/* * * oFono - Open Source Telephony * * Copyright (C) 2008-2011 Intel Corporation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include "common.h" #include "hfp.h" #include "hfpmodem.h" #include "slc.h" #define POLL_CLCC_INTERVAL 2000 #define POLL_CLCC_DELAY 50 #define EXPECT_RELEASE_DELAY 50 #define CLIP_TIMEOUT 500 #define EXPECT_RING_DELAY 200 static const char *none_prefix[] = { NULL }; static const char *clcc_prefix[] = { "+CLCC:", NULL }; struct voicecall_data { GAtChat *chat; GSList *calls; unsigned int ag_features; unsigned int ag_mpty_features; unsigned char cind_pos[HFP_INDICATOR_LAST]; int cind_val[HFP_INDICATOR_LAST]; unsigned int local_release; unsigned int clcc_source; unsigned int expect_release_source; unsigned int clip_source; }; struct release_id_req { struct ofono_voicecall *vc; ofono_voicecall_cb_t cb; void *data; int id; }; struct change_state_req { struct ofono_voicecall *vc; ofono_voicecall_cb_t cb; void *data; int affected_types; }; static gboolean poll_clcc(gpointer user_data); static GSList *find_dialing(GSList *calls) { GSList *c; c = g_slist_find_custom(calls, GINT_TO_POINTER(CALL_STATUS_DIALING), at_util_call_compare_by_status); if (c == NULL) c = g_slist_find_custom(calls, GINT_TO_POINTER(CALL_STATUS_ALERTING), at_util_call_compare_by_status); return c; } static void voicecall_notify(gpointer value, gpointer user) { struct ofono_call *call = value; struct ofono_voicecall *vc = user; ofono_voicecall_notify(vc, call); } static struct ofono_call *create_call(struct ofono_voicecall *vc, int type, int direction, int status, const char *num, int num_type, int clip) { struct voicecall_data *d = ofono_voicecall_get_data(vc); struct ofono_call *call; /* Generate a call structure for the waiting call */ call = g_try_new(struct ofono_call, 1); if (call == NULL) return NULL; ofono_call_init(call); call->id = ofono_voicecall_get_next_callid(vc); call->type = type; call->direction = direction; call->status = status; if (clip != 2) { strncpy(call->phone_number.number, num, OFONO_MAX_PHONE_NUMBER_LENGTH); call->phone_number.number[OFONO_MAX_PHONE_NUMBER_LENGTH] = '\0'; call->phone_number.type = num_type; } d->calls = g_slist_insert_sorted(d->calls, call, at_util_call_compare); call->clip_validity = clip; return call; } static void release_call(struct ofono_voicecall *vc, struct ofono_call *call) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); enum ofono_disconnect_reason reason; if (call == NULL) return; if (vd->local_release & (1 << call->id)) reason = OFONO_DISCONNECT_REASON_LOCAL_HANGUP; else reason = OFONO_DISCONNECT_REASON_REMOTE_HANGUP; ofono_voicecall_disconnected(vc, call->id, reason, NULL); vd->local_release &= ~(1 << call->id); g_free(call); } static void release_all_calls(struct ofono_voicecall *vc) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); GSList *l; struct ofono_call *call; for (l = vd->calls; l; l = l->next) { call = l->data; release_call(vc, call); } g_slist_free(vd->calls); vd->calls = NULL; } static void release_with_status(struct ofono_voicecall *vc, int status) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); GSList *p = NULL; GSList *c = vd->calls; GSList *t; struct ofono_call *call; while (c) { call = c->data; if (call->status != status) { p = c; c = c->next; continue; } release_call(vc, call); if (p) p->next = c->next; else vd->calls = c->next; t = c; c = c->next; g_slist_free_1(t); } if (vd->expect_release_source) { g_source_remove(vd->expect_release_source); vd->expect_release_source = 0; } } static void clcc_poll_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); GSList *calls; GSList *n, *o; struct ofono_call *nc, *oc; unsigned int num_active = 0; unsigned int num_held = 0; GSList *notify_calls = NULL; unsigned int mpty_ids; if (!ok) return; calls = at_util_parse_clcc(result, &mpty_ids); n = calls; o = vd->calls; while (n || o) { nc = n ? n->data : NULL; oc = o ? o->data : NULL; if (nc && (nc->status == CALL_STATUS_ACTIVE)) num_active++; if (nc && (nc->status == CALL_STATUS_HELD)) num_held++; if (oc && (nc == NULL || (nc->id > oc->id))) { enum ofono_disconnect_reason reason; if (vd->local_release & (1 << oc->id)) reason = OFONO_DISCONNECT_REASON_LOCAL_HANGUP; else reason = OFONO_DISCONNECT_REASON_REMOTE_HANGUP; if (!oc->type) ofono_voicecall_disconnected(vc, oc->id, reason, NULL); vd->local_release &= ~(1 << oc->id); o = o->next; } else if (nc && (oc == NULL || (nc->id < oc->id))) { /* new call, signal it */ if (nc->type == 0) notify_calls = g_slist_append(notify_calls, nc); n = n->next; } else { /* Always use the clip_validity from old call * the only place this is truly told to us is * in the CLIP notify, the rest are fudged * anyway. Useful when RING, CLIP is used, * and we're forced to use CLCC and clip_validity * is 1 */ nc->clip_validity = oc->clip_validity; if (memcmp(nc, oc, sizeof(struct ofono_call)) && !nc->type) notify_calls = g_slist_prepend(notify_calls, nc); n = n->next; o = o->next; } } /* * Disconnections were already reported, so process the rest of the * notifications. Note that the new calls are placed at the end of the * list, after other state changes */ g_slist_foreach(notify_calls, voicecall_notify, vc); g_slist_free(notify_calls); ofono_voicecall_mpty_hint(vc, mpty_ids); g_slist_free_full(vd->calls, g_free); vd->calls = calls; /* If either active/held call is more than 1, we are in mpty calls. * we won't get indicator update if any of them is released by CHLD=1x. * So we have to poll it. */ if ((num_active > 1 || num_held > 1) && !vd->clcc_source) vd->clcc_source = g_timeout_add(POLL_CLCC_INTERVAL, poll_clcc, vc); } static gboolean poll_clcc(gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, vc, NULL); vd->clcc_source = 0; return FALSE; } static void generic_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct change_state_req *req = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(req->vc); struct ofono_error error; decode_at_error(&error, g_at_result_final_response(result)); if (ok && req->affected_types) { GSList *l; struct ofono_call *call; for (l = vd->calls; l; l = l->next) { call = l->data; if (req->affected_types & (1 << call->status)) vd->local_release |= (1 << call->id); } } if (!ok && vd->calls) g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, req->vc, NULL); req->cb(&error, req->data); } static void atd_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; struct ofono_voicecall *vc = cbd->user; struct voicecall_data *vd = ofono_voicecall_get_data(vc); ofono_voicecall_cb_t cb = cbd->cb; int type = 128; int validity = 2; struct ofono_error error; struct ofono_call *call; GSList *l; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) goto out; /* On a success, make sure to put all active calls on hold */ for (l = vd->calls; l; l = l->next) { call = l->data; if (call->status != CALL_STATUS_ACTIVE) continue; call->status = CALL_STATUS_HELD; ofono_voicecall_notify(vc, call); } call = create_call(vc, 0, 0, CALL_STATUS_DIALING, NULL, type, validity); if (call == NULL) { ofono_error("Unable to allocate call, " "call tracking will fail!"); return; } out: cb(&error, cbd->data); } static void hfp_dial(struct ofono_voicecall *vc, const struct ofono_phone_number *ph, enum ofono_clir_option clir, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); struct cb_data *cbd = cb_data_new(cb, data); char buf[256]; cbd->user = vc; if (ph->type == 145) snprintf(buf, sizeof(buf), "ATD+%s", ph->number); else snprintf(buf, sizeof(buf), "ATD%s", ph->number); strcat(buf, ";"); if (g_at_chat_send(vd->chat, buf, none_prefix, atd_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, data); } static void hfp_dial_last(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); struct cb_data *cbd = cb_data_new(cb, data); cbd->user = vc; if (g_at_chat_send(vd->chat, "AT+BLDN", none_prefix, atd_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, data); } static void hfp_dial_memory(struct ofono_voicecall *vc, unsigned int memory_location, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); struct cb_data *cbd = cb_data_new(cb, data); char buf[256]; cbd->user = vc; DBG("Calling memory location %d\n", memory_location); snprintf(buf, sizeof(buf), "ATD>%d;", memory_location); if (g_at_chat_send(vd->chat, buf, none_prefix, atd_cb, cbd, g_free) > 0) return; g_free(cbd); DBG("at_chat_failed"); CALLBACK_WITH_FAILURE(cb, data); } static void hfp_template(const char *cmd, struct ofono_voicecall *vc, GAtResultFunc result_cb, unsigned int affected_types, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); struct change_state_req *req = g_try_new0(struct change_state_req, 1); if (req == NULL) goto error; req->vc = vc; req->cb = cb; req->data = data; req->affected_types = affected_types; if (g_at_chat_send(vd->chat, cmd, none_prefix, result_cb, req, g_free) > 0) return; error: g_free(req); CALLBACK_WITH_FAILURE(cb, data); } static void hfp_answer(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { hfp_template("ATA", vc, generic_cb, 0, cb, data); } static void hfp_hangup(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { unsigned int affected = (1 << CALL_STATUS_INCOMING) | (1 << CALL_STATUS_DIALING) | (1 << CALL_STATUS_ALERTING) | (1 << CALL_STATUS_ACTIVE); /* Hangup current active call */ hfp_template("AT+CHUP", vc, generic_cb, affected, cb, data); } static void hfp_hold_all_active(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); if (vd->ag_mpty_features & HFP_AG_CHLD_2) { hfp_template("AT+CHLD=2", vc, generic_cb, 0, cb, data); return; } CALLBACK_WITH_FAILURE(cb, data); } static void hfp_release_all_held(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); unsigned int held_status = 1 << CALL_STATUS_HELD; if (vd->ag_mpty_features & HFP_AG_CHLD_0) { hfp_template("AT+CHLD=0", vc, generic_cb, held_status, cb, data); return; } CALLBACK_WITH_FAILURE(cb, data); } static void hfp_set_udub(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); unsigned int incoming_or_waiting = 1 << CALL_STATUS_WAITING; if (vd->ag_mpty_features & HFP_AG_CHLD_0) { hfp_template("AT+CHLD=0", vc, generic_cb, incoming_or_waiting, cb, data); return; } CALLBACK_WITH_FAILURE(cb, data); } static gboolean expect_release(gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, vc, NULL); vd->expect_release_source = 0; return FALSE; } static gboolean expect_ring(gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, vc, NULL); vd->clip_source = 0; return FALSE; } static void release_all_active_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct change_state_req *req = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(req->vc); if (!ok) goto out; if (vd->expect_release_source) g_source_remove(vd->expect_release_source); /* * Some phones, like Nokia 500, do not send CIEV after accepting * the CHLD=1 command, even though the spec states that they should. * So simply poll to force the status update if the AG is misbehaving. */ vd->expect_release_source = g_timeout_add(EXPECT_RELEASE_DELAY, expect_release, req->vc); out: generic_cb(ok, result, user_data); } static void hfp_release_all_active(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); if (vd->ag_mpty_features & HFP_AG_CHLD_1) { hfp_template("AT+CHLD=1", vc, release_all_active_cb, 0x1, cb, data); return; } CALLBACK_WITH_FAILURE(cb, data); } static void release_id_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct release_id_req *req = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(req->vc); struct ofono_error error; decode_at_error(&error, g_at_result_final_response(result)); if (ok) vd->local_release |= (1 << req->id); req->cb(&error, req->data); } static void hfp_release_specific(struct ofono_voicecall *vc, int id, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); struct release_id_req *req = NULL; char buf[32]; if (!(vd->ag_mpty_features & HFP_AG_CHLD_1x)) goto error; req = g_try_new0(struct release_id_req, 1); if (req == NULL) goto error; req->vc = vc; req->cb = cb; req->data = data; req->id = id; snprintf(buf, sizeof(buf), "AT+CHLD=1%d", id); if (g_at_chat_send(vd->chat, buf, none_prefix, release_id_cb, req, g_free) > 0) return; error: g_free(req); CALLBACK_WITH_FAILURE(cb, data); } static void hfp_private_chat(struct ofono_voicecall *vc, int id, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); char buf[32]; if (vd->ag_mpty_features & HFP_AG_CHLD_2x) { snprintf(buf, sizeof(buf), "AT+CHLD=2%d", id); hfp_template(buf, vc, generic_cb, 0, cb, data); return; } CALLBACK_WITH_FAILURE(cb, data); } static void hfp_create_multiparty(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); if (vd->ag_mpty_features & HFP_AG_CHLD_3) { hfp_template("AT+CHLD=3", vc, generic_cb, 0, cb, data); return; } CALLBACK_WITH_FAILURE(cb, data); } static void hfp_transfer(struct ofono_voicecall *vc, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); /* Transfer can puts held & active calls together and disconnects * from both. However, some networks support transferring of * dialing/ringing calls as well. */ unsigned int transfer = 0x1 | 0x2 | 0x4 | 0x8; if (vd->ag_mpty_features & HFP_AG_CHLD_4) { hfp_template("AT+CHLD=4", vc, generic_cb, transfer, cb, data); return; } CALLBACK_WITH_FAILURE(cb, data); } static void hfp_send_dtmf(struct ofono_voicecall *vc, const char *dtmf, ofono_voicecall_cb_t cb, void *data) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); struct change_state_req *req = g_try_new0(struct change_state_req, 1); int len = strlen(dtmf); char *buf; int s; int i; if (req == NULL) goto error; req->vc = vc; req->cb = cb; req->data = data; req->affected_types = 0; /* strlen("AT") + (n-1) * strlen("+VTS=T;") + strlen(+VTS=T) + null */ buf = g_try_new(char, len * 7 + 2); if (buf == NULL) goto error; s = sprintf(buf, "AT+VTS=%c", dtmf[0]); for (i = 1; i < len; i++) s += sprintf(buf + s, ";+VTS=%c", dtmf[i]); s = g_at_chat_send(vd->chat, buf, none_prefix, generic_cb, req, g_free); g_free(buf); if (s > 0) return; error: g_free(req); CALLBACK_WITH_FAILURE(cb, data); } static void no_carrier_notify(GAtResult *result, gpointer user_data) { DBG(""); } static void ccwa_notify(GAtResult *result, gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); GAtResultIter iter; const char *num; int num_type, validity; struct ofono_call *call; /* Waiting call notification makes no sense, when there are * no calls at all. This can happen when a phone already has * waiting and active calls and is being connected over HFP * but it first sends +CCWA before we manage to synchronize * calls with AT+CLCC. */ if (!vd->calls) return; /* CCWA can repeat, ignore if we already have an waiting call */ if (g_slist_find_custom(vd->calls, GINT_TO_POINTER(CALL_STATUS_WAITING), at_util_call_compare_by_status)) return; /* some phones may send extra CCWA after active call is ended * this would trigger creation of second call in state 'WAITING' * as our previous WAITING call has been promoted to INCOMING */ if (g_slist_find_custom(vd->calls, GINT_TO_POINTER(CALL_STATUS_INCOMING), at_util_call_compare_by_status)) return; g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CCWA:")) return; if (!g_at_result_iter_next_string(&iter, &num)) return; if (!g_at_result_iter_next_number(&iter, &num_type)) return; if (strlen(num) > 0) validity = 0; else validity = 2; DBG("ccwa_notify: %s %d %d", num, num_type, validity); call = create_call(vc, 0, 1, CALL_STATUS_WAITING, num, num_type, validity); if (call == NULL) { ofono_error("malloc call struct failed. " "Call management is fubar"); return; } ofono_voicecall_notify(vc, call); } static gboolean clip_timeout(gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); GSList *l; struct ofono_call *call; l = g_slist_find_custom(vd->calls, GINT_TO_POINTER(CALL_STATUS_INCOMING), at_util_call_compare_by_status); if (l == NULL) return FALSE; call = l->data; ofono_voicecall_notify(vc, call); vd->clip_source = 0; return FALSE; } static void ring_notify(GAtResult *result, gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); struct ofono_call *call; GSList *waiting; if (vd->clip_source) { g_source_remove(vd->clip_source); vd->clip_source = 0; } /* RING can repeat, ignore if we already have an incoming call */ if (g_slist_find_custom(vd->calls, GINT_TO_POINTER(CALL_STATUS_INCOMING), at_util_call_compare_by_status)) return; waiting = g_slist_find_custom(vd->calls, GINT_TO_POINTER(CALL_STATUS_WAITING), at_util_call_compare_by_status); /* If we started receiving RINGS but have a waiting call, most * likely all other calls were dropped and we just didn't get * notified yet, drop all other calls and update the status to * incoming */ if (waiting) { DBG("Triggering waiting -> incoming cleanup code"); vd->calls = g_slist_remove_link(vd->calls, waiting); release_all_calls(vc); vd->calls = waiting; call = waiting->data; call->status = CALL_STATUS_INCOMING; ofono_voicecall_notify(vc, call); return; } /* Generate an incoming call of voice type */ call = create_call(vc, 0, 1, CALL_STATUS_INCOMING, NULL, 128, 2); if (call == NULL) ofono_error("Couldn't create call, call management is fubar!"); /* We don't know the number must wait for CLIP to arrive before * announcing the call. If timeout, we notify the call as it is. */ vd->clip_source = g_timeout_add(CLIP_TIMEOUT, clip_timeout, vc); } static void clip_notify(GAtResult *result, gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); GAtResultIter iter; const char *num; int type, validity; GSList *l; struct ofono_call *call; l = g_slist_find_custom(vd->calls, GINT_TO_POINTER(CALL_STATUS_INCOMING), at_util_call_compare_by_status); if (l == NULL) { ofono_error("CLIP for unknown call"); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CLIP:")) return; if (!g_at_result_iter_next_string(&iter, &num)) return; if (!g_at_result_iter_next_number(&iter, &type)) return; if (strlen(num) > 0) validity = 0; else validity = 2; /* Skip subaddr, satype, alpha and validity */ g_at_result_iter_skip_next(&iter); g_at_result_iter_skip_next(&iter); g_at_result_iter_skip_next(&iter); g_at_result_iter_skip_next(&iter); DBG("clip_notify: %s %d %d", num, type, validity); call = l->data; strncpy(call->phone_number.number, num, OFONO_MAX_PHONE_NUMBER_LENGTH); call->phone_number.number[OFONO_MAX_PHONE_NUMBER_LENGTH] = '\0'; call->phone_number.type = type; call->clip_validity = validity; ofono_voicecall_notify(vc, call); if (vd->clip_source) { g_source_remove(vd->clip_source); vd->clip_source = 0; } } static void ciev_call_notify(struct ofono_voicecall *vc, unsigned int value) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); struct ofono_call *call; switch (value) { case 0: /* If call goes to 0, then we have no held or active calls * in the system. The waiting calls are promoted to incoming * calls, dialing calls are kept. This also handles the * situation when dialing and waiting calls exist */ release_with_status(vc, CALL_STATUS_HELD); release_with_status(vc, CALL_STATUS_ACTIVE); /* Promote waiting to incoming if it is the last call */ if (vd->calls && vd->calls->next == NULL) { call = vd->calls->data; if (call->status == CALL_STATUS_WAITING) { call->status = CALL_STATUS_INCOMING; ofono_voicecall_notify(vc, call); } } break; case 1: { GSList *l; /* In this case either dialing/alerting or the incoming call * is promoted to active */ for (l = vd->calls; l; l = l->next) { call = l->data; if (call->status == CALL_STATUS_DIALING || call->status == CALL_STATUS_ALERTING || call->status == CALL_STATUS_INCOMING) { call->status = CALL_STATUS_ACTIVE; ofono_voicecall_notify(vc, call); } } break; } default: break; } vd->cind_val[HFP_INDICATOR_CALL] = value; } static void ciev_callsetup_notify(struct ofono_voicecall *vc, unsigned int value) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); unsigned int ciev_call = vd->cind_val[HFP_INDICATOR_CALL]; unsigned int ciev_callheld = vd->cind_val[HFP_INDICATOR_CALLHELD]; GSList *dialing; GSList *waiting; dialing = find_dialing(vd->calls); waiting = g_slist_find_custom(vd->calls, GINT_TO_POINTER(CALL_STATUS_WAITING), at_util_call_compare_by_status); /* This is a truly bizarre case not covered at all by the specification * (yes, they are complete idiots). Here we assume the other side is * semi sane and will send callsetup updates in case the dialing call * connects or the call waiting drops. In which case we must poll */ if (waiting && dialing) { g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, vc, NULL); goto out; } switch (value) { case 0: /* call=0 and callsetup=1: reject an incoming call * call=0 and callsetup=2,3: interrupt an outgoing call */ if (ciev_call == 0) { release_all_calls(vc); goto out; } /* If call=1 and no call is waiting or dialing, the call is * active and we moved it to active state when call=1 arrived */ if (waiting == NULL && dialing == NULL) goto out; /* * If call=1, in the waiting case we have to poll, since we * have no idea whether a waiting call gave up or we accepted * using release+accept or hold+accept * * If call=1, in the dialing + held case we have to poll as * well, we have no idea whether the call connected, or released */ if (waiting == NULL && ciev_callheld == 0) { struct ofono_call *call = dialing->data; /* We assume that the implementation follows closely * the sequence of events in Figure 4.21. That is * call=1 arrives first, then callsetup=0 */ call->status = CALL_STATUS_ACTIVE; ofono_voicecall_notify(vc, call); } else { g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, vc, NULL); } break; case 1: /* * Handled in RING/CCWA most of the time, however sometimes * the call is answered before the RING unsolicited * notification has a chance to be generated on the device. * In this case, we use a failsafe CLCC poll in expect_ring * callback. * */ vd->clip_source = g_timeout_add(EXPECT_RING_DELAY, expect_ring, vc); break; case 2: /* two cases of outgoing call: dial from HF or AG. * from HF: query and sync the phone number. * from AG: query and create call. */ g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, vc, NULL); break; case 3: { GSList *o = g_slist_find_custom(vd->calls, GINT_TO_POINTER(CALL_STATUS_DIALING), at_util_call_compare_by_status); if (o) { struct ofono_call *call = o->data; call->status = CALL_STATUS_ALERTING; ofono_voicecall_notify(vc, call); } break; } default: break; } out: vd->cind_val[HFP_INDICATOR_CALLSETUP] = value; } static void ciev_callheld_notify(struct ofono_voicecall *vc, unsigned int value) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); GSList *l; struct ofono_call *call; unsigned int callheld = vd->cind_val[HFP_INDICATOR_CALLHELD]; switch (value) { case 0: /* We have to poll here, we have no idea whether the call was * dropped using CHLD=0 or simply retrieved, or the two calls * were merged */ g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, vc, NULL); break; case 1: if (vd->clcc_source) { g_source_remove(vd->clcc_source); vd->clcc_source = 0; } /* We have to poll here, we have no idea whether the call was * accepted by CHLD=1 or swapped by CHLD=2 or one call was * chosed for private chat by CHLD=2x */ g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, clcc_poll_cb, vc, NULL); break; case 2: if (callheld == 0) { for (l = vd->calls; l; l = l->next) { call = l->data; if (call->status != CALL_STATUS_ACTIVE) continue; call->status = CALL_STATUS_HELD; ofono_voicecall_notify(vc, call); } } else if (callheld == 1) { if (vd->clcc_source) g_source_remove(vd->clcc_source); /* We have to schedule a poll here, we have no idea * whether active call was dropped by remote or if this * is an intermediate state during call swap */ vd->clcc_source = g_timeout_add(POLL_CLCC_DELAY, poll_clcc, vc); } else { if (vd->clcc_source) g_source_remove(vd->clcc_source); /* * We got a notification that there is a held call * and no active call but we already are in such state. * Let's schedule a poll to see what happened. */ vd->clcc_source = g_timeout_add(POLL_CLCC_DELAY, poll_clcc, vc); } } vd->cind_val[HFP_INDICATOR_CALLHELD] = value; } static void ciev_notify(GAtResult *result, gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); int index; int value; GAtResultIter iter; g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CIEV:")) return; if (!g_at_result_iter_next_number(&iter, &index)) return; if (!g_at_result_iter_next_number(&iter, &value)) return; if (index == vd->cind_pos[HFP_INDICATOR_CALL]) ciev_call_notify(vc, value); else if (index == vd->cind_pos[HFP_INDICATOR_CALLSETUP]) ciev_callsetup_notify(vc, value); else if (index == vd->cind_pos[HFP_INDICATOR_CALLHELD]) ciev_callheld_notify(vc, value); } static void hfp_clcc_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); unsigned int mpty_ids; GSList *n; struct ofono_call *nc; unsigned int num_active = 0; unsigned int num_held = 0; if (!ok) return; vd->calls = at_util_parse_clcc(result, &mpty_ids); g_slist_foreach(vd->calls, voicecall_notify, vc); ofono_voicecall_mpty_hint(vc, mpty_ids); n = vd->calls; while (n) { nc = n->data; if (nc->status == CALL_STATUS_ACTIVE) num_active++; else if (nc->status == CALL_STATUS_HELD) num_held++; n = n->next; } if ((num_active > 1 || num_held > 1) && !vd->clcc_source) vd->clcc_source = g_timeout_add(POLL_CLCC_INTERVAL, poll_clcc, vc); } static void hfp_voicecall_initialized(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_voicecall *vc = user_data; struct voicecall_data *vd = ofono_voicecall_get_data(vc); DBG("hfp_voicecall_init: registering to notifications"); g_at_chat_register(vd->chat, "RING", ring_notify, FALSE, vc, NULL); g_at_chat_register(vd->chat, "+CLIP:", clip_notify, FALSE, vc, NULL); g_at_chat_register(vd->chat, "+CIEV:", ciev_notify, FALSE, vc, NULL); g_at_chat_register(vd->chat, "+CCWA:", ccwa_notify, FALSE, vc, NULL); g_at_chat_register(vd->chat, "NO CARRIER", no_carrier_notify, FALSE, vc, NULL); ofono_voicecall_register(vc); /* Populate the call list */ g_at_chat_send(vd->chat, "AT+CLCC", clcc_prefix, hfp_clcc_cb, vc, NULL); } static int hfp_voicecall_probe(struct ofono_voicecall *vc, unsigned int vendor, gpointer user_data) { struct hfp_slc_info *info = user_data; struct voicecall_data *vd; vd = g_new0(struct voicecall_data, 1); vd->chat = g_at_chat_clone(info->chat); vd->ag_features = info->ag_features; vd->ag_mpty_features = info->ag_mpty_features; memcpy(vd->cind_pos, info->cind_pos, HFP_INDICATOR_LAST); memcpy(vd->cind_val, info->cind_val, HFP_INDICATOR_LAST); ofono_voicecall_set_data(vc, vd); g_at_chat_send(vd->chat, "AT+CLIP=1", none_prefix, NULL, NULL, NULL); g_at_chat_send(vd->chat, "AT+CCWA=1", none_prefix, hfp_voicecall_initialized, vc, NULL); return 0; } static void hfp_voicecall_remove(struct ofono_voicecall *vc) { struct voicecall_data *vd = ofono_voicecall_get_data(vc); if (vd->clcc_source) g_source_remove(vd->clcc_source); if (vd->clip_source) g_source_remove(vd->clip_source); if (vd->expect_release_source) g_source_remove(vd->expect_release_source); g_slist_free_full(vd->calls, g_free); ofono_voicecall_set_data(vc, NULL); g_at_chat_unref(vd->chat); g_free(vd); } static const struct ofono_voicecall_driver driver = { .name = "hfpmodem", .probe = hfp_voicecall_probe, .remove = hfp_voicecall_remove, .dial = hfp_dial, .dial_last = hfp_dial_last, .dial_memory = hfp_dial_memory, .answer = hfp_answer, .hangup_active = hfp_hangup, .hold_all_active = hfp_hold_all_active, .release_all_held = hfp_release_all_held, .set_udub = hfp_set_udub, .release_all_active = hfp_release_all_active, .release_specific = hfp_release_specific, .private_chat = hfp_private_chat, .create_multiparty = hfp_create_multiparty, .transfer = hfp_transfer, .deflect = NULL, .swap_without_accept = NULL, .send_tones = hfp_send_dtmf }; void hfp_voicecall_init(void) { ofono_voicecall_driver_register(&driver); } void hfp_voicecall_exit(void) { ofono_voicecall_driver_unregister(&driver); }