/*******************************************************************************
OpenAirInterface
Copyright(c) 1999 - 2014 Eurecom
OpenAirInterface is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OpenAirInterface is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with OpenAirInterface.The full GNU General Public License is
included in this distribution in the file called "COPYING". If not,
see .
Contact Information
OpenAirInterface Admin: openair_admin@eurecom.fr
OpenAirInterface Tech : openair_tech@eurecom.fr
OpenAirInterface Dev : openair4g-devel@eurecom.fr
Address : Eurecom, Compus SophiaTech 450, route des chappes, 06451 Biot, France.
*******************************************************************************/
/*****************************************************************************
Source usim_data.c
Version 0.1
Date 2012/10/31
Product USIM data generator
Subsystem USIM data generator main process
Author Frederic Maurel
Description Implements the utility used to generate data stored in the
USIM application
*****************************************************************************/
#include "network.h"
#include "usim_api.h"
#include "memory.h"
#include "network.h"
#include // perror, printf
#include // exit
#include // memset, memcpy, strncpy
/****************************************************************************/
/**************** E X T E R N A L D E F I N I T I O N S ****************/
/****************************************************************************/
#define KSI USIM_KSI_NOT_AVAILABLE
#define KSI_ASME USIM_KSI_NOT_AVAILABLE
#define INT_ALGO USIM_INT_EIA1
#define ENC_ALGO USIM_ENC_EEA0
#define SECURITY_ALGORITHMS (ENC_ALGO | INT_ALGO)
#define MIN_TAC 0x0000
#define MAX_TAC 0xFFFE
#define DEFAULT_TMSI 0x0000000D
#define DEFAULT_P_TMSI 0x0000000D
#define DEFAULT_M_TMSI 0x0000000D
#define DEFAULT_LAC 0xFFFE
#define DEFAULT_RAC 0x01
#define DEFAULT_TAC 0x0001
#define DEFAULT_MME_ID 0x0102
#define DEFAULT_MME_CODE 0x0F
#define PRINT_PLMN_DIGIT(d) if ((d) != 0xf) printf("%u", (d))
#define PRINT_PLMN(plmn) \
PRINT_PLMN_DIGIT((plmn).MCCdigit1); \
PRINT_PLMN_DIGIT((plmn).MCCdigit2); \
PRINT_PLMN_DIGIT((plmn).MCCdigit3); \
PRINT_PLMN_DIGIT((plmn).MNCdigit1); \
PRINT_PLMN_DIGIT((plmn).MNCdigit2); \
PRINT_PLMN_DIGIT((plmn).MNCdigit3)
/****************************************************************************/
/******************* L O C A L D E F I N I T I O N S *******************/
/****************************************************************************/
static void _display_usage(const char* command);
static void _display_usim_data(const usim_data_t* data);
/****************************************************************************/
/****************** E X P O R T E D F U N C T I O N S ******************/
/****************************************************************************/
int main (int argc, const char* argv[])
{
int rc;
usim_data_t usim_data;
unsigned char gen_data;
/*
* Read command line parameters
*/
if (argc != 2) {
fprintf(stderr, "Invalid parameter\n");
_display_usage(argv[0]);
exit(EXIT_FAILURE);
} else if ( (strcmp(argv[1], "--gen") == 0) ||
(strcmp(argv[1], "-g") == 0) ) {
/* Generate USIM data files */
gen_data = TRUE;
} else if ( (strcmp(argv[1], "--print") == 0) ||
(strcmp(argv[1], "-p") == 0) ) {
/* Display content of USIM data files */
gen_data = FALSE;
} else {
/* Display usage */
_display_usage(argv[0]);
exit(EXIT_SUCCESS);
}
if (gen_data) {
/*
* Initialize USIM data
*/
memset(&usim_data, 0, sizeof(usim_data_t));
#if (SELECTED_PLMN == FCT1)
/*
* International Mobile Subscriber Identity
* IMSI = MCC + MNC + MSIN = 310 (USA) + 028 (UNKNOWN) + 90832150
*/
#warning "IMSI 310.028.90832150"
usim_data.imsi.length = 8;
usim_data.imsi.u.num.parity = EVEN_PARITY; // Parity: even
usim_data.imsi.u.num.digit1 = 3; // MCC digit 1
usim_data.imsi.u.num.digit2 = 1; // MCC digit 2
usim_data.imsi.u.num.digit3 = 0; // MCC digit 3
usim_data.imsi.u.num.digit4 = 0; // MNC digit 1
usim_data.imsi.u.num.digit5 = 2; // MNC digit 2
usim_data.imsi.u.num.digit6 = 8; // MNC digit 3
usim_data.imsi.u.num.digit7 = 9;
usim_data.imsi.u.num.digit8 = 0;
usim_data.imsi.u.num.digit9 = 8;
usim_data.imsi.u.num.digit10 = 3;
usim_data.imsi.u.num.digit11 = 2;
usim_data.imsi.u.num.digit12 = 1;
usim_data.imsi.u.num.digit13 = 5;
usim_data.imsi.u.num.digit14 = 0;
usim_data.imsi.u.num.digit15 = 0b1111;
#endif
#if (SELECTED_PLMN == SFR1)
#warning "IMSI 208.10.00001234"
/*
* International Mobile Subscriber Identity
* IMSI = MCC + MNC + MSIN = 208 (France) + 10 (SFR) + 00001234
*/
#warning "IMSI 208.10.00001234"
usim_data.imsi.length = 8;
usim_data.imsi.u.num.parity = EVEN_PARITY; // Parity: even
usim_data.imsi.u.num.digit1 = 2; // MCC digit 1
usim_data.imsi.u.num.digit2 = 0; // MCC digit 2
usim_data.imsi.u.num.digit3 = 8; // MCC digit 3
usim_data.imsi.u.num.digit4 = 1; // MNC digit 1
usim_data.imsi.u.num.digit5 = 0; // MNC digit 2
usim_data.imsi.u.num.digit6 = 0;//0b1111; // MNC digit 3
usim_data.imsi.u.num.digit7 = 0;
usim_data.imsi.u.num.digit8 = 0;
usim_data.imsi.u.num.digit9 = 0;
usim_data.imsi.u.num.digit10 = 0;
usim_data.imsi.u.num.digit11 = 1;
usim_data.imsi.u.num.digit12 = 2;
usim_data.imsi.u.num.digit13 = 3;
usim_data.imsi.u.num.digit14 = 4;
usim_data.imsi.u.num.digit15 = 0b1111;
#endif
#if (SELECTED_PLMN == TEST1)
#warning "IMSI 001.01.000001234"
usim_data.imsi.length = 8;
usim_data.imsi.u.num.parity = 0x0; // Type of identity = IMSI, even
usim_data.imsi.u.num.digit1 = 0; // MCC digit 1
usim_data.imsi.u.num.digit2 = 0; // MCC digit 2
usim_data.imsi.u.num.digit3 = 1; // MCC digit 3
usim_data.imsi.u.num.digit4 = 0; // MNC digit 1
usim_data.imsi.u.num.digit5 = 1; // MNC digit 2
usim_data.imsi.u.num.digit6 = 0;
usim_data.imsi.u.num.digit7 = 0;
usim_data.imsi.u.num.digit8 = 0;
usim_data.imsi.u.num.digit9 = 0;
usim_data.imsi.u.num.digit10 = 0;
usim_data.imsi.u.num.digit11 = 1;
usim_data.imsi.u.num.digit12 = 2;
usim_data.imsi.u.num.digit13 = 3;
usim_data.imsi.u.num.digit14 = 4;
usim_data.imsi.u.num.digit15 = 0xF;
#endif
/*
* Ciphering and Integrity Keys
*/
usim_data.keys.ksi = KSI;
memset(&usim_data.keys.ck, 0, USIM_CK_SIZE);
memset(&usim_data.keys.ik, 0, USIM_IK_SIZE);
/*
* Higher Priority PLMN search period
*/
usim_data.hpplmn = 0x00; /* Disable timer */
/*
* List of Forbidden PLMNs
*/
for (int i = 0; i < USIM_FPLMN_MAX; i++) {
memset(&usim_data.fplmn[i], 0xff, sizeof(plmn_t));
}
/*
* Location Information
*/
usim_data.loci.tmsi = DEFAULT_TMSI;
usim_data.loci.lai.plmn = network_records[SELECTED_PLMN].plmn;
usim_data.loci.lai.lac = DEFAULT_LAC;
usim_data.loci.status = USIM_LOCI_NOT_UPDATED;
/*
* Packet Switched Location Information
*/
usim_data.psloci.p_tmsi = DEFAULT_P_TMSI;
usim_data.psloci.signature[0] = 0x01;
usim_data.psloci.signature[1] = 0x02;
usim_data.psloci.signature[2] = 0x03;
usim_data.psloci.rai.plmn = network_records[SELECTED_PLMN].plmn;
usim_data.psloci.rai.lac = DEFAULT_LAC;
usim_data.psloci.rai.rac = DEFAULT_RAC;
usim_data.psloci.status = USIM_PSLOCI_NOT_UPDATED;
/*
* Administrative Data
*/
usim_data.ad.UE_Operation_Mode = USIM_NORMAL_MODE;
usim_data.ad.Additional_Info = 0xffff;
usim_data.ad.MNC_Length = 2;
/*
* EPS NAS security context
*/
usim_data.securityctx.length = 52;
usim_data.securityctx.KSIasme.type = USIM_KSI_ASME_TAG;
usim_data.securityctx.KSIasme.length = 1;
usim_data.securityctx.KSIasme.value[0] = KSI_ASME;
usim_data.securityctx.Kasme.type = USIM_K_ASME_TAG;
usim_data.securityctx.Kasme.length = USIM_K_ASME_SIZE;
memset(usim_data.securityctx.Kasme.value, 0,
usim_data.securityctx.Kasme.length);
usim_data.securityctx.ulNAScount.type = USIM_UL_NAS_COUNT_TAG;
usim_data.securityctx.ulNAScount.length = USIM_UL_NAS_COUNT_SIZE;
memset(usim_data.securityctx.ulNAScount.value, 0,
usim_data.securityctx.ulNAScount.length);
usim_data.securityctx.dlNAScount.type = USIM_DL_NAS_COUNT_TAG;
usim_data.securityctx.dlNAScount.length = USIM_DL_NAS_COUNT_SIZE;
memset(usim_data.securityctx.dlNAScount.value, 0,
usim_data.securityctx.dlNAScount.length);
usim_data.securityctx.algorithmID.type = USIM_INT_ENC_ALGORITHMS_TAG;
usim_data.securityctx.algorithmID.length = 1;
usim_data.securityctx.algorithmID.value[0] = SECURITY_ALGORITHMS;
/*
* Subcriber's Number
*/
usim_data.msisdn.length = 7;
usim_data.msisdn.number.ext = 1;
usim_data.msisdn.number.ton = MSISDN_TON_UNKNOWKN;
usim_data.msisdn.number.npi = MSISDN_NPI_ISDN_TELEPHONY;
usim_data.msisdn.number.digit[0].msb = 3;
usim_data.msisdn.number.digit[0].lsb = 3;
usim_data.msisdn.number.digit[1].msb = 6;
usim_data.msisdn.number.digit[1].lsb = 1;
usim_data.msisdn.number.digit[2].msb = 1;
usim_data.msisdn.number.digit[2].lsb = 1;
usim_data.msisdn.number.digit[3].msb = 2;
usim_data.msisdn.number.digit[3].lsb = 3;
usim_data.msisdn.number.digit[4].msb = 4;
usim_data.msisdn.number.digit[4].lsb = 5;
usim_data.msisdn.number.digit[5].msb = 6;
usim_data.msisdn.number.digit[5].lsb = 0xf;
usim_data.msisdn.number.digit[6].msb = 0xf;
usim_data.msisdn.number.digit[6].lsb = 0xf;
usim_data.msisdn.number.digit[7].msb = 0xf;
usim_data.msisdn.number.digit[7].lsb = 0xf;
usim_data.msisdn.number.digit[8].msb = 0xf;
usim_data.msisdn.number.digit[8].lsb = 0xf;
usim_data.msisdn.number.digit[9].msb = 0xf;
usim_data.msisdn.number.digit[9].lsb = 0xf;
usim_data.msisdn.conf1_record_id = 0xff; /* Not used */
usim_data.msisdn.ext1_record_id = 0xff; /* Not used */
/*
* PLMN Network Name and Operator PLMN List
*/
for (int i = TEST1; i < VDF1; i++) {
network_record_t record = network_records[i];
usim_data.pnn[i].fullname.type = USIM_PNN_FULLNAME_TAG;
usim_data.pnn[i].fullname.length = strlen(record.fullname);
strncpy((char*)usim_data.pnn[i].fullname.value, record.fullname,
usim_data.pnn[i].fullname.length);
usim_data.pnn[i].shortname.type = USIM_PNN_SHORTNAME_TAG;
usim_data.pnn[i].shortname.length = strlen(record.shortname);
strncpy((char*)usim_data.pnn[i].shortname.value, record.shortname,
usim_data.pnn[i].shortname.length);
usim_data.opl[i].plmn = record.plmn;
usim_data.opl[i].start = record.tac_start;
usim_data.opl[i].end = record.tac_end;
usim_data.opl[i].record_id = i;
}
for (int i = VDF2; i < USIM_OPL_MAX; i++) {
memset(&usim_data.opl[i].plmn, 0xff, sizeof(plmn_t));
}
/*
* List of Equivalent HPLMNs
*/
usim_data.ehplmn[0] = network_records[SFR2].plmn;
usim_data.ehplmn[1] = network_records[SFR3].plmn;
/*
* Home PLMN Selector with Access Technology
*/
usim_data.hplmn.plmn = network_records[SELECTED_PLMN].plmn;
usim_data.hplmn.AcT = (USIM_ACT_GSM | USIM_ACT_UTRAN | USIM_ACT_EUTRAN);
/*
* List of user controlled PLMN selector with Access Technology
*/
for (int i = 0; i < USIM_PLMN_MAX; i++) {
memset(&usim_data.plmn[i], 0xff, sizeof(plmn_t));
}
/*
* List of operator controlled PLMN selector with Access Technology
*/
usim_data.oplmn[0].plmn = network_records[VDF1].plmn;
usim_data.oplmn[0].AcT = (USIM_ACT_GSM | USIM_ACT_UTRAN | USIM_ACT_EUTRAN);
usim_data.oplmn[1].plmn = network_records[VDF2].plmn;
usim_data.oplmn[1].AcT = (USIM_ACT_GSM | USIM_ACT_UTRAN | USIM_ACT_EUTRAN);
usim_data.oplmn[2].plmn = network_records[VDF3].plmn;
usim_data.oplmn[2].AcT = (USIM_ACT_GSM | USIM_ACT_UTRAN | USIM_ACT_EUTRAN);
usim_data.oplmn[3].plmn = network_records[VDF4].plmn;
usim_data.oplmn[3].AcT = (USIM_ACT_GSM | USIM_ACT_UTRAN | USIM_ACT_EUTRAN);
usim_data.oplmn[4].plmn = network_records[VDF5].plmn;
usim_data.oplmn[4].AcT = (USIM_ACT_GSM | USIM_ACT_UTRAN | USIM_ACT_EUTRAN);
for (int i = 5; i < USIM_OPLMN_MAX; i++) {
memset(&usim_data.oplmn[i], 0xff, sizeof(plmn_t));
}
/*
* EPS Location Information
*/
usim_data.epsloci.guti.gummei.plmn = network_records[SELECTED_PLMN].plmn;
usim_data.epsloci.guti.gummei.MMEgid = DEFAULT_MME_ID;
usim_data.epsloci.guti.gummei.MMEcode = DEFAULT_MME_CODE;
usim_data.epsloci.guti.m_tmsi = DEFAULT_M_TMSI;
usim_data.epsloci.tai.plmn = usim_data.epsloci.guti.gummei.plmn;
usim_data.epsloci.tai.tac = DEFAULT_TAC;
usim_data.epsloci.status = USIM_EPSLOCI_UPDATED;
/*
* Non-Access Stratum configuration
*/
usim_data.nasconfig.NAS_SignallingPriority.type = USIM_NAS_SIGNALLING_PRIORITY_TAG;
usim_data.nasconfig.NAS_SignallingPriority.length = 1;
usim_data.nasconfig.NAS_SignallingPriority.value[0] = 0x00;
usim_data.nasconfig.NMO_I_Behaviour.type = USIM_NMO_I_BEHAVIOUR_TAG;
usim_data.nasconfig.NMO_I_Behaviour.length = 1;
usim_data.nasconfig.NMO_I_Behaviour.value[0] = 0x00;
usim_data.nasconfig.AttachWithImsi.type = USIM_ATTACH_WITH_IMSI_TAG;
usim_data.nasconfig.AttachWithImsi.length = 1;
#if defined(START_WITH_GUTI)
usim_data.nasconfig.AttachWithImsi.value[0] = 0x00;
#else
usim_data.nasconfig.AttachWithImsi.value[0] = 0x01;
#endif
usim_data.nasconfig.MinimumPeriodicSearchTimer.type = USIM_MINIMUM_PERIODIC_SEARCH_TIMER_TAG;
usim_data.nasconfig.MinimumPeriodicSearchTimer.length = 1;
usim_data.nasconfig.MinimumPeriodicSearchTimer.value[0] = 0x00;
usim_data.nasconfig.ExtendedAccessBarring.type = USIM_EXTENDED_ACCESS_BARRING_TAG;
usim_data.nasconfig.ExtendedAccessBarring.length = 1;
usim_data.nasconfig.ExtendedAccessBarring.value[0] = 0x00;
usim_data.nasconfig.Timer_T3245_Behaviour.type = USIM_TIMER_T3245_BEHAVIOUR_TAG;
usim_data.nasconfig.Timer_T3245_Behaviour.length = 1;
usim_data.nasconfig.Timer_T3245_Behaviour.value[0] = 0x00;
/*
* Write USIM application data
*/
rc = usim_api_write(&usim_data);
if (rc != RETURNok) {
perror("ERROR\t: usim_api_write() failed");
exit(EXIT_FAILURE);
}
}
/*
* Read USIM application data
*/
memset(&usim_data, 0, sizeof(usim_data_t));
rc = usim_api_read(&usim_data);
if (rc != RETURNok) {
perror("ERROR\t: usim_api_read() failed");
exit(EXIT_FAILURE);
}
/*
* Display USIM application data
*/
printf("\nUSIM data:\n\n");
_display_usim_data(&usim_data);
/*
* Display USIM file location
*/
char* path = memory_get_path("USIM_DIR", ".usim.nvram");
printf("\nUSIM data file: %s\n", path);
free(path);
exit(EXIT_SUCCESS);
}
/****************************************************************************/
/********************* L O C A L F U N C T I O N S *********************/
/****************************************************************************/
/*
* Displays command line usage
*/
static void _display_usage(const char* command)
{
fprintf(stderr, "usage: %s [OPTION]\n", command);
fprintf(stderr, "\t[--gen|-g]\tGenerate the USIM data file\n");
fprintf(stderr, "\t[--print|-p]\tDisplay the content of the USIM data file\n");
fprintf(stderr, "\t[--help|-h]\tDisplay this usage\n");
const char* path = getenv("USIM_DIR");
if (path != NULL) {
fprintf(stderr, "USIM_DIR = %s\n", path);
} else {
fprintf(stderr, "USIM_DIR environment variable is not defined\n");
}
}
/*
* Displays USIM application data
*/
static void _display_usim_data(const usim_data_t* data)
{
int digits;
printf("Administrative Data:\n");
printf("\tUE_Operation_Mode\t= 0x%.2x\n", data->ad.UE_Operation_Mode);
printf("\tAdditional_Info\t\t= 0x%.4x\n", data->ad.Additional_Info);
printf("\tMNC_Length\t\t= %d\n\n", data->ad.MNC_Length);
printf("IMSI:\n");
printf("\tlength\t= %d\n", data->imsi.length);
printf("\tparity\t= %s\n", data->imsi.u.num.parity == EVEN_PARITY ? "Even" : "Odd");
digits = (data->imsi.length * 2) - 1 - (data->imsi.u.num.parity == EVEN_PARITY ? 1 : 0);
printf("\tdigits\t= %d\n", digits);
printf("\tdigits\t= %u%u%u%u%u%x%u%u%u%u",
data->imsi.u.num.digit1, // MCC digit 1
data->imsi.u.num.digit2, // MCC digit 2
data->imsi.u.num.digit3, // MCC digit 3
data->imsi.u.num.digit4, // MNC digit 1
data->imsi.u.num.digit5, // MNC digit 2
data->imsi.u.num.digit6, // MNC digit 3
data->imsi.u.num.digit7,
data->imsi.u.num.digit8,
data->imsi.u.num.digit9,
data->imsi.u.num.digit10);
if (digits >= 11)
printf("%x", data->imsi.u.num.digit11);
if (digits >= 12)
printf("%x", data->imsi.u.num.digit12);
if (digits >= 13)
printf("%x", data->imsi.u.num.digit13);
if (digits >= 14)
printf("%x", data->imsi.u.num.digit14);
if (digits >= 15)
printf("%x", data->imsi.u.num.digit15);
printf("\n\n");
printf("Ciphering and Integrity Keys:\n");
printf("\tKSI\t: 0x%.2x\n", data->keys.ksi);
char key[USIM_CK_SIZE + 1];
key[USIM_CK_SIZE] = '\0';
memcpy(key, data->keys.ck, USIM_CK_SIZE);
printf("\tCK\t: \"%s\"\n", key);
memcpy(key, data->keys.ik, USIM_IK_SIZE);
printf("\tIK\t: \"%s\"\n", key);
printf("EPS NAS security context:\n");
printf("\tKSIasme\t: 0x%.2x\n", data->securityctx.KSIasme.value[0]);
char kasme[USIM_K_ASME_SIZE + 1];
kasme[USIM_K_ASME_SIZE] = '\0';
memcpy(kasme, data->securityctx.Kasme.value, USIM_K_ASME_SIZE);
printf("\tKasme\t: \"%s\"\n", kasme);
printf("\tulNAScount\t: 0x%.8x\n",
*(uint32_t*)data->securityctx.ulNAScount.value);
printf("\tdlNAScount\t: 0x%.8x\n",
*(uint32_t*)data->securityctx.dlNAScount.value);
printf("\talgorithmID\t: 0x%.2x\n\n",
data->securityctx.algorithmID.value[0]);
printf("MSISDN\t= %u%u%u %u%u%u%u %u%u%u%u\n\n",
data->msisdn.number.digit[0].msb,
data->msisdn.number.digit[0].lsb,
data->msisdn.number.digit[1].msb,
data->msisdn.number.digit[1].lsb,
data->msisdn.number.digit[2].msb,
data->msisdn.number.digit[2].lsb,
data->msisdn.number.digit[3].msb,
data->msisdn.number.digit[3].lsb,
data->msisdn.number.digit[4].msb,
data->msisdn.number.digit[4].lsb,
data->msisdn.number.digit[5].msb);
for (int i = 0; i < USIM_PNN_MAX; i++) {
printf("PNN[%d]\t= {%s, %s}\n", i,
data->pnn[i].fullname.value, data->pnn[i].shortname.value);
}
printf("\n");
for (int i = 0; i < USIM_OPL_MAX; i++) {
printf("OPL[%d]\t= ", i);
PRINT_PLMN(data->opl[i].plmn);
printf(", TAC = [%.4x - %.4x], record_id = %d\n",
data->opl[i].start, data->opl[i].end, data->opl[i].record_id);
}
printf("\n");
printf("HPLMN\t\t= ");
PRINT_PLMN(data->hplmn.plmn);
printf(", AcT = 0x%x\n\n", data->hplmn.AcT);
for (int i = 0; i < USIM_FPLMN_MAX; i++) {
printf("FPLMN[%d]\t= ", i);
PRINT_PLMN(data->fplmn[i]);
printf("\n");
}
printf("\n");
for (int i = 0; i < USIM_EHPLMN_MAX; i++) {
printf("EHPLMN[%d]\t= ", i);
PRINT_PLMN(data->ehplmn[i]);
printf("\n");
}
printf("\n");
for (int i = 0; i < USIM_PLMN_MAX; i++) {
printf("PLMN[%d]\t\t= ", i);
PRINT_PLMN(data->plmn[i].plmn);
printf(", AcTPLMN = 0x%x", data->plmn[i].AcT);
printf("\n");
}
printf("\n");
for (int i = 0; i < USIM_OPLMN_MAX; i++) {
printf("OPLMN[%d]\t= ", i);
PRINT_PLMN(data->oplmn[i].plmn);
printf(", AcTPLMN = 0x%x", data->oplmn[i].AcT);
printf("\n");
}
printf("\n");
printf("HPPLMN\t\t= 0x%.2x (%d minutes)\n\n", data->hpplmn, data->hpplmn);
printf("LOCI:\n");
printf("\tTMSI = 0x%.4x\n", data->loci.tmsi);
printf("\tLAI\t: PLMN = ");
PRINT_PLMN(data->loci.lai.plmn);
printf(", LAC = 0x%.2x\n", data->loci.lai.lac);
printf("\tstatus\t= %d\n\n", data->loci.status);
printf("PSLOCI:\n");
printf("\tP-TMSI = 0x%.4x\n", data->psloci.p_tmsi);
printf("\tsignature = 0x%x 0x%x 0x%x\n",
data->psloci.signature[0],
data->psloci.signature[1],
data->psloci.signature[2]);
printf("\tRAI\t: PLMN = ");
PRINT_PLMN(data->psloci.rai.plmn);
printf(", LAC = 0x%.2x, RAC = 0x%.1x\n",
data->psloci.rai.lac, data->psloci.rai.rac);
printf("\tstatus\t= %d\n\n", data->psloci.status);
printf("EPSLOCI:\n");
printf("\tGUTI\t: GUMMEI\t: (PLMN = ");
PRINT_PLMN(data->epsloci.guti.gummei.plmn);
printf(", MMEgid = 0x%.2x, MMEcode = 0x%.1x)",
data->epsloci.guti.gummei.MMEgid,
data->epsloci.guti.gummei.MMEcode);
printf(", M-TMSI = 0x%.4x\n", data->epsloci.guti.m_tmsi);
printf("\tTAI\t: PLMN = ");
PRINT_PLMN(data->epsloci.tai.plmn);
printf(", TAC = 0x%.2x\n",
data->epsloci.tai.tac);
printf("\tstatus\t= %d\n\n", data->epsloci.status);
printf("NASCONFIG:\n");
printf("\tNAS_SignallingPriority\t\t: 0x%.2x\n",
data->nasconfig.NAS_SignallingPriority.value[0]);
printf("\tNMO_I_Behaviour\t\t\t: 0x%.2x\n",
data->nasconfig.NMO_I_Behaviour.value[0]);
printf("\tAttachWithImsi\t\t\t: 0x%.2x\n",
data->nasconfig.AttachWithImsi.value[0]);
printf("\tMinimumPeriodicSearchTimer\t: 0x%.2x\n",
data->nasconfig.MinimumPeriodicSearchTimer.value[0]);
printf("\tExtendedAccessBarring\t\t: 0x%.2x\n",
data->nasconfig.ExtendedAccessBarring.value[0]);
printf("\tTimer_T3245_Behaviour\t\t: 0x%.2x\n",
data->nasconfig.Timer_T3245_Behaviour.value[0]);
}