D=0AGET RESPONSE=0D=0A=B3CLA=B3INS=

   829 =B3P1=B3P2=B3P3=B3 =B3 DATA with length lgth2=F3lgth1 =B3SW1=B3SW2=B3=0D=0A=

   830 =C0=C4=C4=C4=C1=C4=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C2=D9 =C0=C4=C4=C4=C4=C4=

   831 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   832 =C1=C4=C2=C4=C1=C4=C2=C4=D9=0D=0Algth2 '90''00'=0D=0APage 35=0D=0AGSM 11.11 =

   833 Version 5.0.0 December 1995=0D=0ACase 4: Input / No output=0D=0A=B3CLA=B3INS=

   834 =B3P1=B3P2=B3P3=B3 DATA with length lgth =B3 =B3SW1=B3SW2=B3=0D=0A=C0=C4=C4=

   835 =C4=C1=C4=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C2=C1=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   836 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=D9 =C0=C4=C2=C4=C1=C4=C2=C4=D9=0D=

   837 =0Algth '90''00'=0D=0ACase 5: Input / Output of known or unknown length=0D=

   838 =0A=B3CLA=B3INS=B3P1=B3P2=B3P3=B3 DATA with length lgth =B3 =B3SW1=B3SW2=B3=

   839 =0D=0A=C0=C4=C4=C4=C1=C4=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C2=C1=C4=C4=C4=C4=C4=

   840 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=D9 =C0=C4=C2=C4=C1=

   841 =C4=C2=C4=D9=0D=0Algth '9F' lgth1=0D=0AGET RESPONSE=0D=0A=B3CLA=B3INS=B3P1=

   842 =B3P2=B3P3=B3 =B3 DATA with length lgth2=F3lgth1 =B3SW1=B3SW2=B3=0D=0A=C0=

   843 =C4=C4=C4=C1=C4=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C2=D9 =C0=C4=C4=C4=C4=C4=C4=

   844 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C1=

   845 =C4=C2=C4=C1=C4=C2=C4=D9=0D=0Algth2 '90''00'=0D=0AFor cases 3 and 5 when SW=

   846 1/SW2 indicates there is response data (i.e. SW1/SW2 =3D '9FXX') then if t=

   847 he=0D=0AME requires to get this response data it shall send a GET RESPONSE =

   848 command as described in the=0D=0Arelevant case above.=0D=0AIf the GSM applic=

   849 ation is one of several applications in a multi-application card other comm=

   850 ands with CLA=0D=0Anot equal to 'A0' may be sent by the terminal. This shall=

   851  not influence the state of the GSM application.=0D=0A9.2 Coding of the comm=

   852 ands=0D=0ATable 9 below gives the coding of the commands. The direction of t=

   853 he data is indicated by (S) and (R)=0D=0Awhere (S) stands for data sent by =

   854 the ME while (R) stands for data received by the ME. Offset is coded=0D=0Aon=

   855  2 bytes where P1 gives the high order byte and P2 the low order byte. '00 0=

   856 0' means no offset and=0D=0Areading/updating starts with the first byte whil=

   857 e an offset of '00 01' means that reading/updating starts with=0D=0Athe seco=

   858 nd byte 

   859 .=0D=0AIn addition to the instruction codes specified in table 9 =

   860 the following codes are reserved:=0D=0AGSM operational phase:=0D=0A'1X' with=

   861  X even.=0D=0AAdministrative management phase:=0D=0A'2A' 'D0' 'D2' 'DE' =

   862 'C4' 'C6' 'C8' 'CA' 'CC' 'B4' 'B6' 'B8' 'BA' and 'BC'.=0D=0APage 36=

   863 =0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0ATable 9: Coding of the comm=

   864 ands=0D=0ACOMMAND INS P1 P2 P3 S/R=0D=0ASELECT 'A4' '00' '00' '02' S/R=0D=

   865 =0ASTATUS 'F2' '00' '00' lgth R=0D=0AREAD BINARY 'B0' offset high offset low=

   866  lgth R=0D=0AUPDATE BINARY 'D6' offset high offset low lgth S=0D=0AREAD RECO=

   867 RD 'B2' rec No. mode lgth R=0D=0AUPDATE RECORD 'DC' rec No. mode lgth S=0D=

   868 =0ASEEK 'A2' '00' type/mode lgth S/R=0D=0AINCREASE '32' '00' '00' '03' S/R=

   869 =0D=0AVERIFY CHV '20' '00' CHV No. '08' S=0D=0ACHANGE CHV '24' '00' CHV No. =

   870 '10' S=0D=0ADISABLE CHV '26' '00' '01' '08' S=0D=0AENABLE CHV '28' '00' '01'=

   871  '08' S=0D=0AUNBLOCK CHV '2C' '00' see NOTE '10' S=0D=0AINVALIDATE '04' '00'=

   872  '00' '00' -=0D=0AREHABILITATE '44' '00' '00' '00' -=0D=0ARUN GSM ALGORITHM =

   873 '88' '00' '00' '10' S/R=0D=0ASLEEP 'FA' '00' '00' '00' -=0D=0AGET RESPONSE '=

   874 C0' '00' '00' lgth R=0D=0ANOTE: If the UNBLOCK CHV command applies to CHV1 t=

   875 hen P2 is coded '00'; if it applies to=0D=0ACHV2 then P2 is coded '02'.=0D=

   876 =0ADefinitions and codings used in the response parameters/data of the comma=

   877 nds are given in subclause=0D=0A9.3.=0D=0A9.2.1 SELECT=0D=0ACOMMAND CLASS IN=

   878 S P1 P2 P3=0D=0ASELECT 'A0' 'A4' '00' '00' '02'=0D=0ACommand parameters/data=

   879 :=0D=0AByte(s) Description Length=0D=0A1 - 2 File ID 2=0D=0AResponse paramet=

   880 ers/data in case of an MF or DF:=0D=0APage 37=0D=0AGSM 11.11 Version 5.0.0 D=

   881 ecember 1995=0D=0AByte(s) Description Length=0D=0A1 - 2 RFU 2=0D=0A3 - 4 Tot=

   882 al amount of memory of the selected directory=0D=0Awhich is not allocated to=

   883  any of the DFs or EFs under=0D=0Athe selected directory=0D=0A2=0D=0A5 - 6 F=

   884 ile ID 2=0D=0A7 Type of file (see subclause 9.3) 1=0D=0A8 - 12 RFU 5=0D=0A13=

   885  Length of the following data (byte 14 to the end) 1=0D=0A14 - 34 GSM specif=

   886 ic data 21=0D=0AGSM specific data:=0D=0AByte(s) Description Length=0D=0A14 F=

   887 ile characteristics (see detail 1) 1=0D=0A15 Number of DFs which are a direc=

   888 t child of the current=0D=0Adirectory=0D=0A1=0D=0A16 Number of EFs which are=

   889  a direct child of the current=0D=0Adirectory=0D=0A1=0D=0A17 Number of CHVs=

   890  UNBLOCK CHVs and administrative=0D=0Acodes=0D=0A1=0D=0A18 RFU 1=0D=0A19 CHV=

   891 1 status (see detail 2) 1=0D=0A20 UNBLOCK CHV1 status (see detail 2) 1=0D=

   892 =0A21 CHV2 status (see detail 2) 1=0D=0A22 UNBLOCK CHV2 status (see detail 2=

   893 ) 1=0D=0A23 RFU 1=0D=0A24 - 34 Reserved for the administrative management=

   894 =0D=0A(optional)=0D=0A0=F3lgth=F311=0D=0ANOTE 1: Byte 35 and following are R=

   895 FU.=0D=0ANOTE 2: The STATUS information of the MF DFGSM and DFTELECOM provi=

   896 de some identical=0D=0Aapplication specific data e.g. CHV status. On a mult=

   897 i-application card the MF should=0D=0Anot contain any application specific d=

   898 ata. Such data is obtained by terminals from the=0D=0Aspecific application d=

   899 irectories. ME manufacturers should take this into account and=0D=0Atherefor=

   900 e not use application specific data which may exist in the MF of a monoappli=

   901 cation=0D=0ASIM.=0D=0ASimilarly the Verify CHV command should not be execut=

   902 ed in the MF but in the relevant=0D=0Aapplication directory (e.g. DFGSM).=

   903 =0D=0ADetail 1: File characteristics=0D=0A=DA=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=

   904 =C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=BF=0D=0A=B3b8=B3b7=B3b6=B3b5=B3b4=

   905 =B3b3=B3b2=B3b1=B3=0D=0A=C0=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=

   906 =C4=C1=C2=C4=C1=C2=C4=D9=0D=0A=B3 =B3 =B3 =B3 =B3 =B3 =B3 =C0=C4=C4 Clock st=

   907 op (see below)=0D=0A=B3 =B3 =B3 =B3 =B3 =B3 =C0=C4=C4=C4=C4=C4 For running t=

   908 he authentication algorithm=0D=0A=B3 =B3 =B3 =B3 =B3 =B3 a frequency is req=

   909 uired of at least=0D=0A=B3 =B3 =B3 =B3 =B3 =B3 13/8 MHz if b2=3D0 and 13/4 M=

   910 Hz if b2=3D1=0D=0A=B3 =B3 =B3 =B3 =C0=C4=C4=C1=C4=C4=C4=C4=C4=C4=C4=C4 Clock=

   911  stop (see below)=0D=0A=B3 =C0=C4=C4=C1=C4=C4=C1=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   912 =C4=C4=C4=C4=C4 RFU=0D=0A=C0=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

   913 =C4=C4=C4=C4=C4=C4=C4=C4 b8=3D0: CHV1 enabled; b8=3D1: CHV1 disabled=0D=0ATh=

   914 e coding of the conditions for stopping the clock is as follows:=0D=0APage 3=

   915 8=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0ABit b1 Bit b3 Bit b4=0D=

   916 =0A1 0 0 clock stop allowed no preferred level=0D=0A1 1 0 clock stop allowe=

   917 d high level preferred=0D=0A1 0 1 clock stop allowed low level preferred=

   918 =0D=0A0 0 0 clock stop not allowed=0D=0A0 1 0 clock stop not allowed unless=

   919  at high level=0D=0A0 0 1 clock stop not allowed unless at low level=0D=0AI=

   920 f bit b1 (column 1) is coded 1 stopping the clock is allowed at high or low=

   921  level. In this case=0D=0Acolumns 2 (bit b3) and 3 (bit b4) give information=

   922  about the preferred level (high or low resp.) at=0D=0Awhich the clock may =

   923 be stopped.=0D=0AIf bit b1 is coded 0 the clock may be stopped only if the =

   924 mandatory condition in column 2 (b3=3D1 i.e.=0D=0Astop at high level) or co=

   925 lumn 3 (b4=3D1 i.e. stop at low level) is fulfilled. If all 3 bits are code=

   926 d 0 then=0D=0Athe clock shall not be stopped.=0D=0ADetail 2: Status byte of=

   927  a secret code=0D=0A=DA=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=

   928 =C2=C4=C4=C2=C4=C4=BF=0D=0A=B3b8=B3b7=B3b6=B3b5=B3b4=B3b3=B3b2=B3b1=B3=0D=

   929 =0A=C0=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=

   930 =D9=0D=0A=B3 =B3 =B3 =B3 =C0=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4 Number of fals=

   931 e presentations remaining=0D=0A=B3 =B3 =B3 =B3 ('0' means blocked)=0D=0A=B3 =

   932 =C0=C4=C4=C1=C4=C4=C1=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4 RFU=0D=0A=

   933 =C0=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4 b8=

   934 =3D0: secret code not initialised=0D=0Ab8=3D1: secret code initialised=0D=

   935 =0AResponse parameters/data in case of an EF:=0D=0AByte(s) Description Lengt=

   936 h=0D=0A1 - 2 RFU 2=0D=0A3 - 4 File size=0D=0A(for transparent EF: the length=

   937  of the body part of the EF)=0D=0A(for linear fixed or cyclic EF: record len=

   938 gth multiplied by the=0D=0Anumber of records of the EF)=0D=0A2=0D=0A5 - 6 Fi=

   939 le ID 2=0D=0A7 Type of file (see 9.3) 1=0D=0A8 see detail 3 1=0D=0A9 - 11 Ac=

   940 cess conditions (see 9.3) 3=0D=0A12 File status (see 9.3) 1=0D=0A13 Length o=

   941 f the following data (byte 14 to the end) 1=0D=0A14 Structure of EF (see 9.3=

   942 ) 1=0D=0A15 Length of a record (see detail 4) 1=0D=0ANOTE: Byte 16 and follo=

   943 wing are RFU.=0D=0ADetail 3: Byte 8=0D=0AFor transparent and linear fixed EF=

   944 s this byte is RFU. For a cyclic EF all bits except bit 7 are RFU;=0D=0Ab7=

   945 =3D1 indicates that the INCREASE command is allowed on the selected cyclic f=

   946 ile.=0D=0ADetail 4: Byte 15=0D=0AFor cyclic and linear fixed EFs this byte d=

   947 enotes the length of a record. For a transparent EF this=0D=0Abyte shall be=

   948  coded '00' if this byte is sent by the SIM.=0D=0APage 39=0D=0AGSM 11.11 Ve=

   949 rsion 5.0.0 December 1995=0D=0A9.2.2 STATUS=0D=0ACOMMAND CLASS INS P1 P2 P3=

   950 =0D=0ASTATUS 'A0' 'F2' '00' '00' lgth=0D=0AThe response parameters/data are =

   951 identical to the response parameters/data of the SELECT command in=0D=0Acase=

   952  of an MF or DF.=0D=0A9.2.3 READ BINARY=0D=0ACOMMAND CLASS INS P1 P2 P3=0D=

   953 =0AREAD BINARY 'A0' 'B0' offset high offset low lgth=0D=0AResponse parameter=

   954 s/data:=0D=0AByte(s) Description Length=0D=0A1 - lgth Data to be read lgth=

   955 =0D=0A9.2.4 UPDATE BINARY=0D=0ACOMMAND CLASS INS P1 P2 P3=0D=0AUPDATE BINARY=

   956  'A0' 'D6' offset high offset low lgth=0D=0ACommand parameters/data:=0D=0ABy=

   957 te(s) Description Length=0D=0A1 - lgth Data lgth=0D=0A9.2.5 READ RECORD=0D=

   958 =0ACOMMAND CLASS INS P1 P2 P3=0D=0AREAD RECORD 'A0' 'B2' Rec.No. Mode lgth=

   959 =0D=0AParameter P2 specifies the mode:=0D=0A- '02' =3D next record;=0D=0A- '=

   960 03' =3D previous record;=0D=0A- '04' =3D absolute mode/current mode the rec=

   961 ord number is given in P1 with P1=3D'00' denoting=0D=0Athe current record.=

   962 =0D=0AFor the modes "next" and "previous" P1 has no significance and shall b=

   963 e set to '00' by the ME. To ensure=0D=0Aphase compatibility between Phase 2 =

   964 SIMs and Phase 1 MEs the SIM shall not interpret the value given=0D=0Aby th=

   965 e ME.=0D=0APage 40=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0AResponse =

   966 parameters/data:=0D=0AByte(s) Description Length=0D=0A1 - lgth The data of t=

   967 he record lgth=0D=0A9.2.6 UPDATE RECORD=0D=0ACOMMAND CLASS INS P1 P2 P3=0D=

   968 =0AUPDATE RECORD 'A0' 'DC' Rec.No. Mode lgth=0D=0AParameter P2 specifies the=

   969  mode:=0D=0A- '02' =3D next record;=0D=0A- '03' =3D previous record;=0D=0A- =

   970 '04' =3D absolute mode/current mode; the record number is given in P1 with P=

   971 1=3D'00' denoting=0D=0Athe current record.=0D=0AFor the modes "next" and "pr=

   972 evious" P1 has no significance and shall be set to '00' by the ME. To ensure=

   973 =0D=0Aphase compatibility between Phase 2 SIMs and Phase 1 MEs the SIM shal=

   974 l not interpret the value given=0D=0Aby the ME.=0D=0ACommand parameters/data=

   975 :=0D=0AByte(s) Description Length=0D=0A1 - lgth Data lgth=0D=0A9.2.7 SEEK=

   976 =0D=0ACOMMAND CLASS INS P1 P2 P3=0D=0ASEEK 'A0' 'A2' '00' Type/Mode lgth=0D=

   977 =0AParameter P2 specifies type and mode:=0D=0A- 'x0' =3D from the beginning =

   978 forward;=0D=0A- 'x1' =3D from the end backward;=0D=0A- 'x2' =3D from the nex=

   979 t location forward;=0D=0A- 'x3' =3D from the previous location backward=0D=

   980 =0Awith x=3D'0' specifies type 1 and x=3D'1' specifies type 2 of the SEEK co=

   981 mmand.=0D=0ACommand parameters/data:=0D=0AByte(s) Description Length=0D=0A1 =

   982 - lgth Pattern lgth=0D=0AThere are no response parameters/data for a type 1 =

   983 SEEK. A type 2 SEEK returns the following response=0D=0Aparameters/data:=0D=

   984 =0AByte(s) Description Length=0D=0A1 Record number 1=0D=0APage 41=0D=0AGSM 1=

   985 1.11 Version 5.0.0 December 1995=0D=0A9.2.8 INCREASE=0D=0ACOMMAND CLASS INS =

   986 P1 P2 P3=0D=0AINCREASE 'A0' '32' '00' '00' '03'=0D=0ACommand parameters/data=

   987 :=0D=0AByte(s) Description Length=0D=0A1 - 3 Value to be added 3=0D=0ARespon=

   988 se parameters/data:=0D=0AByte(s) Description Length=0D=0A1 - X Value of the =

   989 increased record X=0D=0AX+1 - X+3 Value which has been added 3=0D=0ANOTE: X =

   990 denotes the length of the record.=0D=0A9.2.9 VERIFY CHV=0D=0ACOMMAND CLASS I=

   991 NS P1 P2 P3=0D=0AVERIFY CHV 'A0' '20' '00' CHV No. '08'=0D=0AParameter P2 sp=

   992 ecifies the CHV:=0D=0A- '01' =3D CHV1;=0D=0A- '02' =3D CHV2.=0D=0ACommand pa=

   993 rameters/data:=0D=0AByte(s) Description Length=0D=0A1 - 8 CHV value 8=0D=0A9=

   994 .2.10 CHANGE CHV=0D=0ACOMMAND CLASS INS P1 P2 P3=0D=0ACHANGE CHV 'A0' '24' '=

   995 00' CHV No. '10'=0D=0AParameter P2 specifies the CHV:=0D=0A- '01' =3D CHV1;=

   996 =0D=0A- '02' =3D CHV2.=0D=0ACommand parameters/data:=0D=0AByte(s) Descriptio=

   997 n Length=0D=0A1 - 8 Old CHV value 8=0D=0A9 - 16 New CHV value 8=0D=0APage 42=

   998 =0D=0AGSM 11.11 Version 5.0.0 DecemHV=0D=0ACOMMAND CLASS IN=

   999 S P1 P2 P3=0D=0AUNBLOCK CHV 'A0' '2C' '00' CHV No. '10'=0D=0AParameter P2 sp=

  1000 ecifies the CHV:=0D=0A- 00 =3D CHV1;=0D=0A- 02 =3D CHV2.=0D=0ANOTE: The codi=

  1001 ng '00' for CHV1 differs from the coding of CHV1 used for other commands.=

  1002 =0D=0ACommand parameters/data:=0D=0AByte(s) Description Length=0D=0A1 - 8 UN=

  1003 BLOCK CHV value 8=0D=0A9 - 16 New CHV value 8=0D=0A9.2.14 INVALIDATE=0D=0ACO=

  1004 MMAND CLASS INS P1 P2 P3=0D=0AINVALIDATE 'A0' '04' '00' '00' '00'=0D=0A9.2.1=

  1005 5 REHABILITATE=0D=0ACOMMAND CLASS INS P1 P2 P3=0D=0AREHABILITATE 'A0' '44' '=

  1006 00' '00' '00'=0D=0APage 43=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0A9=

  1007 .2.16 RUN GSM ALGORITHM=0D=0ACOMMAND CLASS INS P1 P2 P3=0D=0ARUN GSM=0D=0AAL=

  1008 GORITHM=0D=0A'A0' '88' '00' '00' '10'=0D=0ACommand parameters/data:=0D=0AByt=

  1009 e(s) Description Length=0D=0A1 - 16 RAND 16=0D=0AResponse parameters/data:=

  1010 =0D=0AByte(s) Description Length=0D=0A1 - 4 SRES 4=0D=0A5 - 12 Cipher Key Kc=

  1011  8=0D=0AThe most significant bit of SRES is coded on bit 8 of byte 1. The mo=

  1012 st significant bit of Kc is coded on bit 8=0D=0Aof byte 5.=0D=0A9.2.17 SLEEP=

  1013 =0D=0ACOMMAND CLASS INS P1 P2 P3=0D=0ASLEEP 'A0' 'FA' '00' '00' '00'=0D=0ANO=

  1014 TE: This command is used by Phase 1 MEs only.=0D=0A9.2.18 GET RESPONSE=0D=

  1015 =0ACOMMAND CLASS INS P1 P2 P3=0D=0AGET RESPONSE 'A0' 'C0' '00' '00' lgth=0D=

  1016 =0AThe response data depends on the preceding command. Response data is avai=

  1017 lable after the commands=0D=0ARUN GSM ALGORITHM SEEK (type 2) SELECT and =

  1018 INCREASE. If the command GET RESPONSE is=0D=0Aexecuted it is required that =

  1019 it is executed immediately after the command it is related to (no other=0D=

  1020 =0Acommand shall come between the command/response pair and the command GET =

  1021 RESPONSE). If the=0D=0Asequence is not respected the SIM shall send the sta=

  1022 tus information "technical problem with no diagnostic=0D=0Agiven" as a react=

  1023 ion to the GET RESPONSE.=0D=0ASince the MF is implicitly selected after acti=

  1024 vation of the SIM GET RESPONSE is also allowed as the first=0D=0Acommand af=

  1025 ter activation.=0D=0AThe response data itself is defined in the subclause fo=

  1026 r the corresponding command.=0D=0A9.3 Definitions and coding=0D=0AThe follow=

  1027 ing definitions and coding are used in the response parameters/data of the c=

  1028 ommands.=0D=0ACoding=0D=0AEach byte is represented by bits b8 to b1 where b=

  1029 8 is the most significant bit (MSB) and b1 is the least=0D=0Asignificant bit=

  1030  (LSB). In each representation the leftmost bit is the MSB.=0D=0APage 44=0D=

  1031 =0AGSM 11.11 Version 5.0.0 December 1995=0D=0ARFU=0D=0AIn a GSM specific car=

  1032 d all bytes which are RFU shall be set to '00' and RFU bits to 0. Where the =

  1033 GSM=0D=0Aapplication exists on a multiapplication card or is built on a gene=

  1034 ric telecommunications card (e.g. TE9)=0D=0Athen other values may apply. The=

  1035  values will be defined in the appropriate specifications for such cards.=

  1036 =0D=0AThese bytes and bits shall not be interpreted by an ME in a GSM sessio=

  1037 n.=0D=0AFile status=0D=0A=DA=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=

  1038 =C4=C4=C2=C4=C4=C2=C4=C4=BF=0D=0A=B3b8=B3b7=B3b6=B3b5=B3b4=B3b3=B3b2=B3b1=

  1039 =B3=0D=0A=C0=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=

  1040 =C2=C4=D9=0D=0A=B3 =B3 =B3 =B3 =B3 =B3 =B3 =C0=C4=C4 b1=3D0: invalidated; b1=

  1041 =3D1: not invalidated=0D=0A=C0=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4=C1=

  1042 =C4=C4=C1=C4=C4=C4=C4=C4 RFU=0D=0AStructure of file=0D=0A- '00' transparent;=

  1043 =0D=0A- '01' linear fixed;=0D=0A- '03' cyclic.=0D=0AType of File=0D=0A- '00'=

  1044  RFU;=0D=0A- '01' MF;=0D=0A- '02' DF;=0D=0A- '04' EF.=0D=0ACoding of CHVs an=

  1045 d UNBLOCK CHVs=0D=0AA CHV is coded on 8 bytes. Only (decimal) digits (0-9) s=

  1046 hall be used coded in CCITT T.50 [19] with bit 8=0D=0Aset to zero. The mini=

  1047 mum number of digits is 4. If the number of digits presented by the user is =

  1048 less than 8=0D=0Athen the ME shall pad the presented CHV with 'FF' before se=

  1049 nding it to the SIM.=0D=0AThe coding of the UNBLOCK CHVs is identical to the=

  1050  coding of the CHVs. However the number of=0D=0A(decimal) digits is always =

  1051 8.=0D=0ACoding of Access Conditions=0D=0AThe access conditions for the comma=

  1052 nds are coded on bytes 9 10 and 11 of the response data of the=0D=0ASELECT =

  1053 command. Each condition is coded on 4 bits as shown in table 10.=0D=0APage 4=

  1054 5=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0ATable 10: Access condition=

  1055 s=0D=0A=DA=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C2=C4=C4=C4=C4=

  1056 =C4=C4=C4=BF=0D=0A=B3 ALW =B3 '0' =B3=0D=0A=B3 CHV1 =B3 '1' =B3=0D=0A=B3 CHV=

  1057 2 =B3 '2' =B3=0D=0A=B3 RFU =B3 '3' =B3=0D=0A=B3 ADM =B3 '4' =B3=0D=0A=B3 

  1058 .=

  1059 

  1060 

  1061  =B3 

  1062  =B3=0D=0A=B3 ADM =B3 'E' =B3=0D=0A=B3 NEV =B3 'F' =B3=0D=0A=C0=

  1063 =C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C1=C4=C4=C4=C4=C4=C4=C4=D9=

  1064 =0D=0AByte 9:=0D=0A=DA=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=

  1065 =C2=C4=C4=C2=C4=C4=BF=0D=0A=B3b8=B3b7=B3b6=B3b5=B3b4=B3b3=B3b2=B3b1=B3=0D=

  1066 =0A=C0=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=

  1067 =D9=0D=0A=B3 =B3 =B3 =B3 =C0=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4 UPDATE=0D=0A=

  1068 =C0=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4 REA=

  1069 D; SEEK=0D=0AByte 10:=0D=0A=DA=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=

  1070 =C4=C4=C2=C4=C4=C2=C4=C4=BF=0D=0A=B3b8=B3b7=B3b6=B3b5=B3b4=B3b3=B3b2=B3b1=

  1071 =B3=0D=0A=C0=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=

  1072 =C2=C4=D9=0D=0A=B3 =B3 =B3 =B3 =C0=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4 RFU=0D=

  1073 =0A=C0=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4 =

  1074 INCREASE=0D=0AByte 11:=0D=0A=DA=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=C2=C4=C4=

  1075 =C2=C4=C4=C2=C4=C4=C2=C4=C4=BF=0D=0A=B3b8=B3b7=B3b6=B3b5=B3b4=B3b3=B3b2=B3b1=

  1076 =B3=0D=0A=C0=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=C2=C4=C1=

  1077 =C2=C4=D9=0D=0A=B3 =B3 =B3 =B3 =C0=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4 INVALIDA=

  1078 TE=0D=0A=C0=C4=C4=C1=C4=C4=C1=C4=C4=C1=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=C4=

  1079 =C4=C4 REHABILITATE=0D=0A9.4 Status conditions returned by the card=0D=0AThi=

  1080 s subclause specifies the coding of the status words SW1 and SW2.=0D=0A9.4.1=

  1081  Responses to commands which are correctly executed=0D=0ASW1 SW2 Description=

  1082 =0D=0A'90' '00' - normal ending of the command=0D=0A'9F' 'XX' - length 'XX' =

  1083 of the response data=0D=0A9.4.2 Memory management=0D=0ASW1 SW2 Error descrip=

  1084 tion=0D=0A'92' '0X' - update successful but after using an internal retry ro=

  1085 utine 'X'=0D=0Atimes=0D=0A'92' '40' - memory problem=0D=0A9.4.3 Referencing =

  1086 management=0D=0ASW1 SW2 Error description=0D=0A'94' '00' - no EF selected=

  1087 =0D=0A'94' '02' - out of range (invalid address)=0D=0A'94' '04' - file ID no=

  1088 t found=0D=0A- pattern not found=0D=0A'94' '08' - file is inconsistent with =

  1089 the command=0D=0APage 46=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=0A9.4=

  1090 .4 Security management=0D=0ASW1 SW2 Error description=0D=0A'98' '02' verification no attempt left=0D=0A- unsuccessful UNBLOCK CHV verifica=

  1091 tion no attempt left=0D=0A- CHV blocked=0D=0A- UNBLOCK CHV blocked=0D=0A'98=

  1092 ' '50' - increase cannot be performed Max value reached=0D=0ANOTE: A Phase =

  1093 1 SIM may send this error code after the third consecutive unsuccessful CHV=

  1094 =0D=0Averification attempt or the tenth consecutive unsuccessful unblocking =

  1095 attempt.=0D=0A9.4.5 Application independent errors=0D=0ASW1 SW2 Error descri=

  1096 ption=0D=0A'67' 'XX' - incorrect parameter P3 (see note)=0D=0A'6B' 'XX'# - i=

  1097 ncorrect parameter P1 or P2 (see ##)=0D=0A'6D' 'XX'# - unknown instruction c=

  1098 ode given in the command=0D=0A'6E' 'XX'# - wrong instruction class given in =

  1099 the command=0D=0A'6F' 'XX'# - technical problem with no diagnostic given=0D=

  1100 =0A# These values of 'XX' are specified by ISO/IEC; at present the default v=

  1101 alue 'XX'=3D'00' is the only one=0D=0Adefined.=0D=0A## When 

  1102 =0Aasterisk *).=0D=0APage 47=0D=0AGSM 11.11 Version 5.0.0 December 1995=0D=

  1103 =0ATable 11: Commands and status words=0D=0AOK Mem=0D=0ASta=0D=0ARefer.=0D=

  1104 =0AStatus=0D=0ASecurity=0D=0AStatus=0D=0AApplic.=0D=0AIndepend.=0D=0AErrors=

  1105 =0D=0ACommands=0D=0A90=0D=0A00=0D=0A9=0D=0AF=0D=0AXX=0D=0A92=0D=0A0=0D=0AX=

  1106 =0D=0A92=0D=0A40=0D=0A94=0D=0A00=0D=0A94=0D=0A02=0D=0A94=0D=0A04=0D=0A94=0D=

  1107 =0A08=0D=0A98=0D=0A02=0D=0A98=0D=0A04=0D=0A98=0D=0A08=0D=0A98=0D=0A10=0D=0A9=

  1108 8=0D=0A40=0D=0A98=0D=0A50=0D=0A67=0D=0AXX=0D=0A6=0D=0AB=0D=0AXX=0D=0A6=0D=

  1109 =0AD=0D=0AXX=0D=0A6=0D=0AE=0D=0AXX=0D=0A6=0D=0AF=0D=0AXX=0D=0ASelect *=

  1110  *=0D=0AStatus *=0D=0AUpdate Binary *=0D=

  1111 =0AUpdate Record *=0D=0ARead Binary =

  1112 *=0D=0ARead Record *=0D=0ASeek *=

  1113 =0D=0AIncrease *=0D=0AVerify CHV *=

  1114 =0D=0AChange CHV *=0D=0ADisable CHV =

  1115 *=0D=0AEnable CHV *=0D=0AUnblock CHV *=

  1116  *=0D=0AInvalidate *=0D=0ARehabilitate *=

  1117 =0D=0ARun GSM Algorithm *=0D=0ASleep *=0D=0AGet Respon=

  1118 se *=0D=0A10 Contents of the Elementary Files (EF)=0D=0AThis claus=

  1119 e specifies the EFs for the GSM session defining access conditions data ite=

  1120 ms and coding. A=0D=0Adata item is a part of an EF which represents a comple=

  1121 te logical entity e.g. the alpha tag in a EFADN=0D=0Arecord.=0D=0AEFs or da=

  1122 ta items having an unassigned value or which during the GSM session are c=

  1123 leared by the ME=0D=0Ashall have their bytes set to 'FF'. After the adminis=

  1124 trative phase all data items shall have a defined value or=0D=0Ahave their b=

  1125 ytes set to 'FF'. If a data item is "deleted" during a GSM session by the al=

  1126 location of a value=0D=0Aspecified in another GSM TS then this value shall =

  1127 be used and the data item is not unassigned; e.g. for a=0D=0Adeleted LAI in=

  1128  EFLOCI the last byte takes the value 'FE' (TS GSM 04.08 [14] refers).=0D=

  1129 =0AEFs are mandatory (M) or optional (O). The file size of an optional EF ma=

  1130 y be zero. All implemented EFs=0D=0Awith a file size greater than zero shall=

  1131  contain all mandatory data items. Optional data items may either be=0D=0Afi=

  1132 lled with 'F' or if located at the end of an EF need not exist.=0D=0AWhen=

  1133  the coding is according to CCITT Recommendation T.50 [19] bit 8 of every b=

  1134 yte shall be set to 0.=0D=0AFor an overview containing all files see figure =

  1135 8.=0D=0A10.1 Contents of the EFs at the MF level=0D=0AThere is only one EF a=