Common library for all Osmocom projects (libosmocore, libosmogsm, libosmovty, libosmogb, libosmosim, libosmousb, ...) https://osmocom.org/projects/libosmocore
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libosmocore/src/sim/card_fs_sim.c

385 lines
12 KiB

#include <errno.h>
#include <string.h>
#include <osmocom/sim/sim.h>
#include <osmocom/core/talloc.h>
#include <osmocom/gsm/gsm48.h>
#include "sim_int.h"
/* TS 11.11 / Chapter 9.4 */
static const struct osim_card_sw ts11_11_sw[] = {
{
0x9000, 0xffff, SW_TYPE_STR, SW_CLS_OK,
.u.str = "Normal ending of the command",
}, {
0x9100, 0xff00, SW_TYPE_STR, SW_CLS_OK,
.u.str = "Normal ending of the command - proactive command from SIM pending",
}, {
0x9e00, 0xff00, SW_TYPE_STR, SW_CLS_OK,
.u.str = "Normal ending of the command - response data for SIM data download",
}, {
0x9f00, 0xff00, SW_TYPE_STR, SW_CLS_OK,
.u.str = "Normal ending of the command - response data available",
}, {
0x9300, 0xffff, SW_TYPE_STR, SW_CLS_POSTP,
.u.str = "SIM Application Toolkit is busy, command cannot be executed at present",
}, {
0x9200, 0xfff0, SW_TYPE_STR, SW_CLS_WARN,
.u.str = "Memory management - Command successful but after using an internal updat retry X times",
}, {
0x9240, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Memory management - Memory problem",
}, {
0x9400, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Referencing management - no EF selected",
}, {
0x9402, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Referencing management - out of range (invalid address)",
}, {
0x9404, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Referencing management - file ID not found / pattern not found",
}, {
0x9802, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Security management - no CHV initialized",
}, {
0x9804, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Security management - access condition not fulfilled",
}, {
0x9808, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Security management - in contradiction with CHV status",
}, {
0x9810, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Security management - in contradiction with invalidation status",
}, {
0x9840, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Security management - unsuccessful CHV verification, no attempt left",
}, {
0x9850, 0xffff, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Security management - increase cannot be performed, max value reached",
}, {
0x6700, 0xff00, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Application independent - incorrect parameter P3",
}, {
0x6b00, 0xff00, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Application independent - incorrect parameter P1 or P2",
}, {
0x6d00, 0xff00, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Application independent - unknown instruction code",
}, {
0x6e00, 0xff00, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Application independent - wrong instruction class",
}, {
0x6f00, 0xff00, SW_TYPE_STR, SW_CLS_ERROR,
.u.str = "Application independent - technical problem with no diagnostic given",
},
OSIM_CARD_SW_LAST
};
static const struct osim_card_sw *sim_card_sws[] = {
ts11_11_sw,
NULL
};
static int iccid_decode(struct osim_decoded_data *dd,
const struct osim_file_desc *desc,
int len, uint8_t *data)
{
struct osim_decoded_element *elem;
elem = element_alloc(dd, "ICCID", ELEM_T_BCD, ELEM_REPR_DEC);
elem->length = len;
elem->u.buf = talloc_memdup(elem, data, len);
return 0;
}
static int elp_decode(struct osim_decoded_data *dd,
const struct osim_file_desc *desc,
int len, uint8_t *data)
{
int i, num_lp = len / 2;
for (i = 0; i < num_lp; i++) {
uint8_t *cur = data + i*2;
struct osim_decoded_element *elem;
elem = element_alloc(dd, "Language Code", ELEM_T_STRING, ELEM_REPR_NONE);
elem->u.buf = (uint8_t *) talloc_strndup(elem, (const char *) cur, 2);
}
return 0;
}
static int default_decode(struct osim_decoded_data *dd,
const struct osim_file_desc *desc,
int len, uint8_t *data)
{
struct osim_decoded_element *elem;
elem = element_alloc(dd, "Unknown Payload", ELEM_T_BYTES, ELEM_REPR_HEX);
elem->u.buf = talloc_memdup(elem, data, len);
return 0;
}
/* 10.3.1 */
int gsm_lp_decode(struct osim_decoded_data *dd,
const struct osim_file_desc *desc,
int len, uint8_t *data)
{
int i;
for (i = 0; i < len; i++) {
struct osim_decoded_element *elem;
elem = element_alloc(dd, "Language Code", ELEM_T_UINT8, ELEM_REPR_DEC);
elem->u.u8 = data[i];
}
return 0;
}
/* 10.3.2 */
int gsm_imsi_decode(struct osim_decoded_data *dd,
const struct osim_file_desc *desc,
int len, uint8_t *data)
{
struct osim_decoded_element *elem;
if (len < 2)
return -EINVAL;
elem = element_alloc(dd, "IMSI", ELEM_T_BCD, ELEM_REPR_DEC);
elem->length = data[0];
elem->u.buf = talloc_memdup(elem, data+1, len-1);
return 0;
}
/* 10.3.3 */
static int gsm_kc_decode(struct osim_decoded_data *dd,
const struct osim_file_desc *desc,
int len, uint8_t *data)
{
struct osim_decoded_element *kc, *cksn;
if (len < 9)
return -EINVAL;
kc = element_alloc(dd, "Kc", ELEM_T_BYTES, ELEM_REPR_HEX);
kc->u.buf = talloc_memdup(kc, data, 8);
cksn = element_alloc(dd, "CKSN", ELEM_T_UINT8, ELEM_REPR_DEC);
cksn->u.u8 = data[8];
return 0;
}
/* 10.3.4 */
static int gsm_plmnsel_decode(struct osim_decoded_data *dd,
const struct osim_file_desc *desc,
int len, uint8_t *data)
{
int i, n_plmn = len / 3;
if (n_plmn < 1)
return -EINVAL;
for (i = 0; i < n_plmn; i++) {
uint8_t *cur = data + 3*i;
struct osim_decoded_element *elem, *mcc, *mnc;
uint8_t ra_buf[6];
struct gprs_ra_id ra_id;
memset(ra_buf, 0, sizeof(ra_buf));
memcpy(ra_buf, cur, 3);
gsm48_parse_ra(&ra_id, ra_buf);
elem = element_alloc(dd, "PLMN", ELEM_T_GROUP, ELEM_REPR_NONE);
mcc = element_alloc_sub(elem, "MCC", ELEM_T_UINT16, ELEM_REPR_DEC);
mcc->u.u16 = ra_id.mcc;
mnc = element_alloc_sub(elem, "MNC", ELEM_T_UINT16, ELEM_REPR_DEC);
mnc->u.u16 = ra_id.mnc;
}
return 0;
}
/* 10.3.5 */
int gsm_hpplmn_decode(struct osim_decoded_data *dd,
const struct osim_file_desc *desc,
int len, uint8_t *data)
{
struct osim_decoded_element *elem;
elem = element_alloc(dd, "Time interval", ELEM_T_UINT8, ELEM_REPR_DEC);
elem->u.u8 = *data;
return 0;
}
/* Chapter 10.2.x */
static const struct osim_file_desc sim_ef_in_mf[] = {
EF_TRANSP(0x2FE2, "EF.ICCID", 0,
"ICC Identification", &iccid_decode, NULL),
EF_TRANSP(0x2F05, "EF.ELP", F_OPTIONAL,
"Extended language preference", &elp_decode, NULL),
};
/* Chapter 10.3.x */
static const struct osim_file_desc sim_ef_in_gsm[] = {
EF_TRANSP(0x6F05, "EF.LP", 0,
"Language preference", &gsm_lp_decode, NULL),
EF_TRANSP(0x6F07, "EF.IMSI", 0,
"IMSI", &gsm_imsi_decode, NULL),
EF_TRANSP(0x6F20, "EF.Kc", 0,
"Ciphering key Kc", &gsm_kc_decode, NULL),
EF_TRANSP(0x6F30, "EF.PLMNsel", F_OPTIONAL,
"PLMN selector", &gsm_plmnsel_decode, NULL),
EF_TRANSP(0x6F31, "EF.HPPLMN", 0,
"Higher Priority PLMN search period", &gsm_hpplmn_decode, NULL),
EF_TRANSP_N(0x6F37, "EF.ACMmax", F_OPTIONAL,
"ACM maximum value"),
EF_TRANSP_N(0x6F38, "EF.SST", 0,
"SIM service table"),
EF_CYCLIC_N(0x6F39, "EF.ACM", F_OPTIONAL,
"Accumulated call meter"),
EF_TRANSP_N(0x6F3E, "EF.GID1", F_OPTIONAL,
"Group Identifier Level 1"),
EF_TRANSP_N(0x6F3F, "EF.GID2", F_OPTIONAL,
"Group Identifier Level 2"),
EF_TRANSP_N(0x6F46, "EF.SPN", F_OPTIONAL,
"Service Provider Name"),
EF_TRANSP_N(0x6F41, "EF.PUCT", F_OPTIONAL,
"Price per unit and currency table"),
EF_TRANSP_N(0x6F45, "EF.CBMI", F_OPTIONAL,
"Cell broadcast massage identifier selection"),
EF_TRANSP_N(0x6F74, "EF.BCCH", 0,
"Broadcast control channels"),
EF_TRANSP_N(0x6F78, "EF.ACC", 0,
"Access control class"),
EF_TRANSP_N(0x6F7B, "EF.FPLMN", 0,
"Forbidden PLMNs"),
EF_TRANSP_N(0x6F7E, "EF.LOCI", 0,
"Location information"),
EF_TRANSP_N(0x6FAD, "EF.AD", 0,
"Administrative data"),
EF_TRANSP_N(0x6FAE, "EF.Phase", 0,
"Phase identification"),
EF_TRANSP_N(0x6FB1, "EF.VGCS", F_OPTIONAL,
"Voice Group Call Service"),
EF_TRANSP_N(0x6FB2, "EF.VGCSS", F_OPTIONAL,
"Voice Group Call Service Status"),
EF_TRANSP_N(0x6FB3, "EF.VBS", F_OPTIONAL,
"Voice Broadcast Service"),
EF_TRANSP_N(0x6FB4, "EF.VBSS", F_OPTIONAL,
"Voice Broadcast Service Status"),
EF_TRANSP_N(0x6FB5, "EF.eMLPP", F_OPTIONAL,
"enhanced Mult Level Pre-emption and Priority"),
EF_TRANSP_N(0x6FB6, "EF.AAeM", F_OPTIONAL,
"Automatic Answer for eMLPP Service"),
EF_TRANSP_N(0x6F48, "EF.CBMID", F_OPTIONAL,
"Cell Broadcast Message Identifier for Data Download"),
EF_TRANSP_N(0x6FB7, "EF.ECC", F_OPTIONAL,
"Emergency Call Code"),
EF_TRANSP_N(0x6F50, "EF.CBMIR", F_OPTIONAL,
"Cell broadcast message identifier range selection"),
EF_TRANSP_N(0x6F2C, "EF.DCK", F_OPTIONAL,
"De-personalization Control Keys"),
EF_TRANSP_N(0x6F32, "EF.CNL", F_OPTIONAL,
"Co-operative Network List"),
EF_LIN_FIX_N(0x6F51, "EF.NIA", F_OPTIONAL,
"Network's Indication of Alerting"),
EF_TRANSP_N(0x6F52, "EF.KcGPRS", F_OPTIONAL,
"GPRS Ciphering key KcGPRS"),
EF_TRANSP_N(0x6F53, "EF.LOCIGPRS", F_OPTIONAL,
"GPRS location information"),
EF_TRANSP_N(0x6F54, "EF.SUME", F_OPTIONAL,
"SetUpMenu Elements"),
EF_TRANSP_N(0x6F60, "EF.PLMNwAcT", F_OPTIONAL,
"User controlled PLMN Selector with Access Technology"),
EF_TRANSP_N(0x6F61, "EF.OPLMNwAcT", F_OPTIONAL,
"Operator controlled PLMN Selector with Access Technology"),
EF_TRANSP_N(0x6F62, "EF.HPLMNwAcT", F_OPTIONAL,
"HPLMN Selector with Access Technology"),
EF_TRANSP_N(0x6F63, "EF.CPBCCH", F_OPTIONAL,
"CPBCCH Information"),
EF_TRANSP_N(0x6F64, "EF.InvScan", F_OPTIONAL,
"Investigation Scan"),
};
/* 10.5. */
static const struct osim_file_desc sim_ef_in_telecom[] = {
EF_LIN_FIX_N(0x6F3A, "EF.ADN", F_OPTIONAL,
"Abbreviated dialling numbers"),
EF_LIN_FIX_N(0x6F3B, "EF.FDN", F_OPTIONAL,
"Fixed dialling numbers"),
EF_LIN_FIX_N(0x6F3C, "EF.SMS", F_OPTIONAL,
"Short messages"),
EF_LIN_FIX_N(0x6F3D, "EF.CCP", F_OPTIONAL,
"Capability configuration parameters"),
EF_LIN_FIX_N(0x6F4F, "EF.ECCP", F_OPTIONAL,
"Extended Capability configuration parameters"),
EF_LIN_FIX_N(0x6F40, "EF.MSISDN", F_OPTIONAL,
"MSISDN"),
EF_LIN_FIX_N(0x6F42, "EF.SMSP", F_OPTIONAL,
"Short message service parameters"),
EF_TRANSP_N(0x6F43, "EF.SMSS", F_OPTIONAL,
"SMS Status"),
EF_CYCLIC_N(0x6F44, "EF.LND", F_OPTIONAL,
"Last number dialled"),
EF_LIN_FIX_N(0x6F4A, "EF.EXT1", F_OPTIONAL,
"Extension 1"),
EF_LIN_FIX_N(0x6F4B, "EF.EXT2", F_OPTIONAL,
"Extension 2"),
EF_LIN_FIX_N(0x6F4C, "EF.EXT3", F_OPTIONAL,
"Extension 3"),
EF_LIN_FIX_N(0x6F4D, "EF.BDN", F_OPTIONAL,
"Barred dialling numbers"),
EF_LIN_FIX_N(0x6F4E, "EF.EXT4", F_OPTIONAL,
"Extension 4"),
EF_LIN_FIX_N(0x6F47, "EF.SMSR", F_OPTIONAL,
"Short message status reports"),
EF_LIN_FIX_N(0x6F58, "EF.CMI", F_OPTIONAL,
"Comparison Method Information"),
};
/* 10.6. */
static const struct osim_file_desc sim_ef_in_graphics[] = {
EF_LIN_FIX_N(0x4F20, "EF.IMG", F_OPTIONAL,
"Image"),
};
struct osim_card_profile *osim_cprof_sim(void *ctx)
{
struct osim_card_profile *cprof;
struct osim_file_desc *mf, *gsm, *tc;
cprof = talloc_zero(ctx, struct osim_card_profile);
cprof->name = "GSM SIM";
cprof->sws = sim_card_sws;
mf = alloc_df(cprof, 0x3f00, "MF");
cprof->mf = mf;
add_filedesc(mf, sim_ef_in_mf, ARRAY_SIZE(sim_ef_in_mf));
gsm = add_df_with_ef(mf, 0x7F20, "DF.GSM", sim_ef_in_gsm,
ARRAY_SIZE(sim_ef_in_gsm));
add_df_with_ef(gsm, 0x5F30, "DF.IRIDIUM", NULL, 0);
add_df_with_ef(gsm, 0x5F31, "DF.GLOBST", NULL, 0);
add_df_with_ef(gsm, 0x5F32, "DF.ICO", NULL, 0);
add_df_with_ef(gsm, 0x5F33, "DF.ACeS", NULL, 0);
add_df_with_ef(gsm, 0x5F40, "DF.ACeS", NULL, 0);
add_df_with_ef(gsm, 0x5F60, "DF.CTS", NULL, 0);
add_df_with_ef(gsm, 0x5F70, "DF.SoLSA", NULL, 0);
tc = add_df_with_ef(mf, 0x7F10, "DF.TELECOM", sim_ef_in_telecom,
ARRAY_SIZE(sim_ef_in_telecom));
add_df_with_ef(tc, 0x5F50, "DF.GRAPHICS", sim_ef_in_graphics,
ARRAY_SIZE(sim_ef_in_graphics));
return cprof;
}