/* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2006-2007 Nokia Corporation * Copyright (C) 2004-2009 Marcel Holtmann * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "logging.h" #include "device.h" #include "manager.h" #include "error.h" #include "telephony.h" #include "headset.h" #include "glib-helper.h" #include "dbus-common.h" #include "../src/adapter.h" #include "../src/device.h" #define DC_TIMEOUT 3 #define RING_INTERVAL 3 #define BUF_SIZE 1024 #define HEADSET_GAIN_SPEAKER 'S' #define HEADSET_GAIN_MICROPHONE 'M' static struct { gboolean telephony_ready; /* Telephony plugin initialized */ uint32_t features; /* HFP AG features */ const struct indicator *indicators; /* Available HFP indicators */ int er_mode; /* Event reporting mode */ int er_ind; /* Event reporting for indicators */ int rh; /* Response and Hold state */ char *number; /* Incoming phone number */ int number_type; /* Incoming number type */ guint ring_timer; /* For incoming call indication */ const char *chld; /* Response to AT+CHLD=? */ } ag = { .telephony_ready = FALSE, .features = 0, .er_mode = 3, .er_ind = 0, .rh = -1, .number = NULL, .number_type = 0, .ring_timer = 0, }; static gboolean sco_hci = TRUE; static GSList *active_devices = NULL; static char *str_state[] = { "HEADSET_STATE_DISCONNECTED", "HEADSET_STATE_CONNECT_IN_PROGRESS", "HEADSET_STATE_CONNECTED", "HEADSET_STATE_PLAY_IN_PROGRESS", "HEADSET_STATE_PLAYING", }; struct connect_cb { unsigned int id; headset_stream_cb_t cb; void *cb_data; }; struct pending_connect { DBusMessage *msg; DBusPendingCall *call; GIOChannel *io; int err; headset_state_t target_state; GSList *callbacks; }; struct headset { uint32_t hsp_handle; uint32_t hfp_handle; int rfcomm_ch; GIOChannel *rfcomm; GIOChannel *tmp_rfcomm; GIOChannel *sco; guint sco_id; gboolean auto_dc; guint dc_timer; char buf[BUF_SIZE]; int data_start; int data_length; gboolean hfp_active; gboolean search_hfp; gboolean cli_active; gboolean cme_enabled; gboolean cwa_enabled; gboolean pending_ring; gboolean nrec; gboolean nrec_req; headset_state_t state; struct pending_connect *pending; int sp_gain; int mic_gain; unsigned int hf_features; headset_lock_t lock; }; struct event { const char *cmd; int (*callback) (struct audio_device *device, const char *buf); }; static inline DBusMessage *invalid_args(DBusMessage *msg) { return g_dbus_create_error(msg, ERROR_INTERFACE ".InvalidArguments", "Invalid arguments in method call"); } static DBusHandlerResult error_not_supported(DBusConnection *conn, DBusMessage *msg) { return error_common_reply(conn, msg, ERROR_INTERFACE ".NotSupported", "Not supported"); } static DBusHandlerResult error_connection_attempt_failed(DBusConnection *conn, DBusMessage *msg, int err) { return error_common_reply(conn, msg, ERROR_INTERFACE ".ConnectionAttemptFailed", err > 0 ? strerror(err) : "Connection attempt failed"); } static int rfcomm_connect(struct audio_device *device, headset_stream_cb_t cb, void *user_data, unsigned int *cb_id); static int get_records(struct audio_device *device, headset_stream_cb_t cb, void *user_data, unsigned int *cb_id); static void print_ag_features(uint32_t features) { GString *gstr; char *str; if (features == 0) { debug("HFP AG features: (none)"); return; } gstr = g_string_new("HFP AG features: "); if (features & AG_FEATURE_THREE_WAY_CALLING) g_string_append(gstr, "\"Three-way calling\" "); if (features & AG_FEATURE_EC_ANDOR_NR) g_string_append(gstr, "\"EC and/or NR function\" "); if (features & AG_FEATURE_VOICE_RECOGNITION) g_string_append(gstr, "\"Voice recognition function\" "); if (features & AG_FEATURE_INBAND_RINGTONE) g_string_append(gstr, "\"In-band ring tone capability\" "); if (features & AG_FEATURE_ATTACH_NUMBER_TO_VOICETAG) g_string_append(gstr, "\"Attach a number to a voice tag\" "); if (features & AG_FEATURE_REJECT_A_CALL) g_string_append(gstr, "\"Ability to reject a call\" "); if (features & AG_FEATURE_ENHANCED_CALL_STATUS) g_string_append(gstr, "\"Enhanced call status\" "); if (features & AG_FEATURE_ENHANCED_CALL_CONTROL) g_string_append(gstr, "\"Enhanced call control\" "); if (features & AG_FEATURE_EXTENDED_ERROR_RESULT_CODES) g_string_append(gstr, "\"Extended Error Result Codes\" "); str = g_string_free(gstr, FALSE); debug("%s", str); g_free(str); } static void print_hf_features(uint32_t features) { GString *gstr; char *str; if (features == 0) { debug("HFP HF features: (none)"); return; } gstr = g_string_new("HFP HF features: "); if (features & HF_FEATURE_EC_ANDOR_NR) g_string_append(gstr, "\"EC and/or NR function\" "); if (features & HF_FEATURE_CALL_WAITING_AND_3WAY) g_string_append(gstr, "\"Call waiting and 3-way calling\" "); if (features & HF_FEATURE_CLI_PRESENTATION) g_string_append(gstr, "\"CLI presentation capability\" "); if (features & HF_FEATURE_VOICE_RECOGNITION) g_string_append(gstr, "\"Voice recognition activation\" "); if (features & HF_FEATURE_REMOTE_VOLUME_CONTROL) g_string_append(gstr, "\"Remote volume control\" "); if (features & HF_FEATURE_ENHANCED_CALL_STATUS) g_string_append(gstr, "\"Enhanced call status\" "); if (features & HF_FEATURE_ENHANCED_CALL_CONTROL) g_string_append(gstr, "\"Enhanced call control\" "); str = g_string_free(gstr, FALSE); debug("%s", str); g_free(str); } static int headset_send_valist(struct headset *hs, char *format, va_list ap) { char rsp[BUF_SIZE]; ssize_t total_written, written, count; int fd; count = vsnprintf(rsp, sizeof(rsp), format, ap); if (count < 0) return -EINVAL; if (!hs->rfcomm) { error("headset_send: the headset is not connected"); return -EIO; } written = total_written = 0; fd = g_io_channel_unix_get_fd(hs->rfcomm); while (total_written < count) { written = write(fd, rsp + total_written, count - total_written); if (written < 0) return -errno; total_written += written; } return 0; } static int headset_send(struct headset *hs, char *format, ...) { va_list ap; int ret; va_start(ap, format); ret = headset_send_valist(hs, format, ap); va_end(ap); return ret; } static int supported_features(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; int err; if (strlen(buf) < 9) return -EINVAL; hs->hf_features = strtoul(&buf[8], NULL, 10); print_hf_features(hs->hf_features); err = headset_send(hs, "\r\n+BRSF: %u\r\n", ag.features); if (err < 0) return err; return headset_send(hs, "\r\nOK\r\n"); } static char *indicator_ranges(const struct indicator *indicators) { int i; GString *gstr; gstr = g_string_new("\r\n+CIND: "); for (i = 0; indicators[i].desc != NULL; i++) { if (i == 0) g_string_append_printf(gstr, "(\"%s\",(%s))", indicators[i].desc, indicators[i].range); else g_string_append_printf(gstr, ",(\"%s\",(%s))", indicators[i].desc, indicators[i].range); } g_string_append(gstr, "\r\n"); return g_string_free(gstr, FALSE); } static char *indicator_values(const struct indicator *indicators) { int i; GString *gstr; gstr = g_string_new("\r\n+CIND: "); for (i = 0; indicators[i].desc != NULL; i++) { if (i == 0) g_string_append_printf(gstr, "%d", indicators[i].val); else g_string_append_printf(gstr, ",%d", indicators[i].val); } g_string_append(gstr, "\r\n"); return g_string_free(gstr, FALSE); } static int report_indicators(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; int err; char *str; if (strlen(buf) < 8) return -EINVAL; if (buf[7] == '=') str = indicator_ranges(ag.indicators); else str = indicator_values(ag.indicators); err = headset_send(hs, str); g_free(str); if (err < 0) return err; return headset_send(hs, "\r\nOK\r\n"); } static void pending_connect_complete(struct connect_cb *cb, struct audio_device *dev) { struct headset *hs = dev->headset; if (hs->pending->err) cb->cb(NULL, cb->cb_data); else cb->cb(dev, cb->cb_data); } static void pending_connect_finalize(struct audio_device *dev) { struct headset *hs = dev->headset; struct pending_connect *p = hs->pending; g_slist_foreach(p->callbacks, (GFunc) pending_connect_complete, dev); g_slist_foreach(p->callbacks, (GFunc) g_free, NULL); g_slist_free(p->callbacks); if (p->io) { g_io_channel_close(p->io); g_io_channel_unref(p->io); } if (p->msg) dbus_message_unref(p->msg); if (p->call) { dbus_pending_call_cancel(p->call); dbus_pending_call_unref(p->call); } g_free(p); hs->pending = NULL; } static void pending_connect_init(struct headset *hs, headset_state_t target_state) { if (hs->pending) { if (hs->pending->target_state < target_state) hs->pending->target_state = target_state; return; } hs->pending = g_new0(struct pending_connect, 1); hs->pending->target_state = target_state; } static unsigned int connect_cb_new(struct headset *hs, headset_state_t target_state, headset_stream_cb_t func, void *user_data) { struct connect_cb *cb; unsigned int free_cb_id = 1; pending_connect_init(hs, target_state); cb = g_new(struct connect_cb, 1); cb->cb = func; cb->cb_data = user_data; cb->id = free_cb_id++; hs->pending->callbacks = g_slist_append(hs->pending->callbacks, cb); return cb->id; } static void send_foreach_headset(GSList *devices, int (*cmp) (struct headset *hs), char *format, ...) { GSList *l; va_list ap; for (l = devices; l != NULL; l = l->next) { struct audio_device *device = l->data; struct headset *hs = device->headset; int ret; assert(hs != NULL); if (cmp && cmp(hs) != 0) continue; va_start(ap, format); ret = headset_send_valist(hs, format, ap); if (ret < 0) error("Failed to send to headset: %s (%d)", strerror(-ret), -ret); va_end(ap); } } static int cli_cmp(struct headset *hs) { if (!hs->hfp_active) return -1; if (hs->cli_active) return 0; else return -1; } static gboolean ring_timer_cb(gpointer data) { send_foreach_headset(active_devices, NULL, "\r\nRING\r\n"); if (ag.number) send_foreach_headset(active_devices, cli_cmp, "\r\n+CLIP: \"%s\",%d\r\n", ag.number, ag.number_type); return TRUE; } static void sco_connect_cb(GIOChannel *chan, int err, const bdaddr_t *src, const bdaddr_t *dst, gpointer user_data) { int sk; struct audio_device *dev = user_data; struct headset *hs = dev->headset; struct pending_connect *p = hs->pending; if (err < 0) { error("connect(): %s (%d)", strerror(-err), -err); if (p->msg) error_connection_attempt_failed(dev->conn, p->msg, p->err); pending_connect_finalize(dev); if (hs->rfcomm) headset_set_state(dev, HEADSET_STATE_CONNECTED); else headset_set_state(dev, HEADSET_STATE_DISCONNECTED); return; } debug("SCO socket opened for headset %s", dev->path); sk = g_io_channel_unix_get_fd(chan); debug("SCO fd=%d", sk); hs->sco = chan; p->io = NULL; if (p->msg) { DBusMessage *reply = dbus_message_new_method_return(p->msg); g_dbus_send_message(dev->conn, reply); } pending_connect_finalize(dev); fcntl(sk, F_SETFL, 0); headset_set_state(dev, HEADSET_STATE_PLAYING); if (hs->pending_ring) { ring_timer_cb(NULL); ag.ring_timer = g_timeout_add_seconds(RING_INTERVAL, ring_timer_cb, NULL); hs->pending_ring = FALSE; } } static int sco_connect(struct audio_device *dev, headset_stream_cb_t cb, void *user_data, unsigned int *cb_id) { struct headset *hs = dev->headset; int err; if (hs->state != HEADSET_STATE_CONNECTED) return -EINVAL; err = bt_sco_connect(&dev->src, &dev->dst, sco_connect_cb, dev); if (err < 0) { error("connect: %s (%d)", strerror(-err), -err); return err; } headset_set_state(dev, HEADSET_STATE_PLAY_IN_PROGRESS); pending_connect_init(hs, HEADSET_STATE_PLAYING); if (cb) { unsigned int id = connect_cb_new(hs, HEADSET_STATE_PLAYING, cb, user_data); if (cb_id) *cb_id = id; } return 0; } static int hfp_cmp(struct headset *hs) { if (hs->hfp_active) return 0; else return -1; } static void hfp_slc_complete(struct audio_device *dev) { struct headset *hs = dev->headset; struct pending_connect *p = hs->pending; debug("HFP Service Level Connection established"); headset_set_state(dev, HEADSET_STATE_CONNECTED); if (p == NULL) return; if (p->target_state == HEADSET_STATE_CONNECTED) { if (p->msg) { DBusMessage *reply = dbus_message_new_method_return(p->msg); g_dbus_send_message(dev->conn, reply); } pending_connect_finalize(dev); return; } p->err = sco_connect(dev, NULL, NULL, NULL); if (p->err < 0) { if (p->msg) error_connection_attempt_failed(dev->conn, p->msg, p->err); pending_connect_finalize(dev); } } static int telephony_generic_rsp(struct audio_device *device, cme_error_t err) { struct headset *hs = device->headset; if (err != CME_ERROR_NONE) { if (hs->cme_enabled) return headset_send(hs, "\r\n+CME ERROR: %d\r\n", err); else return headset_send(hs, "\r\nERROR\r\n"); } return headset_send(hs, "\r\nOK\r\n"); } int telephony_event_reporting_rsp(void *telephony_device, cme_error_t err) { struct audio_device *device = telephony_device; struct headset *hs = device->headset; int ret; if (err != CME_ERROR_NONE) return telephony_generic_rsp(telephony_device, err); ret = headset_send(hs, "\r\nOK\r\n"); if (ret < 0) return ret; if (hs->state != HEADSET_STATE_CONNECT_IN_PROGRESS) return 0; if (hs->hf_features & AG_FEATURE_THREE_WAY_CALLING) return 0; hfp_slc_complete(device); return 0; } static int event_reporting(struct audio_device *dev, const char *buf) { char **tokens; /* , , , , */ if (strlen(buf) < 13) return -EINVAL; tokens = g_strsplit(&buf[8], ",", 5); if (g_strv_length(tokens) < 4) { g_strfreev(tokens); return -EINVAL; } ag.er_mode = atoi(tokens[0]); ag.er_ind = atoi(tokens[3]); g_strfreev(tokens); tokens = NULL; debug("Event reporting (CMER): mode=%d, ind=%d", ag.er_mode, ag.er_ind); switch (ag.er_ind) { case 0: case 1: telephony_event_reporting_req(dev, ag.er_ind); break; default: return -EINVAL; } return 0; } static int call_hold(struct audio_device *dev, const char *buf) { struct headset *hs = dev->headset; int err; if (strlen(buf) < 9) return -EINVAL; if (buf[8] != '?') { telephony_call_hold_req(dev, &buf[8]); return 0; } err = headset_send(hs, "\r\n+CHLD: (%s)\r\n", ag.chld); if (err < 0) return err; err = headset_send(hs, "\r\nOK\r\n"); if (err < 0) return err; if (hs->state != HEADSET_STATE_CONNECT_IN_PROGRESS) return 0; hfp_slc_complete(dev); return 0; } static int button_press(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; g_dbus_emit_signal(device->conn, device->path, AUDIO_HEADSET_INTERFACE, "AnswerRequested", DBUS_TYPE_INVALID); if (ag.ring_timer) { g_source_remove(ag.ring_timer); ag.ring_timer = 0; } return headset_send(hs, "\r\nOK\r\n"); } int telephony_answer_call_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } static int answer_call(struct audio_device *device, const char *buf) { if (ag.ring_timer) { g_source_remove(ag.ring_timer); ag.ring_timer = 0; } if (ag.number) { g_free(ag.number); ag.number = NULL; } telephony_answer_call_req(device); return 0; } int telephony_terminate_call_rsp(void *telephony_device, cme_error_t err) { struct audio_device *device = telephony_device; struct headset *hs = device->headset; if (err != CME_ERROR_NONE) return telephony_generic_rsp(telephony_device, err); g_dbus_emit_signal(device->conn, device->path, AUDIO_HEADSET_INTERFACE, "CallTerminated", DBUS_TYPE_INVALID); return headset_send(hs, "\r\nOK\r\n"); } static int terminate_call(struct audio_device *device, const char *buf) { if (ag.number) { g_free(ag.number); ag.number = NULL; } if (ag.ring_timer) { g_source_remove(ag.ring_timer); ag.ring_timer = 0; } telephony_terminate_call_req(device); return 0; } static int cli_notification(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; if (strlen(buf) < 9) return -EINVAL; hs->cli_active = buf[8] == '1' ? TRUE : FALSE; return headset_send(hs, "\r\nOK\r\n"); } int telephony_response_and_hold_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } static int response_and_hold(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; if (strlen(buf) < 8) return -EINVAL; if (buf[7] == '=') { telephony_response_and_hold_req(device, atoi(&buf[8]) < 0); return 0; } if (ag.rh >= 0) headset_send(hs, "\r\n+BTRH: %d\r\n", ag.rh); return headset_send(hs, "\r\nOK\r\n", ag.rh); } int telephony_last_dialed_number_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } static int last_dialed_number(struct audio_device *device, const char *buf) { telephony_last_dialed_number_req(device); return 0; } int telephony_dial_number_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } static int dial_number(struct audio_device *device, const char *buf) { char number[BUF_SIZE]; size_t buf_len; buf_len = strlen(buf); if (buf[buf_len - 1] != ';') { debug("Rejecting non-voice call dial request"); return -EINVAL; } memset(number, 0, sizeof(number)); strncpy(number, &buf[3], buf_len - 4); telephony_dial_number_req(device, number); return 0; } static int signal_gain_setting(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; const char *property; const char *name; dbus_uint16_t gain; if (strlen(buf) < 8) { error("Too short string for Gain setting"); return -EINVAL; } gain = (dbus_uint16_t) strtol(&buf[7], NULL, 10); if (gain > 15) { error("Invalid gain value received: %u", gain); return -EINVAL; } switch (buf[5]) { case HEADSET_GAIN_SPEAKER: if (hs->sp_gain == gain) goto ok; name = "SpeakerGainChanged"; property = "SpeakerGain"; hs->sp_gain = gain; break; case HEADSET_GAIN_MICROPHONE: if (hs->mic_gain == gain) goto ok; name = "MicrophoneGainChanged"; property = "MicrophoneGain"; hs->mic_gain = gain; break; default: error("Unknown gain setting"); return -EINVAL; } g_dbus_emit_signal(device->conn, device->path, AUDIO_HEADSET_INTERFACE, name, DBUS_TYPE_UINT16, &gain, DBUS_TYPE_INVALID); emit_property_changed(device->conn, device->path, AUDIO_HEADSET_INTERFACE, property, DBUS_TYPE_UINT16, &gain); ok: return headset_send(hs, "\r\nOK\r\n"); } int telephony_transmit_dtmf_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } static int dtmf_tone(struct audio_device *device, const char *buf) { if (strlen(buf) < 8) { error("Too short string for DTMF tone"); return -EINVAL; } telephony_transmit_dtmf_req(device, buf[7]); return 0; } int telephony_subscriber_number_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } static int subscriber_number(struct audio_device *device, const char *buf) { telephony_subscriber_number_req(device); return 0; } int telephony_list_current_calls_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } static int list_current_calls(struct audio_device *device, const char *buf) { telephony_list_current_calls_req(device); return 0; } static int extended_errors(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; if (strlen(buf) < 9) return -EINVAL; if (buf[8] == '1') { hs->cme_enabled = TRUE; debug("CME errors enabled for headset %p", hs); } else { hs->cme_enabled = FALSE; debug("CME errors disabled for headset %p", hs); } return headset_send(hs, "\r\nOK\r\n"); } static int call_waiting_notify(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; if (strlen(buf) < 9) return -EINVAL; if (buf[8] == '1') { hs->cwa_enabled = TRUE; debug("Call waiting notifiaction enabled for headset %p", hs); } else { hs->cwa_enabled = FALSE; debug("Call waiting notification disabled for headset %p", hs); } return headset_send(hs, "\r\nOK\r\n"); } int telephony_operator_selection_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } int telephony_call_hold_rsp(void *telephony_device, cme_error_t err) { return telephony_generic_rsp(telephony_device, err); } int telephony_nr_and_ec_rsp(void *telephony_device, cme_error_t err) { struct audio_device *device = telephony_device; struct headset *hs = device->headset; if (err == CME_ERROR_NONE) hs->nrec = hs->nrec_req; return telephony_generic_rsp(telephony_device, err); } int telephony_operator_selection_ind(int mode, const char *oper) { if (!active_devices) return -ENODEV; send_foreach_headset(active_devices, hfp_cmp, "\r\n+COPS: %d,0,%s\r\n", mode, oper); return 0; } static int operator_selection(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; if (strlen(buf) < 8) return -EINVAL; switch (buf[7]) { case '?': telephony_operator_selection_req(device); break; case '=': return headset_send(hs, "\r\nOK\r\n"); default: return -EINVAL; } return 0; } static int nr_and_ec(struct audio_device *device, const char *buf) { struct headset *hs = device->headset; if (strlen(buf) < 9) return -EINVAL; if (buf[8] == '0') hs->nrec_req = FALSE; else hs->nrec_req = TRUE; telephony_nr_and_ec_req(device, hs->nrec_req); return 0; } static struct event event_callbacks[] = { { "ATA", answer_call }, { "ATD", dial_number }, { "AT+VG", signal_gain_setting }, { "AT+BRSF", supported_features }, { "AT+CIND", report_indicators }, { "AT+CMER", event_reporting }, { "AT+CHLD", call_hold }, { "AT+CHUP", terminate_call }, { "AT+CKPD", button_press }, { "AT+CLIP", cli_notification }, { "AT+BTRH", response_and_hold }, { "AT+BLDN", last_dialed_number }, { "AT+VTS", dtmf_tone }, { "AT+CNUM", subscriber_number }, { "AT+CLCC", list_current_calls }, { "AT+CMEE", extended_errors }, { "AT+CCWA", call_waiting_notify }, { "AT+COPS", operator_selection }, { "AT+NREC", nr_and_ec }, { 0 } }; static int handle_event(struct audio_device *device, const char *buf) { struct event *ev; debug("Received %s", buf); for (ev = event_callbacks; ev->cmd; ev++) { if (!strncmp(buf, ev->cmd, strlen(ev->cmd))) return ev->callback(device, buf); } return -EINVAL; } static void close_sco(struct audio_device *device) { struct headset *hs = device->headset; if (hs->sco) { g_source_remove(hs->sco_id); hs->sco_id = 0; g_io_channel_close(hs->sco); g_io_channel_unref(hs->sco); hs->sco = NULL; } } static gboolean rfcomm_io_cb(GIOChannel *chan, GIOCondition cond, struct audio_device *device) { struct headset *hs; unsigned char buf[BUF_SIZE]; char *cr; gsize bytes_read = 0; gsize free_space; int err; off_t cmd_len; if (cond & G_IO_NVAL) return FALSE; hs = device->headset; if (cond & (G_IO_ERR | G_IO_HUP)) goto failed; if (g_io_channel_read(chan, (gchar *) buf, sizeof(buf) - 1, &bytes_read) != G_IO_ERROR_NONE) return TRUE; free_space = sizeof(hs->buf) - hs->data_start - hs->data_length - 1; if (free_space < bytes_read) { /* Very likely that the HS is sending us garbage so * just ignore the data and disconnect */ error("Too much data to fit incomming buffer"); goto failed; } memcpy(&hs->buf[hs->data_start], buf, bytes_read); hs->data_length += bytes_read; /* Make sure the data is null terminated so we can use string * functions */ hs->buf[hs->data_start + hs->data_length] = '\0'; cr = strchr(&hs->buf[hs->data_start], '\r'); if (!cr) return TRUE; cmd_len = 1 + (off_t) cr - (off_t) &hs->buf[hs->data_start]; *cr = '\0'; err = handle_event(device, &hs->buf[hs->data_start]); if (err == -EINVAL) { error("Badly formated or unrecognized command: %s", &hs->buf[hs->data_start]); err = headset_send(hs, "\r\nERROR\r\n"); } else if (err < 0) error("Error handling command %s: %s (%d)", &hs->buf[hs->data_start], strerror(-err), -err); hs->data_start += cmd_len; hs->data_length -= cmd_len; if (!hs->data_length) hs->data_start = 0; return TRUE; failed: headset_set_state(device, HEADSET_STATE_DISCONNECTED); return FALSE; } static gboolean sco_cb(GIOChannel *chan, GIOCondition cond, struct audio_device *device) { struct headset *hs; if (cond & G_IO_NVAL) return FALSE; hs = device->headset; error("Audio connection got disconnected"); headset_set_state(device, HEADSET_STATE_CONNECTED); return FALSE; } static void rfcomm_connect_cb(GIOChannel *chan, int err, const bdaddr_t *src, const bdaddr_t *dst, gpointer user_data) { struct audio_device *dev = user_data; struct headset *hs = dev->headset; struct pending_connect *p = hs->pending; char hs_address[18]; if (err < 0) { error("connect(): %s (%d)", strerror(-err), -err); goto failed; } ba2str(&dev->dst, hs_address); hs->rfcomm = chan; p->io = NULL; if (server_is_enabled(&dev->src, HANDSFREE_SVCLASS_ID) && hs->hfp_handle != 0) hs->hfp_active = TRUE; else hs->hfp_active = FALSE; g_io_add_watch(chan, G_IO_IN | G_IO_ERR | G_IO_HUP| G_IO_NVAL, (GIOFunc) rfcomm_io_cb, dev); debug("%s: Connected to %s", dev->path, hs_address); /* In HFP mode wait for Service Level Connection */ if (hs->hfp_active) return; headset_set_state(dev, HEADSET_STATE_CONNECTED); if (p->target_state == HEADSET_STATE_PLAYING) { p->err = sco_connect(dev, NULL, NULL, NULL); if (p->err < 0) goto failed; return; } if (p->msg) { DBusMessage *reply = dbus_message_new_method_return(p->msg); g_dbus_send_message(dev->conn, reply); } pending_connect_finalize(dev); return; failed: if (p->msg) error_connection_attempt_failed(dev->conn, p->msg, p->err); pending_connect_finalize(dev); if (hs->rfcomm) headset_set_state(dev, HEADSET_STATE_CONNECTED); else headset_set_state(dev, HEADSET_STATE_DISCONNECTED); } static void get_record_cb(sdp_list_t *recs, int err, gpointer user_data) { struct audio_device *dev = user_data; struct headset *hs = dev->headset; struct pending_connect *p = hs->pending; int ch = -1; sdp_record_t *record = NULL; sdp_list_t *protos, *classes = NULL; uuid_t uuid; if (err < 0) { error("Unable to get service record: %s (%d)", strerror(-err), -err); goto failed_not_supported; } if (!recs || !recs->data) { error("No records found"); goto failed_not_supported; } record = recs->data; if (sdp_get_service_classes(record, &classes) < 0) { error("Unable to get service classes from record"); goto failed_not_supported; } memcpy(&uuid, classes->data, sizeof(uuid)); if (!sdp_uuid128_to_uuid(&uuid) || uuid.type != SDP_UUID16) { error("Not a 16 bit UUID"); goto failed_not_supported; } if (hs->search_hfp) { if (uuid.value.uuid16 != HANDSFREE_SVCLASS_ID) { error("Service record didn't contain the HFP UUID"); goto failed_not_supported; } hs->hfp_handle = record->handle; } else { if (uuid.value.uuid16 != HEADSET_SVCLASS_ID) { error("Service record didn't contain the HSP UUID"); goto failed_not_supported; } hs->hsp_handle = record->handle; } if (!sdp_get_access_protos(record, &protos)) { ch = sdp_get_proto_port(protos, RFCOMM_UUID); sdp_list_foreach(protos, (sdp_list_func_t) sdp_list_free, NULL); sdp_list_free(protos, NULL); protos = NULL; } if (ch == -1) { error("Unable to extract RFCOMM channel from service record"); goto failed_not_supported; } hs->rfcomm_ch = ch; err = rfcomm_connect(dev, NULL, NULL, NULL); if (err < 0) { error("Unable to connect: %s (%s)", strerror(-err), -err); p->err = -err; error_connection_attempt_failed(dev->conn, p->msg, p->err); goto failed; } sdp_list_free(classes, free); return; failed_not_supported: if (p->msg) error_not_supported(dev->conn, p->msg); failed: if (classes) sdp_list_free(classes, free); pending_connect_finalize(dev); headset_set_state(dev, HEADSET_STATE_DISCONNECTED); } static int get_records(struct audio_device *device, headset_stream_cb_t cb, void *user_data, unsigned int *cb_id) { struct headset *hs = device->headset; uuid_t uuid; sdp_uuid16_create(&uuid, hs->search_hfp ? HANDSFREE_SVCLASS_ID : HEADSET_SVCLASS_ID); headset_set_state(device, HEADSET_STATE_CONNECT_IN_PROGRESS); pending_connect_init(hs, HEADSET_STATE_CONNECTED); if (cb) { unsigned int id; id = connect_cb_new(hs, HEADSET_STATE_CONNECTED, cb, user_data); if (cb_id) *cb_id = id; } return bt_search_service(&device->src, &device->dst, &uuid, get_record_cb, device, NULL); } static int rfcomm_connect(struct audio_device *dev, headset_stream_cb_t cb, void *user_data, unsigned int *cb_id) { struct headset *hs = dev->headset; char address[18]; int err; if (hs->rfcomm_ch < 0) return get_records(dev, cb, user_data, cb_id); ba2str(&dev->dst, address); debug("%s: Connecting to %s channel %d", dev->path, address, hs->rfcomm_ch); err = bt_rfcomm_connect(&dev->src, &dev->dst, hs->rfcomm_ch, rfcomm_connect_cb, dev); if (err < 0) { error("connect() failed: %s (%d)", strerror(-err), -err); return err; } headset_set_state(dev, HEADSET_STATE_CONNECT_IN_PROGRESS); pending_connect_init(hs, HEADSET_STATE_CONNECTED); if (cb) { unsigned int id = connect_cb_new(hs, HEADSET_STATE_CONNECTED, cb, user_data); if (cb_id) *cb_id = id; } return 0; } static DBusMessage *hs_stop(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; DBusMessage *reply = NULL; if (hs->state < HEADSET_STATE_PLAY_IN_PROGRESS) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotConnected", "Device not Connected"); reply = dbus_message_new_method_return(msg); if (!reply) return NULL; headset_set_state(device, HEADSET_STATE_CONNECTED); return reply; } static DBusMessage *hs_is_playing(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; DBusMessage *reply; dbus_bool_t playing; reply = dbus_message_new_method_return(msg); if (!reply) return NULL; playing = (hs->state == HEADSET_STATE_PLAYING); dbus_message_append_args(reply, DBUS_TYPE_BOOLEAN, &playing, DBUS_TYPE_INVALID); return reply; } static DBusMessage *hs_disconnect(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; DBusMessage *reply = NULL; char hs_address[18]; reply = dbus_message_new_method_return(msg); if (!reply) return NULL; if (hs->state == HEADSET_STATE_DISCONNECTED) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotConnected", "Device not Connected"); headset_set_state(device, HEADSET_STATE_DISCONNECTED); ba2str(&device->dst, hs_address); info("Disconnected from %s, %s", hs_address, device->path); return reply; } static DBusMessage *hs_is_connected(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; DBusMessage *reply; dbus_bool_t connected; reply = dbus_message_new_method_return(msg); if (!reply) return NULL; connected = (device->headset->state >= HEADSET_STATE_CONNECTED); dbus_message_append_args(reply, DBUS_TYPE_BOOLEAN, &connected, DBUS_TYPE_INVALID); return reply; } static DBusMessage *hs_connect(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; int err; if (hs->state == HEADSET_STATE_CONNECT_IN_PROGRESS) return g_dbus_create_error(msg, ERROR_INTERFACE ".InProgress", "Connect in Progress"); else if (hs->state > HEADSET_STATE_CONNECT_IN_PROGRESS) return g_dbus_create_error(msg, ERROR_INTERFACE ".AlreadyConnected", "Already Connected"); if (hs->hfp_handle && !ag.telephony_ready) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotReady", "Telephony subsystem not ready"); if (!manager_allow_headset_connection(&device->src)) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotAllowed", "Too many connected devices"); err = rfcomm_connect(device, NULL, NULL, NULL); if (err < 0) return g_dbus_create_error(msg, ERROR_INTERFACE ".ConnectAttemptFailed", "Connect Attempt Failed"); hs->auto_dc = FALSE; hs->pending->msg = dbus_message_ref(msg); return NULL; } static DBusMessage *hs_ring(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; DBusMessage *reply = NULL; int err; if (hs->state < HEADSET_STATE_CONNECTED) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotConnected", "Device not Connected"); reply = dbus_message_new_method_return(msg); if (!reply) return NULL; if (ag.ring_timer) { debug("IndicateCall received when already indicating"); goto done; } err = headset_send(hs, "\r\nRING\r\n"); if (err < 0) { dbus_message_unref(reply); return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed", "%s", strerror(-err)); } ring_timer_cb(NULL); ag.ring_timer = g_timeout_add_seconds(RING_INTERVAL, ring_timer_cb, NULL); done: return reply; } static DBusMessage *hs_cancel_call(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; DBusMessage *reply = NULL; if (hs->state < HEADSET_STATE_CONNECTED) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotConnected", "Device not Connected"); reply = dbus_message_new_method_return(msg); if (!reply) return NULL; if (ag.ring_timer) { g_source_remove(ag.ring_timer); ag.ring_timer = 0; } else debug("Got CancelCall method call but no call is active"); return reply; } static DBusMessage *hs_play(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; int err; if (sco_hci) { error("Refusing Headset.Play() because SCO HCI routing " "is enabled"); return g_dbus_create_error(msg, ERROR_INTERFACE ".NotAvailable", "Operation not Available"); } switch (hs->state) { case HEADSET_STATE_DISCONNECTED: case HEADSET_STATE_CONNECT_IN_PROGRESS: return g_dbus_create_error(msg, ERROR_INTERFACE ".NotConnected", "Device not Connected"); case HEADSET_STATE_PLAY_IN_PROGRESS: if (hs->pending && hs->pending->msg == NULL) { hs->pending->msg = dbus_message_ref(msg); return NULL; } return g_dbus_create_error(msg, ERROR_INTERFACE ".InProgress", "Play in Progress"); case HEADSET_STATE_PLAYING: return g_dbus_create_error(msg, ERROR_INTERFACE ".AlreadyConnected", "Device Already Connected"); case HEADSET_STATE_CONNECTED: default: break; } err = sco_connect(device, NULL, NULL, NULL); if (err < 0) return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed", "%s", strerror(-err)); hs->pending->msg = dbus_message_ref(msg); return NULL; } static DBusMessage *hs_get_speaker_gain(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; DBusMessage *reply; dbus_uint16_t gain; if (hs->state < HEADSET_STATE_CONNECTED || hs->sp_gain < 0) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotAvailable", "Operation not Available"); reply = dbus_message_new_method_return(msg); if (!reply) return NULL; gain = (dbus_uint16_t) hs->sp_gain; dbus_message_append_args(reply, DBUS_TYPE_UINT16, &gain, DBUS_TYPE_INVALID); return reply; } static DBusMessage *hs_get_mic_gain(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; struct headset *hs = device->headset; DBusMessage *reply; dbus_uint16_t gain; if (hs->state < HEADSET_STATE_CONNECTED || hs->mic_gain < 0) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotAvailable", "Operation not Available"); reply = dbus_message_new_method_return(msg); if (!reply) return NULL; gain = (dbus_uint16_t) hs->mic_gain; dbus_message_append_args(reply, DBUS_TYPE_UINT16, &gain, DBUS_TYPE_INVALID); return reply; } static DBusMessage *hs_set_gain(DBusConnection *conn, DBusMessage *msg, void *data, uint16_t gain, char type) { struct audio_device *device = data; struct headset *hs = device->headset; DBusMessage *reply; int err; if (hs->state < HEADSET_STATE_CONNECTED) return g_dbus_create_error(msg, ERROR_INTERFACE ".NotConnected", "Device not Connected"); if (gain > 15) return g_dbus_create_error(msg, ERROR_INTERFACE ".InvalidArgument", "Must be less than or equal to 15"); reply = dbus_message_new_method_return(msg); if (!reply) return NULL; if (hs->state != HEADSET_STATE_PLAYING) goto done; err = headset_send(hs, "\r\n+VG%c=%u\r\n", type, gain); if (err < 0) { dbus_message_unref(reply); return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed", "%s", strerror(-err)); } done: if (type == HEADSET_GAIN_SPEAKER) { hs->sp_gain = gain; g_dbus_emit_signal(conn, device->path, AUDIO_HEADSET_INTERFACE, "SpeakerGainChanged", DBUS_TYPE_UINT16, &gain, DBUS_TYPE_INVALID); } else { hs->mic_gain = gain; g_dbus_emit_signal(conn, device->path, AUDIO_HEADSET_INTERFACE, "MicrophoneGainChanged", DBUS_TYPE_UINT16, &gain, DBUS_TYPE_INVALID); } return reply; } static DBusMessage *hs_set_speaker_gain(DBusConnection *conn, DBusMessage *msg, void *data) { uint16_t gain; if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_UINT16, &gain, DBUS_TYPE_INVALID)) return NULL; return hs_set_gain(conn, msg, data, gain, HEADSET_GAIN_SPEAKER); } static DBusMessage *hs_set_mic_gain(DBusConnection *conn, DBusMessage *msg, void *data) { uint16_t gain; if (!dbus_message_get_args(msg, NULL, DBUS_TYPE_UINT16, &gain, DBUS_TYPE_INVALID)) return NULL; return hs_set_gain(conn, msg, data, gain, HEADSET_GAIN_MICROPHONE); } static DBusMessage *hs_get_properties(DBusConnection *conn, DBusMessage *msg, void *data) { struct audio_device *device = data; DBusMessage *reply; DBusMessageIter iter; DBusMessageIter dict; gboolean value; reply = dbus_message_new_method_return(msg); if (!reply) return NULL; dbus_message_iter_init_append(reply, &iter); dbus_message_iter_open_container(&iter, DBUS_TYPE_ARRAY, DBUS_DICT_ENTRY_BEGIN_CHAR_AS_STRING DBUS_TYPE_STRING_AS_STRING DBUS_TYPE_VARIANT_AS_STRING DBUS_DICT_ENTRY_END_CHAR_AS_STRING, &dict); /* Playing */ value = (device->headset->state == HEADSET_STATE_PLAYING); dict_append_entry(&dict, "Playing", DBUS_TYPE_BOOLEAN, &value); /* Connected */ value = (device->headset->state >= HEADSET_STATE_CONNECTED); dict_append_entry(&dict, "Connected", DBUS_TYPE_BOOLEAN, &value); if (!value) goto done; /* SpeakerGain */ dict_append_entry(&dict, "SpeakerGain", DBUS_TYPE_UINT16, &device->headset->sp_gain); /* MicrophoneGain */ dict_append_entry(&dict, "MicrophoneGain", DBUS_TYPE_UINT16, &device->headset->mic_gain); done: dbus_message_iter_close_container(&iter, &dict); return reply; } static DBusMessage *hs_set_property(DBusConnection *conn, DBusMessage *msg, void *data) { const char *property; DBusMessageIter iter; DBusMessageIter sub; uint16_t gain; if (!dbus_message_iter_init(msg, &iter)) return invalid_args(msg); if (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_STRING) return invalid_args(msg); dbus_message_iter_get_basic(&iter, &property); dbus_message_iter_next(&iter); if (dbus_message_iter_get_arg_type(&iter) != DBUS_TYPE_VARIANT) return invalid_args(msg); dbus_message_iter_recurse(&iter, &sub); if (g_str_equal("SpeakerGain", property)) { if (dbus_message_iter_get_arg_type(&sub) != DBUS_TYPE_UINT16) return invalid_args(msg); dbus_message_iter_get_basic(&sub, &gain); return hs_set_gain(conn, msg, data, gain, HEADSET_GAIN_SPEAKER); } else if (g_str_equal("MicrophoneGain", property)) { if (dbus_message_iter_get_arg_type(&sub) != DBUS_TYPE_UINT16) return invalid_args(msg); dbus_message_iter_get_basic(&sub, &gain); return hs_set_gain(conn, msg, data, gain, HEADSET_GAIN_MICROPHONE); } return invalid_args(msg); } static GDBusMethodTable headset_methods[] = { { "Connect", "", "", hs_connect, G_DBUS_METHOD_FLAG_ASYNC }, { "Disconnect", "", "", hs_disconnect }, { "IsConnected", "", "b", hs_is_connected }, { "IndicateCall", "", "", hs_ring }, { "CancelCall", "", "", hs_cancel_call }, { "Play", "", "", hs_play, G_DBUS_METHOD_FLAG_ASYNC }, { "Stop", "", "", hs_stop }, { "IsPlaying", "", "b", hs_is_playing, G_DBUS_METHOD_FLAG_DEPRECATED }, { "GetSpeakerGain", "", "q", hs_get_speaker_gain, G_DBUS_METHOD_FLAG_DEPRECATED }, { "GetMicrophoneGain", "", "q", hs_get_mic_gain, G_DBUS_METHOD_FLAG_DEPRECATED }, { "SetSpeakerGain", "q", "", hs_set_speaker_gain, G_DBUS_METHOD_FLAG_DEPRECATED }, { "SetMicrophoneGain", "q", "", hs_set_mic_gain, G_DBUS_METHOD_FLAG_DEPRECATED }, { "GetProperties", "", "a{sv}",hs_get_properties }, { "SetProperty", "sv", "", hs_set_property }, { NULL, NULL, NULL, NULL } }; static GDBusSignalTable headset_signals[] = { { "Connected", "", G_DBUS_SIGNAL_FLAG_DEPRECATED }, { "Disconnected", "", G_DBUS_SIGNAL_FLAG_DEPRECATED }, { "AnswerRequested", "" }, { "Stopped", "", G_DBUS_SIGNAL_FLAG_DEPRECATED }, { "Playing", "", G_DBUS_SIGNAL_FLAG_DEPRECATED }, { "SpeakerGainChanged", "q", G_DBUS_SIGNAL_FLAG_DEPRECATED }, { "MicrophoneGainChanged", "q", G_DBUS_SIGNAL_FLAG_DEPRECATED }, { "CallTerminated", "" }, { "PropertyChanged", "sv" }, { NULL, NULL } }; static void headset_set_channel(struct headset *headset, const sdp_record_t *record, uint16_t svc) { int ch; sdp_list_t *protos; if (sdp_get_access_protos(record, &protos) < 0) { error("Unable to get access protos from headset record"); return; } ch = sdp_get_proto_port(protos, RFCOMM_UUID); sdp_list_foreach(protos, (sdp_list_func_t) sdp_list_free, NULL); sdp_list_free(protos, NULL); if (ch > 0) { headset->rfcomm_ch = ch; debug("Discovered %s service on RFCOMM channel %d", svc == HEADSET_SVCLASS_ID ? "Headset" : "Handsfree", ch); } else error("Unable to get RFCOMM channel from Headset record"); } void headset_update(struct audio_device *dev, uint16_t svc, const char *uuidstr) { struct headset *headset = dev->headset; const sdp_record_t *record; record = btd_device_get_record(dev->btd_dev, uuidstr); if (!record) return; switch (svc) { case HANDSFREE_SVCLASS_ID: if (headset->hfp_handle && (headset->hfp_handle != record->handle)) { error("More than one HFP record found on device"); return; } headset->hfp_handle = record->handle; break; case HEADSET_SVCLASS_ID: if (headset->hsp_handle && (headset->hsp_handle != record->handle)) { error("More than one HSP record found on device"); return; } headset->hsp_handle = record->handle; /* Ignore this record if we already have access to HFP */ if (headset->hfp_handle) return; break; default: debug("Invalid record passed to headset_update"); return; } headset_set_channel(headset, record, svc); } static void headset_free(struct audio_device *dev) { struct headset *hs = dev->headset; if (hs->dc_timer) { g_source_remove(hs->dc_timer); hs->dc_timer = 0; } if (hs->sco) { g_io_channel_close(hs->sco); g_io_channel_unref(hs->sco); } if (hs->rfcomm) { g_io_channel_close(hs->rfcomm); g_io_channel_unref(hs->rfcomm); } g_free(hs); dev->headset = NULL; } static void path_unregister(void *data) { struct audio_device *dev = data; struct headset *hs = dev->headset; if (hs->state > HEADSET_STATE_DISCONNECTED) { debug("Headset unregistered while device was connected!"); headset_set_state(dev, HEADSET_STATE_DISCONNECTED); } info("Unregistered interface %s on path %s", AUDIO_HEADSET_INTERFACE, dev->path); headset_free(dev); } void headset_unregister(struct audio_device *dev) { g_dbus_unregister_interface(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE); } struct headset *headset_init(struct audio_device *dev, uint16_t svc, const char *uuidstr) { struct headset *hs; const sdp_record_t *record; hs = g_new0(struct headset, 1); hs->rfcomm_ch = -1; hs->sp_gain = -1; hs->mic_gain = -1; hs->search_hfp = server_is_enabled(&dev->src, HANDSFREE_SVCLASS_ID); hs->hfp_active = FALSE; hs->cli_active = FALSE; hs->nrec = TRUE; record = btd_device_get_record(dev->btd_dev, uuidstr); if (!record) goto register_iface; switch (svc) { case HANDSFREE_SVCLASS_ID: hs->hfp_handle = record->handle; break; case HEADSET_SVCLASS_ID: hs->hsp_handle = record->handle; break; default: debug("Invalid record passed to headset_init"); g_free(hs); return NULL; } headset_set_channel(hs, record, svc); register_iface: if (!g_dbus_register_interface(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, headset_methods, headset_signals, NULL, dev, path_unregister)) { g_free(hs); return NULL; } info("Registered interface %s on path %s", AUDIO_HEADSET_INTERFACE, dev->path); return hs; } uint32_t headset_config_init(GKeyFile *config) { GError *err = NULL; char *str; /* Use the default values if there is no config file */ if (config == NULL) return ag.features; str = g_key_file_get_string(config, "General", "SCORouting", &err); if (err) { debug("audio.conf: %s", err->message); g_clear_error(&err); } else { if (strcmp(str, "PCM") == 0) sco_hci = FALSE; else if (strcmp(str, "HCI") == 0) sco_hci = TRUE; else error("Invalid Headset Routing value: %s", str); g_free(str); } return ag.features; } static gboolean hs_dc_timeout(struct audio_device *dev) { headset_set_state(dev, HEADSET_STATE_DISCONNECTED); return FALSE; } gboolean headset_cancel_stream(struct audio_device *dev, unsigned int id) { struct headset *hs = dev->headset; struct pending_connect *p = hs->pending; GSList *l; struct connect_cb *cb = NULL; if (!p) return FALSE; for (l = p->callbacks; l != NULL; l = l->next) { struct connect_cb *tmp = l->data; if (tmp->id == id) { cb = tmp; break; } } if (!cb) return FALSE; p->callbacks = g_slist_remove(p->callbacks, cb); g_free(cb); if (p->callbacks || p->msg) return TRUE; if (hs->auto_dc) { if (hs->rfcomm) hs->dc_timer = g_timeout_add_seconds(DC_TIMEOUT, (GSourceFunc) hs_dc_timeout, dev); else headset_set_state(dev, HEADSET_STATE_DISCONNECTED); } return TRUE; } static gboolean dummy_connect_complete(struct audio_device *dev) { pending_connect_finalize(dev); return FALSE; } unsigned int headset_request_stream(struct audio_device *dev, headset_stream_cb_t cb, headset_lock_t lock, void *user_data) { struct headset *hs = dev->headset; unsigned int id; if (hs->rfcomm && hs->sco) { id = connect_cb_new(hs, HEADSET_STATE_PLAYING, cb, user_data); g_idle_add((GSourceFunc) dummy_connect_complete, dev); return id; } if (hs->dc_timer) { g_source_remove(hs->dc_timer); hs->dc_timer = 0; } if (hs->state == HEADSET_STATE_CONNECT_IN_PROGRESS || hs->state == HEADSET_STATE_PLAY_IN_PROGRESS) return connect_cb_new(hs, HEADSET_STATE_PLAYING, cb, user_data); if (hs->rfcomm == NULL) { if (rfcomm_connect(dev, cb, user_data, &id) < 0) return 0; hs->auto_dc = TRUE; } else { if (sco_connect(dev, cb, user_data, &id) < 0) return 0; } hs->pending->target_state = HEADSET_STATE_PLAYING; return id; } unsigned int headset_config_stream(struct audio_device *dev, headset_stream_cb_t cb, headset_lock_t lock, void *user_data) { struct headset *hs = dev->headset; unsigned int id; if (hs->lock & lock) return 0; if (hs->dc_timer) { g_source_remove(hs->dc_timer); hs->dc_timer = 0; } if (hs->state == HEADSET_STATE_CONNECT_IN_PROGRESS) return connect_cb_new(hs, HEADSET_STATE_CONNECTED, cb, user_data); if (hs->rfcomm) goto done; if (rfcomm_connect(dev, cb, user_data, &id) < 0) return 0; hs->auto_dc = TRUE; hs->pending->target_state = HEADSET_STATE_CONNECTED; return id; done: id = connect_cb_new(hs, HEADSET_STATE_CONNECTED, cb, user_data); g_idle_add((GSourceFunc) dummy_connect_complete, dev); return id; } unsigned int headset_suspend_stream(struct audio_device *dev, headset_stream_cb_t cb, headset_lock_t lock, void *user_data) { struct headset *hs = dev->headset; unsigned int id; if (hs->lock & ~lock || !hs->rfcomm || !hs->sco) return 0; if (hs->dc_timer) { g_source_remove(hs->dc_timer); hs->dc_timer = 0; } close_sco(dev); id = connect_cb_new(hs, HEADSET_STATE_CONNECTED, cb, user_data); g_idle_add((GSourceFunc) dummy_connect_complete, dev); return id; } gboolean get_hfp_active(struct audio_device *dev) { struct headset *hs = dev->headset; return hs->hfp_active; } void set_hfp_active(struct audio_device *dev, gboolean active) { struct headset *hs = dev->headset; hs->hfp_active = active; } int headset_connect_rfcomm(struct audio_device *dev, GIOChannel *io) { struct headset *hs = dev->headset; hs->tmp_rfcomm = io; return hs->tmp_rfcomm ? 0 : -EINVAL; } int headset_connect_sco(struct audio_device *dev, GIOChannel *io) { struct headset *hs = dev->headset; if (hs->sco) return -EISCONN; hs->sco = io; if (hs->pending_ring) { ring_timer_cb(NULL); ag.ring_timer = g_timeout_add_seconds(RING_INTERVAL, ring_timer_cb, NULL); hs->pending_ring = FALSE; } return 0; } static int headset_close_rfcomm(struct audio_device *dev) { struct headset *hs = dev->headset; GIOChannel *rfcomm = hs->tmp_rfcomm ? hs->tmp_rfcomm : hs->rfcomm; if (rfcomm) { g_io_channel_close(rfcomm); g_io_channel_unref(rfcomm); hs->tmp_rfcomm = NULL; hs->rfcomm = NULL; } hs->data_start = 0; hs->data_length = 0; hs->nrec = TRUE; return 0; } void headset_set_authorized(struct audio_device *dev) { struct headset *hs = dev->headset; /* For HFP telephony isn't ready just disconnect */ if (hs->hfp_active && !ag.telephony_ready) { error("Unable to accept HFP connection since the telephony " "subsystem isn't initialized"); headset_set_state(dev, HEADSET_STATE_DISCONNECTED); return; } hs->rfcomm = hs->tmp_rfcomm; hs->tmp_rfcomm = NULL; g_io_add_watch(hs->rfcomm, G_IO_IN | G_IO_HUP | G_IO_ERR | G_IO_NVAL, (GIOFunc) rfcomm_io_cb, dev); hs->auto_dc = FALSE; /* For HSP (no special SLC setup) move to CONNECTED state */ if (!hs->hfp_active) headset_set_state(dev, HEADSET_STATE_CONNECTED); } void headset_set_state(struct audio_device *dev, headset_state_t state) { struct headset *hs = dev->headset; gboolean value; if (hs->state == state) return; switch (state) { case HEADSET_STATE_DISCONNECTED: value = FALSE; close_sco(dev); headset_close_rfcomm(dev); g_dbus_emit_signal(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, "Disconnected", DBUS_TYPE_INVALID); emit_property_changed(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, "Connected", DBUS_TYPE_BOOLEAN, &value); telephony_device_disconnected(dev); active_devices = g_slist_remove(active_devices, dev); break; case HEADSET_STATE_CONNECT_IN_PROGRESS: break; case HEADSET_STATE_CONNECTED: close_sco(dev); if (hs->state < state) { value = TRUE; g_dbus_emit_signal(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, "Connected", DBUS_TYPE_INVALID); emit_property_changed(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, "Connected", DBUS_TYPE_BOOLEAN, &value); active_devices = g_slist_append(active_devices, dev); telephony_device_connected(dev); } else if (hs->state == HEADSET_STATE_PLAYING) { value = FALSE; g_dbus_emit_signal(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, "Stopped", DBUS_TYPE_INVALID); emit_property_changed(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, "Playing", DBUS_TYPE_BOOLEAN, &value); } break; case HEADSET_STATE_PLAY_IN_PROGRESS: break; case HEADSET_STATE_PLAYING: value = TRUE; hs->sco_id = g_io_add_watch(hs->sco, G_IO_ERR | G_IO_HUP | G_IO_NVAL, (GIOFunc) sco_cb, dev); g_dbus_emit_signal(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, "Playing", DBUS_TYPE_INVALID); emit_property_changed(dev->conn, dev->path, AUDIO_HEADSET_INTERFACE, "Playing", DBUS_TYPE_BOOLEAN, &value); if (hs->sp_gain >= 0) headset_send(hs, "\r\n+VGS=%u\r\n", hs->sp_gain); if (hs->mic_gain >= 0) headset_send(hs, "\r\n+VGM=%u\r\n", hs->mic_gain); break; } debug("State changed %s: %s -> %s", dev->path, str_state[hs->state], str_state[state]); hs->state = state; } headset_state_t headset_get_state(struct audio_device *dev) { struct headset *hs = dev->headset; return hs->state; } int headset_get_channel(struct audio_device *dev) { struct headset *hs = dev->headset; return hs->rfcomm_ch; } gboolean headset_is_active(struct audio_device *dev) { struct headset *hs = dev->headset; if (hs->state != HEADSET_STATE_DISCONNECTED) return TRUE; return FALSE; } gboolean headset_lock(struct audio_device *dev, headset_lock_t lock) { struct headset *hs = dev->headset; if (hs->lock & lock) return FALSE; hs->lock |= lock; return TRUE; } gboolean headset_unlock(struct audio_device *dev, headset_lock_t lock) { struct headset *hs = dev->headset; if (!(hs->lock & lock)) return FALSE; hs->lock &= ~lock; if (hs->lock) return TRUE; if (hs->state == HEADSET_STATE_PLAYING) headset_set_state(dev, HEADSET_STATE_CONNECTED); if (hs->auto_dc) { if (hs->state == HEADSET_STATE_CONNECTED) hs->dc_timer = g_timeout_add_seconds(DC_TIMEOUT, (GSourceFunc) hs_dc_timeout, dev); else headset_set_state(dev, HEADSET_STATE_DISCONNECTED); } return TRUE; } gboolean headset_suspend(struct audio_device *dev, void *data) { return TRUE; } gboolean headset_play(struct audio_device *dev, void *data) { return TRUE; } int headset_get_sco_fd(struct audio_device *dev) { struct headset *hs = dev->headset; if (!hs->sco) return -1; return g_io_channel_unix_get_fd(hs->sco); } gboolean headset_get_nrec(struct audio_device *dev) { struct headset *hs = dev->headset; return hs->nrec; } int telephony_event_ind(int index) { if (!active_devices) return -ENODEV; if (!ag.er_ind) { debug("telephony_report_event called but events are disabled"); return -EINVAL; } send_foreach_headset(active_devices, hfp_cmp, "\r\n+CIEV: %d,%d\r\n", index + 1, ag.indicators[index].val); return 0; } int telephony_response_and_hold_ind(int rh) { if (!active_devices) return -ENODEV; ag.rh = rh; /* If we aren't in any response and hold state don't send anything */ if (ag.rh < 0) return 0; send_foreach_headset(active_devices, hfp_cmp, "\r\n+BTRH: %d\r\n", ag.rh); return 0; } int telephony_incoming_call_ind(const char *number, int type) { struct audio_device *dev; struct headset *hs; if (!active_devices) return -ENODEV; /* Get the latest connected device */ dev = active_devices->data; hs = dev->headset; if (ag.ring_timer) { debug("telephony_incoming_call_ind: already calling"); return -EBUSY; } g_free(ag.number); ag.number = g_strdup(number); ag.number_type = type; if (ag.features & AG_FEATURE_INBAND_RINGTONE && hs->hfp_active && hs->state != HEADSET_STATE_PLAYING) { if (hs->state == HEADSET_STATE_CONNECTED) { int ret; ret = sco_connect(dev, NULL, NULL, NULL); if (ret < 0) return ret; } hs->pending_ring = TRUE; return 0; } ring_timer_cb(NULL); ag.ring_timer = g_timeout_add_seconds(RING_INTERVAL, ring_timer_cb, NULL); return 0; } int telephony_calling_stopped_ind(void) { struct audio_device *dev; if (!active_devices) return -ENODEV; /* In case SCO isn't fully up yet */ dev = active_devices->data; if (!dev->headset->pending_ring && !ag.ring_timer) return -EINVAL; dev->headset->pending_ring = FALSE; if (ag.ring_timer) { g_source_remove(ag.ring_timer); ag.ring_timer = 0; } return 0; } int telephony_ready_ind(uint32_t features, const struct indicator *indicators, int rh, const char *chld) { ag.telephony_ready = TRUE; ag.features = features; ag.indicators = indicators; ag.rh = rh; ag.chld = g_strdup(chld); debug("Telephony plugin initialized"); print_ag_features(ag.features); return 0; } int telephony_list_current_call_ind(int idx, int dir, int status, int mode, int mprty, const char *number, int type) { if (!active_devices) return -ENODEV; if (number) send_foreach_headset(active_devices, hfp_cmp, "\r\n+CLCC: %d,%d,%d,%d,%d,%s,%d\r\n", idx, dir, status, mode, mprty, number, type); else send_foreach_headset(active_devices, hfp_cmp, "\r\n+CLCC: %d,%d,%d,%d,%d\r\n", idx, dir, status, mode, mprty); return 0; } int telephony_subscriber_number_ind(const char *number, int type, int service) { if (!active_devices) return -ENODEV; send_foreach_headset(active_devices, hfp_cmp, "\r\n+CNUM: ,%s,%d,,%d\r\n", number, type, service); return 0; } static int cwa_cmp(struct headset *hs) { if (!hs->hfp_active) return -1; if (hs->cwa_enabled) return 0; else return -1; } int telephony_call_waiting_ind(const char *number, int type) { if (!active_devices) return -ENODEV; send_foreach_headset(active_devices, cwa_cmp, "\r\n+CCWA: %s,%d\r\n", number, type); return 0; }