/* * * 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 #include #include "ofono.h" #include "common.h" #include "simutil.h" #include "smsutil.h" #define MAX_VOICE_CALLS 16 GSList *g_drivers = NULL; struct ofono_voicecall { GSList *call_list; GSList *release_list; GSList *multiparty_list; GSList *en_list; /* emergency number list */ GSList *new_en_list; /* Emergency numbers being read from SIM */ DBusMessage *pending; struct ofono_sim *sim; struct ofono_sim_context *sim_context; unsigned int sim_watch; unsigned int sim_state_watch; const struct ofono_voicecall_driver *driver; void *driver_data; struct ofono_atom *atom; struct dial_request *dial_req; GQueue *toneq; guint tone_source; }; struct voicecall { struct ofono_call *call; struct ofono_voicecall *vc; time_t start_time; time_t detect_time; char *message; uint8_t icon_id; gboolean untracked; gboolean dial_result_handled; ofono_bool_t remote_held; ofono_bool_t remote_multiparty; }; struct dial_request { struct ofono_voicecall *vc; char *message; uint8_t icon_id; enum ofono_voicecall_interaction interaction; ofono_voicecall_dial_cb_t cb; void *user_data; struct voicecall *call; struct ofono_phone_number ph; }; struct tone_queue_entry { char *tone_str; char *left; ofono_voicecall_tone_cb_t cb; void *user_data; ofono_destroy_func destroy; int id; }; static const char *default_en_list[] = { "911", "112", NULL }; static const char *default_en_list_no_sim[] = { "119", "118", "999", "110", "08", "000", NULL }; static void generic_callback(const struct ofono_error *error, void *data); static void multirelease_callback(const struct ofono_error *err, void *data); static gboolean tone_request_run(gpointer user_data); static gint call_compare_by_id(gconstpointer a, gconstpointer b) { const struct ofono_call *call = ((struct voicecall *)a)->call; unsigned int id = GPOINTER_TO_UINT(b); if (id < call->id) return -1; if (id > call->id) return 1; return 0; } static gint call_compare(gconstpointer a, gconstpointer b) { const struct voicecall *ca = a; const struct voicecall *cb = b; if (ca->call->id < cb->call->id) return -1; if (ca->call->id > cb->call->id) return 1; return 0; } static void add_to_en_list(GSList **l, const char **list) { int i = 0; while (list[i]) *l = g_slist_prepend(*l, g_strdup(list[i++])); } static const char *disconnect_reason_to_string(enum ofono_disconnect_reason r) { switch (r) { case OFONO_DISCONNECT_REASON_LOCAL_HANGUP: return "local"; case OFONO_DISCONNECT_REASON_REMOTE_HANGUP: return "remote"; default: return "network"; } } static const char *call_status_to_string(int status) { switch (status) { case CALL_STATUS_ACTIVE: return "active"; case CALL_STATUS_HELD: return "held"; case CALL_STATUS_DIALING: return "dialing"; case CALL_STATUS_ALERTING: return "alerting"; case CALL_STATUS_INCOMING: return "incoming"; case CALL_STATUS_WAITING: return "waiting"; default: return "disconnected"; } } static const char *phone_and_clip_to_string(const struct ofono_phone_number *n, int clip_validity) { if (clip_validity == CLIP_VALIDITY_WITHHELD && !strlen(n->number)) return "withheld"; if (clip_validity == CLIP_VALIDITY_NOT_AVAILABLE) return ""; return phone_number_to_string(n); } static const char *cnap_to_string(const char *name, int cnap_validity) { if (cnap_validity == CNAP_VALIDITY_WITHHELD && !strlen(name)) return "withheld"; if (cnap_validity == CNAP_VALIDITY_NOT_AVAILABLE) return ""; return name; } static const char *time_to_str(const time_t *t) { static char buf[128]; struct tm tm; strftime(buf, 127, "%Y-%m-%dT%H:%M:%S%z", localtime_r(t, &tm)); buf[127] = '\0'; return buf; } static unsigned int voicecalls_num_with_status(struct ofono_voicecall *vc, int status) { GSList *l; struct voicecall *v; int num = 0; for (l = vc->call_list; l; l = l->next) { v = l->data; if (v->call->status == status) num += 1; } return num; } static unsigned int voicecalls_num_active(struct ofono_voicecall *vc) { return voicecalls_num_with_status(vc, CALL_STATUS_ACTIVE); } static unsigned int voicecalls_num_held(struct ofono_voicecall *vc) { return voicecalls_num_with_status(vc, CALL_STATUS_HELD); } static unsigned int voicecalls_num_connecting(struct ofono_voicecall *vc) { unsigned int r = 0; r += voicecalls_num_with_status(vc, CALL_STATUS_DIALING); r += voicecalls_num_with_status(vc, CALL_STATUS_ALERTING); return r; } static void dial_request_finish(struct ofono_voicecall *vc) { struct dial_request *dial_req = vc->dial_req; if (dial_req->cb) dial_req->cb(dial_req->call ? dial_req->call->call : NULL, dial_req->user_data); g_free(dial_req->message); g_free(dial_req); vc->dial_req = NULL; } static gboolean voicecalls_can_dtmf(struct ofono_voicecall *vc) { GSList *l; struct voicecall *v; for (l = vc->call_list; l; l = l->next) { v = l->data; if (v->call->status == CALL_STATUS_ACTIVE) return TRUE; /* Connected for 2nd stage dialing */ if (v->call->status == CALL_STATUS_ALERTING) return TRUE; } return FALSE; } static int tone_queue(struct ofono_voicecall *vc, const char *tone_str, ofono_voicecall_tone_cb_t cb, void *data, ofono_destroy_func destroy) { struct tone_queue_entry *entry; int id = 1; int n = 0; int i; /* * Tones can be 0-9, *, #, A-D according to 27.007 C.2.11, * and p for Pause. */ for (i = 0; tone_str[i]; i++) if (!g_ascii_isdigit(tone_str[i]) && tone_str[i] != 'p' && tone_str[i] != 'P' && tone_str[i] != '*' && tone_str[i] != '#' && (tone_str[i] < 'A' || tone_str[i] > 'D')) return -EINVAL; while ((entry = g_queue_peek_nth(vc->toneq, n++)) != NULL) if (entry->id >= id) id = entry->id + 1; entry = g_try_new0(struct tone_queue_entry, 1); if (entry == NULL) return -ENOMEM; entry->tone_str = g_strdup(tone_str); entry->left = entry->tone_str; entry->cb = cb; entry->user_data = data; entry->destroy = destroy; entry->id = id; g_queue_push_tail(vc->toneq, entry); if (g_queue_get_length(vc->toneq) == 1) g_timeout_add(0, tone_request_run, vc); return id; } static void tone_request_finish(struct ofono_voicecall *vc, struct tone_queue_entry *entry, int error, gboolean callback) { g_queue_remove(vc->toneq, entry); if (callback) entry->cb(error, entry->user_data); if (entry->destroy) entry->destroy(entry->user_data); g_free(entry->tone_str); g_free(entry); } static gint number_compare(gconstpointer a, gconstpointer b) { const char *s1 = a, *s2 = b; return strcmp(s1, s2); } static gboolean voicecall_is_emergency(struct voicecall *v) { struct ofono_call *call = v->call; const char *lineid_str; lineid_str = phone_number_to_string(&call->phone_number); return g_slist_find_custom(v->vc->en_list, lineid_str, number_compare) ? TRUE : FALSE; } static void append_voicecall_properties(struct voicecall *v, DBusMessageIter *dict) { struct ofono_call *call = v->call; const char *status; const char *callerid; const char *timestr; const char *name; ofono_bool_t mpty; dbus_bool_t emergency_call; status = call_status_to_string(call->status); ofono_dbus_dict_append(dict, "State", DBUS_TYPE_STRING, &status); if (call->direction == CALL_DIRECTION_MOBILE_TERMINATED) callerid = phone_and_clip_to_string(&call->phone_number, call->clip_validity); else callerid = phone_number_to_string(&call->phone_number); ofono_dbus_dict_append(dict, "LineIdentification", DBUS_TYPE_STRING, &callerid); if (call->called_number.number[0] != '\0') { const char *calledid; calledid = phone_number_to_string(&call->called_number); ofono_dbus_dict_append(dict, "IncomingLine", DBUS_TYPE_STRING, &calledid); } name = cnap_to_string(call->name, call->cnap_validity); ofono_dbus_dict_append(dict, "Name", DBUS_TYPE_STRING, &name); if (call->status == CALL_STATUS_ACTIVE || call->status == CALL_STATUS_HELD || (call->status == CALL_STATUS_DISCONNECTED && v->start_time != 0)) { timestr = time_to_str(&v->start_time); ofono_dbus_dict_append(dict, "StartTime", DBUS_TYPE_STRING, ×tr); } if (g_slist_find_custom(v->vc->multiparty_list, GINT_TO_POINTER(call->id), call_compare_by_id)) mpty = TRUE; else mpty = FALSE; ofono_dbus_dict_append(dict, "Multiparty", DBUS_TYPE_BOOLEAN, &mpty); ofono_dbus_dict_append(dict, "RemoteHeld", DBUS_TYPE_BOOLEAN, &v->remote_held); ofono_dbus_dict_append(dict, "RemoteMultiparty", DBUS_TYPE_BOOLEAN, &v->remote_multiparty); if (v->message) ofono_dbus_dict_append(dict, "Information", DBUS_TYPE_STRING, &v->message); if (v->icon_id) ofono_dbus_dict_append(dict, "Icon", DBUS_TYPE_BYTE, &v->icon_id); if (voicecall_is_emergency(v) == TRUE) emergency_call = TRUE; else emergency_call = FALSE; ofono_dbus_dict_append(dict, "Emergency", DBUS_TYPE_BOOLEAN, &emergency_call); } static DBusMessage *voicecall_get_properties(DBusConnection *conn, DBusMessage *msg, void *data) { struct voicecall *v = 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_voicecall_properties(v, &dict); dbus_message_iter_close_container(&iter, &dict); return reply; } static DBusMessage *voicecall_deflect(DBusConnection *conn, DBusMessage *msg, void *data) { struct voicecall *v = data; struct ofono_voicecall *vc = v->vc; struct ofono_call *call = v->call; struct ofono_phone_number ph; const char *number; if (call->status != CALL_STATUS_INCOMING && call->status != CALL_STATUS_WAITING) return __ofono_error_failed(msg); if (vc->driver->deflect == NULL) return __ofono_error_not_implemented(msg); if (vc->pending) return __ofono_error_busy(msg); if (dbus_message_get_args(msg, NULL, DBUS_TYPE_STRING, &number, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); if (!valid_phone_number_format(number)) return __ofono_error_invalid_format(msg); vc->pending = dbus_message_ref(msg); string_to_phone_number(number, &ph); vc->driver->deflect(vc, &ph, generic_callback, vc); return NULL; } static void dial_request_user_cancel(struct ofono_voicecall *vc, struct voicecall *call) { if (vc->dial_req == NULL) return; if (call == NULL || call == vc->dial_req->call) dial_request_finish(vc); } static DBusMessage *voicecall_hangup(DBusConnection *conn, DBusMessage *msg, void *data) { struct voicecall *v = data; struct ofono_voicecall *vc = v->vc; struct ofono_call *call = v->call; gboolean single_call = vc->call_list->next == 0; if (vc->pending) return __ofono_error_busy(msg); dial_request_user_cancel(vc, v); switch (call->status) { case CALL_STATUS_DISCONNECTED: return __ofono_error_failed(msg); case CALL_STATUS_INCOMING: if (vc->driver->hangup_all == NULL && vc->driver->hangup_active == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); if (vc->driver->hangup_all) vc->driver->hangup_all(vc, generic_callback, vc); else vc->driver->hangup_active(vc, generic_callback, vc); return NULL; case CALL_STATUS_WAITING: if (vc->driver->set_udub == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); vc->driver->set_udub(vc, generic_callback, vc); return NULL; case CALL_STATUS_HELD: if (single_call && vc->driver->release_all_held) { vc->pending = dbus_message_ref(msg); vc->driver->release_all_held(vc, generic_callback, vc); return NULL; } break; case CALL_STATUS_DIALING: case CALL_STATUS_ALERTING: if (vc->driver->hangup_active != NULL) { vc->pending = dbus_message_ref(msg); vc->driver->hangup_active(vc, generic_callback, vc); return NULL; } /* * Fall through, we check if we have a single alerting, * dialing or active call and try to hang it up with * hangup_all or hangup_active */ case CALL_STATUS_ACTIVE: if (single_call == TRUE && vc->driver->hangup_all != NULL) { vc->pending = dbus_message_ref(msg); vc->driver->hangup_all(vc, generic_callback, vc); return NULL; } if (voicecalls_num_active(vc) == 1 && vc->driver->hangup_active != NULL) { vc->pending = dbus_message_ref(msg); vc->driver->hangup_active(vc, generic_callback, vc); return NULL; } break; } if (vc->driver->release_specific == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); vc->driver->release_specific(vc, call->id, generic_callback, vc); return NULL; } static DBusMessage *voicecall_answer(DBusConnection *conn, DBusMessage *msg, void *data) { struct voicecall *v = data; struct ofono_voicecall *vc = v->vc; struct ofono_call *call = v->call; if (call->status != CALL_STATUS_INCOMING) return __ofono_error_failed(msg); if (vc->driver->answer == NULL) return __ofono_error_not_implemented(msg); if (vc->pending) return __ofono_error_busy(msg); vc->pending = dbus_message_ref(msg); vc->driver->answer(vc, generic_callback, vc); return NULL; } static GDBusMethodTable voicecall_methods[] = { { "GetProperties", "", "a{sv}", voicecall_get_properties }, { "Deflect", "s", "", voicecall_deflect, G_DBUS_METHOD_FLAG_ASYNC }, { "Hangup", "", "", voicecall_hangup, G_DBUS_METHOD_FLAG_ASYNC }, { "Answer", "", "", voicecall_answer, G_DBUS_METHOD_FLAG_ASYNC }, { } }; static GDBusSignalTable voicecall_signals[] = { { "PropertyChanged", "sv" }, { "DisconnectReason", "s" }, { } }; static struct voicecall *voicecall_create(struct ofono_voicecall *vc, struct ofono_call *call) { struct voicecall *v; v = g_try_new0(struct voicecall, 1); if (v == NULL) return NULL; v->call = call; v->vc = vc; return v; } static void voicecall_destroy(gpointer userdata) { struct voicecall *voicecall = (struct voicecall *)userdata; g_free(voicecall->call); g_free(voicecall->message); g_free(voicecall); } static const char *voicecall_build_path(struct ofono_voicecall *vc, const struct ofono_call *call) { static char path[256]; snprintf(path, sizeof(path), "%s/voicecall%02d", __ofono_atom_get_path(vc->atom), call->id); return path; } static void voicecall_emit_disconnect_reason(struct voicecall *call, enum ofono_disconnect_reason reason) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path; const char *reason_str; reason_str = disconnect_reason_to_string(reason); path = voicecall_build_path(call->vc, call->call); g_dbus_emit_signal(conn, path, OFONO_VOICECALL_INTERFACE, "DisconnectReason", DBUS_TYPE_STRING, &reason_str, DBUS_TYPE_INVALID); } static void voicecall_emit_multiparty(struct voicecall *call, gboolean mpty) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = voicecall_build_path(call->vc, call->call); dbus_bool_t val = mpty; ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "Multiparty", DBUS_TYPE_BOOLEAN, &val); } static void voicecall_set_call_status(struct voicecall *call, int status) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path; const char *status_str; int old_status; if (call->call->status == status) return; old_status = call->call->status; call->call->status = status; status_str = call_status_to_string(status); path = voicecall_build_path(call->vc, call->call); ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "State", DBUS_TYPE_STRING, &status_str); if (status == CALL_STATUS_ACTIVE && (old_status == CALL_STATUS_INCOMING || old_status == CALL_STATUS_DIALING || old_status == CALL_STATUS_ALERTING || old_status == CALL_STATUS_WAITING)) { const char *timestr; call->start_time = time(NULL); timestr = time_to_str(&call->start_time); ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "StartTime", DBUS_TYPE_STRING, ×tr); if (call->vc->dial_req && call == call->vc->dial_req->call) dial_request_finish(call->vc); } if (status == CALL_STATUS_DISCONNECTED && call->vc->dial_req && call == call->vc->dial_req->call) dial_request_finish(call->vc); if (!voicecalls_can_dtmf(call->vc)) { struct tone_queue_entry *entry; while ((entry = g_queue_peek_head(call->vc->toneq))) tone_request_finish(call->vc, entry, ENOENT, TRUE); } } static void voicecall_set_call_lineid(struct voicecall *v, const struct ofono_phone_number *ph, int clip_validity) { struct ofono_call *call = v->call; DBusConnection *conn = ofono_dbus_get_connection(); const char *path; const char *lineid_str; if (!strcmp(call->phone_number.number, ph->number) && call->phone_number.type == ph->type && call->clip_validity == clip_validity) return; /* * Two cases: We get an incoming call with CLIP factored in, or * CLIP comes in later as a separate event * For COLP only the phone number should be checked, it can come * in with the initial call event or later as a separate event */ /* For plugins that don't keep state, ignore */ if (call->clip_validity == CLIP_VALIDITY_VALID && clip_validity == CLIP_VALIDITY_NOT_AVAILABLE) return; strcpy(call->phone_number.number, ph->number); call->clip_validity = clip_validity; call->phone_number.type = ph->type; path = voicecall_build_path(v->vc, call); if (call->direction == CALL_DIRECTION_MOBILE_TERMINATED) lineid_str = phone_and_clip_to_string(ph, clip_validity); else lineid_str = phone_number_to_string(ph); ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "LineIdentification", DBUS_TYPE_STRING, &lineid_str); if (voicecall_is_emergency(v)) { dbus_bool_t emergency_call = TRUE; ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "Emergency", DBUS_TYPE_BOOLEAN, &emergency_call); } } static void voicecall_set_call_calledid(struct voicecall *v, const struct ofono_phone_number *ph) { struct ofono_call *call = v->call; DBusConnection *conn = ofono_dbus_get_connection(); const char *path; const char *calledid_str; if (!strcmp(call->called_number.number, ph->number) && call->called_number.type == ph->type) return; strcpy(call->called_number.number, ph->number); call->called_number.type = ph->type; path = voicecall_build_path(v->vc, call); calledid_str = phone_number_to_string(ph); ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "IncomingLine", DBUS_TYPE_STRING, &calledid_str); } static void voicecall_set_call_name(struct voicecall *v, const char *name, int cnap_validity) { struct ofono_call *call = v->call; DBusConnection *conn = ofono_dbus_get_connection(); const char *path; const char *name_str; if (!strcmp(call->name, name) && call->cnap_validity == cnap_validity) return; /* For plugins that don't keep state, ignore */ if (call->cnap_validity == CNAP_VALIDITY_VALID && cnap_validity == CNAP_VALIDITY_NOT_AVAILABLE) return; strncpy(call->name, name, OFONO_MAX_CALLER_NAME_LENGTH); call->name[OFONO_MAX_CALLER_NAME_LENGTH] = '\0'; call->cnap_validity = cnap_validity; path = voicecall_build_path(v->vc, call); name_str = cnap_to_string(name, cnap_validity); ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "Name", DBUS_TYPE_STRING, &name_str); } static gboolean voicecall_dbus_register(struct voicecall *v) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path; if (v == NULL) return FALSE; path = voicecall_build_path(v->vc, v->call); if (!g_dbus_register_interface(conn, path, OFONO_VOICECALL_INTERFACE, voicecall_methods, voicecall_signals, NULL, v, voicecall_destroy)) { ofono_error("Could not register VoiceCall %s", path); voicecall_destroy(v); return FALSE; } return TRUE; } static gboolean voicecall_dbus_unregister(struct ofono_voicecall *vc, struct voicecall *v) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = voicecall_build_path(vc, v->call); return g_dbus_unregister_interface(conn, path, OFONO_VOICECALL_INTERFACE); } static int voicecalls_path_list(struct ofono_voicecall *vc, GSList *call_list, char ***objlist) { GSList *l; int i; struct voicecall *v; *objlist = g_new0(char *, g_slist_length(call_list) + 1); if (*objlist == NULL) return -1; for (i = 0, l = call_list; l; l = l->next, i++) { v = l->data; (*objlist)[i] = g_strdup(voicecall_build_path(vc, v->call)); } return 0; } static gboolean voicecalls_have_active(struct ofono_voicecall *vc) { GSList *l; struct voicecall *v; for (l = vc->call_list; l; l = l->next) { v = l->data; if (v->call->status == CALL_STATUS_ACTIVE || v->call->status == CALL_STATUS_DIALING || v->call->status == CALL_STATUS_ALERTING) return TRUE; } return FALSE; } static gboolean voicecalls_have_with_status(struct ofono_voicecall *vc, int status) { GSList *l; struct voicecall *v; for (l = vc->call_list; l; l = l->next) { v = l->data; if (v->call->status == status) return TRUE; } return FALSE; } static gboolean voicecalls_have_held(struct ofono_voicecall *vc) { return voicecalls_have_with_status(vc, CALL_STATUS_HELD); } static GSList *voicecalls_held_list(struct ofono_voicecall *vc) { GSList *l; GSList *r = NULL; struct voicecall *v; for (l = vc->call_list; l; l = l->next) { v = l->data; if (v->call->status == CALL_STATUS_HELD) r = g_slist_prepend(r, v); } if (r) r = g_slist_reverse(r); return r; } /* * Intended to be used for multiparty, which cannot be incoming, * alerting or dialing */ static GSList *voicecalls_active_list(struct ofono_voicecall *vc) { GSList *l; GSList *r = NULL; struct voicecall *v; for (l = vc->call_list; l; l = l->next) { v = l->data; if (v->call->status == CALL_STATUS_ACTIVE) r = g_slist_prepend(r, v); } if (r) r = g_slist_reverse(r); return r; } static gboolean voicecalls_have_waiting(struct ofono_voicecall *vc) { return voicecalls_have_with_status(vc, CALL_STATUS_WAITING); } static gboolean voicecalls_have_incoming(struct ofono_voicecall *vc) { return voicecalls_have_with_status(vc, CALL_STATUS_INCOMING); } static void voicecalls_multiparty_changed(GSList *old, GSList *new) { GSList *o, *n; struct voicecall *nc, *oc; n = new; o = old; while (n || o) { nc = n ? n->data : NULL; oc = o ? o->data : NULL; if (oc && (nc == NULL || (nc->call->id > oc->call->id))) { voicecall_emit_multiparty(oc, FALSE); o = o->next; } else if (nc && (oc == NULL || (nc->call->id < oc->call->id))) { voicecall_emit_multiparty(nc, TRUE); n = n->next; } else { n = n->next; o = o->next; } } } static void voicecalls_emit_call_removed(struct ofono_voicecall *vc, struct voicecall *v) { DBusConnection *conn = ofono_dbus_get_connection(); const char *atompath = __ofono_atom_get_path(vc->atom); const char *path = voicecall_build_path(vc, v->call); g_dbus_emit_signal(conn, atompath, OFONO_VOICECALL_MANAGER_INTERFACE, "CallRemoved", DBUS_TYPE_OBJECT_PATH, &path, DBUS_TYPE_INVALID); } static void voicecalls_emit_call_added(struct ofono_voicecall *vc, struct voicecall *v) { DBusMessage *signal; DBusMessageIter iter; DBusMessageIter dict; const char *path; path = __ofono_atom_get_path(vc->atom); signal = dbus_message_new_signal(path, OFONO_VOICECALL_MANAGER_INTERFACE, "CallAdded"); if (signal == NULL) return; dbus_message_iter_init_append(signal, &iter); path = voicecall_build_path(vc, v->call); dbus_message_iter_append_basic(&iter, DBUS_TYPE_OBJECT_PATH, &path); dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, OFONO_PROPERTIES_ARRAY_SIGNATURE, &dict); append_voicecall_properties(v, &dict); dbus_message_iter_close_container(&iter, &dict); g_dbus_send_message(ofono_dbus_get_connection(), signal); } static void voicecalls_release_queue(struct ofono_voicecall *vc, GSList *calls) { GSList *l; struct voicecall *call; g_slist_free(vc->release_list); vc->release_list = NULL; for (l = calls; l; l = l->next) { call = l->data; if (call->call->status == CALL_STATUS_WAITING) continue; vc->release_list = g_slist_prepend(vc->release_list, l->data); } } static void voicecalls_release_next(struct ofono_voicecall *vc) { struct voicecall *call; if (vc->release_list == NULL) return; call = vc->release_list->data; vc->release_list = g_slist_remove(vc->release_list, call); if (vc->driver->hangup_active == NULL) goto fallback; if (call->call->status == CALL_STATUS_ACTIVE && voicecalls_num_active(vc) == 1) { vc->driver->hangup_active(vc, multirelease_callback, vc); return; } if (call->call->status == CALL_STATUS_ALERTING || call->call->status == CALL_STATUS_DIALING || call->call->status == CALL_STATUS_INCOMING) { vc->driver->hangup_active(vc, multirelease_callback, vc); return; } fallback: vc->driver->release_specific(vc, call->call->id, multirelease_callback, vc); } static DBusMessage *manager_get_properties(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; DBusMessage *reply; DBusMessageIter iter; DBusMessageIter dict; int i; GSList *l; char **list; 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); /* property EmergencyNumbers */ list = g_new0(char *, g_slist_length(vc->en_list) + 1); for (i = 0, l = vc->en_list; l; l = l->next, i++) list[i] = g_strdup(l->data); ofono_dbus_dict_append_array(&dict, "EmergencyNumbers", DBUS_TYPE_STRING, &list); g_strfreev(list); dbus_message_iter_close_container(&iter, &dict); return reply; } static ofono_bool_t clir_string_to_clir(const char *clirstr, enum ofono_clir_option *clir) { if (strlen(clirstr) == 0 || !strcmp(clirstr, "default")) { *clir = OFONO_CLIR_OPTION_DEFAULT; return TRUE; } else if (!strcmp(clirstr, "disabled")) { *clir = OFONO_CLIR_OPTION_SUPPRESSION; return TRUE; } else if (!strcmp(clirstr, "enabled")) { *clir = OFONO_CLIR_OPTION_INVOCATION; return TRUE; } else { return FALSE; } } static struct ofono_call *synthesize_outgoing_call(struct ofono_voicecall *vc, const char *number) { struct ofono_modem *modem = __ofono_atom_get_modem(vc->atom); struct ofono_call *call; call = g_try_new0(struct ofono_call, 1); if (call == NULL) return call; call->id = __ofono_modem_callid_next(modem); if (call->id == 0) { ofono_error("Failed to alloc callid, too many calls"); g_free(call); return NULL; } __ofono_modem_callid_hold(modem, call->id); if (number) string_to_phone_number(number, &call->phone_number); call->direction = CALL_DIRECTION_MOBILE_ORIGINATED; call->status = CALL_STATUS_DIALING; call->clip_validity = CLIP_VALIDITY_VALID; return call; } static struct voicecall *dial_handle_result(struct ofono_voicecall *vc, const struct ofono_error *error, const char *number, gboolean *need_to_emit) { GSList *l; struct voicecall *v; struct ofono_call *call; *need_to_emit = FALSE; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBG("Dial callback returned error: %s", telephony_error_to_str(error)); return NULL; } /* * Two things can happen, the call notification arrived before dial * callback or dial callback was first. Handle here */ for (l = vc->call_list; l; l = l->next) { v = l->data; if (v->call->status == CALL_STATUS_DIALING || v->call->status == CALL_STATUS_ALERTING) goto handled; /* * Dial request may return before existing active call * is put on hold or after dialed call has got active */ if (v->call->status == CALL_STATUS_ACTIVE && v->call->direction == CALL_DIRECTION_MOBILE_ORIGINATED && !v->dial_result_handled) goto handled; } call = synthesize_outgoing_call(vc, number); if (call == NULL) return NULL; v = voicecall_create(vc, call); if (v == NULL) return NULL; v->detect_time = time(NULL); DBG("Registering new call: %d", call->id); voicecall_dbus_register(v); vc->call_list = g_slist_insert_sorted(vc->call_list, v, call_compare); *need_to_emit = TRUE; handled: v->dial_result_handled = TRUE; return v; } static void manager_dial_callback(const struct ofono_error *error, void *data) { struct ofono_voicecall *vc = data; DBusMessage *reply; const char *number; gboolean need_to_emit; struct voicecall *v; if (dbus_message_get_args(vc->pending, NULL, DBUS_TYPE_STRING, &number, DBUS_TYPE_INVALID) == FALSE) number = NULL; v = dial_handle_result(vc, error, number, &need_to_emit); if (v) { const char *path = voicecall_build_path(vc, v->call); reply = dbus_message_new_method_return(vc->pending); dbus_message_append_args(reply, DBUS_TYPE_OBJECT_PATH, &path, DBUS_TYPE_INVALID); } else reply = __ofono_error_failed(vc->pending); __ofono_dbus_pending_reply(&vc->pending, reply); if (need_to_emit) voicecalls_emit_call_added(vc, v); } static DBusMessage *manager_dial(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; const char *number; struct ofono_phone_number ph; const char *clirstr; enum ofono_clir_option clir; if (vc->pending) return __ofono_error_busy(msg); if (g_slist_length(vc->call_list) >= MAX_VOICE_CALLS) return __ofono_error_failed(msg); if (dbus_message_get_args(msg, NULL, DBUS_TYPE_STRING, &number, DBUS_TYPE_STRING, &clirstr, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); if (!valid_long_phone_number_format(number)) return __ofono_error_invalid_format(msg); if (clir_string_to_clir(clirstr, &clir) == FALSE) return __ofono_error_invalid_format(msg); if (vc->driver->dial == NULL) return __ofono_error_not_implemented(msg); if (voicecalls_have_incoming(vc)) return __ofono_error_failed(msg); /* We can't have two dialing/alerting calls, reject outright */ if (voicecalls_num_connecting(vc) > 0) return __ofono_error_failed(msg); if (voicecalls_have_active(vc) && voicecalls_have_held(vc)) return __ofono_error_failed(msg); vc->pending = dbus_message_ref(msg); string_to_phone_number(number, &ph); vc->driver->dial(vc, &ph, clir, manager_dial_callback, vc); return NULL; } static DBusMessage *manager_transfer(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; int numactive; int numheld; if (vc->pending) return __ofono_error_busy(msg); numactive = voicecalls_num_active(vc); /* * According to 22.091 section 5.8, the network has the option of * implementing the call transfer operation for a call that is * still dialing/alerting. */ numactive += voicecalls_num_connecting(vc); numheld = voicecalls_num_held(vc); if (numactive != 1 || numheld != 1) return __ofono_error_failed(msg); if (vc->driver->transfer == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); vc->driver->transfer(vc, generic_callback, vc); return NULL; } static DBusMessage *manager_swap_without_accept(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; if (vc->pending) return __ofono_error_busy(msg); vc->pending = dbus_message_ref(msg); vc->driver->swap_without_accept(vc, generic_callback, vc); return NULL; } static DBusMessage *manager_swap_calls(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; if (vc->driver->swap_without_accept) return manager_swap_without_accept(conn, msg, data); if (vc->pending) return __ofono_error_busy(msg); if (voicecalls_have_waiting(vc)) return __ofono_error_failed(msg); if (vc->driver->hold_all_active == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); vc->driver->hold_all_active(vc, generic_callback, vc); return NULL; } static DBusMessage *manager_release_and_answer(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; if (vc->pending) return __ofono_error_busy(msg); if (!voicecalls_have_waiting(vc)) return __ofono_error_failed(msg); if (vc->driver->release_all_active == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); vc->driver->release_all_active(vc, generic_callback, vc); return NULL; } static DBusMessage *manager_hold_and_answer(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; if (vc->pending) return __ofono_error_busy(msg); if (voicecalls_have_waiting(vc) == FALSE) return __ofono_error_failed(msg); /* * We have waiting call and both an active and held call. According * to 22.030 we cannot use CHLD=2 in this situation. */ if (voicecalls_have_active(vc) && voicecalls_have_held(vc)) return __ofono_error_failed(msg); if (vc->driver->hold_all_active == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); vc->driver->hold_all_active(vc, generic_callback, vc); return NULL; } static DBusMessage *manager_hangup_all(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; if (vc->pending) return __ofono_error_busy(msg); if (vc->driver->hangup_all == NULL && (vc->driver->release_specific == NULL || vc->driver->hangup_active == NULL)) return __ofono_error_not_implemented(msg); if (vc->call_list == NULL) { DBusMessage *reply = dbus_message_new_method_return(msg); return reply; } vc->pending = dbus_message_ref(msg); if (vc->driver->hangup_all == NULL) { voicecalls_release_queue(vc, vc->call_list); voicecalls_release_next(vc); } else vc->driver->hangup_all(vc, generic_callback, vc); dial_request_user_cancel(vc, NULL); return NULL; } static void multiparty_callback_common(struct ofono_voicecall *vc, DBusMessage *reply) { DBusMessageIter iter; DBusMessageIter array_iter; char **objpath_list; int i; voicecalls_path_list(vc, vc->multiparty_list, &objpath_list); dbus_message_iter_init_append(reply, &iter); dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, DBUS_TYPE_OBJECT_PATH_AS_STRING, &array_iter); for (i = 0; objpath_list[i]; i++) dbus_message_iter_append_basic(&array_iter, DBUS_TYPE_OBJECT_PATH, &objpath_list[i]); dbus_message_iter_close_container(&iter, &array_iter); g_strfreev(objpath_list); } static void private_chat_callback(const struct ofono_error *error, void *data) { struct ofono_voicecall *vc = data; DBusMessage *reply; const char *callpath; const char *c; int id; GSList *l; GSList *old; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBG("command failed with error: %s", telephony_error_to_str(error)); __ofono_dbus_pending_reply(&vc->pending, __ofono_error_failed(vc->pending)); return; } dbus_message_get_args(vc->pending, NULL, DBUS_TYPE_OBJECT_PATH, &callpath, DBUS_TYPE_INVALID); c = strrchr(callpath, '/'); sscanf(c, "/voicecall%2u", &id); old = g_slist_copy(vc->multiparty_list); l = g_slist_find_custom(vc->multiparty_list, GINT_TO_POINTER(id), call_compare_by_id); if (l) { vc->multiparty_list = g_slist_remove(vc->multiparty_list, l->data); if (vc->multiparty_list->next == NULL) { g_slist_free(vc->multiparty_list); vc->multiparty_list = 0; } } reply = dbus_message_new_method_return(vc->pending); multiparty_callback_common(vc, reply); __ofono_dbus_pending_reply(&vc->pending, reply); voicecalls_multiparty_changed(old, vc->multiparty_list); g_slist_free(old); } static DBusMessage *multiparty_private_chat(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; const char *path = __ofono_atom_get_path(vc->atom); const char *callpath; const char *c; unsigned int id; GSList *l; if (vc->pending) return __ofono_error_busy(msg); if (dbus_message_get_args(msg, NULL, DBUS_TYPE_OBJECT_PATH, &callpath, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); if (strlen(callpath) == 0) return __ofono_error_invalid_format(msg); c = strrchr(callpath, '/'); if (c == NULL || strncmp(path, callpath, c-callpath)) return __ofono_error_not_found(msg); if (!sscanf(c, "/voicecall%2u", &id)) return __ofono_error_not_found(msg); for (l = vc->multiparty_list; l; l = l->next) { struct voicecall *v = l->data; if (v->call->id == id) break; } if (l == NULL) return __ofono_error_not_found(msg); /* * If we found id on the list of multiparty calls, then by definition * the multiparty call exists. Only thing to check is whether we have * held calls */ if (voicecalls_have_held(vc)) return __ofono_error_failed(msg); if (vc->driver->private_chat == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); vc->driver->private_chat(vc, id, private_chat_callback, vc); return NULL; } static void multiparty_create_callback(const struct ofono_error *error, void *data) { struct ofono_voicecall *vc = data; DBusMessage *reply; GSList *old; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { DBG("command failed with error: %s", telephony_error_to_str(error)); __ofono_dbus_pending_reply(&vc->pending, __ofono_error_failed(vc->pending)); return; } /* * We just created a multiparty call, gather all held * active calls and add them to the multiparty list */ old = vc->multiparty_list; vc->multiparty_list = 0; vc->multiparty_list = g_slist_concat(vc->multiparty_list, voicecalls_held_list(vc)); vc->multiparty_list = g_slist_concat(vc->multiparty_list, voicecalls_active_list(vc)); vc->multiparty_list = g_slist_sort(vc->multiparty_list, call_compare); if (g_slist_length(vc->multiparty_list) < 2) { ofono_error("Created multiparty call, but size is less than 2" " panic!"); __ofono_dbus_pending_reply(&vc->pending, __ofono_error_failed(vc->pending)); return; } reply = dbus_message_new_method_return(vc->pending); multiparty_callback_common(vc, reply); __ofono_dbus_pending_reply(&vc->pending, reply); voicecalls_multiparty_changed(old, vc->multiparty_list); g_slist_free(old); } static DBusMessage *multiparty_create(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; if (vc->pending) return __ofono_error_busy(msg); if (!voicecalls_have_held(vc) || !voicecalls_have_active(vc)) return __ofono_error_failed(msg); if (vc->driver->create_multiparty == NULL) return __ofono_error_not_implemented(msg); vc->pending = dbus_message_ref(msg); vc->driver->create_multiparty(vc, multiparty_create_callback, vc); return NULL; } static DBusMessage *multiparty_hangup(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; if (vc->pending) return __ofono_error_busy(msg); if (vc->driver->release_specific == NULL) return __ofono_error_not_implemented(msg); if (vc->driver->release_all_held == NULL) return __ofono_error_not_implemented(msg); if (vc->driver->release_all_active == NULL) return __ofono_error_not_implemented(msg); if (vc->multiparty_list == NULL) { DBusMessage *reply = dbus_message_new_method_return(msg); return reply; } vc->pending = dbus_message_ref(msg); /* We don't have waiting calls, as we can't use +CHLD to release */ if (!voicecalls_have_waiting(vc)) { struct voicecall *v = vc->multiparty_list->data; if (v->call->status == CALL_STATUS_HELD) { vc->driver->release_all_held(vc, generic_callback, vc); goto out; } /* * Multiparty is currently active, if we have held calls * we shouldn't use release_all_active here since this also * has the side-effect of activating held calls */ if (!voicecalls_have_held(vc)) { vc->driver->release_all_active(vc, generic_callback, vc); goto out; } } /* Fall back to the old-fashioned way */ voicecalls_release_queue(vc, vc->multiparty_list); voicecalls_release_next(vc); out: return NULL; } static void tone_callback(int error, void *data) { struct ofono_voicecall *vc = data; DBusMessage *reply; if (error) reply = __ofono_error_failed(vc->pending); else reply = dbus_message_new_method_return(vc->pending); __ofono_dbus_pending_reply(&vc->pending, reply); } static DBusMessage *manager_tone(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; const char *in_tones; char *tones; int err, len; if (vc->pending) return __ofono_error_busy(msg); if (vc->driver->send_tones == NULL) return __ofono_error_not_implemented(msg); /* Send DTMFs only if we have at least one connected call */ if (!voicecalls_can_dtmf(vc)) return __ofono_error_failed(msg); if (dbus_message_get_args(msg, NULL, DBUS_TYPE_STRING, &in_tones, DBUS_TYPE_INVALID) == FALSE) return __ofono_error_invalid_args(msg); len = strlen(in_tones); if (len == 0) return __ofono_error_invalid_format(msg); tones = g_ascii_strup(in_tones, len); err = tone_queue(vc, tones, tone_callback, vc, NULL); g_free(tones); if (err < 0) return __ofono_error_invalid_format(msg); vc->pending = dbus_message_ref(msg); return NULL; } static DBusMessage *manager_get_calls(DBusConnection *conn, DBusMessage *msg, void *data) { struct ofono_voicecall *vc = data; DBusMessage *reply; DBusMessageIter iter; DBusMessageIter array; DBusMessageIter entry, dict; const char *path; GSList *l; struct voicecall *v; 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); for (l = vc->call_list; l; l = l->next) { v = l->data; path = voicecall_build_path(vc, v->call); dbus_message_iter_open_container(&array, 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_voicecall_properties(v, &dict); dbus_message_iter_close_container(&entry, &dict); dbus_message_iter_close_container(&array, &entry); } dbus_message_iter_close_container(&iter, &array); return reply; } static GDBusMethodTable manager_methods[] = { { "GetProperties", "", "a{sv}", manager_get_properties }, { "Dial", "ss", "o", manager_dial, G_DBUS_METHOD_FLAG_ASYNC }, { "Transfer", "", "", manager_transfer, G_DBUS_METHOD_FLAG_ASYNC }, { "SwapCalls", "", "", manager_swap_calls, G_DBUS_METHOD_FLAG_ASYNC }, { "ReleaseAndAnswer", "", "", manager_release_and_answer, G_DBUS_METHOD_FLAG_ASYNC }, { "HoldAndAnswer", "", "", manager_hold_and_answer, G_DBUS_METHOD_FLAG_ASYNC }, { "HangupAll", "", "", manager_hangup_all, G_DBUS_METHOD_FLAG_ASYNC }, { "PrivateChat", "o", "ao", multiparty_private_chat, G_DBUS_METHOD_FLAG_ASYNC }, { "CreateMultiparty", "", "ao", multiparty_create, G_DBUS_METHOD_FLAG_ASYNC }, { "HangupMultiparty", "", "", multiparty_hangup, G_DBUS_METHOD_FLAG_ASYNC }, { "SendTones", "s", "", manager_tone, G_DBUS_METHOD_FLAG_ASYNC }, { "GetCalls", "", "a(oa{sv})", manager_get_calls }, { } }; static GDBusSignalTable manager_signals[] = { { "Forwarded", "s" }, { "BarringActive", "s" }, { "PropertyChanged", "sv" }, { "CallAdded", "oa{sv}" }, { "CallRemoved", "o" }, { } }; void ofono_voicecall_disconnected(struct ofono_voicecall *vc, int id, enum ofono_disconnect_reason reason, const struct ofono_error *error) { struct ofono_modem *modem = __ofono_atom_get_modem(vc->atom); GSList *l; struct voicecall *call; time_t ts; enum call_status prev_status; DBG("Got disconnection event for id: %d, reason: %d", id, reason); __ofono_modem_callid_release(modem, id); l = g_slist_find_custom(vc->call_list, GUINT_TO_POINTER(id), call_compare_by_id); if (l == NULL) { ofono_error("Plugin notified us of call disconnect for" " unknown call"); return; } call = l->data; ts = time(NULL); prev_status = call->call->status; l = g_slist_find_custom(vc->multiparty_list, GUINT_TO_POINTER(id), call_compare_by_id); if (l) { vc->multiparty_list = g_slist_remove(vc->multiparty_list, call); if (vc->multiparty_list->next == NULL) { /* Size == 1 */ struct voicecall *v = vc->multiparty_list->data; voicecall_emit_multiparty(v, FALSE); g_slist_free(vc->multiparty_list); vc->multiparty_list = 0; } } vc->release_list = g_slist_remove(vc->release_list, call); if (reason != OFONO_DISCONNECT_REASON_UNKNOWN) voicecall_emit_disconnect_reason(call, reason); voicecall_set_call_status(call, CALL_STATUS_DISCONNECTED); if (!call->untracked) { if (prev_status == CALL_STATUS_INCOMING || prev_status == CALL_STATUS_WAITING) __ofono_history_call_missed(modem, call->call, ts); else __ofono_history_call_ended(modem, call->call, call->detect_time, ts); } voicecalls_emit_call_removed(vc, call); voicecall_dbus_unregister(vc, call); vc->call_list = g_slist_remove(vc->call_list, call); } void ofono_voicecall_notify(struct ofono_voicecall *vc, const struct ofono_call *call) { struct ofono_modem *modem = __ofono_atom_get_modem(vc->atom); GSList *l; struct voicecall *v = NULL; struct ofono_call *newcall; DBG("Got a voicecall event, status: %d, id: %u, number: %s" " called_number: %s, called_name %s", call->status, call->id, call->phone_number.number, call->called_number.number, call->name); l = g_slist_find_custom(vc->call_list, GUINT_TO_POINTER(call->id), call_compare_by_id); if (l) { DBG("Found call with id: %d", call->id); voicecall_set_call_status(l->data, call->status); voicecall_set_call_lineid(l->data, &call->phone_number, call->clip_validity); voicecall_set_call_calledid(l->data, &call->called_number); voicecall_set_call_name(l->data, call->name, call->cnap_validity); return; } DBG("Did not find a call with id: %d", call->id); __ofono_modem_callid_hold(modem, call->id); newcall = g_memdup(call, sizeof(struct ofono_call)); if (newcall == NULL) { ofono_error("Unable to allocate call"); goto error; } v = voicecall_create(vc, newcall); if (v == NULL) { ofono_error("Unable to allocate voicecall_data"); goto error; } v->detect_time = time(NULL); if (!voicecall_dbus_register(v)) { ofono_error("Unable to register voice call"); goto error; } vc->call_list = g_slist_insert_sorted(vc->call_list, v, call_compare); voicecalls_emit_call_added(vc, v); return; error: if (newcall) g_free(newcall); if (v) g_free(v); } static void generic_callback(const struct ofono_error *error, void *data) { struct ofono_voicecall *vc = data; DBusMessage *reply; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) DBG("command failed with error: %s", telephony_error_to_str(error)); if (error->type == OFONO_ERROR_TYPE_NO_ERROR) reply = dbus_message_new_method_return(vc->pending); else reply = __ofono_error_failed(vc->pending); __ofono_dbus_pending_reply(&vc->pending, reply); } static void multirelease_callback(const struct ofono_error *error, void *data) { struct ofono_voicecall *vc = data; DBusMessage *reply; if (vc->release_list != NULL) { voicecalls_release_next(vc); return; } reply = dbus_message_new_method_return(vc->pending); __ofono_dbus_pending_reply(&vc->pending, reply); } static void emit_en_list_changed(struct ofono_voicecall *vc) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(vc->atom); char **list; GSList *l; int i; list = g_new0(char *, g_slist_length(vc->en_list) + 1); for (i = 0, l = vc->en_list; l; l = l->next, i++) list[i] = g_strdup(l->data); ofono_dbus_signal_array_property_changed(conn, path, OFONO_VOICECALL_MANAGER_INTERFACE, "EmergencyNumbers", DBUS_TYPE_STRING, &list); g_strfreev(list); } static void set_new_ecc(struct ofono_voicecall *vc) { int i = 0; g_slist_foreach(vc->en_list, (GFunc) g_free, NULL); g_slist_free(vc->en_list); vc->en_list = NULL; vc->en_list = vc->new_en_list; vc->new_en_list = NULL; while (default_en_list[i]) { GSList *l; for (l = vc->en_list; l; l = l->next) if (!strcmp(l->data, default_en_list[i])) break; if (l == NULL) vc->en_list = g_slist_prepend(vc->en_list, g_strdup(default_en_list[i])); i++; } vc->en_list = g_slist_reverse(vc->en_list); emit_en_list_changed(vc); } static void ecc_g2_read_cb(int ok, int total_length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_voicecall *vc = userdata; char en[7]; DBG("%d", ok); if (!ok) return; if (total_length < 3) { ofono_error("Unable to read emergency numbers from SIM"); return; } total_length /= 3; while (total_length--) { extract_bcd_number(data, 3, en); data += 3; if (en[0] != '\0') vc->new_en_list = g_slist_prepend(vc->new_en_list, g_strdup(en)); } set_new_ecc(vc); } static void ecc_g3_read_cb(int ok, int total_length, int record, const unsigned char *data, int record_length, void *userdata) { struct ofono_voicecall *vc = userdata; int total; char en[7]; DBG("%d", ok); if (!ok) goto check; if (record_length < 4 || total_length < record_length) { ofono_error("Unable to read emergency numbers from SIM"); return; } total = total_length / record_length; extract_bcd_number(data, 3, en); if (en[0] != '\0') vc->new_en_list = g_slist_prepend(vc->new_en_list, g_strdup(en)); if (record != total) return; check: if (!ok && vc->new_en_list == NULL) return; set_new_ecc(vc); } int ofono_voicecall_driver_register(const struct ofono_voicecall_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_voicecall_driver_unregister(const struct ofono_voicecall_driver *d) { DBG("driver: %p, name: %s", d, d->name); g_drivers = g_slist_remove(g_drivers, (void *) d); } static void voicecall_unregister(struct ofono_atom *atom) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_voicecall *vc = __ofono_atom_get_data(atom); struct ofono_modem *modem = __ofono_atom_get_modem(atom); const char *path = __ofono_atom_get_path(atom); GSList *l; if (vc->sim_watch) { __ofono_modem_remove_atom_watch(modem, vc->sim_watch); vc->sim_watch = 0; } if (vc->dial_req) dial_request_finish(vc); for (l = vc->call_list; l; l = l->next) voicecall_dbus_unregister(vc, l->data); g_slist_free(vc->call_list); vc->call_list = NULL; ofono_modem_remove_interface(modem, OFONO_VOICECALL_MANAGER_INTERFACE); g_dbus_unregister_interface(conn, path, OFONO_VOICECALL_MANAGER_INTERFACE); } static void voicecall_remove(struct ofono_atom *atom) { struct ofono_voicecall *vc = __ofono_atom_get_data(atom); DBG("atom: %p", atom); if (vc == NULL) return; if (vc->driver && vc->driver->remove) vc->driver->remove(vc); if (vc->en_list) { g_slist_foreach(vc->en_list, (GFunc) g_free, NULL); g_slist_free(vc->en_list); vc->en_list = NULL; } if (vc->new_en_list) { g_slist_foreach(vc->new_en_list, (GFunc) g_free, NULL); g_slist_free(vc->new_en_list); vc->new_en_list = NULL; } if (vc->sim_state_watch) { ofono_sim_remove_state_watch(vc->sim, vc->sim_state_watch); vc->sim_state_watch = 0; vc->sim = NULL; } if (vc->tone_source) { g_source_remove(vc->tone_source); vc->tone_source = 0; } if (vc->toneq) { struct tone_queue_entry *entry; while ((entry = g_queue_peek_head(vc->toneq))) tone_request_finish(vc, entry, ESHUTDOWN, TRUE); g_queue_free(vc->toneq); } g_free(vc); } struct ofono_voicecall *ofono_voicecall_create(struct ofono_modem *modem, unsigned int vendor, const char *driver, void *data) { struct ofono_voicecall *vc; GSList *l; if (driver == NULL) return NULL; vc = g_try_new0(struct ofono_voicecall, 1); if (vc == NULL) return NULL; vc->toneq = g_queue_new(); vc->atom = __ofono_modem_add_atom(modem, OFONO_ATOM_TYPE_VOICECALL, voicecall_remove, vc); for (l = g_drivers; l; l = l->next) { const struct ofono_voicecall_driver *drv = l->data; if (g_strcmp0(drv->name, driver)) continue; if (drv->probe(vc, vendor, data) < 0) continue; vc->driver = drv; break; } return vc; } static void read_ecc_numbers(int id, void *userdata) { struct ofono_voicecall *vc = userdata; /* Try both formats, only one or none will work */ ofono_sim_read(vc->sim_context, SIM_EFECC_FILEID, OFONO_SIM_FILE_STRUCTURE_TRANSPARENT, ecc_g2_read_cb, vc); ofono_sim_read(vc->sim_context, SIM_EFECC_FILEID, OFONO_SIM_FILE_STRUCTURE_FIXED, ecc_g3_read_cb, vc); } static void sim_state_watch(enum ofono_sim_state new_state, void *user) { struct ofono_voicecall *vc = user; switch (new_state) { case OFONO_SIM_STATE_INSERTED: if (vc->sim_context == NULL) vc->sim_context = ofono_sim_context_create(vc->sim); read_ecc_numbers(SIM_EFECC_FILEID, vc); ofono_sim_add_file_watch(vc->sim_context, SIM_EFECC_FILEID, read_ecc_numbers, vc, NULL); break; case OFONO_SIM_STATE_NOT_PRESENT: /* TODO: Must release all non-emergency calls */ if (vc->sim_context) { ofono_sim_context_free(vc->sim_context); vc->sim_context = NULL; } /* * Free the currently being read EN list, just in case the * SIM is removed when we're still reading them */ if (vc->new_en_list) { g_slist_foreach(vc->new_en_list, (GFunc) g_free, NULL); g_slist_free(vc->new_en_list); vc->new_en_list = NULL; } add_to_en_list(&vc->new_en_list, default_en_list_no_sim); set_new_ecc(vc); default: break; } } static void sim_watch(struct ofono_atom *atom, enum ofono_atom_watch_condition cond, void *data) { struct ofono_voicecall *vc = data; struct ofono_sim *sim = __ofono_atom_get_data(atom); if (cond == OFONO_ATOM_WATCH_CONDITION_UNREGISTERED) { vc->sim_state_watch = 0; vc->sim = NULL; return; } vc->sim = sim; vc->sim_state_watch = ofono_sim_add_state_watch(sim, sim_state_watch, vc, NULL); sim_state_watch(ofono_sim_get_state(sim), vc); } void ofono_voicecall_register(struct ofono_voicecall *vc) { DBusConnection *conn = ofono_dbus_get_connection(); struct ofono_modem *modem = __ofono_atom_get_modem(vc->atom); const char *path = __ofono_atom_get_path(vc->atom); if (!g_dbus_register_interface(conn, path, OFONO_VOICECALL_MANAGER_INTERFACE, manager_methods, manager_signals, NULL, vc, NULL)) { ofono_error("Could not create %s interface", OFONO_VOICECALL_MANAGER_INTERFACE); return; } ofono_modem_add_interface(modem, OFONO_VOICECALL_MANAGER_INTERFACE); /* * Start out with the 22.101 mandated numbers, if we have a SIM and * the SIM contains EFecc, then we update the list once we've read them */ add_to_en_list(&vc->en_list, default_en_list_no_sim); add_to_en_list(&vc->en_list, default_en_list); vc->sim_watch = __ofono_modem_add_atom_watch(modem, OFONO_ATOM_TYPE_SIM, sim_watch, vc, NULL); __ofono_atom_register(vc->atom, voicecall_unregister); } void ofono_voicecall_remove(struct ofono_voicecall *vc) { __ofono_atom_free(vc->atom); } void ofono_voicecall_set_data(struct ofono_voicecall *vc, void *data) { vc->driver_data = data; } void *ofono_voicecall_get_data(struct ofono_voicecall *vc) { return vc->driver_data; } int ofono_voicecall_get_next_callid(struct ofono_voicecall *vc) { struct ofono_modem *modem; if (vc == NULL || vc->atom == NULL) return 0; modem = __ofono_atom_get_modem(vc->atom); return __ofono_modem_callid_next(modem); } ofono_bool_t __ofono_voicecall_is_busy(struct ofono_voicecall *vc, enum ofono_voicecall_interaction type) { if (vc->pending || vc->dial_req) return TRUE; switch (type) { case OFONO_VOICECALL_INTERACTION_NONE: return vc->call_list != NULL; case OFONO_VOICECALL_INTERACTION_DISCONNECT: /* Only support releasing active calls */ if (voicecalls_num_active(vc) == g_slist_length(vc->call_list)) return FALSE; return TRUE; case OFONO_VOICECALL_INTERACTION_PUT_ON_HOLD: if (voicecalls_num_active(vc) == g_slist_length(vc->call_list)) return FALSE; if (voicecalls_num_held(vc) == g_slist_length(vc->call_list)) return FALSE; return TRUE; } return TRUE; } static void dial_request_cb(const struct ofono_error *error, void *data) { struct ofono_voicecall *vc = data; gboolean need_to_emit; struct voicecall *v; v = dial_handle_result(vc, error, phone_number_to_string(&vc->dial_req->ph), &need_to_emit); if (v == NULL) { dial_request_finish(vc); return; } v->message = vc->dial_req->message; v->icon_id = vc->dial_req->icon_id; vc->dial_req->message = NULL; vc->dial_req->call = v; /* * TS 102 223 Section 6.4.13: The terminal shall not store * in the UICC the call set-up details (called party number * and associated parameters) */ v->untracked = TRUE; if (v->call->status == CALL_STATUS_ACTIVE) dial_request_finish(vc); if (need_to_emit) voicecalls_emit_call_added(vc, v); } static void dial_request(struct ofono_voicecall *vc) { vc->driver->dial(vc, &vc->dial_req->ph, OFONO_CLIR_OPTION_DEFAULT, dial_request_cb, vc); } static void dial_req_disconnect_cb(const struct ofono_error *error, void *data) { struct ofono_voicecall *vc = data; if (error->type != OFONO_ERROR_TYPE_NO_ERROR) { dial_request_finish(vc); return; } /* * Note that the callback might come back fore we receive call * disconnection notifications. So it makes no sense to recheck * whether we can dial here. We simply dial and hope for the best. */ dial_request(vc); } int __ofono_voicecall_dial(struct ofono_voicecall *vc, const char *addr, int addr_type, const char *message, unsigned char icon_id, enum ofono_voicecall_interaction interaction, ofono_voicecall_dial_cb_t cb, void *user_data) { struct dial_request *req; if (!valid_phone_number_format(addr)) return -EINVAL; if (vc->driver->dial == NULL) return -ENOSYS; if (interaction == OFONO_VOICECALL_INTERACTION_DISCONNECT && vc->driver->release_all_active == NULL) return -ENOSYS; if (__ofono_voicecall_is_busy(vc, interaction) == TRUE) return -EBUSY; /* * TODO: if addr starts with "112", possibly translate into the * technology-specific emergency number. */ req = g_try_new0(struct dial_request, 1); if (req == NULL) return -ENOMEM; req->message = g_strdup(message); req->icon_id = icon_id; req->interaction = interaction; req->cb = cb; req->user_data = user_data; /* TODO: parse the tones to dial after call connected */ req->ph.type = addr_type; strncpy(req->ph.number, addr, 20); vc->dial_req = req; switch (interaction) { case OFONO_VOICECALL_INTERACTION_NONE: dial_request(vc); break; case OFONO_VOICECALL_INTERACTION_PUT_ON_HOLD: /* Note: dialling automatically puts active calls on hold */ dial_request(vc); break; case OFONO_VOICECALL_INTERACTION_DISCONNECT: if (voicecalls_have_active(vc)) vc->driver->release_all_active(vc, dial_req_disconnect_cb, vc); else dial_request(vc); break; } return 0; } void __ofono_voicecall_dial_cancel(struct ofono_voicecall *vc) { if (vc->dial_req == NULL || vc->dial_req->cb == NULL) return; vc->dial_req->cb = NULL; } static void tone_request_cb(const struct ofono_error *error, void *data) { struct ofono_voicecall *vc = data; struct tone_queue_entry *entry = g_queue_peek_head(vc->toneq); int len = 0; if (entry == NULL) return; /* * Call back with error only if the error is related to the * current entry. If the error corresponds to a cancelled * request, do nothing. */ if (error && error->type != OFONO_ERROR_TYPE_NO_ERROR && entry->left > entry->tone_str) { DBG("command failed with error: %s", telephony_error_to_str(error)); tone_request_finish(vc, entry, EIO, TRUE); goto done; } if (*entry->left == '\0') { tone_request_finish(vc, entry, 0, TRUE); goto done; } len = strspn(entry->left, "pP"); entry->left += len; done: /* * Wait 3 seconds per PAUSE, same as for DTMF separator characters * passed in a telephone number according to TS 22.101 A.21, * although 27.007 claims this delay can be set using S8 and * defaults to 2 seconds. */ vc->tone_source = g_timeout_add_seconds(len * 3, tone_request_run, vc); } static gboolean tone_request_run(gpointer user_data) { struct ofono_voicecall *vc = user_data; struct tone_queue_entry *entry = g_queue_peek_head(vc->toneq); char final; unsigned len; vc->tone_source = 0; if (entry == NULL) return FALSE; len = strcspn(entry->left, "pP"); if (len) { if (len > 8) /* Arbitrary length limit per request */ len = 8; /* Temporarily move the end of the string */ final = entry->left[len]; entry->left[len] = '\0'; vc->driver->send_tones(vc, entry->left, tone_request_cb, vc); entry->left += len; entry->left[0] = final; } else tone_request_cb(NULL, vc); return FALSE; } int __ofono_voicecall_tone_send(struct ofono_voicecall *vc, const char *tone_str, ofono_voicecall_tone_cb_t cb, void *user_data) { if (vc->driver->send_tones == NULL) return -ENOSYS; /* Send DTMFs only if we have at least one connected call */ if (!voicecalls_can_dtmf(vc)) return -ENOENT; return tone_queue(vc, tone_str, cb, user_data, NULL); } void __ofono_voicecall_tone_cancel(struct ofono_voicecall *vc, int id) { struct tone_queue_entry *entry; int n = 0; while ((entry = g_queue_peek_nth(vc->toneq, n++)) != NULL) if (entry->id == id) break; tone_request_finish(vc, entry, 0, FALSE); /* * If we were in the middle of a PAUSE, wake queue up * now, else wake up when current tone finishes. */ if (n == 1 && vc->tone_source) { g_source_remove(vc->tone_source); tone_request_run(vc); } } static void ssn_mt_forwarded_notify(struct ofono_voicecall *vc, unsigned int id, int code, const struct ofono_phone_number *ph) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(vc->atom); char *info = "incoming"; g_dbus_emit_signal(conn, path, OFONO_VOICECALL_MANAGER_INTERFACE, "Forwarded", DBUS_TYPE_STRING, &info, DBUS_TYPE_INVALID); } static struct voicecall *voicecall_select(struct ofono_voicecall *vc, unsigned int id) { if (id != 0) { GSList *l = g_slist_find_custom(vc->call_list, GUINT_TO_POINTER(id), call_compare_by_id); if (l == NULL) return NULL; return l->data; } if (g_slist_length(vc->call_list) == 1) return vc->call_list->data; return NULL; } static void ssn_mt_remote_held_notify(struct ofono_voicecall *vc, unsigned int id, gboolean held, const struct ofono_phone_number *ph) { struct voicecall *v = voicecall_select(vc, id); DBusConnection *conn = ofono_dbus_get_connection(); const char *path; if (v == NULL) return; if (v->remote_held == held) return; v->remote_held = held; path = voicecall_build_path(vc, v->call); ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "RemoteHeld", DBUS_TYPE_BOOLEAN, &v->remote_held); } static void ssn_mt_remote_multiparty_notify(struct ofono_voicecall *vc, unsigned int id, const struct ofono_phone_number *ph) { struct voicecall *v = voicecall_select(vc, id); DBusConnection *conn = ofono_dbus_get_connection(); const char *path; if (v == NULL) return; if (v->remote_multiparty == TRUE) return; v->remote_multiparty = TRUE; path = voicecall_build_path(vc, v->call); ofono_dbus_signal_property_changed(conn, path, OFONO_VOICECALL_INTERFACE, "RemoteMultiparty", DBUS_TYPE_BOOLEAN, &v->remote_multiparty); } void ofono_voicecall_ssn_mt_notify(struct ofono_voicecall *vc, unsigned int id, int code, int index, const struct ofono_phone_number *ph) { switch (code) { case SS_MT_CALL_FORWARDED: ssn_mt_forwarded_notify(vc, id, code, ph); break; case SS_MT_VOICECALL_ON_HOLD: ssn_mt_remote_held_notify(vc, id, TRUE, ph); break; case SS_MT_VOICECALL_RETRIEVED: ssn_mt_remote_held_notify(vc, id, FALSE, ph); break; case SS_MT_MULTIPARTY_VOICECALL: ssn_mt_remote_multiparty_notify(vc, id, ph); break; } } static void ssn_mo_call_barred_notify(struct ofono_voicecall *vc, unsigned int id, int code) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(vc->atom); const char *info; if (code == SS_MO_INCOMING_BARRING) info = "remote"; else info = "local"; g_dbus_emit_signal(conn, path, OFONO_VOICECALL_MANAGER_INTERFACE, "BarringActive", DBUS_TYPE_STRING, &info, DBUS_TYPE_INVALID); } static void ssn_mo_forwarded_notify(struct ofono_voicecall *vc, unsigned int id, int code) { DBusConnection *conn = ofono_dbus_get_connection(); const char *path = __ofono_atom_get_path(vc->atom); char *info = "outgoing"; g_dbus_emit_signal(conn, path, OFONO_VOICECALL_MANAGER_INTERFACE, "Forwarded", DBUS_TYPE_STRING, &info, DBUS_TYPE_INVALID); } void ofono_voicecall_ssn_mo_notify(struct ofono_voicecall *vc, unsigned int id, int code, int index) { switch (code) { case SS_MO_OUTGOING_BARRING: case SS_MO_INCOMING_BARRING: ssn_mo_call_barred_notify(vc, id, code); break; case SS_MO_CALL_FORWARDED: ssn_mo_forwarded_notify(vc, id, code); break; } }