int sc_pkcs15emu_pteid_init_ex(sc_pkcs15_card_t *p15card, sc_pkcs15emu_opt_t *opts) { if (opts != NULL && opts->flags & SC_PKCS15EMU_FLAGS_NO_CHECK) return sc_pkcs15emu_pteid_init(p15card); else { int r = pteid_detect_card(p15card); if (r) return SC_ERROR_WRONG_CARD; return sc_pkcs15emu_pteid_init(p15card); } }
int sc_pkcs15emu_pteid_init_ex(sc_pkcs15_card_t *p15card, struct sc_aid *aid, sc_pkcs15emu_opt_t *opts) { int r=SC_SUCCESS; sc_context_t *ctx = p15card->card->ctx; LOG_FUNC_CALLED(ctx); /* if no check flag execute unconditionally */ if (opts && opts->flags & SC_PKCS15EMU_FLAGS_NO_CHECK) LOG_FUNC_RETURN(ctx, sc_pkcs15emu_pteid_init(p15card)); /* check for proper card */ r = pteid_detect_card(p15card->card); if (r == SC_ERROR_WRONG_CARD) LOG_FUNC_RETURN(ctx, SC_ERROR_WRONG_CARD); /* ok: initialize and return */ LOG_FUNC_RETURN(ctx, sc_pkcs15emu_pteid_init(p15card)); }
static int sc_pkcs15emu_pteid_init(sc_pkcs15_card_t * p15card) { u8 buf[1024]; sc_pkcs15_df_t *df; sc_pkcs15_object_t *p15_obj; sc_path_t path; struct sc_file *file = NULL; size_t len; int rv; int i; sc_context_t *ctx = p15card->card->ctx; LOG_FUNC_CALLED(ctx); /* Check for correct card atr */ if (pteid_detect_card(p15card->card) != SC_SUCCESS) return SC_ERROR_WRONG_CARD; sc_log(p15card->card->ctx, "Selecting application DF"); sc_format_path("4F00", &path); rv = sc_select_file(p15card->card, &path, &file); if (rv != SC_SUCCESS || !file) return SC_ERROR_INTERNAL; /* set the application DF */ if (p15card->file_app) free(p15card->file_app); p15card->file_app = file; /* Load TokenInfo */ len = sizeof(buf); rv = dump_ef(p15card->card, "4F005032", buf, &len); if (rv != SC_SUCCESS) { sc_log(ctx, "Reading of EF.TOKENINFO failed: %d", rv); LOG_FUNC_RETURN(ctx, rv); } memset(p15card->tokeninfo, 0, sizeof(*p15card->tokeninfo)); rv = sc_pkcs15_parse_tokeninfo(p15card->card->ctx, p15card->tokeninfo, buf, len); if (rv != SC_SUCCESS) { sc_log(ctx, "Decoding of EF.TOKENINFO failed: %d", rv); LOG_FUNC_RETURN(ctx, rv); } p15card->tokeninfo->flags |= SC_PKCS15_TOKEN_PRN_GENERATION | SC_PKCS15_TOKEN_EID_COMPLIANT | SC_PKCS15_TOKEN_READONLY; /* Load ODF */ len = sizeof(buf); rv = dump_ef(p15card->card, "4F005031", buf, &len); if (rv != SC_SUCCESS) { sc_log(ctx, "Reading of ODF failed: %d", rv); LOG_FUNC_RETURN(ctx, rv); } rv = parse_odf(buf, len, p15card); if (rv != SC_SUCCESS) { sc_log(ctx, "Decoding of ODF failed: %d", rv); LOG_FUNC_RETURN(ctx, rv); } /* Decode EF.PrKDF, EF.PuKDF, EF.CDF and EF.AODF */ for (df = p15card->df_list; df != NULL; df = df->next) { if (df->type == SC_PKCS15_PRKDF) { rv = sc_pkcs15_parse_df(p15card, df); if (rv != SC_SUCCESS) { sc_log(ctx, "Decoding of EF.PrKDF (%s) failed: %d", sc_print_path(&df->path), rv); } } if (df->type == SC_PKCS15_PUKDF) { rv = sc_pkcs15_parse_df(p15card, df); if (rv != SC_SUCCESS) { sc_log(ctx, "Decoding of EF.PuKDF (%s) failed: %d", sc_print_path(&df->path), rv); } } if (df->type == SC_PKCS15_CDF) { rv = sc_pkcs15_parse_df(p15card, df); if (rv != SC_SUCCESS) { sc_log(ctx, "Decoding of EF.CDF (%s) failed: %d", sc_print_path(&df->path), rv); } } if (df->type == SC_PKCS15_AODF) { rv = sc_pkcs15_parse_df(p15card, df); if (rv != SC_SUCCESS) { sc_log(ctx, "Decoding of EF.AODF (%s) failed: %d", sc_print_path(&df->path), rv); } } } p15_obj = p15card->obj_list; while (p15_obj != NULL) { if ( p15_obj->df && (p15_obj->df->type == SC_PKCS15_PRKDF) ) { struct sc_pkcs15_prkey_info *prkey_info = (sc_pkcs15_prkey_info_t *) p15_obj->data; prkey_info->access_flags = SC_PKCS15_PRKEY_ACCESS_SENSITIVE | SC_PKCS15_PRKEY_ACCESS_ALWAYSSENSITIVE | SC_PKCS15_PRKEY_ACCESS_NEVEREXTRACTABLE | SC_PKCS15_PRKEY_ACCESS_LOCAL; p15_obj->flags = SC_PKCS15_CO_FLAG_PRIVATE; } if ( p15_obj->df && (p15_obj->df->type == SC_PKCS15_AODF) ) { static const char *pteid_pin_names[3] = { "Auth PIN", "Sign PIN", "Address PIN" }; struct sc_pin_cmd_data pin_cmd_data; struct sc_pkcs15_auth_info *pin_info = (sc_pkcs15_auth_info_t *) p15_obj->data; strlcpy(p15_obj->label, pteid_pin_names[pin_info->auth_id.value[0]-1], sizeof(p15_obj->label)); pin_info->attrs.pin.flags |= SC_PKCS15_PIN_FLAG_NEEDS_PADDING; pin_info->tries_left = -1; pin_info->max_tries = 3; pin_info->auth_method = SC_AC_CHV; memset(&pin_cmd_data, 0, sizeof(pin_cmd_data)); pin_cmd_data.cmd = SC_PIN_CMD_GET_INFO; pin_cmd_data.pin_type = pin_info->attrs.pin.type; pin_cmd_data.pin_reference = pin_info->attrs.pin.reference; rv = sc_pin_cmd(p15card->card, &pin_cmd_data, NULL); if (rv == SC_SUCCESS) { pin_info->tries_left = pin_cmd_data.pin1.tries_left; pin_info->logged_in = pin_cmd_data.pin1.logged_in; } } /* Remove found public keys as cannot be read_binary()'d */ if ( p15_obj->df && (p15_obj->df->type == SC_PKCS15_PUKDF) ) { sc_pkcs15_object_t *puk = p15_obj; p15_obj = p15_obj->next; sc_pkcs15_remove_object(p15card, puk); sc_pkcs15_free_object(puk); } else { p15_obj = p15_obj->next; } } /* Add data objects */ for (i = 0; i < 5; i++) { static const char *object_labels[5] = { "Trace", "Citizen Data", "Citizen Address Data", "SOd", "Citizen Notepad", }; static const char *object_authids[5] = {NULL, NULL, "3", NULL, NULL}; static const char *object_paths[5] = { "3f000003", "3f005f00ef02", "3f005f00ef05", "3f005f00ef06", "3f005f00ef07", }; static const int object_flags[5] = { 0, 0, SC_PKCS15_CO_FLAG_PRIVATE, 0, 0, }; struct sc_pkcs15_data_info obj_info; struct sc_pkcs15_object obj_obj; memset(&obj_info, 0, sizeof(obj_info)); memset(&obj_obj, 0, sizeof(obj_obj)); sc_format_path(object_paths[i], &obj_info.path); strlcpy(obj_info.app_label, object_labels[i], SC_PKCS15_MAX_LABEL_SIZE); if (object_authids[i] != NULL) sc_pkcs15_format_id(object_authids[i], &obj_obj.auth_id); strlcpy(obj_obj.label, object_labels[i], SC_PKCS15_MAX_LABEL_SIZE); obj_obj.flags = object_flags[i]; rv = sc_pkcs15emu_object_add(p15card, SC_PKCS15_TYPE_DATA_OBJECT, &obj_obj, &obj_info); if (rv != SC_SUCCESS){ sc_log(ctx, "Object add failed: %d", rv); break; } } LOG_FUNC_RETURN(ctx, SC_SUCCESS); }