/* * * oFono - Open Source Telephony * * Copyright (C) 2008-2011 Intel Corporation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include "ofono.h" #include "common.h" #include "util.h" #include "smsutil.h" #include "simutil.h" #include "storage.h" #include "simfs.h" #include "stkutil.h" #define SIM_FLAG_READING_SPN 0x1 struct ofono_sim { int flags; /* Contents of the SIM file system, in rough initialization order */ char *iccid; char **language_prefs; unsigned char *efli; unsigned char efli_length; gboolean language_prefs_update; enum ofono_sim_password_type pin_type; gboolean locked_pins[OFONO_SIM_PASSWORD_SIM_PUK]; /* Number of PINs */ int pin_retries[OFONO_SIM_PASSWORD_INVALID]; enum ofono_sim_phase phase; unsigned char mnc_length; enum ofono_sim_cphs_phase cphs_phase; unsigned char cphs_service_table[2]; unsigned char *efust; unsigned char efust_length; unsigned char *efest; unsigned char efest_length; unsigned char *efsst; unsigned char efsst_length; gboolean fixed_dialing; gboolean barred_dialing; char *imsi; char mcc[OFONO_MAX_MCC_LENGTH + 1]; char mnc[OFONO_MAX_MNC_LENGTH + 1]; GSList *own_numbers; GSList *new_numbers; unsigned char efmsisdn_length; unsigned char efmsisdn_records; GSList *service_numbers; gboolean sdn_ready; unsigned char *efimg; unsigned short efimg_length; enum ofono_sim_state state; struct ofono_watchlist *state_watches; char *spn; char *spn_dc; struct ofono_watchlist *spn_watches; unsigned int ef_spn_watch; unsigned int cphs_spn_watch; unsigned int cphs_spn_short_watch; struct sim_fs *simfs; struct ofono_sim_context *context; struct ofono_sim_context *early_context; unsigned char *iidf_image; unsigned int *iidf_watch_ids; DBusMessage *pending; const struct ofono_sim_driver *driver; void *driver_data; struct ofono_atom *atom; unsigned int hfp_watch; }; struct msisdn_set_request { struct ofono_sim *sim; int pending; int failed; DBusMessage *msg; }; struct service_number { char *id; struct ofono_phone_number ph; }; static const char *const passwd_name[] = { [OFONO_SIM_PASSWORD_NONE] = "none", [OFONO_SIM_PASSWORD_SIM_PIN] = "pin", [OFONO_SIM_PASSWORD_SIM_PUK] = "puk", [OFONO_SIM_PASSWORD_PHSIM_PIN] = "phone", [OFONO_SIM_PASSWORD_PHFSIM_PIN] = "firstphone", [OFONO_SIM_PASSWORD_PHFSIM_PUK] = "firstphonepuk", [OFONO_SIM_PASSWORD_SIM_PIN2] = "pin2", [OFONO_SIM_PASSWORD_SIM_PUK2] = "puk2", [OFONO_SIM_PASSWORD_PHNET_PIN] = "network", [OFONO_SIM_PASSWORD_PHNET_PUK] = "networkpuk", [OFONO_SIM_PASSWORD_PHNETSUB_PIN] = "netsub", [OFONO_SIM_PASSWORD_PHNETSUB_PUK] = "netsubpuk", [OFONO_SIM_PASSWORD_PHSP_PIN] = "service", [OFONO_SIM_PASSWORD_PHSP_PUK] = "servicepuk", [OFONO_SIM_PASSWORD_PHCORP_PIN] = "corp", [OFONO_SIM_PASSWORD_PHCORP_PUK] = "corppuk", }; static void sim_own_numbers_update(struct ofono_sim *sim); static GSList *g_drivers = NULL; static const char *sim_passwd_name(enum ofono_sim_password_type type) { return passwd_name[type]; } static enum ofono_sim_password_type sim_string_to_passwd(const char *name) { int len = sizeof(passwd_name) / sizeof(*passwd_name); int i; for (i = 0; i < len; i++) if (!strcmp(passwd_name[i], name)) return i; return OFONO_SIM_PASSWORD_INVALID; } static gboolean password_is_pin(enum ofono_sim_password_type type) { switch (type) { case OFONO_SIM_PASSWORD_SIM_PIN: case OFONO_SIM_PASSWORD_PHSIM_PIN: case OFONO_SIM_PASSWORD_PHFSIM_PIN: case OFONO_SIM_PASSWORD_SIM_PIN2: case OFONO_SIM_PASSWORD_PHNET_PIN: case OFONO_SIM_PASSWORD_PHNETSUB_PIN: case OFONO_SIM_PASSWORD_PHSP_PIN: case OFONO_SIM_PASSWORD_PHCORP_PIN: return TRUE; case OFONO_SIM_PASSWORD_SIM_PUK: case OFONO_SIM_PASSWORD_PHFSIM_PUK: case OFONO_SIM_PASSWORD_SIM_PUK2: case OFONO_SIM_PASSWORD_PHNET_PUK: case OFONO_SIM_PASSWORD_PHNETSUB_PUK: case OFONO_SIM_PASSWORD_PHSP_PUK: case OFONO_SIM_PASSWORD_PHCORP_PUK: case OFONO_SIM_PASSWORD_INVALID: case OFONO_SIM_PASSWORD_NONE: return FALSE; } return FALSE; } static enum ofono_sim_password_type puk2pin(enum ofono_sim_password_type type) { switch (type) { case OFONO_SIM_PASSWORD_SIM_PUK: return OFONO_SIM_PASSWORD_SIM_PIN; case OFONO_SIM_PASSWORD_PHFSIM_PUK: return OFONO_SIM_PASSWORD_PHFSIM_PIN; case OFONO_SIM_PASSWORD_SIM_PUK2: return OFONO_SIM_PASSWORD_SIM_PIN2; case OFONO_SIM_PASSWORD_PHNET_PUK: return OFONO_SIM_PASSWORD_PHNET_PIN; case OFONO_SIM_PASSWORD_PHNETSUB_PUK: return OFONO_SIM_PASSWORD_PHNETSUB_PIN; case OFONO_SIM_PASSWORD_PHSP_PUK: return OFONO_SIM_PASSWORD_PHSP_PIN; case OFONO_SIM_PASSWORD_PHCORP_PUK: return OFONO_SIM_PASSWORD_PHCORP_PIN; default: return OFONO_SIM_PASSWORD_INVALID; } } static char **get_own_numbers(GSList *own_numbers) { int nelem = 0; GSList *l; struct ofono_phone_number *num; char **ret; if (own_numbers) nelem = g_slist_length(own_numbers); ret = g_new0(char *, nelem + 1); nelem = 0; for (l = own_numbers; l; l = l->next) { num = l->data; ret[nelem++] = g_strdup(phone_number_to_string(num)); } return ret; } static char **get_locked_pins(struct ofono_sim *sim) { int i; int nelem = 0; char **ret; for (i = 1; i < OFONO_SIM_PASSWORD_SIM_PUK; i++) { if (sim->locked_pins[i] == FALSE) continue; nelem += 1; } ret = g_new0(char *, nelem + 1); nelem = 0; for (i = 1; i < OFONO_SIM_PASSWORD_SIM_PUK; i++) { if (sim->locked_pins[i] == FALSE) continue; ret[nelem] = g_strdup(sim_passwd_name(i)); nelem += 1; } return ret; } static void get_pin_retries(struct ofono_sim *sim, void ***out_dict, unsigned char **out_retries) { int i, nelem; void **dict; unsigned char *retries; for (i = 1, nelem = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) { if (sim->pin_retries[i] == -1) continue; nelem += 1; } dict = g_new0(void *, nelem * 2 + 1); retries = g_new0(unsigned char, nelem); for (i = 1, nelem = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) { if (sim->pin_retries[i] == -1) continue; retries[nelem] = sim->pin_retries[i]; dict[nelem * 2] = (void *) sim_passwd_name(i); dict[nelem * 2 + 1] = &retries[nelem]; nelem += 1; } *out_dict = dict; *out_retries = retries; } static char **get_service_numbers(GSList *service_numbers) { int nelem; GSList *l; struct service_number *num; char **ret; nelem = g_slist_length(service_numbers) * 2; ret = g_new0(char *, nelem + 1); nelem = 0; for (l = service_numbers; l; l = l->next) { num = l->data; ret[nelem++] = g_strdup(num->id); ret[nelem++] = g_strdup(phone_number_to_string(&num->ph)); } return ret; } static void service_number_free(struct service_number *num) { g_free(num->id); g_free(num); } static void call_state_watches(struct ofono_sim *sim) { GSList *l; ofono_sim_state_event_cb_t notify; for (l = sim->state_watches->items; l; l = l->next) { struct ofono_watchlist_item *item = l->data; notify = item->notify; notify(sim->state, item->notify_data); } } static DBusMessage *sim_get_properties(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_sim *sim = data; DBusMessage *reply; DBusMessageIter iter; DBusMessageIter dict; char **own_numbers; char **service_numbers; char **locked_pins; const char *pin_name; void **pin_retries_dict; unsigned char *dbus_retries; dbus_bool_t present = sim->state != OFONO_SIM_STATE_NOT_PRESENT; dbus_bool_t fdn; dbus_bool_t bdn; reply = dbus_message_new_method_return(msg); if (reply == NULL) return NULL; dbus_message_iter_init_append(reply, &iter); dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, OFONO_PROPERTIES_ARRAY_SIGNATURE, &dict); ofono_dbus_dict_append(&dict, "Present", DBUS_TYPE_BOOLEAN, &present); if (!present) goto done; if (sim->iccid) ofono_dbus_dict_append(&dict, "CardIdentifier", DBUS_TYPE_STRING, &sim->iccid); if (sim->imsi) ofono_dbus_dict_append(&dict, "SubscriberIdentity", DBUS_TYPE_STRING, &sim->imsi); if (sim->spn) ofono_dbus_dict_append(&dict, "ServiceProviderName", DBUS_TYPE_STRING, &sim->spn); fdn = sim->fixed_dialing; ofono_dbus_dict_append(&dict, "FixedDialing", DBUS_TYPE_BOOLEAN, &fdn); bdn = sim->barred_dialing; ofono_dbus_dict_append(&dict, "BarredDialing", DBUS_TYPE_BOOLEAN, &bdn); if (sim->mcc[0] != '\0' && sim->mnc[0] != '\0') { const char *str; str = sim->mcc; ofono_dbus_dict_append(&dict, "MobileCountryCode", DBUS_TYPE_STRING, &str); str = sim->mnc; ofono_dbus_dict_append(&dict, "MobileNetworkCode", DBUS_TYPE_STRING, &str); } own_numbers = get_own_numbers(sim->own_numbers); ofono_dbus_dict_append_array(&dict, "SubscriberNumbers", DBUS_TYPE_STRING, &own_numbers); g_strfreev(own_numbers); locked_pins = get_locked_pins(sim); ofono_dbus_dict_append_array(&dict, "LockedPins", DBUS_TYPE_STRING, &locked_pins); g_strfreev(locked_pins); if (sim->service_numbers && sim->sdn_ready) { service_numbers = get_service_numbers(sim->service_numbers); ofono_dbus_dict_append_dict(&dict, "ServiceNumbers", DBUS_TYPE_STRING, &service_numbers); g_strfreev(service_numbers); } if (sim->language_prefs) ofono_dbus_dict_append_array(&dict, "PreferredLanguages", DBUS_TYPE_STRING, &sim->language_prefs); pin_name = sim_passwd_name(sim->pin_type); ofono_dbus_dict_append(&dict, "PinRequired", DBUS_TYPE_STRING, (void *) &pin_name); get_pin_retries(sim, &pin_retries_dict, &dbus_retries); ofono_dbus_dict_append_dict(&dict, "Retries", DBUS_TYPE_BYTE, &pin_retries_dict); g_free(pin_retries_dict); g_free(dbus_retries); done: dbus_message_iter_close_container(&iter, &dict); return reply; } static void sim_pin_retries_query_cb(const struct ofono_error *error, int retries[OFONO_SIM_PASSWORD_INVALID], void *data) { struct ofono_sim *sim = data; DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); void **pin_retries_dict; unsigned char *dbus_retries; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { ofono_error("Querying remaining pin retries failed"); return; } if (!memcmp(retries, sim->pin_retries, sizeof(sim->pin_retries))) return; memcpy(sim->pin_retries, retries, sizeof(sim->pin_retries)); get_pin_retries(sim, &pin_retries_dict, &dbus_retries); ofono_dbus_signal_dict_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "Retries", DBUS_TYPE_BYTE, &pin_retries_dict); g_free(pin_retries_dict); g_free(dbus_retries); } static void sim_pin_retries_check(struct ofono_sim *sim) { if (sim->driver->query_pin_retries == NULL) return; sim->driver->query_pin_retries(sim, sim_pin_retries_query_cb, sim); } static void msisdn_set_done(struct msisdn_set_request *req) { DBusMessage *reply; if (req->failed) reply = __ofono_error_failed(req->msg); else reply = dbus_message_new_method_return(req->msg); __ofono_dbus_pending_reply(&req->msg, reply); /* Re-read the numbers and emit signal if needed */ sim_own_numbers_update(req->sim); g_free(req); } static void msisdn_set_cb(int ok, void *data) { struct msisdn_set_request *req = data; if (!ok) req->failed++; req->pending--; if (!req->pending) msisdn_set_done(req); } static gboolean set_own_numbers(struct ofono_sim *sim, GSList *new_numbers, DBusMessage *msg) { struct msisdn_set_request *req; int record; unsigned char efmsisdn[255]; struct ofono_phone_number *number; if (new_numbers && g_slist_length(new_numbers) > sim->efmsisdn_records) return FALSE; req = g_new0(struct msisdn_set_request, 1); req->sim = sim; req->msg = dbus_message_ref(msg); for (record = 1; record <= sim->efmsisdn_records; record++) { if (new_numbers) { number = new_numbers->data; sim_adn_build(efmsisdn, sim->efmsisdn_length, number, NULL); new_numbers = new_numbers->next; } else { memset(efmsisdn, 0xff, sim->efmsisdn_length); /* Set number length */ efmsisdn[sim->efmsisdn_length - 14] = 1; } if (ofono_sim_write(req->sim->context, SIM_EFMSISDN_FILEID, msisdn_set_cb, OFONO_SIM_FILE_STRUCTURE_FIXED, record, efmsisdn, sim->efmsisdn_length, req) == 0) req->pending++; else req->failed++; } if (!req->pending) msisdn_set_done(req); return TRUE; } static DBusMessage *sim_set_property(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_sim *sim = data; DBusMessageIter iter; DBusMessageIter var; DBusMessageIter var_elem; const char *name, *value; if (!dbus_message_iter_init(msg, &iter)) return __ofono_error_invalid_args(msg); if (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_STRING) return __ofono_error_invalid_args(msg); dbus_message_iter_get_basic(&iter, &name); if (!strcmp(name, "SubscriberNumbers")) { gboolean set_ok = FALSE; struct ofono_phone_number *own; GSList *own_numbers = NULL; if (sim->efmsisdn_length == 0) return __ofono_error_busy(msg); dbus_message_iter_next(&iter); if (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_VARIANT) return __ofono_error_invalid_args(msg); dbus_message_iter_recurse(&iter, &var); if (dbus_message_iter_get_arg_type(&var) != DBUS_TYPE_ARRAY || dbus_message_iter_get_element_type(&var) != DBUS_TYPE_STRING) return __ofono_error_invalid_args(msg); dbus_message_iter_recurse(&var, &var_elem); /* Empty lists are supported */ while (dbus_message_iter_get_arg_type(&var_elem) != DBUS_TYPE_INVALID) { if (dbus_message_iter_get_arg_type(&var_elem) != DBUS_TYPE_STRING) goto error; dbus_message_iter_get_basic(&var_elem, &value); if (!valid_phone_number_format(value)) goto error; own = g_new0(struct ofono_phone_number, 1); string_to_phone_number(value, own); own_numbers = g_slist_prepend(own_numbers, own); dbus_message_iter_next(&var_elem); } own_numbers = g_slist_reverse(own_numbers); set_ok = set_own_numbers(sim, own_numbers, msg); error: g_slist_foreach(own_numbers, (GFunc) g_free, 0); g_slist_free(own_numbers); if (set_ok) return NULL; } return __ofono_error_invalid_args(msg); } static void sim_locked_cb(struct ofono_sim *sim, gboolean locked) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); const char *typestr; const char *pin; char **locked_pins; enum ofono_sim_password_type type; DBusMessage *reply; reply = dbus_message_new_method_return(sim->pending); dbus_message_get_args(sim->pending, NULL, DBUS_TYPE_STRING, &typestr, DBUS_TYPE_STRING, &pin, DBUS_TYPE_INVALID); type = sim_string_to_passwd(typestr); /* This is used by lock/unlock pin, no puks allowed */ sim->locked_pins[type] = locked; __ofono_dbus_pending_reply(&sim->pending, reply); locked_pins = get_locked_pins(sim); ofono_dbus_signal_array_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "LockedPins", DBUS_TYPE_STRING, &locked_pins); g_strfreev(locked_pins); sim_pin_retries_check(sim); } static void sim_unlock_cb(const struct ofono_error *error, void *data) { struct ofono_sim *sim = data; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBusMessage *reply = __ofono_error_failed(sim->pending); __ofono_dbus_pending_reply(&sim->pending, reply); __ofono_sim_recheck_pin(sim); return; } sim_locked_cb(sim, FALSE); } static void sim_lock_cb(const struct ofono_error *error, void *data) { struct ofono_sim *sim = data; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBusMessage *reply = __ofono_error_failed(sim->pending); __ofono_dbus_pending_reply(&sim->pending, reply); __ofono_sim_recheck_pin(sim); return; } sim_locked_cb(sim, TRUE); } static DBusMessage *sim_lock_or_unlock(struct ofono_sim *sim, int lock, DBusConnection *conn, DBusMessage *msg) { enum ofono_sim_password_type type; const char *typestr; const char *pin; if (sim->driver->lock == NULL) return __ofono_error_not_implemented(msg); if (sim->pending) return __ofono_error_busy(msg); if (dbus_message_get_args(msg, NULL, DBUS_TYPE_STRING, &typestr, DBUS_TYPE_STRING, &pin, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); type = sim_string_to_passwd(typestr); /* * SIM PIN2 cannot be locked / unlocked according to 27.007, * however the PIN combination can be changed */ if (password_is_pin(type) == FALSE || type == OFONO_SIM_PASSWORD_SIM_PIN2) return __ofono_error_invalid_format(msg); if (!__ofono_is_valid_sim_pin(pin, type)) return __ofono_error_invalid_format(msg); sim->pending = dbus_message_ref(msg); sim->driver->lock(sim, type, lock, pin, lock ? sim_lock_cb : sim_unlock_cb, sim); return NULL; } static DBusMessage *sim_lock_pin(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_sim *sim = data; return sim_lock_or_unlock(sim, 1, conn, msg); } static DBusMessage *sim_unlock_pin(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_sim *sim = data; return sim_lock_or_unlock(sim, 0, conn, msg); } static void sim_change_pin_cb(const struct ofono_error *error, void *data) { struct ofono_sim *sim = data; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { __ofono_dbus_pending_reply(&sim->pending, __ofono_error_failed(sim->pending)); __ofono_sim_recheck_pin(sim); return; } __ofono_dbus_pending_reply(&sim->pending, dbus_message_new_method_return(sim->pending)); sim_pin_retries_check(sim); } static DBusMessage *sim_change_pin(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_sim *sim = data; enum ofono_sim_password_type type; const char *typestr; const char *old; const char *new; if (sim->driver->change_passwd == NULL) return __ofono_error_not_implemented(msg); if (sim->pending) return __ofono_error_busy(msg); if (dbus_message_get_args(msg, NULL, DBUS_TYPE_STRING, &typestr, DBUS_TYPE_STRING, &old, DBUS_TYPE_STRING, &new, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); type = sim_string_to_passwd(typestr); if (password_is_pin(type) == FALSE) return __ofono_error_invalid_format(msg); if (!__ofono_is_valid_sim_pin(old, type)) return __ofono_error_invalid_format(msg); if (!__ofono_is_valid_sim_pin(new, type)) return __ofono_error_invalid_format(msg); if (!strcmp(new, old)) return dbus_message_new_method_return(msg); sim->pending = dbus_message_ref(msg); sim->driver->change_passwd(sim, type, old, new, sim_change_pin_cb, sim); return NULL; } static void sim_enter_pin_cb(const struct ofono_error *error, void *data) { struct ofono_sim *sim = data; DBusMessage *reply; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) reply = __ofono_error_failed(sim->pending); else reply = dbus_message_new_method_return(sim->pending); __ofono_dbus_pending_reply(&sim->pending, reply); __ofono_sim_recheck_pin(sim); } static DBusMessage *sim_enter_pin(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_sim *sim = data; const char *typestr; enum ofono_sim_password_type type; const char *pin; if (sim->driver->send_passwd == NULL) return __ofono_error_not_implemented(msg); if (sim->pending) return __ofono_error_busy(msg); if (dbus_message_get_args(msg, NULL, DBUS_TYPE_STRING, &typestr, DBUS_TYPE_STRING, &pin, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); type = sim_string_to_passwd(typestr); if (type == OFONO_SIM_PASSWORD_NONE || type != sim->pin_type) return __ofono_error_invalid_format(msg); if (password_is_pin(type) == FALSE) return __ofono_error_invalid_format(msg); if (!__ofono_is_valid_sim_pin(pin, type)) return __ofono_error_invalid_format(msg); sim->pending = dbus_message_ref(msg); sim->driver->send_passwd(sim, pin, sim_enter_pin_cb, sim); return NULL; } static void sim_get_image_cb(struct ofono_sim *sim, unsigned char id, char *xpm, gboolean cache) { DBusMessage *reply; DBusMessageIter iter, array; int xpm_len; if (xpm == NULL) { reply = __ofono_error_failed(sim->pending); __ofono_dbus_pending_reply(&sim->pending, reply); return; } xpm_len = strlen(xpm); reply = dbus_message_new_method_return(sim->pending); dbus_message_iter_init_append(reply, &iter); dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, DBUS_TYPE_BYTE_AS_STRING, &array); dbus_message_iter_append_fixed_array(&array, DBUS_TYPE_BYTE, &xpm, xpm_len); dbus_message_iter_close_container(&iter, &array); __ofono_dbus_pending_reply(&sim->pending, reply); if (cache) sim_fs_cache_image(sim->simfs, (const char *) xpm, id); g_free(xpm); } static void sim_iidf_read_clut_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; unsigned char id; unsigned char *efimg; unsigned short iidf_len; unsigned short clut_len; char *xpm; DBG("ok: %d", ok); dbus_message_get_args(sim->pending, NULL, DBUS_TYPE_BYTE, &id, DBUS_TYPE_INVALID); id -= 1; efimg = &sim->efimg[id * 9]; if (!ok) { sim_get_image_cb(sim, id, NULL, FALSE); goto done; } iidf_len = efimg[7] << 8 | efimg[8]; if (sim->iidf_image[3] == 0) clut_len = 256 * 3; else clut_len = sim->iidf_image[3] * 3; xpm = stk_image_to_xpm(sim->iidf_image, iidf_len, efimg[2], data, clut_len); sim_get_image_cb(sim, id, xpm, TRUE); done: g_free(sim->iidf_image); sim->iidf_image = NULL; } static void sim_iidf_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; unsigned char id; unsigned char *efimg; unsigned short iidf_id; unsigned short offset; unsigned short clut_len; unsigned char path[6]; unsigned int path_len; DBG("ok: %d", ok); dbus_message_get_args(sim->pending, NULL, DBUS_TYPE_BYTE, &id, DBUS_TYPE_INVALID); id -= 1; efimg = &sim->efimg[id * 9]; if (!ok) { sim_get_image_cb(sim, id, NULL, FALSE); return; } if (efimg[2] == STK_IMG_SCHEME_BASIC) { char *xpm = stk_image_to_xpm(data, length, efimg[2], NULL, 0); sim_get_image_cb(sim, id, xpm, TRUE); return; } offset = data[4] << 8 | data[5]; if (data[3] == 0) clut_len = 256 * 3; else clut_len = data[3] * 3; iidf_id = efimg[3] << 8 | efimg[4]; sim->iidf_image = g_memdup(data, length); /* The path it the same between 2G and 3G */ path_len = sim_ef_db_get_path_3g(SIM_EFIMG_FILEID, path); /* read the clut data */ ofono_sim_read_bytes(sim->context, iidf_id, offset, clut_len, path, path_len, sim_iidf_read_clut_cb, sim); } static void sim_image_data_changed(int id, void *userdata) { /* TODO: notify D-bus clients */ } static void sim_get_image(struct ofono_sim *sim, unsigned char id, gpointer user_data) { unsigned char *efimg; char *image; unsigned short iidf_id; unsigned short iidf_offset; unsigned short iidf_len; if (sim->efimg_length <= id * 9) { sim_get_image_cb(sim, id, NULL, FALSE); return; } image = sim_fs_get_cached_image(sim->simfs, id); if (image != NULL) sim_get_image_cb(sim, id, image, FALSE); efimg = &sim->efimg[id * 9]; iidf_id = efimg[3] << 8 | efimg[4]; iidf_offset = efimg[5] << 8 | efimg[6]; iidf_len = efimg[7] << 8 | efimg[8]; /* read the image data */ if (image == NULL) { unsigned char path[6]; unsigned int path_len; /* The path it the same between 2G and 3G */ path_len = sim_ef_db_get_path_3g(SIM_EFIMG_FILEID, path); ofono_sim_read_bytes(sim->context, iidf_id, iidf_offset, iidf_len, path, path_len, sim_iidf_read_cb, sim); } if (sim->iidf_watch_ids[id] > 0) return; sim->iidf_watch_ids[id] = ofono_sim_add_file_watch(sim->context, iidf_id, sim_image_data_changed, sim, NULL); } static DBusMessage *sim_get_icon(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_sim *sim = data; unsigned char id; if (dbus_message_get_args(msg, NULL, DBUS_TYPE_BYTE, &id, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); /* zero means no icon */ if (id == 0) return __ofono_error_invalid_args(msg); if (sim->pending) return __ofono_error_busy(msg); if (sim->efimg == NULL) return __ofono_error_not_implemented(msg); sim->pending = dbus_message_ref(msg); sim_get_image(sim, id - 1, sim); return NULL; } static DBusMessage *sim_reset_pin(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_sim *sim = data; const char *typestr; enum ofono_sim_password_type type; const char *puk; const char *pin; if (sim->driver->reset_passwd == NULL) return __ofono_error_not_implemented(msg); if (sim->pending) return __ofono_error_busy(msg); if (dbus_message_get_args(msg, NULL, DBUS_TYPE_STRING, &typestr, DBUS_TYPE_STRING, &puk, DBUS_TYPE_STRING, &pin, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); type = sim_string_to_passwd(typestr); if (type == OFONO_SIM_PASSWORD_NONE || type != sim->pin_type) return __ofono_error_invalid_format(msg); if (!__ofono_is_valid_sim_pin(puk, type)) return __ofono_error_invalid_format(msg); type = puk2pin(type); if (!__ofono_is_valid_sim_pin(pin, type)) return __ofono_error_invalid_format(msg); sim->pending = dbus_message_ref(msg); sim->driver->reset_passwd(sim, puk, pin, sim_enter_pin_cb, sim); return NULL; } static const GDBusMethodTable sim_methods[] = { { GDBUS_METHOD("GetProperties", NULL, GDBUS_ARGS({ "properties", "a{sv}" }), sim_get_properties) }, { GDBUS_ASYNC_METHOD("SetProperty", GDBUS_ARGS({ "property", "s" }, { "value", "v" }), NULL, sim_set_property) }, { GDBUS_ASYNC_METHOD("ChangePin", GDBUS_ARGS({ "type", "s" }, { "oldpin", "s" }, { "newpin", "s" }), NULL, sim_change_pin) }, { GDBUS_ASYNC_METHOD("EnterPin", GDBUS_ARGS({ "type", "s" }, { "pin", "s" }), NULL, sim_enter_pin) }, { GDBUS_ASYNC_METHOD("ResetPin", GDBUS_ARGS({ "type", "s" }, { "puk", "s" }, { "newpin", "s" }), NULL, sim_reset_pin) }, { GDBUS_ASYNC_METHOD("LockPin", GDBUS_ARGS({ "type", "s" }, { "pin", "s" }), NULL, sim_lock_pin) }, { GDBUS_ASYNC_METHOD("UnlockPin", GDBUS_ARGS({ "type", "s" }, { "pin", "s" }), NULL, sim_unlock_pin) }, { GDBUS_ASYNC_METHOD("GetIcon", GDBUS_ARGS({ "id", "y" }), GDBUS_ARGS({ "icon", "ay" }), sim_get_icon) }, { } }; static const GDBusSignalTable sim_signals[] = { { GDBUS_SIGNAL("PropertyChanged", GDBUS_ARGS({ "name", "s" }, { "value", "v" })) }, { } }; static gboolean numbers_list_equal(GSList *a, GSList *b) { struct ofono_phone_number *num_a, *num_b; while (a || b) { if (a == NULL || b == NULL) return FALSE; num_a = a->data; num_b = b->data; if (!g_str_equal(num_a->number, num_b->number) || num_a->type != num_b->type) return FALSE; a = a->next; b = b->next; } return TRUE; } static void sim_msisdn_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; int total; struct ofono_phone_number ph; if (!ok) goto check; if (record_length < 14 || length < record_length) { ofono_error("EFmsidn shall at least contain 14 bytes"); return; } total = length / record_length; sim->efmsisdn_length = record_length; sim->efmsisdn_records = total; if (sim_adn_parse(data, record_length, &ph, NULL) == TRUE) { struct ofono_phone_number *own; own = g_new(struct ofono_phone_number, 1); memcpy(own, &ph, sizeof(struct ofono_phone_number)); sim->new_numbers = g_slist_prepend(sim->new_numbers, own); } if (record != total) return; check: /* All records retrieved */ if (sim->new_numbers) sim->new_numbers = g_slist_reverse(sim->new_numbers); if (!numbers_list_equal(sim->new_numbers, sim->own_numbers)) { const char *path = __ofono_atom_get_path(sim->atom); char **own_numbers; DBusConnection *conn = ofono_dbus_get_connection(); g_slist_foreach(sim->own_numbers, (GFunc) g_free, NULL); g_slist_free(sim->own_numbers); sim->own_numbers = sim->new_numbers; own_numbers = get_own_numbers(sim->own_numbers); ofono_dbus_signal_array_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "SubscriberNumbers", DBUS_TYPE_STRING, &own_numbers); g_strfreev(own_numbers); } else { g_slist_foreach(sim->new_numbers, (GFunc) g_free, NULL); g_slist_free(sim->new_numbers); } sim->new_numbers = NULL; } static gint service_number_compare(gconstpointer a, gconstpointer b) { const struct service_number *sdn = a; const char *id = b; return strcmp(sdn->id, id); } static void sim_sdn_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); int total; struct ofono_phone_number ph; char *alpha; struct service_number *sdn; if (!ok) goto check; if (record_length < 14 || length < record_length) return; total = length / record_length; if (sim_adn_parse(data, record_length, &ph, &alpha) == FALSE) goto out; /* Use phone number if Id is unavailable */ if (alpha && alpha[0] == '\0') { g_free(alpha); alpha = NULL; } if (alpha == NULL) alpha = g_strdup(phone_number_to_string(&ph)); if (sim->service_numbers && g_slist_find_custom(sim->service_numbers, alpha, service_number_compare)) { ofono_error("Duplicate EFsdn entries for `%s'", alpha); g_free(alpha); goto out; } sdn = g_new(struct service_number, 1); sdn->id = alpha; memcpy(&sdn->ph, &ph, sizeof(struct ofono_phone_number)); sim->service_numbers = g_slist_prepend(sim->service_numbers, sdn); out: if (record != total) return; check: /* All records retrieved */ if (sim->service_numbers) { sim->service_numbers = g_slist_reverse(sim->service_numbers); sim->sdn_ready = TRUE; } if (sim->sdn_ready) { char **service_numbers; service_numbers = get_service_numbers(sim->service_numbers); ofono_dbus_signal_dict_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "ServiceNumbers", DBUS_TYPE_STRING, &service_numbers); g_strfreev(service_numbers); } } static void sim_service_numbers_changed(int id, void *userdata) { struct ofono_sim *sim = userdata; if (sim->service_numbers) { g_slist_foreach(sim->service_numbers, (GFunc)service_number_free, NULL); g_slist_free(sim->service_numbers); sim->service_numbers = NULL; } ofono_sim_read(sim->context, SIM_EFSDN_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_sdn_read_cb, sim); } static void sim_own_numbers_update(struct ofono_sim *sim) { ofono_sim_read(sim->context, SIM_EFMSISDN_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_msisdn_read_cb, sim); } static void sim_own_numbers_changed(int id, void *userdata) { struct ofono_sim *sim = userdata; sim_own_numbers_update(sim); } static void sim_efimg_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; unsigned char *efimg; int num_records; if (!ok) return; num_records = length / record_length; /* * EFimg descriptors are 9 bytes long. * Byte 1 of the record is the number of descriptors per record. */ if ((record_length < 10) || ((record_length % 9 != 2) && (record_length % 9 != 1))) return; if (sim->efimg == NULL) { sim->efimg = g_try_malloc0(num_records * 9); if (sim->efimg == NULL) return; sim->iidf_watch_ids = g_try_new0(unsigned int, num_records); if (sim->iidf_watch_ids == NULL) { g_free(sim->efimg); sim->efimg = NULL; return; } sim->efimg_length = num_records * 9; } /* * TBD - if we have more than one descriptor per record, * pick the nicest one. For now we use the first one. */ /* copy descriptor into slot for this record */ efimg = &sim->efimg[(record - 1) * 9]; memcpy(efimg, &data[1], 9); } static void sim_efimg_changed(int id, void *userdata) { struct ofono_sim *sim = userdata; int i, watch; if (sim->efimg != NULL) { for (i = sim->efimg_length / 9 - 1; i >= 0; i--) { watch = sim->iidf_watch_ids[i]; if (watch == 0) continue; ofono_sim_remove_file_watch(sim->context, watch); } g_free(sim->efimg); sim->efimg = NULL; sim->efimg_length = 0; g_free(sim->iidf_watch_ids); sim->iidf_watch_ids = NULL; } ofono_sim_read(sim->context, SIM_EFIMG_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_efimg_read_cb, sim); /* TODO: notify D-bus clients */ } static void sim_ready(enum ofono_sim_state new_state, void *user) { struct ofono_sim *sim = user; if (new_state != OFONO_SIM_STATE_READY) return; sim_own_numbers_update(sim); ofono_sim_add_file_watch(sim->context, SIM_EFMSISDN_FILEID, sim_own_numbers_changed, sim, NULL); ofono_sim_read(sim->context, SIM_EFSDN_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_sdn_read_cb, sim); ofono_sim_add_file_watch(sim->context, SIM_EFSDN_FILEID, sim_service_numbers_changed, sim, NULL); ofono_sim_read(sim->context, SIM_EFIMG_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_efimg_read_cb, sim); ofono_sim_add_file_watch(sim->context, SIM_EFIMG_FILEID, sim_efimg_changed, sim, NULL); } static void sim_set_ready(struct ofono_sim *sim) { if (sim == NULL) return; if (sim->state != OFONO_SIM_STATE_INSERTED && sim->state != OFONO_SIM_STATE_LOCKED_OUT) return; sim->state = OFONO_SIM_STATE_READY; sim_fs_check_version(sim->simfs); call_state_watches(sim); } static void sim_imsi_obtained(struct ofono_sim *sim, const char *imsi) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); sim->imsi = g_strdup(imsi); ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "SubscriberIdentity", DBUS_TYPE_STRING, &sim->imsi); if (sim->mnc_length) { const char *str; strncpy(sim->mcc, sim->imsi, OFONO_MAX_MCC_LENGTH); sim->mcc[OFONO_MAX_MCC_LENGTH] = '\0'; strncpy(sim->mnc, sim->imsi + OFONO_MAX_MCC_LENGTH, sim->mnc_length); sim->mnc[sim->mnc_length] = '\0'; str = sim->mcc; ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "MobileCountryCode", DBUS_TYPE_STRING, &str); str = sim->mnc; ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "MobileNetworkCode", DBUS_TYPE_STRING, &str); } sim_set_ready(sim); } static void sim_imsi_cb(const struct ofono_error *error, const char *imsi, void *data) { struct ofono_sim *sim = data; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { ofono_error("Unable to read IMSI, emergency calls only"); return; } sim_imsi_obtained(sim, imsi); } static void sim_efimsi_cb(const struct ofono_error *error, const unsigned char *data, int len, void *user) { struct ofono_sim *sim = user; char imsi[17]; /* IMSI max length is 15 + 1 for NULL + 1 waste */ unsigned char imsi_len; unsigned char parity; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) goto error; if (len != 9) goto error; imsi_len = data[0]; if (imsi_len == 0 || imsi_len > 8) goto error; /* The low 3 bits of the first byte should be set to binary 001 */ if ((data[1] & 0x7) != 0x1) goto error; /* Save off the parity bit */ parity = (data[1] >> 3) & 1; extract_bcd_number(data + 1, imsi_len, imsi); imsi[16] = '\0'; if ((strlen(imsi + 1) % 2) != parity) goto error; sim_imsi_obtained(sim, imsi + 1); return; error: ofono_error("Unable to read IMSI, emergency calls only"); } static void sim_retrieve_imsi(struct ofono_sim *sim) { if (sim->driver->read_imsi) { sim->driver->read_imsi(sim, sim_imsi_cb, sim); return; } if (sim->driver->read_file_transparent == NULL) { ofono_error("IMSI retrieval not implemented," " only emergency calls will be available"); return; } sim->driver->read_file_transparent(sim, SIM_EFIMSI_FILEID, 0, 9, NULL, 0, sim_efimsi_cb, sim); } static void sim_fdn_enabled(struct ofono_sim *sim) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); dbus_bool_t val; sim->fixed_dialing = TRUE; val = sim->fixed_dialing; ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "FixedDialing", DBUS_TYPE_BOOLEAN, &val); } static void sim_bdn_enabled(struct ofono_sim *sim) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); dbus_bool_t val; sim->barred_dialing = TRUE; val = sim->barred_dialing; ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "BarredDialing", DBUS_TYPE_BOOLEAN, &val); } static void sim_efbdn_info_read_cb(int ok, unsigned char file_status, int total_length, int record_length, void *userdata) { struct ofono_sim *sim = userdata; if (!ok) goto out; if (file_status & SIM_FILE_STATUS_VALID) sim_bdn_enabled(sim); out: if (sim->fixed_dialing != TRUE && sim->barred_dialing != TRUE) sim_retrieve_imsi(sim); } static gboolean check_bdn_status(struct ofono_sim *sim) { /* * Check the status of Barred Dialing in the SIM-card * (TS 11.11/TS 51.011, Section 11.5.1: BDN capability request). * If BDN is allocated, activated in EFsst and EFbdn is validated, * halt the SIM initialization. */ if (sim_sst_is_active(sim->efsst, sim->efsst_length, SIM_SST_SERVICE_BDN)) { sim_fs_read_info(sim->context, SIM_EFBDN_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_efbdn_info_read_cb, sim); return TRUE; } return FALSE; } static void sim_efadn_info_read_cb(int ok, unsigned char file_status, int total_length, int record_length, void *userdata) { struct ofono_sim *sim = userdata; if (!ok) goto out; if (!(file_status & SIM_FILE_STATUS_VALID)) sim_fdn_enabled(sim); out: if (check_bdn_status(sim) != TRUE) { if (sim->fixed_dialing != TRUE && sim->barred_dialing != TRUE) sim_retrieve_imsi(sim); } } static void sim_efsst_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; if (!ok) goto out; if (length < 2) { ofono_error("EFsst shall contain at least two bytes"); goto out; } sim->efsst = g_memdup(data, length); sim->efsst_length = length; /* * Check if Fixed Dialing is enabled in the SIM-card * (TS 11.11/TS 51.011, Section 11.5.1: FDN capability request). * If FDN is activated and ADN is invalidated, * don't continue initialization routine. */ if (sim_sst_is_active(sim->efsst, sim->efsst_length, SIM_SST_SERVICE_FDN)) { sim_fs_read_info(sim->context, SIM_EFADN_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_efadn_info_read_cb, sim); return; } if (check_bdn_status(sim) == TRUE) return; out: sim_retrieve_imsi(sim); } static void sim_efest_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; gboolean available; if (!ok) goto out; if (length < 1) { ofono_error("EFest shall contain at least one byte"); goto out; } sim->efest = g_memdup(data, length); sim->efest_length = length; /* * Check if Fixed Dialing is enabled in the USIM-card * (TS 31.102, Section 5.3.2: FDN capability request). * If FDN is activated, don't continue initialization routine. */ available = sim_ust_is_available(sim->efust, sim->efust_length, SIM_UST_SERVICE_FDN); if (available && sim_est_is_active(sim->efest, sim->efest_length, SIM_EST_SERVICE_FDN)) sim_fdn_enabled(sim); /* * Check the status of Barred Dialing in the USIM-card * (TS 31.102, Section 5.3.2: BDN capability request). * If BDN service is enabled, halt the USIM initialization. */ available = sim_ust_is_available(sim->efust, sim->efust_length, SIM_UST_SERVICE_BDN); if (available && sim_est_is_active(sim->efest, sim->efest_length, SIM_EST_SERVICE_BDN)) sim_bdn_enabled(sim); out: if (sim->fixed_dialing != TRUE && sim->barred_dialing != TRUE) sim_retrieve_imsi(sim); } static void sim_efust_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; if (!ok) goto out; if (length < 1) { ofono_error("EFust shall contain at least one byte"); goto out; } sim->efust = g_memdup(data, length); sim->efust_length = length; /* * Check whether the SIM provides EFest file * According to 3GPP TS 31.102 section 4.2.47, EFest file * shall be present if FDN or BDN or EST is available * Lets be paranoid and check for the special cases as well * where EST is not available(FDN or BDN available), but EFest * is present */ if (sim_ust_is_available(sim->efust, sim->efust_length, SIM_UST_SERVICE_ENABLED_SERVICE_TABLE) || sim_ust_is_available(sim->efust, sim->efust_length, SIM_UST_SERVICE_FDN) || sim_ust_is_available(sim->efust, sim->efust_length, SIM_UST_SERVICE_BDN)) { ofono_sim_read(sim->context, SIM_EFEST_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_efest_read_cb, sim); return; } out: sim_retrieve_imsi(sim); } static void sim_cphs_information_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; sim->cphs_phase = OFONO_SIM_CPHS_PHASE_NONE; if (!ok || length < 3) return; if (data[0] == 0x01) sim->cphs_phase = OFONO_SIM_CPHS_PHASE_1G; else if (data[0] >= 0x02) sim->cphs_phase = OFONO_SIM_CPHS_PHASE_2G; memcpy(sim->cphs_service_table, data + 1, 2); } static void sim_ad_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; int new_mnc_length; if (!ok) return; if (length < 4) { ofono_error("EFad should contain at least four bytes"); return; } new_mnc_length = data[3] & 0xf; /* sanity check for potential invalid values */ if (new_mnc_length < 2 || new_mnc_length > 3) return; sim->mnc_length = new_mnc_length; } static void sim_efphase_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; if (!ok || length != 1) { sim->phase = OFONO_SIM_PHASE_3G; ofono_sim_read(sim->context, SIM_EFUST_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_efust_read_cb, sim); return; } switch (data[0]) { case 0: sim->phase = OFONO_SIM_PHASE_1G; break; case 2: sim->phase = OFONO_SIM_PHASE_2G; break; case 3: sim->phase = OFONO_SIM_PHASE_2G_PLUS; break; default: ofono_error("Unknown phase"); return; } ofono_sim_read(sim->context, SIM_EFSST_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_efsst_read_cb, sim); } static void sim_initialize_after_pin(struct ofono_sim *sim) { sim->context = ofono_sim_context_create(sim); sim->spn_watches = __ofono_watchlist_new(g_free); ofono_sim_read(sim->context, SIM_EFPHASE_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_efphase_read_cb, sim); ofono_sim_read(sim->context, SIM_EFAD_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_ad_read_cb, sim); /* * Read CPHS-support bits, this is still part of the SIM * initialisation but no order is specified for it. */ ofono_sim_read(sim->context, SIM_EF_CPHS_INFORMATION_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_cphs_information_read_cb, sim); } static void sim_efli_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; if (!ok) return; sim->efli = g_memdup(data, length); sim->efli_length = length; } /* Detect whether the file is in EFli format, as opposed to 51.011 EFlp */ static gboolean sim_efli_format(const unsigned char *ef, int length) { int i; if (length & 1) return FALSE; for (i = 0; i < length; i += 2) { if (ef[i] == 0xff && ef[i+1] == 0xff) continue; /* * ISO 639 country codes are each two lower-case SMS 7-bit * characters while CB DCS language codes are in ranges * (0 - 15) or (32 - 47), so the ranges don't overlap */ if (g_ascii_isalpha(ef[i]) == 0) return FALSE; if (g_ascii_isalpha(ef[i+1]) == 0) return FALSE; } return TRUE; } static GSList *parse_language_list(const unsigned char *ef, int length) { int i; GSList *ret = NULL; for (i = 0; i < length; i += 2) { if (ef[i] > 0x7f || ef[i+1] > 0x7f) continue; /* * ISO 639 codes contain only characters that are coded * identically in SMS 7 bit charset, ASCII or UTF8 so * no conversion. */ ret = g_slist_prepend(ret, g_ascii_strdown((char *)ef + i, 2)); } if (ret) ret = g_slist_reverse(ret); return ret; } static GSList *parse_eflp(const unsigned char *eflp, int length) { int i; char code[3]; GSList *ret = NULL; for (i = 0; i < length; i++) { if (iso639_2_from_language(eflp[i], code) == FALSE) continue; ret = g_slist_prepend(ret, g_strdup(code)); } if (ret) ret = g_slist_reverse(ret); return ret; } static char **concat_lang_prefs(GSList *a, GSList *b) { GSList *l, *k; char **ret; int i = 0; int total = g_slist_length(a) + g_slist_length(b); if (total == 0) return NULL; ret = g_new0(char *, total + 1); for (l = a; l; l = l->next) ret[i++] = g_strdup(l->data); for (l = b; l; l = l->next) { gboolean duplicate = FALSE; for (k = a; k; k = k->next) if (!strcmp(k->data, l->data)) duplicate = TRUE; if (duplicate) continue; ret[i++] = g_strdup(l->data); } return ret; } static void sim_efpl_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; const char *path = __ofono_atom_get_path(sim->atom); DBusConnection *conn = ofono_dbus_get_connection(); gboolean efli_format = TRUE; GSList *efli = NULL; GSList *efpl = NULL; if (!ok || length < 2) goto skip_efpl; efpl = parse_language_list(data, length); skip_efpl: if (sim->efli && sim->efli_length > 0) { efli_format = sim_efli_format(sim->efli, sim->efli_length); if (efli_format) efli = parse_language_list(sim->efli, sim->efli_length); else efli = parse_eflp(sim->efli, sim->efli_length); } /* * If efli_format is TRUE, make a list of languages in both files in * order of preference following TS 31.102. * Quoting 31.102 Section 5.1.1.2: * The preferred language selection shall always use the EFLI in * preference to the EFPL at the MF unless: * - if the EFLI has the value 'FFFF' in its highest priority position, * then the preferred language selection shall be the language * preference in the EFPL at the MF level * Otherwise in order of preference according to TS 51.011 */ if (efli_format) { if (sim->efli_length >= 2 && sim->efli[0] == 0xff && sim->efli[1] == 0xff) sim->language_prefs = concat_lang_prefs(NULL, efpl); else sim->language_prefs = concat_lang_prefs(efli, efpl); } else { sim->language_prefs = concat_lang_prefs(efpl, efli); } if (sim->efli) { g_free(sim->efli); sim->efli = NULL; sim->efli_length = 0; } if (efli) { g_slist_foreach(efli, (GFunc)g_free, NULL); g_slist_free(efli); } if (efpl) { g_slist_foreach(efpl, (GFunc)g_free, NULL); g_slist_free(efpl); } if (sim->language_prefs != NULL) ofono_dbus_signal_array_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "PreferredLanguages", DBUS_TYPE_STRING, &sim->language_prefs); /* Proceed with sim initialization if we're not merely updating */ if (!sim->language_prefs_update) __ofono_sim_recheck_pin(sim); sim->language_prefs_update = FALSE; } static void sim_iccid_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_sim *sim = userdata; const char *path = __ofono_atom_get_path(sim->atom); DBusConnection *conn = ofono_dbus_get_connection(); char iccid[21]; /* ICCID max length is 20 + 1 for NULL */ if (!ok || length < 10) return; extract_bcd_number(data, length, iccid); iccid[20] = '\0'; sim->iccid = g_strdup(iccid); ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "CardIdentifier", DBUS_TYPE_STRING, &sim->iccid); } static void sim_iccid_changed(int id, void *userdata) { struct ofono_sim *sim = userdata; if (sim->iccid) { g_free(sim->iccid); sim->iccid = NULL; } ofono_sim_read(sim->early_context, SIM_EF_ICCID_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_iccid_read_cb, sim); } static void sim_efli_efpl_changed(int id, void *userdata) { struct ofono_sim *sim = userdata; if (sim->efli != NULL) /* This shouldn't happen */ return; if (sim->language_prefs) { g_strfreev(sim->language_prefs); sim->language_prefs = NULL; } sim->language_prefs_update = TRUE; ofono_sim_read(sim->early_context, SIM_EFLI_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_efli_read_cb, sim); ofono_sim_read(sim->early_context, SIM_EFPL_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_efpl_read_cb, sim); } static void sim_initialize(struct ofono_sim *sim) { /* * Perform SIM initialization according to 3GPP 31.102 Section 5.1.1.2 * The assumption here is that if sim manager is being initialized, * then sim commands are implemented, and the sim manager is then * responsible for checking the PIN, reading the IMSI and signaling * SIM ready condition. * * The procedure according to 31.102, 51.011, 11.11 and CPHS 4.2 is * roughly: * * Read EFecc * Read EFli and EFpl * SIM Pin check * Request SIM phase (only in 51.011) * Administrative information request (read EFad) * Request CPHS Information (only in CPHS 4.2) * Read EFsst (only in 11.11 & 51.011) * Read EFust (only in 31.102) * Read EFest (only in 31.102) * Read IMSI * * At this point we signal the SIM ready condition and allow * arbitrary files to be written or read, assuming their presence * in the EFust */ if (sim->early_context == NULL) sim->early_context = ofono_sim_context_create(sim); /* Grab the EFiccid which is always available */ ofono_sim_read(sim->early_context, SIM_EF_ICCID_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_iccid_read_cb, sim); ofono_sim_add_file_watch(sim->early_context, SIM_EF_ICCID_FILEID, sim_iccid_changed, sim, NULL); /* EFecc is read by the voicecall atom */ /* * According to 31.102 the EFli is read first and EFpl is then * only read if none of the EFli languages are supported by user * interface. 51.011 mandates the exact opposite, making EFpl/EFelp * preferred over EFlp (same EFid as EFli, different format). * However we don't depend on the user interface and so * need to read both files now. */ ofono_sim_read(sim->early_context, SIM_EFLI_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_efli_read_cb, sim); ofono_sim_add_file_watch(sim->early_context, SIM_EFLI_FILEID, sim_efli_efpl_changed, sim, NULL); ofono_sim_read(sim->early_context, SIM_EFPL_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_efpl_read_cb, sim); ofono_sim_add_file_watch(sim->early_context, SIM_EFPL_FILEID, sim_efli_efpl_changed, sim, NULL); } struct ofono_sim_context *ofono_sim_context_create(struct ofono_sim *sim) { if (sim == NULL || sim->simfs == NULL) return NULL; return sim_fs_context_new(sim->simfs); } void ofono_sim_context_free(struct ofono_sim_context *context) { return sim_fs_context_free(context); } int ofono_sim_read_bytes(struct ofono_sim_context *context, int id, unsigned short offset, unsigned short num_bytes, const unsigned char *path, unsigned int len, ofono_sim_file_read_cb_t cb, void *data) { if (num_bytes == 0) return -1; return sim_fs_read(context, id, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, offset, num_bytes, path, len, cb, data); } int ofono_sim_read(struct ofono_sim_context *context, int id, enum ofono_sim_file_structure expected_type, ofono_sim_file_read_cb_t cb, void *data) { return sim_fs_read(context, id, expected_type, 0, 0, NULL, 0, cb, data); } int ofono_sim_write(struct ofono_sim_context *context, int id, ofono_sim_file_write_cb_t cb, enum ofono_sim_file_structure structure, int record, const unsigned char *data, int length, void *userdata) { return sim_fs_write(context, id, cb, structure, record, data, length, userdata); } unsigned int ofono_sim_add_file_watch(struct ofono_sim_context *context, int id, ofono_sim_file_changed_cb_t cb, void *userdata, ofono_destroy_func destroy) { return sim_fs_file_watch_add(context, id, cb, userdata, destroy); } void ofono_sim_remove_file_watch(struct ofono_sim_context *context, unsigned int id) { sim_fs_file_watch_remove(context, id); } const char *ofono_sim_get_imsi(struct ofono_sim *sim) { if (sim == NULL) return NULL; return sim->imsi; } const char *ofono_sim_get_mcc(struct ofono_sim *sim) { if (sim == NULL) return NULL; return sim->mcc; } const char *ofono_sim_get_mnc(struct ofono_sim *sim) { if (sim == NULL) return NULL; return sim->mnc; } const char *ofono_sim_get_spn(struct ofono_sim *sim) { if (sim == NULL) return NULL; return sim->spn; } enum ofono_sim_phase ofono_sim_get_phase(struct ofono_sim *sim) { if (sim == NULL) return OFONO_SIM_PHASE_UNKNOWN; return sim->phase; } enum ofono_sim_cphs_phase ofono_sim_get_cphs_phase(struct ofono_sim *sim) { if (sim == NULL) return OFONO_SIM_CPHS_PHASE_NONE; return sim->cphs_phase; } enum ofono_sim_password_type ofono_sim_get_password_type(struct ofono_sim *sim) { if (sim == NULL) return OFONO_SIM_PASSWORD_NONE; return sim->pin_type; } const unsigned char *ofono_sim_get_cphs_service_table(struct ofono_sim *sim) { if (sim == NULL) return NULL; return sim->cphs_service_table; } ofono_bool_t __ofono_sim_service_available(struct ofono_sim *sim, int ust_service, int sst_service) { if (sim->efust) return sim_ust_is_available(sim->efust, sim->efust_length, ust_service); if (sim->efsst) return sim_sst_is_active(sim->efsst, sim->efsst_length, sst_service); return FALSE; } ofono_bool_t __ofono_sim_cphs_service_available(struct ofono_sim *sim, int cphs_service) { return sim_cphs_is_active(sim->cphs_service_table, cphs_service); } static void sim_inserted_update(struct ofono_sim *sim) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); dbus_bool_t present = sim->state != OFONO_SIM_STATE_NOT_PRESENT; ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "Present", DBUS_TYPE_BOOLEAN, &present); } static void sim_free_early_state(struct ofono_sim *sim) { if (sim->iccid) { g_free(sim->iccid); sim->iccid = NULL; } if (sim->efli) { g_free(sim->efli); sim->efli = NULL; sim->efli_length = 0; } if (sim->language_prefs) { g_strfreev(sim->language_prefs); sim->language_prefs = NULL; } if (sim->early_context) { ofono_sim_context_free(sim->early_context); sim->early_context = NULL; } } static void sim_spn_close(struct ofono_sim *sim) { if (sim->spn_watches) { __ofono_watchlist_free(sim->spn_watches); sim->spn_watches = NULL; } /* * We have not initialized SPN logic at all yet, either because * no netreg / gprs atom has been needed or we have not reached the * post_sim state */ if (sim->ef_spn_watch == 0) return; ofono_sim_remove_file_watch(sim->context, sim->ef_spn_watch); sim->ef_spn_watch = 0; ofono_sim_remove_file_watch(sim->context, sim->cphs_spn_watch); sim->cphs_spn_watch = 0; if (sim->cphs_spn_short_watch) { ofono_sim_remove_file_watch(sim->context, sim->cphs_spn_short_watch); sim->cphs_spn_short_watch = 0; } sim->flags &= ~SIM_FLAG_READING_SPN; g_free(sim->spn); sim->spn = NULL; g_free(sim->spn_dc); sim->spn_dc = NULL; } static void sim_free_main_state(struct ofono_sim *sim) { int i; for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) sim->pin_retries[i] = -1; memset(sim->locked_pins, 0, sizeof(sim->locked_pins)); if (sim->imsi) { g_free(sim->imsi); sim->imsi = NULL; } sim->mcc[0] = '\0'; sim->mnc[0] = '\0'; if (sim->own_numbers) { g_slist_foreach(sim->own_numbers, (GFunc)g_free, NULL); g_slist_free(sim->own_numbers); sim->own_numbers = NULL; } if (sim->service_numbers) { g_slist_foreach(sim->service_numbers, (GFunc)service_number_free, NULL); g_slist_free(sim->service_numbers); sim->service_numbers = NULL; sim->sdn_ready = FALSE; } if (sim->efust) { g_free(sim->efust); sim->efust = NULL; sim->efust_length = 0; } if (sim->efest) { g_free(sim->efest); sim->efest = NULL; sim->efest_length = 0; } if (sim->efsst) { g_free(sim->efsst); sim->efsst = NULL; sim->efsst_length = 0; } sim->phase = OFONO_SIM_PHASE_UNKNOWN; sim->cphs_phase = OFONO_SIM_CPHS_PHASE_NONE; sim->mnc_length = 0; memset(sim->cphs_service_table, 0, 2); if (sim->efimg) { g_free(sim->efimg); sim->efimg = NULL; sim->efimg_length = 0; g_free(sim->iidf_watch_ids); sim->iidf_watch_ids = NULL; } g_free(sim->iidf_image); sim->iidf_image = NULL; sim->fixed_dialing = FALSE; sim->barred_dialing = FALSE; sim_spn_close(sim); if (sim->context) { ofono_sim_context_free(sim->context); sim->context = NULL; } } static void sim_free_state(struct ofono_sim *sim) { sim_free_early_state(sim); sim_free_main_state(sim); } void ofono_sim_inserted_notify(struct ofono_sim *sim, ofono_bool_t inserted) { if (sim->state == OFONO_SIM_STATE_RESETTING && inserted) { /* * Start initialization procedure from after EFiccid, * EFli and EFpl are retrieved. */ sim->state = OFONO_SIM_STATE_INSERTED; __ofono_sim_recheck_pin(sim); return; } if (inserted == TRUE && sim->state == OFONO_SIM_STATE_NOT_PRESENT) sim->state = OFONO_SIM_STATE_INSERTED; else if (inserted == FALSE && sim->state != OFONO_SIM_STATE_NOT_PRESENT) sim->state = OFONO_SIM_STATE_NOT_PRESENT; else return; if (!__ofono_atom_get_registered(sim->atom)) return; sim_inserted_update(sim); call_state_watches(sim); if (inserted) { sim_initialize(sim); } else { sim->pin_type = OFONO_SIM_PASSWORD_NONE; sim_free_state(sim); } } unsigned int ofono_sim_add_state_watch(struct ofono_sim *sim, ofono_sim_state_event_cb_t notify, void *data, ofono_destroy_func destroy) { struct ofono_watchlist_item *item; DBG("%p", sim); if (sim == NULL) return 0; if (notify == NULL) return 0; item = g_new0(struct ofono_watchlist_item, 1); item->notify = notify; item->destroy = destroy; item->notify_data = data; return __ofono_watchlist_add_item(sim->state_watches, item); } void ofono_sim_remove_state_watch(struct ofono_sim *sim, unsigned int id) { __ofono_watchlist_remove_item(sim->state_watches, id); } enum ofono_sim_state ofono_sim_get_state(struct ofono_sim *sim) { if (sim == NULL) return OFONO_SIM_STATE_NOT_PRESENT; return sim->state; } static void spn_watch_cb(gpointer data, gpointer user_data) { struct ofono_watchlist_item *item = data; struct ofono_sim *sim = user_data; if (item->notify) ((ofono_sim_spn_cb_t) item->notify)(sim->spn, sim->spn_dc, item->notify_data); } static inline void spn_watches_notify(struct ofono_sim *sim) { if (sim->spn_watches->items) g_slist_foreach(sim->spn_watches->items, spn_watch_cb, sim); sim->flags &= ~SIM_FLAG_READING_SPN; } static void sim_spn_set(struct ofono_sim *sim, const void *data, int length, const unsigned char *dc) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); g_free(sim->spn); sim->spn = NULL; g_free(sim->spn_dc); sim->spn_dc = NULL; if (data == NULL) goto notify; /* * TS 31.102 says: * * the string shall use: * * - either the SMS default 7-bit coded alphabet as defined in * TS 23.038 [5] with bit 8 set to 0. The string shall be left * justified. Unused bytes shall be set to 'FF'. * * - or one of the UCS2 code options defined in the annex of TS * 31.101 [11]. * * 31.101 has no such annex though. 51.101 refers to Annex B of * itself which is not there either. 11.11 contains the same * paragraph as 51.101 and has an Annex B which we implement. */ sim->spn = sim_string_to_utf8(data, length); if (sim->spn == NULL) { ofono_error("EFspn read successfully, but couldn't parse"); goto notify; } if (strlen(sim->spn) == 0) { g_free(sim->spn); sim->spn = NULL; goto notify; } if (dc) sim->spn_dc = g_memdup(dc, 1); notify: if (sim->spn) ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "ServiceProviderName", DBUS_TYPE_STRING, &sim->spn); spn_watches_notify(sim); } static void sim_cphs_spn_short_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *user_data) { struct ofono_sim *sim = user_data; if (!ok) { sim_spn_set(sim, NULL, 0, NULL); return; } sim_spn_set(sim, data, length, NULL); } static void sim_cphs_spn_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *user_data) { struct ofono_sim *sim = user_data; if (!ok) { if (__ofono_sim_cphs_service_available(sim, SIM_CPHS_SERVICE_SHORT_SPN)) ofono_sim_read(sim->context, SIM_EF_CPHS_SPN_SHORT_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_cphs_spn_short_read_cb, sim); else sim_spn_set(sim, NULL, 0, NULL); return; } sim_spn_set(sim, data, length, NULL); } static void sim_spn_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *user_data) { struct ofono_sim *sim = user_data; if (!ok) { ofono_sim_read(sim->context, SIM_EF_CPHS_SPN_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_cphs_spn_read_cb, sim); return; } sim_spn_set(sim, data + 1, length - 1, data); } static void sim_spn_changed(int id, void *userdata) { struct ofono_sim *sim = userdata; if (sim->flags & SIM_FLAG_READING_SPN) return; sim->flags |= SIM_FLAG_READING_SPN; ofono_sim_read(sim->context, SIM_EFSPN_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_spn_read_cb, sim); } static void sim_spn_init(struct ofono_sim *sim) { sim->ef_spn_watch = ofono_sim_add_file_watch(sim->context, SIM_EFSPN_FILEID, sim_spn_changed, sim, NULL); sim->cphs_spn_watch = ofono_sim_add_file_watch(sim->context, SIM_EF_CPHS_SPN_FILEID, sim_spn_changed, sim, NULL); if (__ofono_sim_cphs_service_available(sim, SIM_CPHS_SERVICE_SHORT_SPN)) sim->cphs_spn_short_watch = ofono_sim_add_file_watch( sim->context, SIM_EF_CPHS_SPN_SHORT_FILEID, sim_spn_changed, sim, NULL); } ofono_bool_t ofono_sim_add_spn_watch(struct ofono_sim *sim, unsigned int *id, ofono_sim_spn_cb_t cb, void *data, ofono_destroy_func destroy) { struct ofono_watchlist_item *item; unsigned int watch_id; DBG("%p", sim); if (sim == NULL) return 0; item = g_new0(struct ofono_watchlist_item, 1); item->notify = cb; item->destroy = destroy; item->notify_data = data; watch_id = __ofono_watchlist_add_item(sim->spn_watches, item); if (watch_id == 0) return FALSE; *id = watch_id; if (sim->ef_spn_watch == 0) { sim_spn_init(sim); sim_spn_changed(0, sim); return TRUE; } if (sim->flags & SIM_FLAG_READING_SPN) return TRUE; ((ofono_sim_spn_cb_t) item->notify)(sim->spn, sim->spn_dc, item->notify_data); return TRUE; } ofono_bool_t ofono_sim_remove_spn_watch(struct ofono_sim *sim, unsigned int *id) { gboolean ret; DBG("%p", sim); if (sim == NULL) return FALSE; ret = __ofono_watchlist_remove_item(sim->spn_watches, *id); if (ret == TRUE) *id = 0; return ret; } static void sim_pin_query_cb(const struct ofono_error *error, enum ofono_sim_password_type pin_type, void *data) { struct ofono_sim *sim = data; DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(sim->atom); const char *pin_name; char **locked_pins; gboolean lock_changed; DBG("sim->pin_type: %d, pin_type: %d", sim->pin_type, pin_type); if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { ofono_error("Querying PIN authentication state failed"); return; } if (sim->pin_type != pin_type) { sim->pin_type = pin_type; pin_name = sim_passwd_name(pin_type); if (pin_type != OFONO_SIM_PASSWORD_NONE && password_is_pin(pin_type) == FALSE) pin_type = puk2pin(pin_type); if (pin_type != OFONO_SIM_PASSWORD_INVALID && pin_type != OFONO_SIM_PASSWORD_NONE) { lock_changed = !sim->locked_pins[pin_type]; sim->locked_pins[pin_type] = TRUE; if (lock_changed) { locked_pins = get_locked_pins(sim); ofono_dbus_signal_array_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "LockedPins", DBUS_TYPE_STRING, &locked_pins); g_strfreev(locked_pins); } } ofono_dbus_signal_property_changed(conn, path, OFONO_SIM_MANAGER_INTERFACE, "PinRequired", DBUS_TYPE_STRING, &pin_name); } switch (pin_type) { case OFONO_SIM_PASSWORD_NONE: case OFONO_SIM_PASSWORD_SIM_PIN2: case OFONO_SIM_PASSWORD_SIM_PUK2: break; default: if (sim->state == OFONO_SIM_STATE_READY) { /* Force the sim state out of READY */ sim_free_main_state(sim); sim->state = OFONO_SIM_STATE_LOCKED_OUT; call_state_watches(sim); } break; } sim_pin_retries_check(sim); switch (pin_type) { case OFONO_SIM_PASSWORD_SIM_PIN2: case OFONO_SIM_PASSWORD_SIM_PUK2: case OFONO_SIM_PASSWORD_NONE: if (sim->state == OFONO_SIM_STATE_READY) break; /* Fall through */ sim_initialize_after_pin(sim); break; default: break; } } void __ofono_sim_recheck_pin(struct ofono_sim *sim) { if (sim->driver->query_passwd_state == NULL) { sim_initialize_after_pin(sim); return; } sim->driver->query_passwd_state(sim, sim_pin_query_cb, sim); } int ofono_sim_driver_register(const struct ofono_sim_driver *d) { DBG("driver: %p, name: %s", d, d->name); if (d->probe == NULL) return -EINVAL; g_drivers = g_slist_prepend(g_drivers, (void *) d); return 0; } void ofono_sim_driver_unregister(const struct ofono_sim_driver *d) { DBG("driver: %p, name: %s", d, d->name); g_drivers = g_slist_remove(g_drivers, (void *) d); } static void emulator_remove_handler(struct ofono_atom *atom, void *data) { struct ofono_emulator *em = __ofono_atom_get_data(atom); ofono_emulator_remove_handler(em, data); } static void sim_unregister(struct ofono_atom *atom) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_modem *modem = __ofono_atom_get_modem(atom); const char *path = __ofono_atom_get_path(atom); struct ofono_sim *sim = __ofono_atom_get_data(atom); __ofono_modem_foreach_registered_atom(modem, OFONO_ATOM_TYPE_EMULATOR_HFP, emulator_remove_handler, "+CNUM"); __ofono_modem_remove_atom_watch(modem, sim->hfp_watch); __ofono_watchlist_free(sim->state_watches); sim->state_watches = NULL; g_dbus_unregister_interface(conn, path, OFONO_SIM_MANAGER_INTERFACE); ofono_modem_remove_interface(modem, OFONO_SIM_MANAGER_INTERFACE); } static void sim_remove(struct ofono_atom *atom) { struct ofono_sim *sim = __ofono_atom_get_data(atom); DBG("atom: %p", atom); if (sim == NULL) return; if (sim->driver != NULL && sim->driver->remove != NULL) sim->driver->remove(sim); sim_free_state(sim); sim_fs_free(sim->simfs); sim->simfs = NULL; g_free(sim); } struct ofono_sim *ofono_sim_create(struct ofono_modem *modem, unsigned int vendor, const char *driver, void *data) { struct ofono_sim *sim; GSList *l; int i; if (driver == NULL) return NULL; sim = g_try_new0(struct ofono_sim, 1); if (sim == NULL) return NULL; sim->phase = OFONO_SIM_PHASE_UNKNOWN; sim->atom = __ofono_modem_add_atom(modem, OFONO_ATOM_TYPE_SIM, sim_remove, sim); for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) sim->pin_retries[i] = -1; for (l = g_drivers; l; l = l->next) { const struct ofono_sim_driver *drv = l->data; if (g_strcmp0(drv->name, driver)) continue; if (drv->probe(sim, vendor, data) < 0) continue; sim->driver = drv; break; } return sim; } static void emulator_cnum_cb(struct ofono_emulator *em, struct ofono_emulator_request *req, void *userdata) { struct ofono_sim *sim = userdata; struct ofono_error result; GSList *l; const char *phone; /* * '+CNUM: ,"+",,,4' + phone number + phone type on 3 digits max * + terminating null */ char buf[OFONO_MAX_PHONE_NUMBER_LENGTH + 18 + 1]; result.error = 0; switch (ofono_emulator_request_get_type(req)) { case OFONO_EMULATOR_REQUEST_TYPE_COMMAND_ONLY: for (l = sim->own_numbers; l; l = l->next) { struct ofono_phone_number *ph = l->data; phone = phone_number_to_string(ph); sprintf(buf, "+CNUM: ,\"%s\",%d,,4", phone, ph->type); ofono_emulator_send_info(em, buf, l->next == NULL ? TRUE : FALSE); } result.type = OFONO_ERROR_TYPE_NO_ERROR; ofono_emulator_send_final(em, &result); break; default: result.type = OFONO_ERROR_TYPE_FAILURE; ofono_emulator_send_final(em, &result); }; } static void emulator_hfp_watch(struct ofono_atom *atom, enum ofono_atom_watch_condition cond, void *data) { struct ofono_emulator *em = __ofono_atom_get_data(atom); if (cond == OFONO_ATOM_WATCH_CONDITION_REGISTERED) ofono_emulator_add_handler(em, "+CNUM", emulator_cnum_cb, data, NULL); } void ofono_sim_register(struct ofono_sim *sim) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_modem *modem = __ofono_atom_get_modem(sim->atom); const char *path = __ofono_atom_get_path(sim->atom); if (!g_dbus_register_interface(conn, path, OFONO_SIM_MANAGER_INTERFACE, sim_methods, sim_signals, NULL, sim, NULL)) { ofono_error("Could not create %s interface", OFONO_SIM_MANAGER_INTERFACE); return; } ofono_modem_add_interface(modem, OFONO_SIM_MANAGER_INTERFACE); sim->state_watches = __ofono_watchlist_new(g_free); sim->simfs = sim_fs_new(sim, sim->driver); __ofono_atom_register(sim->atom, sim_unregister); ofono_sim_add_state_watch(sim, sim_ready, sim, NULL); if (sim->state > OFONO_SIM_STATE_NOT_PRESENT) sim_initialize(sim); sim->hfp_watch = __ofono_modem_add_atom_watch(modem, OFONO_ATOM_TYPE_EMULATOR_HFP, emulator_hfp_watch, sim, NULL); } void ofono_sim_remove(struct ofono_sim *sim) { __ofono_atom_free(sim->atom); } void ofono_sim_set_data(struct ofono_sim *sim, void *data) { sim->driver_data = data; } void *ofono_sim_get_data(struct ofono_sim *sim) { return sim->driver_data; } static ofono_bool_t is_valid_pin(const char *pin, unsigned int min, unsigned int max) { unsigned int i; /* Pin must not be empty */ if (pin == NULL || pin[0] == '\0') return FALSE; i = strlen(pin); if (i != strspn(pin, "0123456789")) return FALSE; if (min <= i && i <= max) return TRUE; return FALSE; } ofono_bool_t __ofono_is_valid_sim_pin(const char *pin, enum ofono_sim_password_type type) { switch (type) { case OFONO_SIM_PASSWORD_SIM_PIN: case OFONO_SIM_PASSWORD_SIM_PIN2: /* 11.11 Section 9.3 ("CHV"): 4..8 IA-5 digits */ return is_valid_pin(pin, 4, 8); break; case OFONO_SIM_PASSWORD_PHSIM_PIN: case OFONO_SIM_PASSWORD_PHFSIM_PIN: case OFONO_SIM_PASSWORD_PHNET_PIN: case OFONO_SIM_PASSWORD_PHNETSUB_PIN: case OFONO_SIM_PASSWORD_PHSP_PIN: case OFONO_SIM_PASSWORD_PHCORP_PIN: /* 22.022 Section 14 4..16 IA-5 digits */ return is_valid_pin(pin, 4, 16); break; case OFONO_SIM_PASSWORD_SIM_PUK: case OFONO_SIM_PASSWORD_SIM_PUK2: case OFONO_SIM_PASSWORD_PHFSIM_PUK: case OFONO_SIM_PASSWORD_PHNET_PUK: case OFONO_SIM_PASSWORD_PHNETSUB_PUK: case OFONO_SIM_PASSWORD_PHSP_PUK: case OFONO_SIM_PASSWORD_PHCORP_PUK: /* 11.11 Section 9.3 ("UNBLOCK CHV"), 8 IA-5 digits */ return is_valid_pin(pin, 8, 8); break; case OFONO_SIM_PASSWORD_NONE: return is_valid_pin(pin, 0, 8); break; case OFONO_SIM_PASSWORD_INVALID: break; } return FALSE; } ofono_bool_t __ofono_is_valid_net_pin(const char *pin) { return is_valid_pin(pin, 4, 4); } static void sim_file_changed_flush(struct ofono_sim *sim, int id) { int i, imgid; if (id == SIM_EFIMG_FILEID) /* All cached images become invalid */ sim_fs_image_cache_flush(sim->simfs); else if (sim->efimg) { /* * Data and CLUT for image instances stored in the changed * file need to be re-read. */ for (i = sim->efimg_length / 9 - 1; i >= 0; i--) { imgid = (sim->efimg[i * 9 + 3] << 8) | sim->efimg[i * 9 + 4]; if (imgid == id) sim_fs_image_cache_flush_file(sim->simfs, i); } } sim_fs_cache_flush_file(sim->simfs, id); } void __ofono_sim_refresh(struct ofono_sim *sim, GSList *file_list, ofono_bool_t full_file_change, ofono_bool_t naa_init) { GSList *l; gboolean reinit_naa = naa_init || full_file_change; /* * Check if any files used in SIM initialisation procedure * are affected, except EFiccid, EFpl, EFli. */ for (l = file_list; l; l = l->next) { struct stk_file *file = l->data; uint32_t mf, df, ef; if (file->len != 6) continue; mf = (file->file[0] << 8) | (file->file[1] << 0); df = (file->file[2] << 8) | (file->file[3] << 0); ef = (file->file[4] << 8) | (file->file[5] << 0); if (mf != 0x3f00) continue; /* * 8.18: "the path '3F007FFF' indicates the relevant * NAA Application dedicated file;". */ if (df == 0x7fff) df = 0x7f20; #define DFGSM (0x7f20 << 16) #define DFTEL (0x7f10 << 16) switch ((df << 16) | ef) { case DFGSM | SIM_EFEST_FILEID: case DFGSM | SIM_EFUST_FILEID: /* aka. EFSST */ case DFGSM | SIM_EFPHASE_FILEID: case DFGSM | SIM_EFAD_FILEID: case DFTEL | SIM_EFBDN_FILEID: case DFTEL | SIM_EFADN_FILEID: case DFGSM | SIM_EF_CPHS_INFORMATION_FILEID: reinit_naa = TRUE; break; } } /* Flush cached content for affected files */ if (full_file_change) sim_fs_cache_flush(sim->simfs); else { for (l = file_list; l; l = l->next) { struct stk_file *file = l->data; int id = (file->file[file->len - 2] << 8) | (file->file[file->len - 1] << 0); sim_file_changed_flush(sim, id); } } if (reinit_naa) { sim->state = OFONO_SIM_STATE_RESETTING; __ofono_modem_sim_reset(__ofono_atom_get_modem(sim->atom)); /* Force the sim state out of READY */ sim_free_main_state(sim); call_state_watches(sim); } /* * Notify the subscribers of files that have changed and who * haven't unsubsribed during the SIM state change. */ if (full_file_change) sim_fs_notify_file_watches(sim->simfs, -1); else { for (l = file_list; l; l = l->next) { struct stk_file *file = l->data; int id = (file->file[file->len - 2] << 8) | (file->file[file->len - 1] << 0); sim_fs_notify_file_watches(sim->simfs, id); } } }