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android / platform / external / bluetooth / bluez / refs/tags/android-2.2.1_r2 / . / audio / sink.c
blob: 90bceabcd68bb42d7b632e0fa51e11adad74c1ab [file] [log] [blame]
/*
*
* BlueZ - Bluetooth protocol stack for Linux
*
* Copyright (C) 2006-2007 Nokia Corporation
* Copyright (C) 2004-2009 Marcel Holtmann <marcel@holtmann.org>
* Copyright (C) 2009-2010 Motorola Inc.
*
* 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 <config.h>
#endif
#include <stdint.h>
#include <errno.h>
#include <bluetooth/bluetooth.h>
#include <bluetooth/sdp.h>
#include <glib.h>
#include <dbus/dbus.h>
#include <gdbus.h>
#include "logging.h"
#include "device.h"
#include "avdtp.h"
#include "a2dp.h"
#include "error.h"
#include "sink.h"
#include "dbus-common.h"
#include "../src/adapter.h"
#include "../src/device.h"
#define STREAM_SETUP_RETRY_TIMER 2
struct pending_request {
DBusConnection *conn;
DBusMessage *msg;
unsigned int id;
};
struct sink {
struct audio_device *dev;
struct avdtp *session;
struct avdtp_stream *stream;
unsigned int cb_id;
guint dc_id;
guint retry_id;
avdtp_session_state_t session_state;
avdtp_state_t stream_state;
sink_state_t state;
struct pending_request *connect;
struct pending_request *disconnect;
DBusConnection *conn;
};
struct sink_state_callback {
sink_state_cb cb;
void *user_data;
unsigned int id;
};
static GSList *sink_callbacks = NULL;
static unsigned int avdtp_callback_id = 0;
static const char *state2str(sink_state_t state)
{
switch (state) {
case SINK_STATE_DISCONNECTED:
return "disconnected";
case SINK_STATE_CONNECTING:
return "connecting";
case SINK_STATE_CONNECTED:
return "connected";
case SINK_STATE_PLAYING:
return "playing";
default:
error("Invalid sink state %d", state);
return NULL;
}
}
static void sink_set_state(struct audio_device *dev, sink_state_t new_state)
{
struct sink *sink = dev->sink;
const char *state_str;
sink_state_t old_state = sink->state;
GSList *l;
sink->state = new_state;
state_str = state2str(new_state);
if (state_str)
emit_property_changed(dev->conn, dev->path,
AUDIO_SINK_INTERFACE, "State",
DBUS_TYPE_STRING, &state_str);
for (l = sink_callbacks; l != NULL; l = l->next) {
struct sink_state_callback *cb = l->data;
cb->cb(dev, old_state, new_state, cb->user_data);
}
}
static void avdtp_state_callback(struct audio_device *dev,
struct avdtp *session,
avdtp_session_state_t old_state,
avdtp_session_state_t new_state,
void *user_data)
{
struct sink *sink = dev->sink;
if (sink == NULL)
return;
switch (new_state) {
case AVDTP_SESSION_STATE_DISCONNECTED:
if (sink->state != SINK_STATE_CONNECTING) {
gboolean value = FALSE;
g_dbus_emit_signal(dev->conn, dev->path,
AUDIO_SINK_INTERFACE, "Disconnected",
DBUS_TYPE_INVALID);
emit_property_changed(dev->conn, dev->path,
AUDIO_SINK_INTERFACE, "Connected",
DBUS_TYPE_BOOLEAN, &value);
if (sink->dc_id) {
device_remove_disconnect_watch(dev->btd_dev,
sink->dc_id);
sink->dc_id = 0;
}
}
sink_set_state(dev, SINK_STATE_DISCONNECTED);
break;
case AVDTP_SESSION_STATE_CONNECTING:
sink_set_state(dev, SINK_STATE_CONNECTING);
break;
case AVDTP_SESSION_STATE_CONNECTED:
break;
}
sink->session_state = new_state;
}
static void pending_request_free(struct audio_device *dev,
struct pending_request *pending)
{
if (pending->conn)
dbus_connection_unref(pending->conn);
if (pending->msg)
dbus_message_unref(pending->msg);
if (pending->id)
a2dp_cancel(dev, pending->id);
g_free(pending);
}
static void disconnect_cb(struct btd_device *btd_dev, gboolean removal,
void *user_data)
{
struct audio_device *device = user_data;
struct sink *sink = device->sink;
debug("Sink: disconnect %s", device->path);
avdtp_close(sink->session, sink->stream);
}
static void stream_state_changed(struct avdtp_stream *stream,
avdtp_state_t old_state,
avdtp_state_t new_state,
struct avdtp_error *err,
void *user_data)
{
struct audio_device *dev = user_data;
struct sink *sink = dev->sink;
gboolean value;
if (err)
return;
switch (new_state) {
case AVDTP_STATE_IDLE:
if (sink->disconnect) {
DBusMessage *reply;
struct pending_request *p;
p = sink->disconnect;
sink->disconnect = NULL;
reply = dbus_message_new_method_return(p->msg);
g_dbus_send_message(p->conn, reply);
pending_request_free(dev, p);
}
if (sink->dc_id) {
device_remove_disconnect_watch(dev->btd_dev,
sink->dc_id);
sink->dc_id = 0;
}
if (sink->session) {
avdtp_unref(sink->session);
sink->session = NULL;
}
sink->stream = NULL;
sink->cb_id = 0;
break;
case AVDTP_STATE_OPEN:
if (old_state == AVDTP_STATE_CONFIGURED &&
sink->state == SINK_STATE_CONNECTING) {
value = TRUE;
g_dbus_emit_signal(dev->conn, dev->path,
AUDIO_SINK_INTERFACE,
"Connected",
DBUS_TYPE_INVALID);
emit_property_changed(dev->conn, dev->path,
AUDIO_SINK_INTERFACE,
"Connected",
DBUS_TYPE_BOOLEAN, &value);
sink->dc_id = device_add_disconnect_watch(dev->btd_dev,
disconnect_cb,
dev, NULL);
} else if (old_state == AVDTP_STATE_STREAMING) {
value = FALSE;
g_dbus_emit_signal(dev->conn, dev->path,
AUDIO_SINK_INTERFACE,
"Stopped",
DBUS_TYPE_INVALID);
emit_property_changed(dev->conn, dev->path,
AUDIO_SINK_INTERFACE,
"Playing",
DBUS_TYPE_BOOLEAN, &value);
}
sink_set_state(dev, SINK_STATE_CONNECTED);
break;
case AVDTP_STATE_STREAMING:
value = TRUE;
g_dbus_emit_signal(dev->conn, dev->path, AUDIO_SINK_INTERFACE,
"Playing", DBUS_TYPE_INVALID);
emit_property_changed(dev->conn, dev->path,
AUDIO_SINK_INTERFACE, "Playing",
DBUS_TYPE_BOOLEAN, &value);
sink_set_state(dev, SINK_STATE_PLAYING);
break;
case AVDTP_STATE_CONFIGURED:
case AVDTP_STATE_CLOSING:
case AVDTP_STATE_ABORTING:
default:
break;
}
sink->stream_state = new_state;
}
static DBusHandlerResult error_failed(DBusConnection *conn,
DBusMessage *msg, const char * desc)
{
return error_common_reply(conn, msg, ERROR_INTERFACE ".Failed", desc);
}
static gboolean stream_setup_retry(gpointer user_data)
{
struct sink *sink = user_data;
struct pending_request *pending = sink->connect;
sink->retry_id = 0;
if (sink->stream_state >= AVDTP_STATE_OPEN) {
debug("Stream successfully created, after XCASE connect:connect");
if (pending->msg) {
DBusMessage *reply;
reply = dbus_message_new_method_return(pending->msg);
g_dbus_send_message(pending->conn, reply);
}
} else {
debug("Stream setup failed, after XCASE connect:connect");
if (pending->msg)
error_failed(pending->conn, pending->msg, "Stream setup failed");
}
sink->connect = NULL;
pending_request_free(sink->dev, pending);
return FALSE;
}
static void stream_setup_complete(struct avdtp *session, struct a2dp_sep *sep,
struct avdtp_stream *stream,
struct avdtp_error *err, void *user_data)
{
struct sink *sink = user_data;
struct pending_request *pending;
pending = sink->connect;
pending->id = 0;
if (stream) {
debug("Stream successfully created");
if (pending->msg) {
DBusMessage *reply;
reply = dbus_message_new_method_return(pending->msg);
g_dbus_send_message(pending->conn, reply);
}
sink->connect = NULL;
pending_request_free(sink->dev, pending);
return;
}
avdtp_unref(sink->session);
sink->session = NULL;
if (avdtp_error_type(err) == AVDTP_ERROR_ERRNO
&& avdtp_error_posix_errno(err) != EHOSTDOWN) {
debug("connect:connect XCASE detected");
sink->retry_id = g_timeout_add_seconds(STREAM_SETUP_RETRY_TIMER,
stream_setup_retry,
sink);
} else {
if (pending->msg)
error_failed(pending->conn, pending->msg, "Stream setup failed");
sink->connect = NULL;
pending_request_free(sink->dev, pending);
debug("Stream setup failed : %s", avdtp_strerror(err));
}
}
static uint8_t default_bitpool(uint8_t freq, uint8_t mode)
{
switch (freq) {
case SBC_SAMPLING_FREQ_16000:
case SBC_SAMPLING_FREQ_32000:
return 53;
case SBC_SAMPLING_FREQ_44100:
switch (mode) {
case SBC_CHANNEL_MODE_MONO:
case SBC_CHANNEL_MODE_DUAL_CHANNEL:
return 31;
case SBC_CHANNEL_MODE_STEREO:
case SBC_CHANNEL_MODE_JOINT_STEREO:
return 53;
default:
error("Invalid channel mode %u", mode);
return 53;
}
case SBC_SAMPLING_FREQ_48000:
switch (mode) {
case SBC_CHANNEL_MODE_MONO:
case SBC_CHANNEL_MODE_DUAL_CHANNEL:
return 29;
case SBC_CHANNEL_MODE_STEREO:
case SBC_CHANNEL_MODE_JOINT_STEREO:
return 51;
default:
error("Invalid channel mode %u", mode);
return 51;
}
default:
error("Invalid sampling freq %u", freq);
return 53;
}
}
static gboolean select_sbc_params(struct sbc_codec_cap *cap,
struct sbc_codec_cap *supported)
{
unsigned int max_bitpool, min_bitpool;
memset(cap, 0, sizeof(struct sbc_codec_cap));
cap->cap.media_type = AVDTP_MEDIA_TYPE_AUDIO;
cap->cap.media_codec_type = A2DP_CODEC_SBC;
if (supported->frequency & SBC_SAMPLING_FREQ_44100)
cap->frequency = SBC_SAMPLING_FREQ_44100;
else if (supported->frequency & SBC_SAMPLING_FREQ_48000)
cap->frequency = SBC_SAMPLING_FREQ_48000;
else if (supported->frequency & SBC_SAMPLING_FREQ_32000)
cap->frequency = SBC_SAMPLING_FREQ_32000;
else if (supported->frequency & SBC_SAMPLING_FREQ_16000)
cap->frequency = SBC_SAMPLING_FREQ_16000;
else {
error("No supported frequencies");
return FALSE;
}
if (supported->channel_mode & SBC_CHANNEL_MODE_JOINT_STEREO)
cap->channel_mode = SBC_CHANNEL_MODE_JOINT_STEREO;
else if (supported->channel_mode & SBC_CHANNEL_MODE_STEREO)
cap->channel_mode = SBC_CHANNEL_MODE_STEREO;
else if (supported->channel_mode & SBC_CHANNEL_MODE_DUAL_CHANNEL)
cap->channel_mode = SBC_CHANNEL_MODE_DUAL_CHANNEL;
else if (supported->channel_mode & SBC_CHANNEL_MODE_MONO)
cap->channel_mode = SBC_CHANNEL_MODE_MONO;
else {
error("No supported channel modes");
return FALSE;
}
if (supported->block_length & SBC_BLOCK_LENGTH_16)
cap->block_length = SBC_BLOCK_LENGTH_16;
else if (supported->block_length & SBC_BLOCK_LENGTH_12)
cap->block_length = SBC_BLOCK_LENGTH_12;
else if (supported->block_length & SBC_BLOCK_LENGTH_8)
cap->block_length = SBC_BLOCK_LENGTH_8;
else if (supported->block_length & SBC_BLOCK_LENGTH_4)
cap->block_length = SBC_BLOCK_LENGTH_4;
else {
error("No supported block lengths");
return FALSE;
}
if (supported->subbands & SBC_SUBBANDS_8)
cap->subbands = SBC_SUBBANDS_8;
else if (supported->subbands & SBC_SUBBANDS_4)
cap->subbands = SBC_SUBBANDS_4;
else {
error("No supported subbands");
return FALSE;
}
if (supported->allocation_method & SBC_ALLOCATION_LOUDNESS)
cap->allocation_method = SBC_ALLOCATION_LOUDNESS;
else if (supported->allocation_method & SBC_ALLOCATION_SNR)
cap->allocation_method = SBC_ALLOCATION_SNR;
min_bitpool = MAX(MIN_BITPOOL, supported->min_bitpool);
max_bitpool = MIN(default_bitpool(cap->frequency, cap->channel_mode),
supported->max_bitpool);
cap->min_bitpool = min_bitpool;
cap->max_bitpool = max_bitpool;
return TRUE;
}
static gboolean select_capabilities(struct avdtp *session,
struct avdtp_remote_sep *rsep,
GSList **caps)
{
struct avdtp_service_capability *media_transport, *media_codec;
struct sbc_codec_cap sbc_cap;
media_codec = avdtp_get_codec(rsep);
if (!media_codec)
return FALSE;
select_sbc_params(&sbc_cap, (struct sbc_codec_cap *) media_codec->data);
media_transport = avdtp_service_cap_new(AVDTP_MEDIA_TRANSPORT,
NULL, 0);
*caps = g_slist_append(*caps, media_transport);
media_codec = avdtp_service_cap_new(AVDTP_MEDIA_CODEC, &sbc_cap,
sizeof(sbc_cap));
*caps = g_slist_append(*caps, media_codec);
return TRUE;
}
static void discovery_complete(struct avdtp *session, GSList *seps, struct avdtp_error *err,
void *user_data)
{
struct sink *sink = user_data;
struct pending_request *pending;
struct avdtp_local_sep *lsep;
struct avdtp_remote_sep *rsep;
struct a2dp_sep *sep;
GSList *caps = NULL;
int id;
pending = sink->connect;
if (err) {
avdtp_unref(sink->session);
sink->session = NULL;
if (avdtp_error_type(err) == AVDTP_ERROR_ERRNO
&& avdtp_error_posix_errno(err) != EHOSTDOWN) {
debug("connect:connect XCASE detected");
sink->retry_id =
g_timeout_add_seconds(STREAM_SETUP_RETRY_TIMER,
stream_setup_retry,
sink);
} else
goto failed;
return;
}
debug("Discovery complete");
if (avdtp_get_seps(session, AVDTP_SEP_TYPE_SINK, AVDTP_MEDIA_TYPE_AUDIO,
A2DP_CODEC_SBC, &lsep, &rsep) < 0) {
error("No matching ACP and INT SEPs found");
goto failed;
}
if (!select_capabilities(session, rsep, &caps)) {
error("Unable to select remote SEP capabilities");
goto failed;
}
sep = a2dp_get(session, rsep);
if (!sep) {
error("Unable to get a local source SEP");
goto failed;
}
id = a2dp_config(sink->session, sep, stream_setup_complete, caps, sink);
if (id == 0)
goto failed;
pending->id = id;
return;
failed:
if (pending->msg)
error_failed(pending->conn, pending->msg, "Stream setup failed");
pending_request_free(sink->dev, pending);
sink->connect = NULL;
avdtp_unref(sink->session);
sink->session = NULL;
}
gboolean sink_setup_stream(struct sink *sink, struct avdtp *session)
{
if (sink->connect || sink->disconnect)
return FALSE;
if (session && !sink->session)
sink->session = avdtp_ref(session);
if (!sink->session)
return FALSE;
avdtp_set_auto_disconnect(sink->session, FALSE);
if (avdtp_discover(sink->session, discovery_complete, sink) < 0)
return FALSE;
sink->connect = g_new0(struct pending_request, 1);
return TRUE;
}
static DBusMessage *sink_connect(DBusConnection *conn,
DBusMessage *msg, void *data)
{
struct audio_device *dev = data;
struct sink *sink = dev->sink;
struct pending_request *pending;
if (!sink->session)
sink->session = avdtp_get(&dev->src, &dev->dst);
if (!sink->session)
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"Unable to get a session");
if (sink->connect || sink->disconnect)
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"%s", strerror(EBUSY));
if (sink->stream_state >= AVDTP_STATE_OPEN)
return g_dbus_create_error(msg, ERROR_INTERFACE
".AlreadyConnected",
"Device Already Connected");
if (!sink_setup_stream(sink, NULL))
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"Failed to create a stream");
dev->auto_connect = FALSE;
pending = sink->connect;
pending->conn = dbus_connection_ref(conn);
pending->msg = dbus_message_ref(msg);
debug("stream creation in progress");
return NULL;
}
static DBusMessage *sink_disconnect(DBusConnection *conn,
DBusMessage *msg, void *data)
{
struct audio_device *device = data;
struct sink *sink = device->sink;
struct pending_request *pending;
int err;
if (!sink->session)
return g_dbus_create_error(msg, ERROR_INTERFACE
".NotConnected",
"Device not Connected");
if (sink->connect || sink->disconnect)
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"%s", strerror(EBUSY));
if (sink->stream_state < AVDTP_STATE_OPEN) {
DBusMessage *reply = dbus_message_new_method_return(msg);
if (!reply)
return NULL;
avdtp_unref(sink->session);
sink->session = NULL;
return reply;
}
err = avdtp_close(sink->session, sink->stream);
if (err < 0)
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"%s", strerror(-err));
pending = g_new0(struct pending_request, 1);
pending->conn = dbus_connection_ref(conn);
pending->msg = dbus_message_ref(msg);
sink->disconnect = pending;
return NULL;
}
static DBusMessage *sink_suspend(DBusConnection *conn,
DBusMessage *msg, void *data)
{
struct audio_device *device = data;
struct sink *sink = device->sink;
struct pending_request *pending;
int err;
if (!sink->session)
return g_dbus_create_error(msg, ERROR_INTERFACE
".NotConnected",
"Device not Connected");
if (sink->connect || sink->disconnect)
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"%s", strerror(EBUSY));
if (sink->state < AVDTP_STATE_OPEN) {
DBusMessage *reply = dbus_message_new_method_return(msg);
if (!reply)
return NULL;
avdtp_unref(sink->session);
sink->session = NULL;
return reply;
}
err = avdtp_suspend(sink->session, sink->stream);
if (err < 0)
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"%s", strerror(-err));
return NULL;
}
static DBusMessage *sink_resume(DBusConnection *conn,
DBusMessage *msg, void *data)
{
struct audio_device *device = data;
struct sink *sink = device->sink;
struct pending_request *pending;
int err;
if (!sink->session)
return g_dbus_create_error(msg, ERROR_INTERFACE
".NotConnected",
"Device not Connected");
if (sink->connect || sink->disconnect)
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"%s", strerror(EBUSY));
if (sink->state < AVDTP_STATE_OPEN) {
DBusMessage *reply = dbus_message_new_method_return(msg);
if (!reply)
return NULL;
avdtp_unref(sink->session);
sink->session = NULL;
return reply;
}
err = avdtp_start(sink->session, sink->stream);
if (err < 0)
return g_dbus_create_error(msg, ERROR_INTERFACE ".Failed",
"%s", strerror(-err));
return NULL;
}
static DBusMessage *sink_is_connected(DBusConnection *conn,
DBusMessage *msg,
void *data)
{
struct audio_device *device = data;
struct sink *sink = device->sink;
DBusMessage *reply;
dbus_bool_t connected;
reply = dbus_message_new_method_return(msg);
if (!reply)
return NULL;
connected = (sink->stream_state >= AVDTP_STATE_CONFIGURED);
dbus_message_append_args(reply, DBUS_TYPE_BOOLEAN, &connected,
DBUS_TYPE_INVALID);
return reply;
}
static DBusMessage *sink_get_properties(DBusConnection *conn,
DBusMessage *msg, void *data)
{
struct audio_device *device = data;
struct sink *sink = device->sink;
DBusMessage *reply;
DBusMessageIter iter;
DBusMessageIter dict;
const char *state;
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 = (sink->stream_state == AVDTP_STATE_STREAMING);
dict_append_entry(&dict, "Playing", DBUS_TYPE_BOOLEAN, &value);
/* Connected */
value = (sink->stream_state >= AVDTP_STATE_CONFIGURED);
dict_append_entry(&dict, "Connected", DBUS_TYPE_BOOLEAN, &value);
/* State */
state = state2str(sink->state);
if (state)
dict_append_entry(&dict, "State", DBUS_TYPE_STRING, &state);
dbus_message_iter_close_container(&iter, &dict);
return reply;
}
static GDBusMethodTable sink_methods[] = {
{ "Connect", "", "", sink_connect,
G_DBUS_METHOD_FLAG_ASYNC },
{ "Disconnect", "", "", sink_disconnect,
G_DBUS_METHOD_FLAG_ASYNC },
{ "Suspend", "", "", sink_suspend,
G_DBUS_METHOD_FLAG_ASYNC },
{ "Resume", "", "", sink_resume,
G_DBUS_METHOD_FLAG_ASYNC },
{ "IsConnected", "", "b", sink_is_connected,
G_DBUS_METHOD_FLAG_DEPRECATED },
{ "GetProperties", "", "a{sv}",sink_get_properties },
{ NULL, NULL, NULL, NULL }
};
static GDBusSignalTable sink_signals[] = {
{ "Connected", "", G_DBUS_SIGNAL_FLAG_DEPRECATED },
{ "Disconnected", "", G_DBUS_SIGNAL_FLAG_DEPRECATED },
{ "Playing", "", G_DBUS_SIGNAL_FLAG_DEPRECATED },
{ "Stopped", "", G_DBUS_SIGNAL_FLAG_DEPRECATED },
{ "PropertyChanged", "sv" },
{ NULL, NULL }
};
static void sink_free(struct audio_device *dev)
{
struct sink *sink = dev->sink;
if (sink->cb_id)
avdtp_stream_remove_cb(sink->session, sink->stream,
sink->cb_id);
if (sink->dc_id)
device_remove_disconnect_watch(dev->btd_dev, sink->dc_id);
if (sink->session)
avdtp_unref(sink->session);
if (sink->connect)
pending_request_free(dev, sink->connect);
if (sink->disconnect)
pending_request_free(dev, sink->disconnect);
if (sink->retry_id)
g_source_remove(sink->retry_id);
g_free(sink);
dev->sink = NULL;
}
static void path_unregister(void *data)
{
struct audio_device *dev = data;
debug("Unregistered interface %s on path %s",
AUDIO_SINK_INTERFACE, dev->path);
sink_free(dev);
}
void sink_unregister(struct audio_device *dev)
{
g_dbus_unregister_interface(dev->conn, dev->path,
AUDIO_SINK_INTERFACE);
}
struct sink *sink_init(struct audio_device *dev)
{
struct sink *sink;
if (!g_dbus_register_interface(dev->conn, dev->path,
AUDIO_SINK_INTERFACE,
sink_methods, sink_signals, NULL,
dev, path_unregister))
return NULL;
debug("Registered interface %s on path %s",
AUDIO_SINK_INTERFACE, dev->path);
if (avdtp_callback_id == 0)
avdtp_callback_id = avdtp_add_state_cb(avdtp_state_callback,
NULL);
sink = g_new0(struct sink, 1);
sink->dev = dev;
return sink;
}
gboolean sink_is_active(struct audio_device *dev)
{
struct sink *sink = dev->sink;
if (sink->session)
return TRUE;
return FALSE;
}
avdtp_state_t sink_get_state(struct audio_device *dev)
{
struct sink *sink = dev->sink;
return sink->stream_state;
}
gboolean sink_new_stream(struct audio_device *dev, struct avdtp *session,
struct avdtp_stream *stream)
{
struct sink *sink = dev->sink;
if (sink->stream)
return FALSE;
if (!sink->session)
sink->session = avdtp_ref(session);
sink->stream = stream;
sink->cb_id = avdtp_stream_add_cb(session, stream,
stream_state_changed, dev);
return TRUE;
}
gboolean sink_shutdown(struct sink *sink)
{
if (!sink->stream)
return FALSE;
if (avdtp_close(sink->session, sink->stream) < 0)
return FALSE;
return TRUE;
}
unsigned int sink_add_state_cb(sink_state_cb cb, void *user_data)
{
struct sink_state_callback *state_cb;
static unsigned int id = 0;
state_cb = g_new(struct sink_state_callback, 1);
state_cb->cb = cb;
state_cb->user_data = user_data;
state_cb->id = ++id;
sink_callbacks = g_slist_append(sink_callbacks, state_cb);
return state_cb->id;
}
gboolean sink_remove_state_cb(unsigned int id)
{
GSList *l;
for (l = sink_callbacks; l != NULL; l = l->next) {
struct sink_state_callback *cb = l->data;
if (cb && cb->id == id) {
sink_callbacks = g_slist_remove(sink_callbacks, cb);
g_free(cb);
return TRUE;
}
}
return FALSE;
}