/* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2008-2009 Nokia Corporation * Copyright (C) 2004-2009 Marcel Holtmann * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * 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 #include #include "logging.h" #include "telephony.h" /* libcsnet D-Bus definitions */ #define NETWORK_BUS_NAME "com.nokia.phone.net" #define NETWORK_INTERFACE "Phone.Net" #define NETWORK_PATH "/com/nokia/phone/net" /* Mask bits for supported services */ #define NETWORK_MASK_GPRS_SUPPORT 0x01 #define NETWORK_MASK_CS_SERVICES 0x02 #define NETWORK_MASK_EGPRS_SUPPORT 0x04 #define NETWORK_MASK_HSDPA_AVAIL 0x08 #define NETWORK_MASK_HSUPA_AVAIL 0x10 /* network get cell info: cell type */ #define NETWORK_UNKNOWN_CELL 0 #define NETWORK_GSM_CELL 1 #define NETWORK_WCDMA_CELL 2 enum net_registration_status { NETWORK_REG_STATUS_HOME = 0x00, NETWORK_REG_STATUS_ROAM, NETWORK_REG_STATUS_ROAM_BLINK, NETWORK_REG_STATUS_NOSERV, NETWORK_REG_STATUS_NOSERV_SEARCHING, NETWORK_REG_STATUS_NOSERV_NOTSEARCHING, NETWORK_REG_STATUS_NOSERV_NOSIM, NETWORK_REG_STATUS_POWER_OFF = 0x08, NETWORK_REG_STATUS_NSPS, NETWORK_REG_STATUS_NSPS_NO_COVERAGE, NETWORK_REG_STATUS_NOSERV_SIM_REJECTED_BY_NW }; enum network_types { NETWORK_GSM_HOME_PLMN = 0, NETWORK_GSM_PREFERRED_PLMN, NETWORK_GSM_FORBIDDEN_PLMN, NETWORK_GSM_OTHER_PLMN, NETWORK_GSM_NO_PLMN_AVAIL }; enum network_alpha_tag_name_type { NETWORK_HARDCODED_LATIN_OPER_NAME = 0, NETWORK_HARDCODED_USC2_OPER_NAME, NETWORK_NITZ_SHORT_OPER_NAME, NETWORK_NITZ_FULL_OPER_NAME, }; /* CSD CALL plugin D-Bus definitions */ #define CSD_CALL_BUS_NAME "com.nokia.csd.Call" #define CSD_CALL_INTERFACE "com.nokia.csd.Call" #define CSD_CALL_INSTANCE "com.nokia.csd.Call.Instance" #define CSD_CALL_CONFERENCE "com.nokia.csd.Call.Conference" #define CSD_CALL_PATH "/com/nokia/csd/call" /* Call status values as exported by the CSD CALL plugin */ #define CSD_CALL_STATUS_IDLE 0 #define CSD_CALL_STATUS_CREATE 1 #define CSD_CALL_STATUS_COMING 2 #define CSD_CALL_STATUS_PROCEEDING 3 #define CSD_CALL_STATUS_MO_ALERTING 4 #define CSD_CALL_STATUS_MT_ALERTING 5 #define CSD_CALL_STATUS_WAITING 6 #define CSD_CALL_STATUS_ANSWERED 7 #define CSD_CALL_STATUS_ACTIVE 8 #define CSD_CALL_STATUS_MO_RELEASE 9 #define CSD_CALL_STATUS_MT_RELEASE 10 #define CSD_CALL_STATUS_HOLD_INITIATED 11 #define CSD_CALL_STATUS_HOLD 12 #define CSD_CALL_STATUS_RETRIEVE_INITIATED 13 #define CSD_CALL_STATUS_RECONNECT_PENDING 14 #define CSD_CALL_STATUS_TERMINATED 15 #define CSD_CALL_STATUS_SWAP_INITIATED 16 #define CALL_FLAG_NONE 0 #define CALL_FLAG_PRESENTATION_ALLOWED 0x01 #define CALL_FLAG_PRESENTATION_RESTRICTED 0x02 /* SIM Phonebook D-Bus definitions */ #define SIM_PHONEBOOK_BUS_NAME "com.nokia.phone.SIM" #define SIM_PHONEBOOK_INTERFACE "Phone.Sim.Phonebook" #define SIM_PHONEBOOK_PATH "/com/nokia/phone/SIM/phonebook" #define PHONEBOOK_INDEX_FIRST_ENTRY 0xFFFF #define PHONEBOOK_INDEX_NEXT_FREE_LOCATION 0xFFFE enum sim_phonebook_type { SIM_PHONEBOOK_TYPE_ADN = 0x0, SIM_PHONEBOOK_TYPE_SDN, SIM_PHONEBOOK_TYPE_FDN, SIM_PHONEBOOK_TYPE_VMBX, SIM_PHONEBOOK_TYPE_MBDN, SIM_PHONEBOOK_TYPE_EN, SIM_PHONEBOOK_TYPE_MSISDN }; enum sim_phonebook_location_type { SIM_PHONEBOOK_LOCATION_EXACT = 0x0, SIM_PHONEBOOK_LOCATION_NEXT }; struct csd_call { char *object_path; int status; gboolean originating; gboolean emergency; gboolean on_hold; gboolean conference; char *number; gboolean setup; }; static struct { uint8_t status; uint16_t lac; uint32_t cell_id; uint32_t operator_code; uint32_t country_code; uint8_t network_type; uint8_t supported_services; uint16_t signals_bar; char *operator_name; } net = { .status = NETWORK_REG_STATUS_NOSERV, .lac = 0, .cell_id = 0, .operator_code = 0, .country_code = 0, .network_type = NETWORK_GSM_NO_PLMN_AVAIL, .supported_services = 0, .signals_bar = 0, .operator_name = NULL, }; static DBusConnection *connection = NULL; static GSList *calls = NULL; static char *msisdn = NULL; /* Subscriber number */ static char *vmbx = NULL; /* Voice mailbox number */ /* HAL battery namespace key values */ static int battchg_cur = -1; /* "battery.charge_level.current" */ static int battchg_last = -1; /* "battery.charge_level.last_full" */ static int battchg_design = -1; /* "battery.charge_level.design" */ static gboolean events_enabled = FALSE; /* Supported set of call hold operations */ static const char *chld_str = "0,1,1x,2,2x,3,4"; /* Response and hold state * -1 = none * 0 = incoming call is put on hold in the AG * 1 = held incoming call is accepted in the AG * 2 = held incoming call is rejected in the AG */ static int response_and_hold = -1; static char *last_dialed_number = NULL; static struct indicator maemo_indicators[] = { { "battchg", "0-5", 5 }, { "signal", "0-5", 5 }, { "service", "0,1", 1 }, { "call", "0,1", 0 }, { "callsetup", "0-3", 0 }, { "callheld", "0-2", 0 }, { "roam", "0,1", 0 }, { NULL } }; static char *call_status_str[] = { "IDLE", "CREATE", "COMING", "PROCEEDING", "MO_ALERTING", "MT_ALERTING", "WAITING", "ANSWERED", "ACTIVE", "MO_RELEASE", "MT_RELEASE", "HOLD_INITIATED", "HOLD", "RETRIEVE_INITIATED", "RECONNECT_PENDING", "TERMINATED", "SWAP_INITIATED", "???" }; static struct csd_call *find_call(const char *path) { GSList *l; for (l = calls; l != NULL; l = l->next) { struct csd_call *call = l->data; if (g_str_equal(call->object_path, path)) return call; } return NULL; } static struct csd_call *find_active_call(void) { GSList *l; for (l = calls; l != NULL; l = l->next) { struct csd_call *call = l->data; if (call->status != CSD_CALL_STATUS_IDLE) return call; } return NULL; } static struct csd_call *find_call_with_status(int status) { GSList *l; for (l = calls; l != NULL; l = l->next) { struct csd_call *call = l->data; if (call->status == status) return call; } return NULL; } static int release_call(struct csd_call *call) { DBusMessage *msg; msg = dbus_message_new_method_call(CSD_CALL_BUS_NAME, call->object_path, CSD_CALL_INSTANCE, "Release"); if (!msg) { error("Unable to allocate new D-Bus message"); return -ENOMEM; } g_dbus_send_message(connection, msg); return 0; } static int answer_call(struct csd_call *call) { DBusMessage *msg; msg = dbus_message_new_method_call(CSD_CALL_BUS_NAME, call->object_path, CSD_CALL_INSTANCE, "Answer"); if (!msg) { error("Unable to allocate new D-Bus message"); return -ENOMEM; } g_dbus_send_message(connection, msg); return 0; } static int split_call(struct csd_call *call) { DBusMessage *msg; msg = dbus_message_new_method_call(CSD_CALL_BUS_NAME, call->object_path, CSD_CALL_INSTANCE, "Split"); if (!msg) { error("Unable to allocate new D-Bus message"); return -ENOMEM; } g_dbus_send_message(connection, msg); return 0; } static int unhold_call(struct csd_call *call) { DBusMessage *msg; msg = dbus_message_new_method_call(CSD_CALL_BUS_NAME, CSD_CALL_PATH, CSD_CALL_INTERFACE, "Unhold"); if (!msg) { error("Unable to allocate new D-Bus message"); return -ENOMEM; } g_dbus_send_message(connection, msg); return 0; } static int hold_call(struct csd_call *call) { DBusMessage *msg; msg = dbus_message_new_method_call(CSD_CALL_BUS_NAME, CSD_CALL_PATH, CSD_CALL_INTERFACE, "Hold"); if (!msg) { error("Unable to allocate new D-Bus message"); return -ENOMEM; } g_dbus_send_message(connection, msg); return 0; } static int swap_calls(void) { DBusMessage *msg; msg = dbus_message_new_method_call(CSD_CALL_BUS_NAME, CSD_CALL_PATH, CSD_CALL_INTERFACE, "Swap"); if (!msg) { error("Unable to allocate new D-Bus message"); return -ENOMEM; } g_dbus_send_message(connection, msg); return 0; } static int create_conference(void) { DBusMessage *msg; msg = dbus_message_new_method_call(CSD_CALL_BUS_NAME, CSD_CALL_PATH, CSD_CALL_INTERFACE, "Conference"); if (!msg) { error("Unable to allocate new D-Bus message"); return -ENOMEM; } g_dbus_send_message(connection, msg); return 0; } static int call_transfer(void) { DBusMessage *msg; msg = dbus_message_new_method_call(CSD_CALL_BUS_NAME, CSD_CALL_PATH, CSD_CALL_INTERFACE, "Transfer"); if (!msg) { error("Unable to allocate new D-Bus message"); return -ENOMEM; } g_dbus_send_message(connection, msg); return 0; } void telephony_device_connected(void *telephony_device) { struct csd_call *coming; debug("telephony-maemo: device %p connected", telephony_device); coming = find_call_with_status(CSD_CALL_STATUS_MT_ALERTING); if (coming) { if (find_call_with_status(CSD_CALL_STATUS_ACTIVE)) telephony_call_waiting_ind(coming->number, NUMBER_TYPE_TELEPHONY); else telephony_incoming_call_ind(coming->number, NUMBER_TYPE_TELEPHONY); } } void telephony_device_disconnected(void *telephony_device) { debug("telephony-maemo: device %p disconnected", telephony_device); events_enabled = FALSE; } void telephony_event_reporting_req(void *telephony_device, int ind) { events_enabled = ind == 1 ? TRUE : FALSE; telephony_event_reporting_rsp(telephony_device, CME_ERROR_NONE); } void telephony_response_and_hold_req(void *telephony_device, int rh) { response_and_hold = rh; telephony_response_and_hold_ind(response_and_hold); telephony_response_and_hold_rsp(telephony_device, CME_ERROR_NONE); } void telephony_last_dialed_number_req(void *telephony_device) { debug("telephony-maemo: last dialed number request"); if (last_dialed_number) telephony_dial_number_req(telephony_device, last_dialed_number); else telephony_last_dialed_number_rsp(telephony_device, CME_ERROR_NOT_ALLOWED); } void telephony_terminate_call_req(void *telephony_device) { struct csd_call *call; call = find_active_call(); if (!call) { error("No active call"); telephony_terminate_call_rsp(telephony_device, CME_ERROR_NOT_ALLOWED); return; } if (release_call(call) < 0) telephony_terminate_call_rsp(telephony_device, CME_ERROR_AG_FAILURE); else telephony_terminate_call_rsp(telephony_device, CME_ERROR_NONE); } void telephony_answer_call_req(void *telephony_device) { struct csd_call *call; call = find_call_with_status(CSD_CALL_STATUS_COMING); if (!call) call = find_call_with_status(CSD_CALL_STATUS_MT_ALERTING); if (!call) call = find_call_with_status(CSD_CALL_STATUS_PROCEEDING); if (!call) call = find_call_with_status(CSD_CALL_STATUS_WAITING); if (!call) { telephony_answer_call_rsp(telephony_device, CME_ERROR_NOT_ALLOWED); return; } if (answer_call(call) < 0) telephony_answer_call_rsp(telephony_device, CME_ERROR_AG_FAILURE); else telephony_answer_call_rsp(telephony_device, CME_ERROR_NONE); } static int send_method_call(const char *dest, const char *path, const char *interface, const char *method, DBusPendingCallNotifyFunction cb, void *user_data, int type, ...) { DBusMessage *msg; DBusPendingCall *call; va_list args; msg = dbus_message_new_method_call(dest, path, interface, method); if (!msg) { error("Unable to allocate new D-Bus %s message", method); return -ENOMEM; } va_start(args, type); if (!dbus_message_append_args_valist(msg, type, args)) { dbus_message_unref(msg); va_end(args); return -EIO; } va_end(args); if (!cb) { g_dbus_send_message(connection, msg); return 0; } if (!dbus_connection_send_with_reply(connection, msg, &call, -1)) { error("Sending %s failed", method); dbus_message_unref(msg); return -EIO; } dbus_pending_call_set_notify(call, cb, user_data, NULL); dbus_pending_call_unref(call); dbus_message_unref(msg); return 0; } static const char *memory_dial_lookup(int location) { if (location == 1) return vmbx; else return NULL; } void telephony_dial_number_req(void *telephony_device, const char *number) { uint32_t flags = CALL_FLAG_NONE; int ret; debug("telephony-maemo: dial request to %s", number); if (strncmp(number, "*31#", 4) == 0) { number += 4; flags = CALL_FLAG_PRESENTATION_ALLOWED; } else if (strncmp(number, "#31#", 4) == 0) { number += 4; flags = CALL_FLAG_PRESENTATION_RESTRICTED; } else if (number[0] == '>') { const char *location = &number[1]; number = memory_dial_lookup(strtol(&number[1], NULL, 0)); if (!number) { error("No number at memory location %s", location); telephony_dial_number_rsp(telephony_device, CME_ERROR_INVALID_INDEX); return; } } ret = send_method_call(CSD_CALL_BUS_NAME, CSD_CALL_PATH, CSD_CALL_INTERFACE, "CreateWith", NULL, NULL, DBUS_TYPE_STRING, &number, DBUS_TYPE_UINT32, &flags, DBUS_TYPE_INVALID); if (ret < 0) { telephony_dial_number_rsp(telephony_device, CME_ERROR_AG_FAILURE); return; } telephony_dial_number_rsp(telephony_device, CME_ERROR_NONE); } void telephony_transmit_dtmf_req(void *telephony_device, char tone) { int ret; char buf[2] = { tone, '\0' }, *buf_ptr = buf; debug("telephony-maemo: transmit dtmf: %s", buf); ret = send_method_call(CSD_CALL_BUS_NAME, CSD_CALL_PATH, CSD_CALL_INTERFACE, "SendDTMF", NULL, NULL, DBUS_TYPE_STRING, &buf_ptr, DBUS_TYPE_INVALID); if (ret < 0) { telephony_transmit_dtmf_rsp(telephony_device, CME_ERROR_AG_FAILURE); return; } telephony_transmit_dtmf_rsp(telephony_device, CME_ERROR_NONE); } void telephony_subscriber_number_req(void *telephony_device) { debug("telephony-maemo: subscriber number request"); if (msisdn) telephony_subscriber_number_ind(msisdn, NUMBER_TYPE_TELEPHONY, SUBSCRIBER_SERVICE_VOICE); telephony_subscriber_number_rsp(telephony_device, CME_ERROR_NONE); } static int csd_status_to_hfp(struct csd_call *call) { switch (call->status) { case CSD_CALL_STATUS_IDLE: case CSD_CALL_STATUS_MO_RELEASE: case CSD_CALL_STATUS_MT_RELEASE: case CSD_CALL_STATUS_TERMINATED: return -1; case CSD_CALL_STATUS_CREATE: return CALL_STATUS_DIALING; case CSD_CALL_STATUS_WAITING: return CALL_STATUS_WAITING; case CSD_CALL_STATUS_PROCEEDING: /* PROCEEDING can happen in outgoing/incoming */ if (call->originating) return CALL_STATUS_DIALING; else return CALL_STATUS_INCOMING; case CSD_CALL_STATUS_COMING: return CALL_STATUS_INCOMING; case CSD_CALL_STATUS_MO_ALERTING: return CALL_STATUS_ALERTING; case CSD_CALL_STATUS_MT_ALERTING: return CALL_STATUS_INCOMING; case CSD_CALL_STATUS_ANSWERED: case CSD_CALL_STATUS_ACTIVE: case CSD_CALL_STATUS_RECONNECT_PENDING: case CSD_CALL_STATUS_SWAP_INITIATED: case CSD_CALL_STATUS_HOLD_INITIATED: return CALL_STATUS_ACTIVE; case CSD_CALL_STATUS_RETRIEVE_INITIATED: case CSD_CALL_STATUS_HOLD: return CALL_STATUS_HELD; default: return -1; } } void telephony_list_current_calls_req(void *telephony_device) { GSList *l; int i; debug("telephony-maemo: list current calls request"); for (l = calls, i = 1; l != NULL; l = l->next, i++) { struct csd_call *call = l->data; int status, direction, multiparty; status = csd_status_to_hfp(call); if (status < 0) continue; direction = call->originating ? CALL_DIR_OUTGOING : CALL_DIR_INCOMING; multiparty = call->conference ? CALL_MULTIPARTY_YES : CALL_MULTIPARTY_NO; telephony_list_current_call_ind(i, direction, status, CALL_MODE_VOICE, multiparty, call->number, NUMBER_TYPE_TELEPHONY); } telephony_list_current_calls_rsp(telephony_device, CME_ERROR_NONE); } void telephony_operator_selection_req(void *telephony_device) { telephony_operator_selection_ind(OPERATOR_MODE_AUTO, net.operator_name ? net.operator_name : ""); telephony_operator_selection_rsp(telephony_device, CME_ERROR_NONE); } static void foreach_call_with_status(int status, int (*func)(struct csd_call *call)) { GSList *l; for (l = calls; l != NULL; l = l->next) { struct csd_call *call = l->data; if (call->status == status) func(call); } } void telephony_call_hold_req(void *telephony_device, const char *cmd) { const char *idx; struct csd_call *call; int err = 0; debug("telephony-maemo: got call hold request %s", cmd); if (strlen(cmd) > 1) idx = &cmd[1]; else idx = NULL; if (idx) call = g_slist_nth_data(calls, strtol(idx, NULL, 0) - 1); else call = NULL; switch (cmd[0]) { case '0': foreach_call_with_status(CSD_CALL_STATUS_HOLD, release_call); foreach_call_with_status(CSD_CALL_STATUS_WAITING, release_call); break; case '1': if (idx) { if (call) err = release_call(call); break; } foreach_call_with_status(CSD_CALL_STATUS_ACTIVE, release_call); call = find_call_with_status(CSD_CALL_STATUS_WAITING); if (call) err = answer_call(call); break; case '2': if (idx) { if (call) err = split_call(call); } else { struct csd_call *held, *wait; call = find_call_with_status(CSD_CALL_STATUS_ACTIVE); held = find_call_with_status(CSD_CALL_STATUS_HOLD); wait = find_call_with_status(CSD_CALL_STATUS_WAITING); if (wait) err = answer_call(wait); else if (call && held) err = swap_calls(); else { if (call) err = hold_call(call); if (held) err = unhold_call(held); } } break; case '3': if (find_call_with_status(CSD_CALL_STATUS_HOLD) || find_call_with_status(CSD_CALL_STATUS_WAITING)) err = create_conference(); break; case '4': err = call_transfer(); break; default: debug("Unknown call hold request"); break; } if (err) telephony_call_hold_rsp(telephony_device, CME_ERROR_AG_FAILURE); else telephony_call_hold_rsp(telephony_device, CME_ERROR_NONE); } void telephony_nr_and_ec_req(void *telephony_device, gboolean enable) { debug("telephony-maemo: got %s NR and EC request", enable ? "enable" : "disable"); telephony_nr_and_ec_rsp(telephony_device, CME_ERROR_NONE); } void telephony_key_press_req(void *telephony_device, const char *keys) { struct csd_call *active, *waiting; int err; debug("telephony-maemo: got key press request for %s", keys); waiting = find_call_with_status(CSD_CALL_STATUS_COMING); if (!waiting) waiting = find_call_with_status(CSD_CALL_STATUS_MT_ALERTING); if (!waiting) waiting = find_call_with_status(CSD_CALL_STATUS_PROCEEDING); active = find_call_with_status(CSD_CALL_STATUS_ACTIVE); if (waiting) err = answer_call(waiting); else if (active) err = release_call(active); else err = 0; if (err < 0) telephony_key_press_rsp(telephony_device, CME_ERROR_AG_FAILURE); else telephony_key_press_rsp(telephony_device, CME_ERROR_NONE); } static void handle_incoming_call(DBusMessage *msg) { const char *number, *call_path; struct csd_call *call; if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_OBJECT_PATH, &call_path, DBUS_TYPE_STRING, &number, DBUS_TYPE_INVALID)) { error("Unexpected parameters in Call.Coming() signal"); return; } call = find_call(call_path); if (!call) { error("Didn't find any matching call object for %s", call_path); return; } debug("Incoming call to %s from number %s", call_path, number); g_free(call->number); call->number = g_strdup(number); telephony_update_indicator(maemo_indicators, "callsetup", EV_CALLSETUP_INCOMING); if (find_call_with_status(CSD_CALL_STATUS_ACTIVE)) telephony_call_waiting_ind(call->number, NUMBER_TYPE_TELEPHONY); else telephony_incoming_call_ind(call->number, NUMBER_TYPE_TELEPHONY); } static void handle_outgoing_call(DBusMessage *msg) { const char *number, *call_path; struct csd_call *call; if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_OBJECT_PATH, &call_path, DBUS_TYPE_STRING, &number, DBUS_TYPE_INVALID)) { error("Unexpected parameters in Call.Created() signal"); return; } call = find_call(call_path); if (!call) { error("Didn't find any matching call object for %s", call_path); return; } debug("Outgoing call from %s to number %s", call_path, number); g_free(call->number); call->number = g_strdup(number); g_free(last_dialed_number); last_dialed_number = g_strdup(number); telephony_update_indicator(maemo_indicators, "callsetup", EV_CALLSETUP_OUTGOING); } static void handle_call_status(DBusMessage *msg, const char *call_path) { struct csd_call *call, *active_call; dbus_uint32_t status, cause_type, cause; if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_UINT32, &status, DBUS_TYPE_UINT32, &cause_type, DBUS_TYPE_UINT32, &cause, DBUS_TYPE_INVALID)) { error("Unexpected paramters in Instance.CallStatus() signal"); return; } call = find_call(call_path); if (!call) { error("Didn't find any matching call object for %s", call_path); return; } if (status > 16) { error("Invalid call status %u", status); return; } debug("Call %s changed from %s to %s", call_path, call_status_str[call->status], call_status_str[status]); active_call = find_call_with_status(CSD_CALL_STATUS_ACTIVE); switch (status) { case CSD_CALL_STATUS_IDLE: if (call->setup) { telephony_update_indicator(maemo_indicators, "callsetup", EV_CALLSETUP_INACTIVE); if (!call->originating) telephony_calling_stopped_ind(); } else telephony_update_indicator(maemo_indicators, "call", EV_CALL_INACTIVE); g_free(call->number); call->number = NULL; call->originating = FALSE; call->emergency = FALSE; call->on_hold = FALSE; call->conference = FALSE; call->setup = FALSE; break; case CSD_CALL_STATUS_CREATE: call->originating = TRUE; call->setup = TRUE; break; case CSD_CALL_STATUS_COMING: call->originating = FALSE; call->setup = TRUE; break; case CSD_CALL_STATUS_PROCEEDING: break; case CSD_CALL_STATUS_MO_ALERTING: telephony_update_indicator(maemo_indicators, "callsetup", EV_CALLSETUP_ALERTING); break; case CSD_CALL_STATUS_MT_ALERTING: break; case CSD_CALL_STATUS_WAITING: break; case CSD_CALL_STATUS_ANSWERED: break; case CSD_CALL_STATUS_ACTIVE: if (call->on_hold) { call->on_hold = FALSE; /* Set the status already here since otherwise * find_call_with_status will match this call even * though it shouldn't */ call->status = (int) status; if (find_call_with_status(CSD_CALL_STATUS_HOLD)) telephony_update_indicator(maemo_indicators, "callheld", EV_CALLHELD_MULTIPLE); else telephony_update_indicator(maemo_indicators, "callheld", EV_CALLHELD_NONE); } else { telephony_update_indicator(maemo_indicators, "call", EV_CALL_ACTIVE); telephony_update_indicator(maemo_indicators, "callsetup", EV_CALLSETUP_INACTIVE); if (!call->originating) telephony_calling_stopped_ind(); call->setup = FALSE; } break; case CSD_CALL_STATUS_MO_RELEASE: break; case CSD_CALL_STATUS_MT_RELEASE: break; case CSD_CALL_STATUS_HOLD_INITIATED: break; case CSD_CALL_STATUS_HOLD: call->on_hold = TRUE; if (active_call && active_call != call) telephony_update_indicator(maemo_indicators, "callheld", EV_CALLHELD_MULTIPLE); else telephony_update_indicator(maemo_indicators, "callheld", EV_CALLHELD_ON_HOLD); break; case CSD_CALL_STATUS_RETRIEVE_INITIATED: break; case CSD_CALL_STATUS_RECONNECT_PENDING: break; case CSD_CALL_STATUS_TERMINATED: if (call->on_hold) { /* Set the status already here since otherwise * find_call_with_status will match this call even * though it shouldn't */ call->status = (int) status; if (!find_call_with_status(CSD_CALL_STATUS_HOLD)) telephony_update_indicator(maemo_indicators, "callheld", EV_CALLHELD_NONE); } break; case CSD_CALL_STATUS_SWAP_INITIATED: break; default: error("Unknown call status %u", status); break; } call->status = (int) status; } static void get_operator_name_reply(DBusPendingCall *pending_call, void *user_data) { DBusMessage *reply; DBusError err; const char *name; dbus_int32_t net_err; reply = dbus_pending_call_steal_reply(pending_call); dbus_error_init(&err); if (dbus_set_error_from_message(&err, reply)) { error("%s get_operator_name failed: %s, %s", err.name, err.message); dbus_error_free(&err); goto done; } dbus_error_init(&err); if (!dbus_message_get_args(reply, &err, DBUS_TYPE_STRING, &name, DBUS_TYPE_INT32, &net_err, DBUS_TYPE_INVALID)) { error("Unexpected get_operator_name reply parameters: %s, %s", err.name, err.message); dbus_error_free(&err); goto done; } if (net_err != 0) { error("get_operator_name failed with code %d", net_err); goto done; } if (strlen(name) == 0) goto done; g_free(net.operator_name); net.operator_name = g_strdup(name); debug("telephony-maemo: operator name updated: %s", name); done: dbus_message_unref(reply); } static void resolve_operator_name(uint32_t operator, uint32_t country) { uint8_t name_type = NETWORK_HARDCODED_LATIN_OPER_NAME; send_method_call(NETWORK_BUS_NAME, NETWORK_PATH, NETWORK_INTERFACE, "get_operator_name", get_operator_name_reply, NULL, DBUS_TYPE_BYTE, &name_type, DBUS_TYPE_UINT32, &operator, DBUS_TYPE_UINT32, &country, DBUS_TYPE_INVALID); } static void update_registration_status(uint8_t status, uint16_t lac, uint32_t cell_id, uint32_t operator_code, uint32_t country_code, uint8_t network_type, uint8_t supported_services) { if (net.status != status) { switch (status) { case NETWORK_REG_STATUS_HOME: telephony_update_indicator(maemo_indicators, "roam", EV_ROAM_INACTIVE); if (net.status >= NETWORK_REG_STATUS_NOSERV) telephony_update_indicator(maemo_indicators, "service", EV_SERVICE_PRESENT); break; case NETWORK_REG_STATUS_ROAM: case NETWORK_REG_STATUS_ROAM_BLINK: telephony_update_indicator(maemo_indicators, "roam", EV_ROAM_ACTIVE); if (net.status >= NETWORK_REG_STATUS_NOSERV) telephony_update_indicator(maemo_indicators, "service", EV_SERVICE_PRESENT); break; case NETWORK_REG_STATUS_NOSERV: case NETWORK_REG_STATUS_NOSERV_SEARCHING: case NETWORK_REG_STATUS_NOSERV_NOTSEARCHING: case NETWORK_REG_STATUS_NOSERV_NOSIM: case NETWORK_REG_STATUS_POWER_OFF: case NETWORK_REG_STATUS_NSPS: case NETWORK_REG_STATUS_NSPS_NO_COVERAGE: case NETWORK_REG_STATUS_NOSERV_SIM_REJECTED_BY_NW: if (net.status < NETWORK_REG_STATUS_NOSERV) telephony_update_indicator(maemo_indicators, "service", EV_SERVICE_NONE); break; } net.status = status; } net.lac = lac; net.cell_id = cell_id; if (net.operator_code != operator_code || net.country_code != country_code) { g_free(net.operator_name); net.operator_name = NULL; resolve_operator_name(operator_code, country_code); net.operator_code = operator_code; net.country_code = country_code; } net.network_type = network_type; net.supported_services = supported_services; } static void handle_registration_status_change(DBusMessage *msg) { uint8_t status; dbus_uint16_t lac, network_type, supported_services; dbus_uint32_t cell_id, operator_code, country_code; if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_BYTE, &status, DBUS_TYPE_UINT16, &lac, DBUS_TYPE_UINT32, &cell_id, DBUS_TYPE_UINT32, &operator_code, DBUS_TYPE_UINT32, &country_code, DBUS_TYPE_BYTE, &network_type, DBUS_TYPE_BYTE, &supported_services, DBUS_TYPE_INVALID)) { error("Unexpected parameters in registration_status_change"); return; } update_registration_status(status, lac, cell_id, operator_code, country_code, network_type, supported_services); } static void update_signal_strength(uint8_t signals_bar) { int signal; if (signals_bar > 100) { debug("signals_bar greater than expected: %u", signals_bar); signals_bar = 100; } if (net.signals_bar == signals_bar) return; /* A simple conversion from 0-100 to 0-5 (used by HFP) */ signal = (signals_bar + 20) / 21; telephony_update_indicator(maemo_indicators, "signal", signal); net.signals_bar = signals_bar; debug("Signal strength updated: %u/100, %d/5", signals_bar, signal); } static void handle_signal_strength_change(DBusMessage *msg) { uint8_t signals_bar, rssi_in_dbm; if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_BYTE, &signals_bar, DBUS_TYPE_BYTE, &rssi_in_dbm, DBUS_TYPE_INVALID)) { error("Unexpected parameters in signal_strength_change"); return; } update_signal_strength(signals_bar); } static gboolean iter_get_basic_args(DBusMessageIter *iter, int first_arg_type, ...) { int type; va_list ap; va_start(ap, first_arg_type); for (type = first_arg_type; type != DBUS_TYPE_INVALID; type = va_arg(ap, int)) { void *value = va_arg(ap, void *); int real_type = dbus_message_iter_get_arg_type(iter); if (real_type != type) { error("iter_get_basic_args: expected %c but got %c", (char) type, (char) real_type); break; } dbus_message_iter_get_basic(iter, value); dbus_message_iter_next(iter); } va_end(ap); return type == DBUS_TYPE_INVALID ? TRUE : FALSE; } static void hal_battery_level_reply(DBusPendingCall *call, void *user_data) { DBusError err; DBusMessage *reply; dbus_int32_t level; int *value = user_data; reply = dbus_pending_call_steal_reply(call); dbus_error_init(&err); if (dbus_set_error_from_message(&err, reply)) { error("hald replied with an error: %s, %s", err.name, err.message); dbus_error_free(&err); goto done; } dbus_message_get_args(reply, NULL, DBUS_TYPE_INT32, &level, DBUS_TYPE_INVALID); *value = (int) level; if (value == &battchg_last) debug("telephony-maemo: battery.charge_level.last_full is %d", *value); else if (value == &battchg_design) debug("telephony-maemo: battery.charge_level.design is %d", *value); else debug("telephony-maemo: battery.charge_level.current is %d", *value); if ((battchg_design > 0 || battchg_last > 0) && battchg_cur >= 0) { int new, cur, max; if (battchg_last > 0) max = battchg_last; else max = battchg_design; cur = telephony_get_indicator(maemo_indicators, "battchg"); new = battchg_cur * 5 / max; if (new != cur) telephony_update_indicator(maemo_indicators, "battchg", new); } done: dbus_message_unref(reply); } static void hal_get_integer(const char *path, const char *key, void *user_data) { send_method_call("org.freedesktop.Hal", path, "org.freedesktop.Hal.Device", "GetPropertyInteger", hal_battery_level_reply, user_data, DBUS_TYPE_STRING, &key, DBUS_TYPE_INVALID); } static void handle_hal_property_modified(DBusMessage *msg) { DBusMessageIter iter, array; dbus_int32_t num_changes; const char *path; path = dbus_message_get_path(msg); dbus_message_iter_init(msg, &iter); if (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_INT32) { error("Unexpected signature in hal PropertyModified signal"); return; } dbus_message_iter_get_basic(&iter, &num_changes); dbus_message_iter_next(&iter); if (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_ARRAY) { error("Unexpected signature in hal PropertyModified signal"); return; } dbus_message_iter_recurse(&iter, &array); while (dbus_message_iter_get_arg_type(&array) != DBUS_TYPE_INVALID) { DBusMessageIter prop; const char *name; dbus_bool_t added, removed; dbus_message_iter_recurse(&array, &prop); if (!iter_get_basic_args(&prop, DBUS_TYPE_STRING, &name, DBUS_TYPE_BOOLEAN, &added, DBUS_TYPE_BOOLEAN, &removed, DBUS_TYPE_INVALID)) { error("Invalid hal PropertyModified parameters"); break; } if (g_str_equal(name, "battery.charge_level.last_full")) hal_get_integer(path, name, &battchg_last); else if (g_str_equal(name, "battery.charge_level.current")) hal_get_integer(path, name, &battchg_cur); else if (g_str_equal(name, "battery.charge_level.design")) hal_get_integer(path, name, &battchg_design); dbus_message_iter_next(&array); } } static DBusHandlerResult signal_filter(DBusConnection *conn, DBusMessage *msg, void *data) { const char *path = dbus_message_get_path(msg); if (dbus_message_get_type(msg) != DBUS_MESSAGE_TYPE_SIGNAL) return DBUS_HANDLER_RESULT_NOT_YET_HANDLED; if (dbus_message_is_signal(msg, CSD_CALL_INTERFACE, "Coming")) handle_incoming_call(msg); else if (dbus_message_is_signal(msg, CSD_CALL_INTERFACE, "Created")) handle_outgoing_call(msg); else if (dbus_message_is_signal(msg, CSD_CALL_INSTANCE, "CallStatus")) handle_call_status(msg, path); else if (dbus_message_is_signal(msg, NETWORK_INTERFACE, "registration_status_change")) handle_registration_status_change(msg); else if (dbus_message_is_signal(msg, NETWORK_INTERFACE, "signal_strength_change")) handle_signal_strength_change(msg); else if (dbus_message_is_signal(msg, "org.freedesktop.Hal.Device", "PropertyModified")) handle_hal_property_modified(msg); return DBUS_HANDLER_RESULT_NOT_YET_HANDLED; } static void csd_call_free(struct csd_call *call) { if (!call) return; g_free(call->object_path); g_free(call->number); g_free(call); } static void parse_call_list(DBusMessageIter *iter) { while (dbus_message_iter_get_arg_type(iter) != DBUS_TYPE_INVALID) { DBusMessageIter call_iter; struct csd_call *call; const char *object_path, *number; dbus_uint32_t status; dbus_bool_t originating, terminating, emerg, on_hold, conf; dbus_message_iter_recurse(iter, &call_iter); if (!iter_get_basic_args(&call_iter, DBUS_TYPE_OBJECT_PATH, &object_path, DBUS_TYPE_UINT32, &status, DBUS_TYPE_BOOLEAN, &originating, DBUS_TYPE_BOOLEAN, &terminating, DBUS_TYPE_BOOLEAN, &emerg, DBUS_TYPE_BOOLEAN, &on_hold, DBUS_TYPE_BOOLEAN, &conf, DBUS_TYPE_STRING, &number, DBUS_TYPE_INVALID)) { error("Parsing call D-Bus parameters failed"); continue; } call = g_new0(struct csd_call, 1); call->object_path = g_strdup(object_path); call->status = (int) status; calls = g_slist_append(calls, call); debug("telephony-maemo: new csd call instance at %s", object_path); if (call->status == CSD_CALL_STATUS_IDLE) { dbus_message_iter_next(iter); continue; } call->originating = originating; call->on_hold = on_hold; call->conference = conf; call->number = g_strdup(number); dbus_message_iter_next(iter); } } static void signal_strength_reply(DBusPendingCall *call, void *user_data) { DBusError err; DBusMessage *reply; uint8_t signals_bar, rssi_in_dbm; dbus_int32_t net_err; reply = dbus_pending_call_steal_reply(call); dbus_error_init(&err); if (dbus_set_error_from_message(&err, reply)) { error("Unable to get signal strength: %s, %s", err.name, err.message); dbus_error_free(&err); goto done; } dbus_error_init(&err); if (!dbus_message_get_args(reply, NULL, DBUS_TYPE_BYTE, &signals_bar, DBUS_TYPE_BYTE, &rssi_in_dbm, DBUS_TYPE_INT32, &net_err, DBUS_TYPE_INVALID)) { error("Unable to parse signal_strength reply:", err.name, err.message); dbus_error_free(&err); return; } if (net_err != 0) { error("get_signal_strength failed with code %d", net_err); return; } update_signal_strength(signals_bar); done: dbus_message_unref(reply); } static int get_signal_strength(void) { return send_method_call(NETWORK_BUS_NAME, NETWORK_PATH, NETWORK_INTERFACE, "get_signal_strength", signal_strength_reply, NULL, DBUS_TYPE_INVALID); } static void registration_status_reply(DBusPendingCall *call, void *user_data) { DBusError err; DBusMessage *reply; uint8_t status; dbus_uint16_t lac, network_type, supported_services; dbus_uint32_t cell_id, operator_code, country_code; dbus_int32_t net_err; uint32_t features = AG_FEATURE_EC_ANDOR_NR | AG_FEATURE_INBAND_RINGTONE | AG_FEATURE_REJECT_A_CALL | AG_FEATURE_ENHANCED_CALL_STATUS | AG_FEATURE_ENHANCED_CALL_CONTROL | AG_FEATURE_EXTENDED_ERROR_RESULT_CODES | AG_FEATURE_THREE_WAY_CALLING; reply = dbus_pending_call_steal_reply(call); dbus_error_init(&err); if (dbus_set_error_from_message(&err, reply)) { error("Unable to get registration status: %s, %s", err.name, err.message); dbus_error_free(&err); goto done; } dbus_error_init(&err); if (!dbus_message_get_args(reply, NULL, DBUS_TYPE_BYTE, &status, DBUS_TYPE_UINT16, &lac, DBUS_TYPE_UINT32, &cell_id, DBUS_TYPE_UINT32, &operator_code, DBUS_TYPE_UINT32, &country_code, DBUS_TYPE_BYTE, &network_type, DBUS_TYPE_BYTE, &supported_services, DBUS_TYPE_INT32, &net_err, DBUS_TYPE_INVALID)) { error("Unable to parse registration_status_change reply:", err.name, err.message); dbus_error_free(&err); return; } if (net_err != 0) { error("get_registration_status failed with code %d", net_err); return; } update_registration_status(status, lac, cell_id, operator_code, country_code, network_type, supported_services); telephony_ready_ind(features, maemo_indicators, response_and_hold, chld_str); get_signal_strength(); done: dbus_message_unref(reply); } static int get_registration_status(void) { return send_method_call(NETWORK_BUS_NAME, NETWORK_PATH, NETWORK_INTERFACE, "get_registration_status", registration_status_reply, NULL, DBUS_TYPE_INVALID); } static void call_info_reply(DBusPendingCall *call, void *user_data) { DBusError err; DBusMessage *reply; DBusMessageIter iter, sub;; reply = dbus_pending_call_steal_reply(call); dbus_error_init(&err); if (dbus_set_error_from_message(&err, reply)) { error("csd replied with an error: %s, %s", err.name, err.message); dbus_error_free(&err); goto done; } dbus_message_iter_init(reply, &iter); if (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_ARRAY) { error("Unexpected signature in GetCallInfoAll return"); goto done; } dbus_message_iter_recurse(&iter, &sub); parse_call_list(&sub); get_registration_status(); done: dbus_message_unref(reply); } static void hal_find_device_reply(DBusPendingCall *call, void *user_data) { DBusError err; DBusMessage *reply; DBusMessageIter iter, sub; const char *path; char match_string[256]; int type; reply = dbus_pending_call_steal_reply(call); dbus_error_init(&err); if (dbus_set_error_from_message(&err, reply)) { error("hald replied with an error: %s, %s", err.name, err.message); dbus_error_free(&err); goto done; } dbus_message_iter_init(reply, &iter); if (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_ARRAY) { error("Unexpected signature in GetCallInfoAll return"); goto done; } dbus_message_iter_recurse(&iter, &sub); type = dbus_message_iter_get_arg_type(&sub); if (type != DBUS_TYPE_OBJECT_PATH && type != DBUS_TYPE_STRING) { error("No hal device with battery capability found"); goto done; } dbus_message_iter_get_basic(&sub, &path); debug("telephony-maemo: found battery device at %s", path); snprintf(match_string, sizeof(match_string), "type='signal'," "path='%s'," "interface='org.freedesktop.Hal.Device'," "member='PropertyModified'", path); dbus_bus_add_match(connection, match_string, NULL); hal_get_integer(path, "battery.charge_level.last_full", &battchg_last); hal_get_integer(path, "battery.charge_level.current", &battchg_cur); hal_get_integer(path, "battery.charge_level.design", &battchg_design); done: dbus_message_unref(reply); } static void phonebook_read_reply(DBusPendingCall *call, void *user_data) { DBusError derr; DBusMessage *reply; const char *name, *number; char **number_type = user_data; dbus_int32_t current_location, err; reply = dbus_pending_call_steal_reply(call); dbus_error_init(&derr); if (dbus_set_error_from_message(&derr, reply)) { error("SIM.Phonebook replied with an error: %s, %s", derr.name, derr.message); dbus_error_free(&derr); goto done; } dbus_error_init(&derr); dbus_message_get_args(reply, NULL, DBUS_TYPE_STRING, &name, DBUS_TYPE_STRING, &number, DBUS_TYPE_INT32, ¤t_location, DBUS_TYPE_INT32, &err, DBUS_TYPE_INVALID); if (dbus_error_is_set(&derr)) { error("Unable to parse SIM.Phonebook.read arguments: %s, %s", derr.name, derr.message); dbus_error_free(&derr); goto done; } if (err != 0) { error("SIM.Phonebook.read failed with error %d", err); goto done; } if (number_type == &msisdn) { g_free(msisdn); msisdn = g_strdup(number); debug("Got MSISDN %s (%s)", number, name); } else { g_free(vmbx); vmbx = g_strdup(number); debug("Got voice mailbox number %s (%s)", number, name); } done: dbus_message_unref(reply); } int telephony_init(void) { char match_string[128]; const char *battery_cap = "battery"; dbus_uint32_t location; uint8_t pb_type, location_type; int ret; connection = dbus_bus_get(DBUS_BUS_SYSTEM, NULL); if (!dbus_connection_add_filter(connection, signal_filter, NULL, NULL)) { error("Can't add signal filter"); return -EIO; } snprintf(match_string, sizeof(match_string), "type=signal,interface=%s", CSD_CALL_INTERFACE); dbus_bus_add_match(connection, match_string, NULL); snprintf(match_string, sizeof(match_string), "type=signal,interface=%s", CSD_CALL_INSTANCE); dbus_bus_add_match(connection, match_string, NULL); snprintf(match_string, sizeof(match_string), "type=signal,interface=%s", NETWORK_INTERFACE); dbus_bus_add_match(connection, match_string, NULL); ret = send_method_call(CSD_CALL_BUS_NAME, CSD_CALL_PATH, CSD_CALL_INTERFACE, "GetCallInfoAll", call_info_reply, NULL, DBUS_TYPE_INVALID); if (ret < 0) return ret; ret = send_method_call("org.freedesktop.Hal", "/org/freedesktop/Hal/Manager", "org.freedesktop.Hal.Manager", "FindDeviceByCapability", hal_find_device_reply, NULL, DBUS_TYPE_STRING, &battery_cap, DBUS_TYPE_INVALID); if (ret < 0) return ret; pb_type = SIM_PHONEBOOK_TYPE_MSISDN; location = PHONEBOOK_INDEX_FIRST_ENTRY; location_type = SIM_PHONEBOOK_LOCATION_NEXT; ret = send_method_call(SIM_PHONEBOOK_BUS_NAME, SIM_PHONEBOOK_PATH, SIM_PHONEBOOK_INTERFACE, "read", phonebook_read_reply, &msisdn, DBUS_TYPE_BYTE, &pb_type, DBUS_TYPE_INT32, &location, DBUS_TYPE_BYTE, &location_type, DBUS_TYPE_INVALID); if (ret < 0) return ret; pb_type = SIM_PHONEBOOK_TYPE_VMBX; location = PHONEBOOK_INDEX_FIRST_ENTRY; location_type = SIM_PHONEBOOK_LOCATION_NEXT; return send_method_call(SIM_PHONEBOOK_BUS_NAME, SIM_PHONEBOOK_PATH, SIM_PHONEBOOK_INTERFACE, "read", phonebook_read_reply, &vmbx, DBUS_TYPE_BYTE, &pb_type, DBUS_TYPE_INT32, &location, DBUS_TYPE_BYTE, &location_type, DBUS_TYPE_INVALID); } void telephony_exit(void) { g_slist_foreach(calls, (GFunc) csd_call_free, NULL); g_slist_free(calls); calls = NULL; dbus_connection_remove_filter(connection, signal_filter, NULL); dbus_connection_unref(connection); connection = NULL; }