/* * * oFono - Open Source Telephony * * Copyright (C) 2008-2010 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 #include #include #include #include #include #include "ofono.h" #include "common.h" #include "simutil.h" #include "util.h" #include "storage.h" #define NETWORK_REGISTRATION_FLAG_HOME_SHOW_PLMN 0x1 #define NETWORK_REGISTRATION_FLAG_ROAMING_SHOW_SPN 0x2 enum network_registration_mode { NETWORK_REGISTRATION_MODE_AUTO = 0, NETWORK_REGISTRATION_MODE_MANUAL = 2, NETWORK_REGISTRATION_MODE_AUTO_ONLY = 5, /* Out of range of 27.007 */ }; #define SETTINGS_STORE "netreg" #define SETTINGS_GROUP "Settings" static GSList *g_drivers = NULL; /* 27.007 Section 7.3 */ enum operator_status { OPERATOR_STATUS_UNKNOWN = 0, OPERATOR_STATUS_AVAILABLE = 1, OPERATOR_STATUS_CURRENT = 2, OPERATOR_STATUS_FORBIDDEN = 3, }; struct ofono_netreg { int status; int location; int cellid; int technology; int mode; char *base_station; struct network_operator_data *current_operator; GSList *operator_list; struct ofono_network_registration_ops *ops; int flags; DBusMessage *pending; int signal_strength; char *spname; struct sim_spdi *spdi; struct sim_eons *eons; struct ofono_sim *sim; struct ofono_sim_context *sim_context; GKeyFile *settings; char *imsi; struct ofono_watchlist *status_watches; const struct ofono_netreg_driver *driver; void *driver_data; struct ofono_atom *atom; unsigned int hfp_watch; }; struct network_operator_data { char name[OFONO_MAX_OPERATOR_NAME_LENGTH + 1]; char mcc[OFONO_MAX_MCC_LENGTH + 1]; char mnc[OFONO_MAX_MNC_LENGTH + 1]; int status; unsigned int techs; const struct sim_eons_operator_info *eons_info; struct ofono_netreg *netreg; }; static const char *registration_mode_to_string(int mode) { switch (mode) { case NETWORK_REGISTRATION_MODE_AUTO: return "auto"; case NETWORK_REGISTRATION_MODE_AUTO_ONLY: return "auto-only"; case NETWORK_REGISTRATION_MODE_MANUAL: return "manual"; } return "unknown"; } static inline const char *network_operator_status_to_string(int status) { switch (status) { case OPERATOR_STATUS_AVAILABLE: return "available"; case OPERATOR_STATUS_CURRENT: return "current"; case OPERATOR_STATUS_FORBIDDEN: return "forbidden"; } return "unknown"; } static char **network_operator_technologies(struct network_operator_data *opd) { unsigned int ntechs = 0; char **techs; unsigned int i; for (i = 0; i < sizeof(opd->techs) * 8; i++) { if (opd->techs & (1 << i)) ntechs += 1; } techs = g_new0(char *, ntechs + 1); ntechs = 0; for (i = 0; i < sizeof(opd->techs) * 8; i++) { if (!(opd->techs & (1 << i))) continue; techs[ntechs++] = g_strdup(registration_tech_to_string(i)); } return techs; } static void registration_status_callback(const struct ofono_error *error, int status, int lac, int ci, int tech, void *data) { struct ofono_netreg *netreg = data; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBG("Error during registration status query"); return; } ofono_netreg_status_notify(netreg, status, lac, ci, tech); } static void init_register(const struct ofono_error *error, void *data) { struct ofono_netreg *netreg = data; if (netreg->driver->registration_status == NULL) return; netreg->driver->registration_status(netreg, registration_status_callback, netreg); } static void enforce_auto_only(struct ofono_netreg *netreg) { if (netreg->mode != NETWORK_REGISTRATION_MODE_MANUAL) return; if (netreg->driver->register_auto == NULL) return; netreg->driver->register_auto(netreg, init_register, netreg); } static void set_registration_mode(struct ofono_netreg *netreg, int mode) { DBusConnection *conn; const char *strmode; const char *path; if (netreg->mode == mode) return; if (mode == NETWORK_REGISTRATION_MODE_AUTO_ONLY) enforce_auto_only(netreg); netreg->mode = mode; if (netreg->settings) { const char *mode; if (netreg->mode == NETWORK_REGISTRATION_MODE_MANUAL) mode = "manual"; else mode = "auto"; g_key_file_set_string(netreg->settings, SETTINGS_GROUP, "Mode", mode); storage_sync(netreg->imsi, SETTINGS_STORE, netreg->settings); } strmode = registration_mode_to_string(mode); conn = ofono_dbus_get_connection(); path = __ofono_atom_get_path(netreg->atom); ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Mode", DBUS_TYPE_STRING, &strmode); } static void register_callback(const struct ofono_error *error, void *data) { struct ofono_netreg *netreg = data; DBusMessage *reply; if (error->type == OFONO_ERROR_TYPE_NO_ERROR) reply = dbus_message_new_method_return(netreg->pending); else reply = __ofono_error_failed(netreg->pending); __ofono_dbus_pending_reply(&netreg->pending, reply); if (netreg->driver->registration_status == NULL) return; netreg->driver->registration_status(netreg, registration_status_callback, netreg); } static struct network_operator_data * network_operator_create(const struct ofono_network_operator *op) { struct network_operator_data *opd; opd = g_new0(struct network_operator_data, 1); memcpy(&opd->name, op->name, sizeof(opd->name)); memcpy(&opd->mcc, op->mcc, sizeof(opd->mcc)); memcpy(&opd->mnc, op->mnc, sizeof(opd->mnc)); opd->status = op->status; if (op->tech != -1) opd->techs |= 1 << op->tech; return opd; } static void network_operator_destroy(gpointer user_data) { struct network_operator_data *op = user_data; g_free(op); } static gint network_operator_compare(gconstpointer a, gconstpointer b) { const struct network_operator_data *opda = a; const struct ofono_network_operator *opb = b; int comp1; int comp2; comp1 = strcmp(opda->mcc, opb->mcc); comp2 = strcmp(opda->mnc, opb->mnc); return comp1 != 0 ? comp1 : comp2; } static gint network_operator_data_compare(gconstpointer a, gconstpointer b) { const struct network_operator_data *opa = a; const struct network_operator_data *opb = b; int comp1; int comp2; comp1 = strcmp(opa->mcc, opb->mcc); comp2 = strcmp(opa->mnc, opb->mnc); return comp1 != 0 ? comp1 : comp2; } static const char *network_operator_build_path(struct ofono_netreg *netreg, const char *mcc, const char *mnc) { static char path[256]; snprintf(path, sizeof(path), "%s/operator/%s%s", __ofono_atom_get_path(netreg->atom), mcc, mnc); return path; } static void set_network_operator_status(struct network_operator_data *opd, int status) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_netreg *netreg = opd->netreg; const char *status_str; const char *path; if (opd->status == status) return; opd->status = status; /* Don't emit for the case where only operator name is reported */ if (opd->mcc[0] == '\0' && opd->mnc[0] == '\0') return; status_str = network_operator_status_to_string(status); path = network_operator_build_path(netreg, opd->mcc, opd->mnc); ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_OPERATOR_INTERFACE, "Status", DBUS_TYPE_STRING, &status_str); } static void set_network_operator_techs(struct network_operator_data *opd, unsigned int techs) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_netreg *netreg = opd->netreg; char **technologies; const char *path; if (opd->techs == techs) return; opd->techs = techs; technologies = network_operator_technologies(opd); path = network_operator_build_path(netreg, opd->mcc, opd->mnc); ofono_dbus_signal_array_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Technologies", DBUS_TYPE_STRING, &technologies); g_strfreev(technologies); } static char *get_operator_display_name(struct ofono_netreg *netreg) { struct network_operator_data *opd = netreg->current_operator; const char *plmn; static char name[1024]; static char mccmnc[OFONO_MAX_MCC_LENGTH + OFONO_MAX_MNC_LENGTH + 1]; int len = sizeof(name); int home_or_spdi; /* * The name displayed to user depends on whether we're in a home * PLMN or roaming and on configuration bits from the SIM, all * together there are four cases to consider. */ if (opd == NULL) { g_strlcpy(name, "", len); return name; } plmn = opd->name; /* * This is a fallback on some really broken hardware which do not * report the COPS name */ if (plmn[0] == '\0') { snprintf(mccmnc, sizeof(mccmnc), "%s%s", opd->mcc, opd->mnc); plmn = mccmnc; } if (opd->eons_info && opd->eons_info->longname) plmn = opd->eons_info->longname; if (netreg->spname == NULL || strlen(netreg->spname) == 0) { g_strlcpy(name, plmn, len); return name; } if (netreg->status == NETWORK_REGISTRATION_STATUS_REGISTERED) home_or_spdi = TRUE; else home_or_spdi = sim_spdi_lookup(netreg->spdi, opd->mcc, opd->mnc); if (home_or_spdi) if (netreg->flags & NETWORK_REGISTRATION_FLAG_HOME_SHOW_PLMN) /* Case 1 */ snprintf(name, len, "%s (%s)", netreg->spname, plmn); else /* Case 2 */ snprintf(name, len, "%s", netreg->spname); else if (netreg->flags & NETWORK_REGISTRATION_FLAG_ROAMING_SHOW_SPN) /* Case 3 */ snprintf(name, len, "%s (%s)", netreg->spname, plmn); else /* Case 4 */ snprintf(name, len, "%s", plmn); return name; } static void set_network_operator_name(struct network_operator_data *opd, const char *name) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_netreg *netreg = opd->netreg; const char *path; const char *operator; if (name[0] == '\0') return; if (!strncmp(opd->name, name, OFONO_MAX_OPERATOR_NAME_LENGTH)) return; strncpy(opd->name, name, OFONO_MAX_OPERATOR_NAME_LENGTH); opd->name[OFONO_MAX_OPERATOR_NAME_LENGTH] = '\0'; /* * If we have Enhanced Operator Name info on the SIM, we always use * that, so do not need to emit the signal here */ if (opd->eons_info && opd->eons_info->longname) return; if (opd == netreg->current_operator) { const char *path = __ofono_atom_get_path(netreg->atom); operator = get_operator_display_name(netreg); ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Name", DBUS_TYPE_STRING, &operator); } /* Don't emit when only operator name is reported */ if (opd->mcc[0] == '\0' && opd->mnc[0] == '\0') return; path = network_operator_build_path(netreg, opd->mcc, opd->mnc); ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_OPERATOR_INTERFACE, "Name", DBUS_TYPE_STRING, &name); } static void set_network_operator_eons_info(struct network_operator_data *opd, const struct sim_eons_operator_info *eons_info) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_netreg *netreg = opd->netreg; const struct sim_eons_operator_info *old_eons_info = opd->eons_info; const char *path; const char *oldname; const char *newname; const char *oldinfo; const char *newinfo; if (old_eons_info == NULL && eons_info == NULL) return; path = network_operator_build_path(netreg, opd->mcc, opd->mnc); opd->eons_info = eons_info; if (old_eons_info && old_eons_info->longname) oldname = old_eons_info->longname; else oldname = opd->name; if (eons_info && eons_info->longname) newname = eons_info->longname; else newname = opd->name; if (oldname != newname && strcmp(oldname, newname)) { ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_OPERATOR_INTERFACE, "Name", DBUS_TYPE_STRING, &newname); if (opd == netreg->current_operator) { const char *npath = __ofono_atom_get_path(netreg->atom); const char *operator = get_operator_display_name(netreg); ofono_dbus_signal_property_changed(conn, npath, OFONO_NETWORK_REGISTRATION_INTERFACE, "Name", DBUS_TYPE_STRING, &operator); } } if (old_eons_info && old_eons_info->info) oldinfo = old_eons_info->info; else oldinfo = ""; if (eons_info && eons_info->info) newinfo = eons_info->info; else newinfo = ""; if (oldinfo != newinfo && strcmp(oldinfo, newinfo)) ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_OPERATOR_INTERFACE, "AdditionalInformation", DBUS_TYPE_STRING, &newinfo); } static void append_operator_properties(struct network_operator_data *opd, DBusMessageIter *dict) { const char *name = opd->name; const char *status = network_operator_status_to_string(opd->status); char mccmnc[OFONO_MAX_MCC_LENGTH + OFONO_MAX_MNC_LENGTH + 1]; if (opd->eons_info && opd->eons_info->longname) name = opd->eons_info->longname; if (name[0] == '\0') { snprintf(mccmnc, sizeof(mccmnc), "%s%s", opd->mcc, opd->mnc); name = mccmnc; } ofono_dbus_dict_append(dict, "Name", DBUS_TYPE_STRING, &name); ofono_dbus_dict_append(dict, "Status", DBUS_TYPE_STRING, &status); if (*opd->mcc != '\0') { const char *mcc = opd->mcc; ofono_dbus_dict_append(dict, "MobileCountryCode", DBUS_TYPE_STRING, &mcc); } if (*opd->mnc != '\0') { const char *mnc = opd->mnc; ofono_dbus_dict_append(dict, "MobileNetworkCode", DBUS_TYPE_STRING, &mnc); } if (opd->techs != 0) { char **technologies = network_operator_technologies(opd); ofono_dbus_dict_append_array(dict, "Technologies", DBUS_TYPE_STRING, &technologies); g_strfreev(technologies); } if (opd->eons_info && opd->eons_info->info) { const char *additional = opd->eons_info->info; ofono_dbus_dict_append(dict, "AdditionalInformation", DBUS_TYPE_STRING, &additional); } } static DBusMessage *network_operator_get_properties(DBusConnection *conn, DBusMessage *msg, void *data) { struct network_operator_data *opd = data; DBusMessage *reply; DBusMessageIter iter; DBusMessageIter dict; 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); append_operator_properties(opd, &dict); dbus_message_iter_close_container(&iter, &dict); return reply; } static DBusMessage *network_operator_register(DBusConnection *conn, DBusMessage *msg, void *data) { struct network_operator_data *opd = data; struct ofono_netreg *netreg = opd->netreg; if (netreg->mode == NETWORK_REGISTRATION_MODE_AUTO_ONLY) return __ofono_error_access_denied(msg); if (netreg->pending) return __ofono_error_busy(msg); if (netreg->driver->register_manual == NULL) return __ofono_error_not_implemented(msg); netreg->pending = dbus_message_ref(msg); netreg->driver->register_manual(netreg, opd->mcc, opd->mnc, register_callback, netreg); set_registration_mode(netreg, NETWORK_REGISTRATION_MODE_MANUAL); return NULL; } static GDBusMethodTable network_operator_methods[] = { { "GetProperties", "", "a{sv}", network_operator_get_properties }, { "Register", "", "", network_operator_register, G_DBUS_METHOD_FLAG_ASYNC }, { } }; static GDBusSignalTable network_operator_signals[] = { { "PropertyChanged", "sv" }, { } }; static gboolean network_operator_dbus_register(struct ofono_netreg *netreg, struct network_operator_data *opd) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path; path = network_operator_build_path(netreg, opd->mcc, opd->mnc); if (!g_dbus_register_interface(conn, path, OFONO_NETWORK_OPERATOR_INTERFACE, network_operator_methods, network_operator_signals, NULL, opd, network_operator_destroy)) { ofono_error("Could not register NetworkOperator %s", path); return FALSE; } opd->netreg = netreg; opd->eons_info = NULL; if (netreg->eons) opd->eons_info = sim_eons_lookup(netreg->eons, opd->mcc, opd->mnc); return TRUE; } static gboolean network_operator_dbus_unregister(struct ofono_netreg *netreg, struct network_operator_data *opd) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path; path = network_operator_build_path(netreg, opd->mcc, opd->mnc); return g_dbus_unregister_interface(conn, path, OFONO_NETWORK_OPERATOR_INTERFACE); } static GSList *compress_operator_list(const struct ofono_network_operator *list, int total) { GSList *oplist = 0; GSList *o; int i; struct network_operator_data *opd; for (i = 0; i < total; i++) { o = NULL; if (oplist) o = g_slist_find_custom(oplist, &list[i], network_operator_compare); if (o == NULL) { opd = network_operator_create(&list[i]); oplist = g_slist_prepend(oplist, opd); } else if (o && list[i].tech != -1) { opd = o->data; opd->techs |= 1 << list[i].tech; } } if (oplist) oplist = g_slist_reverse(oplist); return oplist; } static gboolean update_operator_list(struct ofono_netreg *netreg, int total, const struct ofono_network_operator *list) { GSList *n = NULL; GSList *o; GSList *compressed; GSList *c; gboolean changed = FALSE; compressed = compress_operator_list(list, total); for (c = compressed; c; c = c->next) { struct network_operator_data *copd = c->data; o = g_slist_find_custom(netreg->operator_list, copd, network_operator_data_compare); if (o) { /* Update and move to a new list */ set_network_operator_status(o->data, copd->status); set_network_operator_techs(o->data, copd->techs); set_network_operator_name(o->data, copd->name); n = g_slist_prepend(n, o->data); netreg->operator_list = g_slist_remove(netreg->operator_list, o->data); } else { /* New operator */ struct network_operator_data *opd; opd = g_memdup(copd, sizeof(struct network_operator_data)); if (!network_operator_dbus_register(netreg, opd)) { g_free(opd); continue; } n = g_slist_prepend(n, opd); changed = TRUE; } } g_slist_foreach(compressed, (GFunc)g_free, NULL); g_slist_free(compressed); if (n) n = g_slist_reverse(n); if (netreg->operator_list) changed = TRUE; for (o = netreg->operator_list; o; o = o->next) network_operator_dbus_unregister(netreg, o->data); g_slist_free(netreg->operator_list); netreg->operator_list = n; return changed; } static DBusMessage *network_get_properties(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_netreg *netreg = data; DBusMessage *reply; DBusMessageIter iter; DBusMessageIter dict; const char *status = registration_status_to_string(netreg->status); const char *operator; const char *mode = registration_mode_to_string(netreg->mode); 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, "Status", DBUS_TYPE_STRING, &status); ofono_dbus_dict_append(&dict, "Mode", DBUS_TYPE_STRING, &mode); if (netreg->location != -1) { dbus_uint16_t location = netreg->location; ofono_dbus_dict_append(&dict, "LocationAreaCode", DBUS_TYPE_UINT16, &location); } if (netreg->cellid != -1) { dbus_uint32_t cellid = netreg->cellid; ofono_dbus_dict_append(&dict, "CellId", DBUS_TYPE_UINT32, &cellid); } if (netreg->technology != -1) { const char *technology = registration_tech_to_string(netreg->technology); ofono_dbus_dict_append(&dict, "Technology", DBUS_TYPE_STRING, &technology); } if (netreg->current_operator) { if (netreg->current_operator->mcc[0] != '\0') { const char *mcc = netreg->current_operator->mcc; ofono_dbus_dict_append(&dict, "MobileCountryCode", DBUS_TYPE_STRING, &mcc); } if (netreg->current_operator->mnc[0] != '\0') { const char *mnc = netreg->current_operator->mnc; ofono_dbus_dict_append(&dict, "MobileNetworkCode", DBUS_TYPE_STRING, &mnc); } } operator = get_operator_display_name(netreg); ofono_dbus_dict_append(&dict, "Name", DBUS_TYPE_STRING, &operator); if (netreg->signal_strength != -1) { unsigned char strength = netreg->signal_strength; ofono_dbus_dict_append(&dict, "Strength", DBUS_TYPE_BYTE, &strength); } if (netreg->base_station) ofono_dbus_dict_append(&dict, "BaseStation", DBUS_TYPE_STRING, &netreg->base_station); dbus_message_iter_close_container(&iter, &dict); return reply; } static DBusMessage *network_register(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_netreg *netreg = data; if (netreg->mode == NETWORK_REGISTRATION_MODE_AUTO_ONLY) return __ofono_error_access_denied(msg); if (netreg->pending) return __ofono_error_busy(msg); if (netreg->driver->register_auto == NULL) return __ofono_error_not_implemented(msg); netreg->pending = dbus_message_ref(msg); netreg->driver->register_auto(netreg, register_callback, netreg); set_registration_mode(netreg, NETWORK_REGISTRATION_MODE_AUTO); return NULL; } static void append_operator_struct(struct ofono_netreg *netreg, struct network_operator_data *opd, DBusMessageIter *iter) { DBusMessageIter entry, dict; const char *path; path = network_operator_build_path(netreg, opd->mcc, opd->mnc); dbus_message_iter_open_container(iter, DBUS_TYPE_STRUCT, NULL, &entry); dbus_message_iter_append_basic(&entry, DBUS_TYPE_OBJECT_PATH, &path); dbus_message_iter_open_container(&entry, DBUS_TYPE_ARRAY, OFONO_PROPERTIES_ARRAY_SIGNATURE, &dict); append_operator_properties(opd, &dict); dbus_message_iter_close_container(&entry, &dict); dbus_message_iter_close_container(iter, &entry); } static void append_operator_struct_list(struct ofono_netreg *netreg, DBusMessageIter *array) { DBusConnection *conn = ofono_dbus_get_connection(); char **children; char path[256]; GSList *l; snprintf(path, sizeof(path), "%s/operator", __ofono_atom_get_path(netreg->atom)); if (!dbus_connection_list_registered(conn, path, &children)) { DBG("Unable to obtain registered NetworkOperator(s)"); return; } /* * Quoting 27.007: "The list of operators shall be in order: home * network, networks referenced in SIM or active application in the * UICC (GSM or USIM) in the following order: HPLMN selector, User * controlled PLMN selector, Operator controlled PLMN selector and * PLMN selector (in the SIM or GSM application), and other networks." * Thus we must make sure we return the list in the same order, * if possible. Luckily the operator_list is stored in order already */ for (l = netreg->operator_list; l; l = l->next) { struct network_operator_data *opd = l->data; char mnc[OFONO_MAX_MNC_LENGTH + 1]; char mcc[OFONO_MAX_MCC_LENGTH + 1]; int j; for (j = 0; children[j]; j++) { sscanf(children[j], "%3[0-9]%[0-9]", mcc, mnc); if (!strcmp(opd->mcc, mcc) && !strcmp(opd->mnc, mnc)) append_operator_struct(netreg, opd, array); } } dbus_free_string_array(children); } static void operator_list_callback(const struct ofono_error *error, int total, const struct ofono_network_operator *list, void *data) { struct ofono_netreg *netreg = data; DBusMessage *reply; DBusMessageIter iter; DBusMessageIter array; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBG("Error occurred during operator list"); __ofono_dbus_pending_reply(&netreg->pending, __ofono_error_failed(netreg->pending)); return; } update_operator_list(netreg, total, list); reply = dbus_message_new_method_return(netreg->pending); dbus_message_iter_init_append(reply, &iter); dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, DBUS_STRUCT_BEGIN_CHAR_AS_STRING DBUS_TYPE_OBJECT_PATH_AS_STRING DBUS_TYPE_ARRAY_AS_STRING DBUS_DICT_ENTRY_BEGIN_CHAR_AS_STRING DBUS_TYPE_STRING_AS_STRING DBUS_TYPE_VARIANT_AS_STRING DBUS_DICT_ENTRY_END_CHAR_AS_STRING DBUS_STRUCT_END_CHAR_AS_STRING, &array); append_operator_struct_list(netreg, &array); dbus_message_iter_close_container(&iter, &array); __ofono_dbus_pending_reply(&netreg->pending, reply); } static DBusMessage *network_scan(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_netreg *netreg = data; if (netreg->mode == NETWORK_REGISTRATION_MODE_AUTO_ONLY) return __ofono_error_access_denied(msg); if (netreg->pending) return __ofono_error_busy(msg); if (netreg->driver->list_operators == NULL) return __ofono_error_not_implemented(msg); netreg->pending = dbus_message_ref(msg); netreg->driver->list_operators(netreg, operator_list_callback, netreg); return NULL; } static DBusMessage *network_get_operators(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_netreg *netreg = data; DBusMessage *reply; DBusMessageIter iter; DBusMessageIter array; 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, DBUS_STRUCT_BEGIN_CHAR_AS_STRING DBUS_TYPE_OBJECT_PATH_AS_STRING DBUS_TYPE_ARRAY_AS_STRING DBUS_DICT_ENTRY_BEGIN_CHAR_AS_STRING DBUS_TYPE_STRING_AS_STRING DBUS_TYPE_VARIANT_AS_STRING DBUS_DICT_ENTRY_END_CHAR_AS_STRING DBUS_STRUCT_END_CHAR_AS_STRING, &array); append_operator_struct_list(netreg, &array); dbus_message_iter_close_container(&iter, &array); return reply; } static GDBusMethodTable network_registration_methods[] = { { "GetProperties", "", "a{sv}", network_get_properties }, { "Register", "", "", network_register, G_DBUS_METHOD_FLAG_ASYNC }, { "GetOperators", "", "a(oa{sv})", network_get_operators }, { "Scan", "", "a(oa{sv})", network_scan, G_DBUS_METHOD_FLAG_ASYNC }, { } }; static GDBusSignalTable network_registration_signals[] = { { "PropertyChanged", "sv" }, { } }; static void set_registration_status(struct ofono_netreg *netreg, int status) { const char *str_status = registration_status_to_string(status); const char *path = __ofono_atom_get_path(netreg->atom); DBusConnection *conn = ofono_dbus_get_connection(); netreg->status = status; ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Status", DBUS_TYPE_STRING, &str_status); } static void set_registration_location(struct ofono_netreg *netreg, int lac) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(netreg->atom); dbus_uint16_t dbus_lac = lac; if (lac > 0xffff) return; netreg->location = lac; if (netreg->location == -1) return; ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "LocationAreaCode", DBUS_TYPE_UINT16, &dbus_lac); } static void set_registration_cellid(struct ofono_netreg *netreg, int ci) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(netreg->atom); dbus_uint32_t dbus_ci = ci; netreg->cellid = ci; if (netreg->cellid == -1) return; ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "CellId", DBUS_TYPE_UINT32, &dbus_ci); } static void set_registration_technology(struct ofono_netreg *netreg, int tech) { const char *tech_str = registration_tech_to_string(tech); DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(netreg->atom); netreg->technology = tech; if (netreg->technology == -1) return; ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Technology", DBUS_TYPE_STRING, &tech_str); } void __ofono_netreg_set_base_station_name(struct ofono_netreg *netreg, const char *name) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(netreg->atom); const char *base_station = name ? name : ""; /* Cell ID changed, but we don't have a cell name, nothing to do */ if (netreg->base_station == NULL && name == NULL) return; if (netreg->base_station) g_free(netreg->base_station); if (name == NULL) { netreg->base_station = NULL; /* * We just got unregistered, set name to NULL * but don't emit signal */ if (netreg->current_operator == NULL) return; } else { netreg->base_station = g_strdup(name); } ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "BaseStation", DBUS_TYPE_STRING, &base_station); } unsigned int __ofono_netreg_add_status_watch(struct ofono_netreg *netreg, ofono_netreg_status_notify_cb_t notify, void *data, ofono_destroy_func destroy) { struct ofono_watchlist_item *item; DBG("%p", netreg); if (netreg == 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(netreg->status_watches, item); } gboolean __ofono_netreg_remove_status_watch(struct ofono_netreg *netreg, unsigned int id) { DBG("%p", netreg); return __ofono_watchlist_remove_item(netreg->status_watches, id); } static void notify_status_watches(struct ofono_netreg *netreg) { struct ofono_watchlist_item *item; GSList *l; ofono_netreg_status_notify_cb_t notify; const char *mcc = NULL; const char *mnc = NULL; if (netreg->current_operator) { mcc = netreg->current_operator->mcc; mnc = netreg->current_operator->mnc; } for (l = netreg->status_watches->items; l; l = l->next) { item = l->data; notify = item->notify; notify(netreg->status, netreg->location, netreg->cellid, netreg->technology, mcc, mnc, item->notify_data); } } static void reset_available(struct network_operator_data *old, const struct ofono_network_operator *new) { if (old == NULL) return; if (new == NULL || network_operator_compare(old, new) != 0) set_network_operator_status(old, OPERATOR_STATUS_AVAILABLE); } static void current_operator_callback(const struct ofono_error *error, const struct ofono_network_operator *current, void *data) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_netreg *netreg = data; const char *path = __ofono_atom_get_path(netreg->atom); GSList *op = NULL; const char *operator; DBG("%p, %p", netreg, netreg->current_operator); /* * Sometimes we try to query COPS right when we roam off the cell, * in which case the operator information frequently comes in bogus. * We ignore it here */ if (netreg->status != NETWORK_REGISTRATION_STATUS_REGISTERED && netreg->status != NETWORK_REGISTRATION_STATUS_ROAMING) current = NULL; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBG("Error during current operator"); return; } if (netreg->current_operator == NULL && current == NULL) return; /* We got a new network operator, reset the previous one's status */ /* It will be updated properly later */ reset_available(netreg->current_operator, current); if (current) op = g_slist_find_custom(netreg->operator_list, current, network_operator_compare); if (op) { struct network_operator_data *opd = op->data; unsigned int techs = opd->techs; if (current->tech != -1) { techs |= 1 << current->tech; set_network_operator_techs(opd, techs); } set_network_operator_status(opd, OPERATOR_STATUS_CURRENT); set_network_operator_name(opd, current->name); if (netreg->current_operator == op->data) return; netreg->current_operator = op->data; goto emit; } if (current) { struct network_operator_data *opd; opd = network_operator_create(current); if (opd->mcc[0] != '\0' && opd->mnc[0] != '\0' && !network_operator_dbus_register(netreg, opd)) { g_free(opd); return; } netreg->current_operator = opd; netreg->operator_list = g_slist_append(netreg->operator_list, opd); } else { /* We don't free this here because operator is registered */ /* Taken care of elsewhere */ netreg->current_operator = NULL; } emit: operator = get_operator_display_name(netreg); ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Name", DBUS_TYPE_STRING, &operator); if (netreg->current_operator) { if (netreg->current_operator->mcc[0] != '\0') { const char *mcc = netreg->current_operator->mcc; ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "MobileCountryCode", DBUS_TYPE_STRING, &mcc); } if (netreg->current_operator->mnc[0] != '\0') { const char *mnc = netreg->current_operator->mnc; ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "MobileNetworkCode", DBUS_TYPE_STRING, &mnc); } } notify_status_watches(netreg); } static void signal_strength_callback(const struct ofono_error *error, int strength, void *data) { struct ofono_netreg *netreg = data; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBG("Error during signal strength query"); return; } ofono_netreg_strength_notify(netreg, strength); } static void notify_emulator_status(struct ofono_atom *atom, void *data) { struct ofono_emulator *em = __ofono_atom_get_data(atom); switch (GPOINTER_TO_INT(data)) { case NETWORK_REGISTRATION_STATUS_REGISTERED: ofono_emulator_set_indicator(em, OFONO_EMULATOR_IND_SERVICE, 1); ofono_emulator_set_indicator(em, OFONO_EMULATOR_IND_ROAMING, 0); break; case NETWORK_REGISTRATION_STATUS_ROAMING: ofono_emulator_set_indicator(em, OFONO_EMULATOR_IND_SERVICE, 1); ofono_emulator_set_indicator(em, OFONO_EMULATOR_IND_ROAMING, 1); break; default: ofono_emulator_set_indicator(em, OFONO_EMULATOR_IND_SERVICE, 0); ofono_emulator_set_indicator(em, OFONO_EMULATOR_IND_ROAMING, 0); } } void ofono_netreg_status_notify(struct ofono_netreg *netreg, int status, int lac, int ci, int tech) { if (netreg == NULL) return; if (netreg->status != status) { struct ofono_modem *modem; set_registration_status(netreg, status); modem = __ofono_atom_get_modem(netreg->atom); __ofono_modem_foreach_registered_atom(modem, OFONO_ATOM_TYPE_EMULATOR_HFP, notify_emulator_status, GINT_TO_POINTER(netreg->status)); } if (netreg->location != lac) set_registration_location(netreg, lac); if (netreg->cellid != ci) set_registration_cellid(netreg, ci); if (netreg->technology != tech) set_registration_technology(netreg, tech); if (netreg->status == NETWORK_REGISTRATION_STATUS_REGISTERED || netreg->status == NETWORK_REGISTRATION_STATUS_ROAMING) { if (netreg->driver->current_operator != NULL) netreg->driver->current_operator(netreg, current_operator_callback, netreg); if (netreg->driver->strength != NULL) netreg->driver->strength(netreg, signal_strength_callback, netreg); } else { struct ofono_error error; error.type = OFONO_ERROR_TYPE_NO_ERROR; error.error = 0; current_operator_callback(&error, NULL, netreg); __ofono_netreg_set_base_station_name(netreg, NULL); netreg->signal_strength = -1; } notify_status_watches(netreg); } void ofono_netreg_time_notify(struct ofono_netreg *netreg, struct ofono_network_time *info) { struct ofono_modem *modem = __ofono_atom_get_modem(netreg->atom); if (info == NULL) return; __ofono_nettime_info_received(modem, info); } static void sim_csp_read_cb(int ok, int total_length, int record, const unsigned char *data, int record_length, void *user_data) { struct ofono_netreg *netreg = user_data; int i = 0; if (!ok) return; if (total_length < 18) return; /* * According to CPHS 4.2, EFcsp is an array of two-byte service * entries, each consisting of a one byte service group * identifier followed by 8 bits; each bit is indicating * availability of a specific service or feature. * * The PLMN mode bit, if present, indicates whether manual * operator selection should be disabled or enabled. When * unset, the device is forced to automatic mode; when set, * manual selection is to be enabled. The latter is also the * default. */ while (i < total_length && data[i] != SIM_CSP_ENTRY_VALUE_ADDED_SERVICES) i += 2; if (i == total_length) return; if ((data[i + 1] & 0x80) != 0) { if (netreg->mode == NETWORK_REGISTRATION_MODE_AUTO_ONLY) set_registration_mode(netreg, NETWORK_REGISTRATION_MODE_AUTO); return; } set_registration_mode(netreg, NETWORK_REGISTRATION_MODE_AUTO_ONLY); } static void sim_csp_changed(int id, void *userdata) { struct ofono_netreg *netreg = userdata; ofono_sim_read(netreg->sim_context, SIM_EF_CPHS_CSP_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_csp_read_cb, netreg); } static void init_registration_status(const struct ofono_error *error, int status, int lac, int ci, int tech, void *data) { struct ofono_netreg *netreg = data; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBG("Error during registration status query"); return; } ofono_netreg_status_notify(netreg, status, lac, ci, tech); /* * Bootstrap our signal strength value without waiting for the * stack to report it */ if (netreg->status == NETWORK_REGISTRATION_STATUS_REGISTERED || netreg->status == NETWORK_REGISTRATION_STATUS_ROAMING) { if (netreg->driver->strength != NULL) netreg->driver->strength(netreg, signal_strength_callback, netreg); } if (netreg->mode != NETWORK_REGISTRATION_MODE_MANUAL && (status == NETWORK_REGISTRATION_STATUS_NOT_REGISTERED || status == NETWORK_REGISTRATION_STATUS_DENIED || status == NETWORK_REGISTRATION_STATUS_UNKNOWN)) { if (netreg->driver->register_auto != NULL) netreg->driver->register_auto(netreg, init_register, netreg); } if (netreg->sim_context) { ofono_sim_read(netreg->sim_context, SIM_EF_CPHS_CSP_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_csp_read_cb, netreg); ofono_sim_add_file_watch(netreg->sim_context, SIM_EF_CPHS_CSP_FILEID, sim_csp_changed, netreg, NULL); } } static void notify_emulator_strength(struct ofono_atom *atom, void *data) { struct ofono_emulator *em = __ofono_atom_get_data(atom); int val = 0; if (GPOINTER_TO_INT(data) > 0) val = (GPOINTER_TO_INT(data) - 1) / 20 + 1; ofono_emulator_set_indicator(em, OFONO_EMULATOR_IND_SIGNAL, val); } void ofono_netreg_strength_notify(struct ofono_netreg *netreg, int strength) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_modem *modem; if (netreg->signal_strength == strength) return; /* * Theoretically we can get signal strength even when not registered * to any network. However, what do we do with it in that case? */ if (netreg->status != NETWORK_REGISTRATION_STATUS_REGISTERED && netreg->status != NETWORK_REGISTRATION_STATUS_ROAMING) return; netreg->signal_strength = strength; if (strength != -1) { const char *path = __ofono_atom_get_path(netreg->atom); unsigned char strength = netreg->signal_strength; ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Strength", DBUS_TYPE_BYTE, &strength); } modem = __ofono_atom_get_modem(netreg->atom); __ofono_modem_foreach_registered_atom(modem, OFONO_ATOM_TYPE_EMULATOR_HFP, notify_emulator_strength, GINT_TO_POINTER(netreg->signal_strength)); } static void sim_opl_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *user_data) { struct ofono_netreg *netreg = user_data; int total; GSList *l; if (!ok) { if (record > 0) goto optimize; return; } if (record_length < 8 || length < record_length) return; total = length / record_length; sim_eons_add_opl_record(netreg->eons, data, record_length); if (record != total) return; optimize: sim_eons_optimize(netreg->eons); for (l = netreg->operator_list; l; l = l->next) { struct network_operator_data *opd = l->data; const struct sim_eons_operator_info *eons_info; eons_info = sim_eons_lookup(netreg->eons, opd->mcc, opd->mnc); set_network_operator_eons_info(opd, eons_info); } } static void sim_pnn_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *user_data) { struct ofono_netreg *netreg = user_data; int total; if (!ok) goto check; if (length < 3 || record_length < 3 || length < record_length) return; total = length / record_length; if (netreg->eons == NULL) netreg->eons = sim_eons_new(total); sim_eons_add_pnn_record(netreg->eons, record, data, record_length); if (record != total) return; check: /* * If PNN is not present then OPL is not useful, don't * retrieve it. If OPL is not there then PNN[1] will * still be used for the HPLMN and/or EHPLMN, if PNN * is present. */ if (netreg->eons && !sim_eons_pnn_is_empty(netreg->eons)) ofono_sim_read(netreg->sim_context, SIM_EFOPL_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_opl_read_cb, netreg); } static void sim_spdi_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *user_data) { struct ofono_netreg *netreg = user_data; struct network_operator_data *current = netreg->current_operator; if (!ok) return; netreg->spdi = sim_spdi_new(data, length); if (current == NULL) return; if (netreg->status == NETWORK_REGISTRATION_STATUS_ROAMING) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(netreg->atom); const char *operator; if (!sim_spdi_lookup(netreg->spdi, current->mcc, current->mnc)) return; operator = get_operator_display_name(netreg); ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Name", DBUS_TYPE_STRING, &operator); } } static void sim_spn_read_cb(int ok, int length, int record, const unsigned char *data, int record_length, void *user_data) { struct ofono_netreg *netreg = user_data; unsigned char dcbyte; char *spn; if (!ok) return; dcbyte = data[0]; /* * 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. */ spn = sim_string_to_utf8(data + 1, length - 1); if (spn == NULL) { ofono_error("EFspn read successfully, but couldn't parse"); return; } if (strlen(spn) == 0) { g_free(spn); return; } netreg->spname = spn; ofono_sim_read(netreg->sim_context, SIM_EFSPDI_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_spdi_read_cb, netreg); if (dcbyte & SIM_EFSPN_DC_HOME_PLMN_BIT) netreg->flags |= NETWORK_REGISTRATION_FLAG_HOME_SHOW_PLMN; if (!(dcbyte & SIM_EFSPN_DC_ROAMING_SPN_BIT)) netreg->flags |= NETWORK_REGISTRATION_FLAG_ROAMING_SHOW_SPN; if (netreg->current_operator) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(netreg->atom); const char *operator; operator = get_operator_display_name(netreg); ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Name", DBUS_TYPE_STRING, &operator); } } int ofono_netreg_get_location(struct ofono_netreg *netreg) { if (netreg == NULL) return -1; return netreg->location; } int ofono_netreg_get_cellid(struct ofono_netreg *netreg) { if (netreg == NULL) return -1; return netreg->cellid; } int ofono_netreg_get_status(struct ofono_netreg *netreg) { if (netreg == NULL) return -1; return netreg->status; } int ofono_netreg_get_technology(struct ofono_netreg *netreg) { if (netreg == NULL) return -1; return netreg->technology; } const char *ofono_netreg_get_mcc(struct ofono_netreg *netreg) { if (netreg == NULL) return NULL; if (netreg->current_operator == NULL) return NULL; return netreg->current_operator->mcc; } const char *ofono_netreg_get_mnc(struct ofono_netreg *netreg) { if (netreg == NULL) return NULL; if (netreg->current_operator == NULL) return NULL; return netreg->current_operator->mnc; } int ofono_netreg_driver_register(const struct ofono_netreg_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_netreg_driver_unregister(const struct ofono_netreg_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 netreg_unregister(struct ofono_atom *atom) { struct ofono_netreg *netreg = __ofono_atom_get_data(atom); DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_modem *modem = __ofono_atom_get_modem(atom); const char *path = __ofono_atom_get_path(atom); GSList *l; __ofono_modem_foreach_registered_atom(modem, OFONO_ATOM_TYPE_EMULATOR_HFP, notify_emulator_status, GINT_TO_POINTER(0)); __ofono_modem_foreach_registered_atom(modem, OFONO_ATOM_TYPE_EMULATOR_HFP, notify_emulator_strength, GINT_TO_POINTER(0)); __ofono_modem_foreach_registered_atom(modem, OFONO_ATOM_TYPE_EMULATOR_HFP, emulator_remove_handler, "+COPS"); __ofono_modem_remove_atom_watch(modem, netreg->hfp_watch); __ofono_watchlist_free(netreg->status_watches); netreg->status_watches = NULL; for (l = netreg->operator_list; l; l = l->next) { struct network_operator_data *opd = l->data; if (opd->mcc[0] == '\0' && opd->mnc[0] == '\0') continue; network_operator_dbus_unregister(netreg, l->data); } g_slist_free(netreg->operator_list); netreg->operator_list = NULL; if (netreg->base_station) { g_free(netreg->base_station); netreg->base_station = NULL; } if (netreg->settings) { storage_close(netreg->imsi, SETTINGS_STORE, netreg->settings, TRUE); g_free(netreg->imsi); netreg->imsi = NULL; netreg->settings = NULL; } if (netreg->sim_context) { ofono_sim_context_free(netreg->sim_context); netreg->sim_context = NULL; } netreg->sim = NULL; g_dbus_unregister_interface(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE); ofono_modem_remove_interface(modem, OFONO_NETWORK_REGISTRATION_INTERFACE); } static void netreg_remove(struct ofono_atom *atom) { struct ofono_netreg *netreg = __ofono_atom_get_data(atom); DBG("atom: %p", atom); if (netreg == NULL) return; if (netreg->driver != NULL && netreg->driver->remove != NULL) netreg->driver->remove(netreg); sim_eons_free(netreg->eons); sim_spdi_free(netreg->spdi); g_free(netreg->spname); g_free(netreg); } struct ofono_netreg *ofono_netreg_create(struct ofono_modem *modem, unsigned int vendor, const char *driver, void *data) { struct ofono_netreg *netreg; GSList *l; if (driver == NULL) return NULL; netreg = g_try_new0(struct ofono_netreg, 1); if (netreg == NULL) return NULL; netreg->status = NETWORK_REGISTRATION_STATUS_UNKNOWN; netreg->location = -1; netreg->cellid = -1; netreg->technology = -1; netreg->signal_strength = -1; netreg->atom = __ofono_modem_add_atom(modem, OFONO_ATOM_TYPE_NETREG, netreg_remove, netreg); for (l = g_drivers; l; l = l->next) { const struct ofono_netreg_driver *drv = l->data; if (g_strcmp0(drv->name, driver)) continue; if (drv->probe(netreg, vendor, data) < 0) continue; netreg->driver = drv; break; } return netreg; } static void netreg_load_settings(struct ofono_netreg *netreg) { const char *imsi; char *strmode; gboolean upgrade = FALSE; imsi = ofono_sim_get_imsi(netreg->sim); if (imsi == NULL) return; netreg->settings = storage_open(imsi, SETTINGS_STORE); if (netreg->settings == NULL) return; netreg->imsi = g_strdup(imsi); strmode = g_key_file_get_string(netreg->settings, SETTINGS_GROUP, "Mode", NULL); if (strmode == NULL) upgrade = TRUE; else if (g_str_equal(strmode, "auto")) netreg->mode = NETWORK_REGISTRATION_MODE_AUTO; else if (g_str_equal(strmode, "manual")) netreg->mode = NETWORK_REGISTRATION_MODE_MANUAL; else { int mode; mode = g_key_file_get_integer(netreg->settings, SETTINGS_GROUP, "Mode", NULL); switch (mode) { case NETWORK_REGISTRATION_MODE_AUTO: case NETWORK_REGISTRATION_MODE_MANUAL: netreg->mode = mode; break; } upgrade = TRUE; } g_free(strmode); if (upgrade == FALSE) return; if (netreg->mode == NETWORK_REGISTRATION_MODE_MANUAL) strmode = "manual"; else strmode = "auto"; g_key_file_set_string(netreg->settings, SETTINGS_GROUP, "Mode", strmode); } static void sim_pnn_opl_changed(int id, void *userdata) { struct ofono_netreg *netreg = userdata; GSList *l; /* * Free references to structures on the netreg->eons list and * update the operator info on D-bus. If EFpnn/EFopl read succeeds, * operator info will be updated again, otherwise it won't be * updated again. */ for (l = netreg->operator_list; l; l = l->next) set_network_operator_eons_info(l->data, NULL); sim_eons_free(netreg->eons); netreg->eons = NULL; ofono_sim_read(netreg->sim_context, SIM_EFPNN_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_pnn_read_cb, netreg); } static void sim_spn_spdi_changed(int id, void *userdata) { struct ofono_netreg *netreg = userdata; netreg->flags &= ~(NETWORK_REGISTRATION_FLAG_HOME_SHOW_PLMN | NETWORK_REGISTRATION_FLAG_ROAMING_SHOW_SPN); g_free(netreg->spname); netreg->spname = NULL; sim_spdi_free(netreg->spdi); netreg->spdi = NULL; if (netreg->current_operator) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(netreg->atom); const char *operator; operator = get_operator_display_name(netreg); ofono_dbus_signal_property_changed(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, "Name", DBUS_TYPE_STRING, &operator); } ofono_sim_read(netreg->sim_context, SIM_EFSPN_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_spn_read_cb, netreg); } static void emulator_cops_cb(struct ofono_emulator *em, struct ofono_emulator_request *req, void *userdata) { struct ofono_netreg *netreg = userdata; struct ofono_error result; int val; char name[17]; char buf[32]; result.error = 0; switch (ofono_emulator_request_get_type(req)) { case OFONO_EMULATOR_REQUEST_TYPE_SET: ofono_emulator_request_next_number(req, &val); if (val != 3) goto fail; ofono_emulator_request_next_number(req, &val); if (val != 0) goto fail; result.type = OFONO_ERROR_TYPE_NO_ERROR; ofono_emulator_send_final(em, &result); break; case OFONO_EMULATOR_REQUEST_TYPE_QUERY: strncpy(name, get_operator_display_name(netreg), 16); name[16] = '\0'; sprintf(buf, "+COPS: %d,0,\"%s\"", netreg->mode, name); ofono_emulator_send_info(em, buf, TRUE); result.type = OFONO_ERROR_TYPE_NO_ERROR; ofono_emulator_send_final(em, &result); break; default: fail: result.type = OFONO_ERROR_TYPE_FAILURE; ofono_emulator_send_final(em, &result); }; } static void emulator_hfp_init(struct ofono_atom *atom, void *data) { struct ofono_netreg *netreg = data; struct ofono_emulator *em = __ofono_atom_get_data(atom); notify_emulator_status(atom, GINT_TO_POINTER(netreg->status)); notify_emulator_strength(atom, GINT_TO_POINTER(netreg->signal_strength)); ofono_emulator_add_handler(em, "+COPS", emulator_cops_cb, data, NULL); } static void emulator_hfp_watch(struct ofono_atom *atom, enum ofono_atom_watch_condition cond, void *data) { if (cond == OFONO_ATOM_WATCH_CONDITION_REGISTERED) emulator_hfp_init(atom, data); } void ofono_netreg_register(struct ofono_netreg *netreg) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_modem *modem = __ofono_atom_get_modem(netreg->atom); const char *path = __ofono_atom_get_path(netreg->atom); struct ofono_atom *sim_atom; if (!g_dbus_register_interface(conn, path, OFONO_NETWORK_REGISTRATION_INTERFACE, network_registration_methods, network_registration_signals, NULL, netreg, NULL)) { ofono_error("Could not create %s interface", OFONO_NETWORK_REGISTRATION_INTERFACE); return; } netreg->status_watches = __ofono_watchlist_new(g_free); ofono_modem_add_interface(modem, OFONO_NETWORK_REGISTRATION_INTERFACE); if (netreg->driver->registration_status != NULL) netreg->driver->registration_status(netreg, init_registration_status, netreg); sim_atom = __ofono_modem_find_atom(modem, OFONO_ATOM_TYPE_SIM); if (sim_atom != NULL) { /* Assume that if sim atom exists, it is ready */ netreg->sim = __ofono_atom_get_data(sim_atom); netreg->sim_context = ofono_sim_context_create(netreg->sim); netreg_load_settings(netreg); ofono_sim_read(netreg->sim_context, SIM_EFPNN_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, sim_pnn_read_cb, netreg); ofono_sim_add_file_watch(netreg->sim_context, SIM_EFPNN_FILEID, sim_pnn_opl_changed, netreg, NULL); ofono_sim_add_file_watch(netreg->sim_context, SIM_EFOPL_FILEID, sim_pnn_opl_changed, netreg, NULL); ofono_sim_read(netreg->sim_context, SIM_EFSPN_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, sim_spn_read_cb, netreg); ofono_sim_add_file_watch(netreg->sim_context, SIM_EFSPN_FILEID, sim_spn_spdi_changed, netreg, NULL); ofono_sim_add_file_watch(netreg->sim_context, SIM_EFSPDI_FILEID, sim_spn_spdi_changed, netreg, NULL); } __ofono_atom_register(netreg->atom, netreg_unregister); netreg->hfp_watch = __ofono_modem_add_atom_watch(modem, OFONO_ATOM_TYPE_EMULATOR_HFP, emulator_hfp_watch, netreg, NULL); } void ofono_netreg_remove(struct ofono_netreg *netreg) { __ofono_atom_free(netreg->atom); } void ofono_netreg_set_data(struct ofono_netreg *netreg, void *data) { netreg->driver_data = data; } void *ofono_netreg_get_data(struct ofono_netreg *netreg) { return netreg->driver_data; }