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pySim-prog

In general, please make sure to always consult the User Maual - it is more authoritative than this rarely maintained wiki page.

Furthermore, pySim-prog is a legacy program that only supports a small fraction of the features of pySim-shell. Please consider using pySim-shell instead.

Examples

Program (very few fields of) your SIM card using legacy pySim-prog

  • Enter ./pySim-prog.py -help to get overview of possible options.

Similar result should appear:

$ ./pySim-prog.py -help
Usage: pySim-prog.py [options]
Options:
-h, --help show this help message and exit
-d DEV, --device=DEV Serial Device for SIM access [default: /dev/ttyUSB0]
-b BAUD, --baud=BAUD Baudrate used for SIM access [default: 9600]
-p PCSC, --pcsc-device=PCSC
Which PC/SC reader number for SIM access
-t TYPE, --type=TYPE Card type (user -t list to view) [default: auto]
-a PIN_ADM, --pin-adm=PIN_ADM
ADM PIN used for provisioning (overwrites default)
-e, --erase Erase beforehand [default: False]
-S SOURCE, --source=SOURCE
Data Source[default: cmdline]
-n NAME, --name=NAME Operator name [default: Magic]
-c CC, --country=CC Country code [default: 1]
-x MCC, --mcc=MCC Mobile Country Code [default: 901]
-y MNC, --mnc=MNC Mobile Network Code [default: 55]
-m SMSC, --smsc=SMSC SMSP [default: '00 + country code + 5555']
-M SMSP, --smsp=SMSP Raw SMSP content in hex [default: auto from SMSC]
-s ID, --iccid=ID Integrated Circuit Card ID
-i IMSI, --imsi=IMSI International Mobile Subscriber Identity
-k KI, --ki=KI Ki (default is to randomize)
-o OPC, --opc=OPC OPC (default is to randomize)
--op=OP Set OP to derive OPC from OP and KI
--acc=ACC Set ACC bits (Access Control Code). not all card types
are supported
-z STR, --secret=STR Secret used for ICCID/IMSI autogen
-j NUM, --num=NUM Card # used for ICCID/IMSI autogen
--batch Enable batch mode [default: False]
--batch-state=FILE Optional batch state file
--read-csv=FILE Read parameters from CSV file rather than command line
--write-csv=FILE Append generated parameters in CSV file
--write-hlr=FILE Append generated parameters to OpenBSC HLR sqlite3
--dry-run Perform a 'dry run', don't actually program the card

Example of how to program a sysmoSIM-GR1 card

The GRcard SIM is a programmable GSM SIM card. It uses a mixture of TS11.11 / ISO7816-4 and proprietary commands for programming.

In the below example, we are changing the card’s IMSI to 901700000003080 (option -i) and we are specifying a new set of -n NAME (Operator name), -t TYPE (Card type), -c CC (Country code), -x MCC (Mobile Country Code), -y MNC (Mobile Network Code) and -s ID (Integrated Circuit Card ID) values.

$ ./pySim-prog.py -p 0 -n OpenBSC -t sysmosim-gr1 -i 901700000003080 -c 001 -x 001 -y 02 -s 1791198229180000075
Insert card now (or CTRL-C to cancel)
Generated card parameters :
> Name : OpenBSC
> SMSP : e1ffffffffffffffffffffffff0581005155f5ffffffffffff000000
> ICCID : 1791198229180000075
> MCC/MNC : 1/2
> IMSI : 901700000003080
> Ki : 7edaeb6addbd72d2b2cc6ed7bfecc9c9
> OPC : 23f075ab9b1a113d4db822d8195ea20c
> ACC : None
Programming ...
Done !

Example of how to program a sysmoUSIM-SJS1 card

(U)SIM cards are Java capable and there is the Globalplatform that specifies standards API. SMS can be addressed directly to the SIM card, the SIM card will get events for network selection and others, it can modify call establishment attempts.

Provisioning of different identities or keys.

If you have a variant of the card-individual ADM1 key of your sysmoUSIM-SJS1 card, you can change any identity (IMSI, ICCID, MSISDN) stored on the (U)SIM, as well as the private key data (K, OPC).

In the below example, we are changing the card’s IMSI to 901700000003080 (option -i) and we are specifying a new set of -t TYPE (Card type), - a ADM_PIN (ADM PIN used for provisioning), -x MCC (Mobile Country Code), -y MNC (Mobile Network Code), -s ID (Integrated Circuit Card ID), -o OPC and -k KI (Ki) values.

$ ./pySim-prog.py -p 0 -t sysmoUSIM-SJS1 -a 58001006  -x 901 -y 71 -i 901700000010659 -s 8988211000000110000 -o 398153093661279FB1FC74BE07059FEF -k 1D8B2562B992549F20D0F42113EAA6FA
Insert card now (or CTRL-C to cancel)
Generated card parameters :
> Name : Magic
> SMSP : e1ffffffffffffffffffffffff0581005155f5ffffffffffff000000
> ICCID : 8988211000000110000
> MCC/MNC : 901/71
> IMSI : 901700000010659
> Ki : 1D8B2562B992549F20D0F42113EAA6FA
> OPC : 398153093661279FB1FC74BE07059FEF
> ACC : None
Programming ...
Done !

Example of how to program a Magic SIM / SuperSIM 16-in-1 / X-sim card

The 16-in-1 SIM cards are intended for COMP128v1 based cloning and enable the user to aggregate up to 16 SIM card identities in a single card. This multi-IMSI property is not used in the context of Osmocom.

Below example shows how we can change the card’s IMSI to 901990000000018 (option -i) and at the same time we are specifying a new set of -x MCC (Mobile Country Code), -y MNC (Mobile Network Code), -s ID (Integrated Circuit Card ID) , -o OPC and -k KI (Ki) values.

$ ./pySim-prog.py -p 0 -x 801 -y 71 -i 901990000000018 -s 8988211000000110000 -o 398153093661279FB1FC74BE07059FEF -k 1D8B2562B992549F20D0F42113EAA6FA
Insert card now (or CTRL-C to cancel)
Autodetected card type fakemagicsim
Generated card parameters :
> Name : Magic
> SMSP : e1ffffffffffffffffffffffff0581005155f5ffffffffffff000000
> ICCID : 8988211000000110000
> MCC/MNC : 801/71
> IMSI : 901990000000018
> Ki : 1D8B2562B992549F20D0F42113EAA6FA
> OPC : 398153093661279FB1FC74BE07059FEF
> ACC : None
Programming ...
Done !
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Updated by laforge 4 months ago · 1 revisions

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