/*
* -*- Mode:Vala; indent-tabs-mode:t; tab-width:4; encoding:utf8 -*-
* Copyright 2013 Canonical Ltd.
*
* 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; version 3.
*
* 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, see .
*
* Authors:
* Alberto Ruiz
*/
using PulseAudio;
using Notify;
using Gee;
[CCode(cname="pa_cvolume_set", cheader_filename = "pulse/volume.h")]
extern unowned PulseAudio.CVolume? vol_set (PulseAudio.CVolume? cv, uint channels, PulseAudio.Volume v);
[DBus (name="com.canonical.UnityGreeter.List")]
interface GreeterListInterface : Object
{
public abstract async string get_active_entry () throws IOError;
public signal void entry_selected (string entry_name);
}
public class VolumeControlPulse : VolumeControl
{
/* this is static to ensure it being freed after @context (loop does not have ref counting) */
private static PulseAudio.GLibMainLoop loop;
private uint _reconnect_timer = 0;
private PulseAudio.Context context;
private bool _mute = true;
private VolumeControl.Volume _volume = new VolumeControl.Volume();
private double _mic_volume = 0.0;
/* Used by the pulseaudio stream restore extension */
private DBusConnection _pconn;
/* Need both the list and hash so we can retrieve the last known sink-input after
* releasing the current active one (restoring back to the previous known role) */
private Gee.ArrayList _sink_input_list = new Gee.ArrayList ();
private HashMap _sink_input_hash = new HashMap ();
private bool _pulse_use_stream_restore = false;
private int32 _active_sink_input = -1;
private string[] _valid_roles = {"multimedia", "alert", "alarm", "phone"};
public override string stream {
get {
if (_active_sink_input == -1)
return "alert";
var path = _sink_input_hash[_active_sink_input];
if (path == _objp_role_multimedia)
return "multimedia";
if (path == _objp_role_alert)
return "alert";
if (path == _objp_role_alarm)
return "alarm";
if (path == _objp_role_phone)
return "phone";
return "alert";
}
}
private string? _objp_role_multimedia = null;
private string? _objp_role_alert = null;
private string? _objp_role_alarm = null;
private string? _objp_role_phone = null;
private uint _pa_volume_sig_count = 0;
private DBusProxy _user_proxy;
private GreeterListInterface _greeter_proxy;
private Cancellable _mute_cancellable;
private Cancellable _volume_cancellable;
private uint _local_volume_timer = 0;
private uint _accountservice_volume_timer = 0;
private bool _send_next_local_volume = false;
private double _account_service_volume = 0.0;
private VolumeControl.ActiveOutput _active_output = VolumeControl.ActiveOutput.SPEAKERS;
/** true when a microphone is active **/
public override bool active_mic { get; private set; default = false; }
public VolumeControlPulse (IndicatorSound.Options options)
{
base(options);
_volume.volume = 0.0;
_volume.reason = VolumeControl.VolumeReasons.PULSE_CHANGE;
if (loop == null)
loop = new PulseAudio.GLibMainLoop ();
_mute_cancellable = new Cancellable ();
_volume_cancellable = new Cancellable ();
setup_accountsservice.begin ();
this.reconnect_to_pulse ();
}
~VolumeControlPulse ()
{
stop_all_timers();
}
private void stop_all_timers()
{
if (_reconnect_timer != 0) {
Source.remove (_reconnect_timer);
_reconnect_timer = 0;
}
stop_local_volume_timer();
stop_account_service_volume_timer();
}
private VolumeControl.ActiveOutput calculate_active_output (SinkInfo? sink) {
VolumeControl.ActiveOutput ret_output = VolumeControl.ActiveOutput.SPEAKERS;
/* Check if the current active port is headset/headphone */
/* There is not easy way to check if the port is a headset/headphone besides
* checking for the port name. On touch (with the pulseaudio droid element)
* the headset/headphone port is called 'output-headset' and 'output-headphone'.
* On the desktop this is usually called 'analog-output-headphones' */
// first of all check if we are in call mode
if (sink.active_port != null && sink.active_port.name == "output-speaker+wired_headphone") {
return VolumeControl.ActiveOutput.CALL_MODE;
}
// look if it's a headset/headphones
if (sink.name == "indicator_sound_test_headphones" ||
(sink.active_port != null &&
(sink.active_port.name.contains("headset") ||
sink.active_port.name.contains("headphone")))) {
// check if it's a bluetooth device
var device_bus = sink.proplist.gets ("device.bus");
if (device_bus != null && device_bus == "bluetooth") {
ret_output = VolumeControl.ActiveOutput.BLUETOOTH_HEADPHONES;
} else if (device_bus != null && device_bus == "usb") {
ret_output = VolumeControl.ActiveOutput.USB_HEADPHONES;
} else if (device_bus != null && device_bus == "hdmi") {
ret_output = VolumeControl.ActiveOutput.HDMI_HEADPHONES;
} else {
ret_output = VolumeControl.ActiveOutput.HEADPHONES;
}
} else {
// speaker
var device_bus = sink.proplist.gets ("device.bus");
if (device_bus != null && device_bus == "bluetooth") {
ret_output = VolumeControl.ActiveOutput.BLUETOOTH_SPEAKER;
} else if (device_bus != null && device_bus == "usb") {
ret_output = VolumeControl.ActiveOutput.USB_SPEAKER;
} else if (device_bus != null && device_bus == "hdmi") {
ret_output = VolumeControl.ActiveOutput.HDMI_SPEAKER;
} else {
ret_output = VolumeControl.ActiveOutput.SPEAKERS;
}
}
return ret_output;
}
/* PulseAudio logic*/
private void context_events_cb (Context c, Context.SubscriptionEventType t, uint32 index)
{
switch (t & Context.SubscriptionEventType.FACILITY_MASK)
{
case Context.SubscriptionEventType.SINK:
update_sink ();
break;
case Context.SubscriptionEventType.SINK_INPUT:
switch (t & Context.SubscriptionEventType.TYPE_MASK)
{
case Context.SubscriptionEventType.NEW:
c.get_sink_input_info (index, handle_new_sink_input_cb);
break;
case Context.SubscriptionEventType.CHANGE:
c.get_sink_input_info (index, handle_changed_sink_input_cb);
break;
case Context.SubscriptionEventType.REMOVE:
remove_sink_input_from_list (index);
break;
default:
debug ("Sink input event not known.");
break;
}
break;
case Context.SubscriptionEventType.SOURCE:
update_source ();
break;
case Context.SubscriptionEventType.SOURCE_OUTPUT:
switch (t & Context.SubscriptionEventType.TYPE_MASK)
{
case Context.SubscriptionEventType.NEW:
c.get_source_output_info (index, source_output_info_cb);
break;
case Context.SubscriptionEventType.REMOVE:
this.active_mic = false;
break;
}
break;
}
}
private void sink_info_cb_for_props (Context c, SinkInfo? i, int eol)
{
if (i == null)
return;
if (_mute != (bool)i.mute)
{
_mute = (bool)i.mute;
this.notify_property ("mute");
}
var playing = (i.state == PulseAudio.SinkState.RUNNING);
if (is_playing != playing)
is_playing = playing;
// store the current status of the active output
VolumeControl.ActiveOutput active_output_before = active_output;
// calculate the output
_active_output = calculate_active_output (i);
// check if the output has changed, if so... emit a signal
VolumeControl.ActiveOutput active_output_now = active_output;
if (active_output_now != active_output_before &&
(active_output_now != VolumeControl.ActiveOutput.CALL_MODE &&
active_output_before != VolumeControl.ActiveOutput.CALL_MODE)) {
this.active_output_changed (active_output_now);
}
if (_pulse_use_stream_restore == false &&
_volume.volume != volume_to_double (i.volume.max ()))
{
var vol = new VolumeControl.Volume();
vol.volume = volume_to_double (i.volume.max ());
vol.reason = VolumeControl.VolumeReasons.PULSE_CHANGE;
this.volume = vol;
}
}
private void source_info_cb (Context c, SourceInfo? i, int eol)
{
if (i == null)
return;
if (_mic_volume != volume_to_double (i.volume.values[0]))
{
_mic_volume = volume_to_double (i.volume.values[0]);
this.notify_property ("mic-volume");
}
}
private void server_info_cb_for_props (Context c, ServerInfo? i)
{
if (i == null)
return;
context.get_sink_info_by_name (i.default_sink_name, sink_info_cb_for_props);
}
private void update_sink ()
{
context.get_server_info (server_info_cb_for_props);
}
private void update_source_get_server_info_cb (PulseAudio.Context c, PulseAudio.ServerInfo? i) {
if (i != null)
context.get_source_info_by_name (i.default_source_name, source_info_cb);
}
private void update_source ()
{
context.get_server_info (update_source_get_server_info_cb);
}
private DBusMessage pulse_dbus_filter (DBusConnection connection, owned DBusMessage message, bool incoming)
{
if (message.get_message_type () == DBusMessageType.SIGNAL) {
string active_role_objp = _objp_role_alert;
if (_active_sink_input != -1)
active_role_objp = _sink_input_hash.get (_active_sink_input);
if (message.get_path () == active_role_objp && message.get_member () == "VolumeUpdated") {
uint sig_count = 0;
lock (_pa_volume_sig_count) {
sig_count = _pa_volume_sig_count;
if (_pa_volume_sig_count > 0)
_pa_volume_sig_count--;
}
/* We only care about signals if our internal count is zero */
if (sig_count == 0) {
/* Extract volume and make sure it's not a side effect of us setting it */
Variant body = message.get_body ();
Variant varray = body.get_child_value (0);
uint32 type = 0, lvolume = 0;
VariantIter iter = varray.iterator ();
iter.next ("(uu)", &type, &lvolume);
/* Here we need to compare integer values to avoid rounding issues, so just
* using the volume values used by pulseaudio */
PulseAudio.Volume cvolume = double_to_volume (_volume.volume);
if (lvolume != cvolume) {
/* Someone else changed the volume for this role, reflect on the indicator */
var vol = new VolumeControl.Volume();
vol.volume = volume_to_double (lvolume);
vol.reason = VolumeControl.VolumeReasons.PULSE_CHANGE;
this.volume = vol;
}
}
}
}
return message;
}
private async void update_active_sink_input (int32 index)
{
if ((index == -1) || (index != _active_sink_input && index in _sink_input_list)) {
string sink_input_objp = _objp_role_alert;
if (index != -1)
sink_input_objp = _sink_input_hash.get (index);
_active_sink_input = index;
/* Listen for role volume changes from pulse itself (external clients) */
try {
var builder = new VariantBuilder (new VariantType ("ao"));
builder.add ("o", sink_input_objp);
yield _pconn.call ("org.PulseAudio.Core1", "/org/pulseaudio/core1",
"org.PulseAudio.Core1", "ListenForSignal",
new Variant ("(sao)", "org.PulseAudio.Ext.StreamRestore1.RestoreEntry.VolumeUpdated", builder),
null, DBusCallFlags.NONE, -1);
} catch (GLib.Error e) {
warning ("unable to listen for pulseaudio dbus signals (%s)", e.message);
}
try {
var props_variant = yield _pconn.call ("org.PulseAudio.Ext.StreamRestore1.RestoreEntry",
sink_input_objp, "org.freedesktop.DBus.Properties", "Get",
new Variant ("(ss)", "org.PulseAudio.Ext.StreamRestore1.RestoreEntry", "Volume"),
null, DBusCallFlags.NONE, -1);
Variant tmp;
props_variant.get ("(v)", out tmp);
uint32 type = 0, volume = 0;
VariantIter iter = tmp.iterator ();
iter.next ("(uu)", &type, &volume);
var vol = new VolumeControl.Volume();
vol.volume = volume_to_double (volume);
vol.reason = VolumeControl.VolumeReasons.VOLUME_STREAM_CHANGE;
this.volume = vol;
} catch (GLib.Error e) {
warning ("unable to get volume for active role %s (%s)", sink_input_objp, e.message);
}
}
}
private void add_sink_input_into_list (SinkInputInfo sink_input)
{
/* We're only adding ones that are not corked and with a valid role */
var role = sink_input.proplist.gets (PulseAudio.Proplist.PROP_MEDIA_ROLE);
if (role != null && role in _valid_roles) {
if (sink_input.corked == 0 || role == "phone") {
_sink_input_list.insert (0, sink_input.index);
switch (role)
{
case "multimedia":
_sink_input_hash.set (sink_input.index, _objp_role_multimedia);
break;
case "alert":
_sink_input_hash.set (sink_input.index, _objp_role_alert);
break;
case "alarm":
_sink_input_hash.set (sink_input.index, _objp_role_alarm);
break;
case "phone":
_sink_input_hash.set (sink_input.index, _objp_role_phone);
break;
}
/* Only switch the active sink input in case a phone one is not active */
if (_active_sink_input == -1 ||
_sink_input_hash.get (_active_sink_input) != _objp_role_phone)
update_active_sink_input.begin ((int32)sink_input.index);
}
}
}
private void remove_sink_input_from_list (uint32 index)
{
if (index in _sink_input_list) {
_sink_input_list.remove (index);
_sink_input_hash.unset (index);
if (index == _active_sink_input) {
if (_sink_input_list.size != 0)
update_active_sink_input.begin ((int32)_sink_input_list.get (0));
else
update_active_sink_input.begin (-1);
}
}
}
private void handle_new_sink_input_cb (Context c, SinkInputInfo? i, int eol)
{
if (i == null)
return;
add_sink_input_into_list (i);
}
private void handle_changed_sink_input_cb (Context c, SinkInputInfo? i, int eol)
{
if (i == null)
return;
if (i.index in _sink_input_list) {
/* Phone stream is always corked, so handle it differently */
if (i.corked == 1 && _sink_input_hash.get (i.index) != _objp_role_phone)
remove_sink_input_from_list (i.index);
} else {
if (i.corked == 0)
add_sink_input_into_list (i);
}
}
private void source_output_info_cb (Context c, SourceOutputInfo? i, int eol)
{
if (i == null)
return;
var role = i.proplist.gets (PulseAudio.Proplist.PROP_MEDIA_ROLE);
if (role == "phone" || role == "production")
this.active_mic = true;
}
private void context_state_callback (Context c)
{
switch (c.get_state ()) {
case Context.State.READY:
if (_pulse_use_stream_restore) {
c.subscribe (PulseAudio.Context.SubscriptionMask.SINK |
PulseAudio.Context.SubscriptionMask.SINK_INPUT |
PulseAudio.Context.SubscriptionMask.SOURCE |
PulseAudio.Context.SubscriptionMask.SOURCE_OUTPUT);
} else {
c.subscribe (PulseAudio.Context.SubscriptionMask.SINK |
PulseAudio.Context.SubscriptionMask.SOURCE |
PulseAudio.Context.SubscriptionMask.SOURCE_OUTPUT);
}
c.set_subscribe_callback (context_events_cb);
update_sink ();
update_source ();
this.ready = true; // true because we're connected to the pulse server
break;
case Context.State.FAILED:
case Context.State.TERMINATED:
if (_reconnect_timer == 0)
_reconnect_timer = Timeout.add_seconds (2, reconnect_timeout);
break;
default:
this.ready = false;
break;
}
}
bool reconnect_timeout ()
{
_reconnect_timer = 0;
reconnect_to_pulse ();
return false; // G_SOURCE_REMOVE
}
void reconnect_to_pulse ()
{
if (this.ready) {
this.context.disconnect ();
this.context = null;
this.ready = false;
}
var props = new Proplist ();
props.sets (Proplist.PROP_APPLICATION_NAME, "Ubuntu Audio Settings");
props.sets (Proplist.PROP_APPLICATION_ID, "com.canonical.settings.sound");
props.sets (Proplist.PROP_APPLICATION_ICON_NAME, "multimedia-volume-control");
props.sets (Proplist.PROP_APPLICATION_VERSION, "0.1");
reconnect_pulse_dbus ();
this.context = new PulseAudio.Context (loop.get_api(), null, props);
this.context.set_state_callback (context_state_callback);
var server_string = Environment.get_variable("PULSE_SERVER");
if (context.connect(server_string, Context.Flags.NOFAIL, null) < 0)
warning( "pa_context_connect() failed: %s\n", PulseAudio.strerror(context.errno()));
}
void sink_info_list_callback_set_mute (PulseAudio.Context context, PulseAudio.SinkInfo? sink, int eol) {
if (sink != null)
context.set_sink_mute_by_index (sink.index, true, null);
}
void sink_info_list_callback_unset_mute (PulseAudio.Context context, PulseAudio.SinkInfo? sink, int eol) {
if (sink != null)
context.set_sink_mute_by_index (sink.index, false, null);
}
/* Mute operations */
bool set_mute_internal (bool mute)
{
return_val_if_fail (context.get_state () == Context.State.READY, false);
if (_mute != mute) {
if (mute)
context.get_sink_info_list (sink_info_list_callback_set_mute);
else
context.get_sink_info_list (sink_info_list_callback_unset_mute);
return true;
} else {
return false;
}
}
public override void set_mute (bool mute)
{
if (set_mute_internal (mute))
sync_mute_to_accountsservice.begin (mute);
}
public void toggle_mute ()
{
this.set_mute (!this._mute);
}
public override bool mute
{
get
{
return this._mute;
}
}
public override VolumeControl.ActiveOutput active_output
{
get
{
return _active_output;
}
}
/* Volume operations */
public static PulseAudio.Volume double_to_volume (double vol)
{
double tmp = (double)(PulseAudio.Volume.NORM - PulseAudio.Volume.MUTED) * vol;
return (PulseAudio.Volume)tmp + PulseAudio.Volume.MUTED;
}
public static double volume_to_double (PulseAudio.Volume vol)
{
double tmp = (double)(vol - PulseAudio.Volume.MUTED);
return tmp / (double)(PulseAudio.Volume.NORM - PulseAudio.Volume.MUTED);
}
private void set_volume_success_cb (Context c, int success)
{
if ((bool)success)
this.notify_property("volume");
}
private void sink_info_set_volume_cb (Context c, SinkInfo? i, int eol)
{
if (i == null)
return;
unowned CVolume cvol = i.volume;
cvol.scale (double_to_volume (_volume.volume));
c.set_sink_volume_by_index (i.index, cvol, set_volume_success_cb);
}
private void server_info_cb_for_set_volume (Context c, ServerInfo? i)
{
if (i == null)
{
warning ("Could not get PulseAudio server info");
return;
}
context.get_sink_info_by_name (i.default_sink_name, sink_info_set_volume_cb);
}
private async void set_volume_active_role ()
{
string active_role_objp = _objp_role_alert;
if (_active_sink_input != -1 && _active_sink_input in _sink_input_list)
active_role_objp = _sink_input_hash.get (_active_sink_input);
try {
double vol = _volume.volume;
var builder = new VariantBuilder (new VariantType ("a(uu)"));
builder.add ("(uu)", 0, double_to_volume (vol));
Variant volume = builder.end ();
/* Increase the signal counter so we can handle the callback */
lock (_pa_volume_sig_count) {
_pa_volume_sig_count++;
}
yield _pconn.call ("org.PulseAudio.Ext.StreamRestore1.RestoreEntry",
active_role_objp, "org.freedesktop.DBus.Properties", "Set",
new Variant ("(ssv)", "org.PulseAudio.Ext.StreamRestore1.RestoreEntry", "Volume", volume),
null, DBusCallFlags.NONE, -1);
debug ("Set volume to %f on path %s", vol, active_role_objp);
} catch (GLib.Error e) {
lock (_pa_volume_sig_count) {
_pa_volume_sig_count--;
}
warning ("unable to set volume for stream obj path %s (%s)", active_role_objp, e.message);
}
}
void set_mic_volume_success_cb (Context c, int success)
{
if ((bool)success)
this.notify_property ("mic-volume");
}
void set_mic_volume_get_server_info_cb (PulseAudio.Context c, PulseAudio.ServerInfo? i) {
if (i != null) {
unowned CVolume cvol = CVolume ();
cvol = vol_set (cvol, 1, double_to_volume (_mic_volume));
c.set_source_volume_by_name (i.default_source_name, cvol, set_mic_volume_success_cb);
}
}
public override VolumeControl.Volume volume {
get {
return _volume;
}
set {
var volume_changed = (value.volume != _volume.volume);
debug("Setting volume to %f for profile %d because %d", value.volume, _active_sink_input, value.reason);
_volume = value;
/* Make sure we're connected to Pulse and pulse didn't give us the change */
if (context.get_state () == Context.State.READY &&
_volume.reason != VolumeControl.VolumeReasons.PULSE_CHANGE &&
volume_changed)
if (_pulse_use_stream_restore)
set_volume_active_role.begin ();
else
context.get_server_info (server_info_cb_for_set_volume);
if (volume.reason != VolumeControl.VolumeReasons.ACCOUNTS_SERVICE_SET
&& volume_changed) {
start_local_volume_timer();
}
}
}
/** MIC VOLUME PROPERTY */
public override double mic_volume {
get {
return _mic_volume;
}
set {
return_if_fail (context.get_state () == Context.State.READY);
_mic_volume = value;
context.get_server_info (set_mic_volume_get_server_info_cb);
}
}
/* PulseAudio Dbus (Stream Restore) logic */
private void reconnect_pulse_dbus ()
{
unowned string pulse_dbus_server_env = Environment.get_variable ("PULSE_DBUS_SERVER");
string address;
/* In case of a reconnect */
_pulse_use_stream_restore = false;
_pa_volume_sig_count = 0;
if (pulse_dbus_server_env != null) {
address = pulse_dbus_server_env;
} else {
DBusConnection conn;
Variant props;
try {
conn = Bus.get_sync (BusType.SESSION);
} catch (GLib.IOError e) {
warning ("unable to get the dbus session bus: %s", e.message);
return;
}
try {
var props_variant = conn.call_sync ("org.PulseAudio1",
"/org/pulseaudio/server_lookup1", "org.freedesktop.DBus.Properties",
"Get", new Variant ("(ss)", "org.PulseAudio.ServerLookup1", "Address"),
null, DBusCallFlags.NONE, -1);
props_variant.get ("(v)", out props);
address = props.get_string ();
} catch (GLib.Error e) {
warning ("unable to get pulse unix socket: %s", e.message);
return;
}
}
debug ("PulseAudio dbus unix socket: %s", address);
try {
_pconn = new DBusConnection.for_address_sync (address, DBusConnectionFlags.AUTHENTICATION_CLIENT);
} catch (GLib.Error e) {
/* If it fails, it means the dbus pulse extension is not available */
return;
}
/* For pulse dbus related events */
_pconn.add_filter (pulse_dbus_filter);
/* Check if the 4 currently supported media roles are already available in StreamRestore
* Roles: multimedia, alert, alarm and phone */
_objp_role_multimedia = stream_restore_get_object_path ("sink-input-by-media-role:multimedia");
_objp_role_alert = stream_restore_get_object_path ("sink-input-by-media-role:alert");
_objp_role_alarm = stream_restore_get_object_path ("sink-input-by-media-role:alarm");
_objp_role_phone = stream_restore_get_object_path ("sink-input-by-media-role:phone");
/* Only use stream restore if every used role is available */
if (_objp_role_multimedia != null && _objp_role_alert != null && _objp_role_alarm != null && _objp_role_phone != null) {
debug ("Using PulseAudio DBUS Stream Restore module");
/* Restore volume and update default entry */
update_active_sink_input.begin (-1);
_pulse_use_stream_restore = true;
}
}
private string? stream_restore_get_object_path (string name) {
string? objp = null;
try {
Variant props_variant = _pconn.call_sync ("org.PulseAudio.Ext.StreamRestore1",
"/org/pulseaudio/stream_restore1", "org.PulseAudio.Ext.StreamRestore1",
"GetEntryByName", new Variant ("(s)", name), null, DBusCallFlags.NONE, -1);
/* Workaround for older versions of vala that don't provide get_objv */
VariantIter iter = props_variant.iterator ();
iter.next ("o", &objp);
debug ("Found obj path %s for restore data named %s\n", objp, name);
} catch (GLib.Error e) {
warning ("unable to find stream restore data for: %s", name);
}
return objp;
}
/* AccountsService operations */
private void accountsservice_props_changed_cb (DBusProxy proxy, Variant changed_properties, string[]? invalidated_properties)
{
Variant volume_variant = changed_properties.lookup_value ("Volume", new VariantType ("d"));
if (volume_variant != null) {
var volume = volume_variant.get_double ();
if (volume >= 0) {
_account_service_volume = volume;
// we need to wait for this to settle.
start_account_service_volume_timer();
}
}
Variant mute_variant = changed_properties.lookup_value ("Muted", new VariantType ("b"));
if (mute_variant != null) {
var mute = mute_variant.get_boolean ();
set_mute_internal (mute);
}
}
private async void setup_user_proxy (string? username_in = null)
{
var username = username_in;
_user_proxy = null;
// Look up currently selected greeter user, if asked
if (username == null) {
try {
username = yield _greeter_proxy.get_active_entry ();
if (username == "" || username == null)
return;
} catch (GLib.Error e) {
warning ("unable to find Accounts path for user %s: %s", username, e.message);
return;
}
}
// Get master AccountsService object
DBusProxy accounts_proxy;
try {
accounts_proxy = yield DBusProxy.create_for_bus (BusType.SYSTEM, DBusProxyFlags.DO_NOT_LOAD_PROPERTIES | DBusProxyFlags.DO_NOT_CONNECT_SIGNALS, null, "org.freedesktop.Accounts", "/org/freedesktop/Accounts", "org.freedesktop.Accounts");
} catch (GLib.Error e) {
warning ("unable to get greeter proxy: %s", e.message);
return;
}
// Find user's AccountsService object
try {
var user_path_variant = yield accounts_proxy.call ("FindUserByName", new Variant ("(s)", username), DBusCallFlags.NONE, -1);
string user_path;
user_path_variant.get ("(o)", out user_path);
_user_proxy = yield DBusProxy.create_for_bus (BusType.SYSTEM, DBusProxyFlags.GET_INVALIDATED_PROPERTIES, null, "org.freedesktop.Accounts", user_path, "com.ubuntu.AccountsService.Sound");
} catch (GLib.Error e) {
warning ("unable to find Accounts path for user %s: %s", username, e.message);
return;
}
// Get current values and listen for changes
_user_proxy.g_properties_changed.connect (accountsservice_props_changed_cb);
try {
var props_variant = yield _user_proxy.get_connection ().call (_user_proxy.get_name (), _user_proxy.get_object_path (), "org.freedesktop.DBus.Properties", "GetAll", new Variant ("(s)", _user_proxy.get_interface_name ()), null, DBusCallFlags.NONE, -1);
Variant props;
props_variant.get ("(@a{sv})", out props);
accountsservice_props_changed_cb(_user_proxy, props, null);
} catch (GLib.Error e) {
debug("Unable to get properties for user %s at first try: %s", username, e.message);
}
}
private void greeter_user_changed (string username)
{
setup_user_proxy.begin (username);
}
private async void setup_accountsservice ()
{
if (Environment.get_variable ("XDG_SESSION_CLASS") == "greeter") {
try {
_greeter_proxy = yield Bus.get_proxy (BusType.SESSION, "com.canonical.UnityGreeter", "/list");
} catch (GLib.Error e) {
warning ("unable to get greeter proxy: %s", e.message);
return;
}
_greeter_proxy.entry_selected.connect (greeter_user_changed);
yield setup_user_proxy ();
} else {
// We are in a user session. We just need our own proxy
var username = Environment.get_variable ("USER");
if (username != "" && username != null) {
yield setup_user_proxy (username);
}
}
}
private async void sync_mute_to_accountsservice (bool mute)
{
if (_user_proxy == null)
return;
_mute_cancellable.cancel ();
_mute_cancellable.reset ();
try {
yield _user_proxy.get_connection ().call (_user_proxy.get_name (), _user_proxy.get_object_path (), "org.freedesktop.DBus.Properties", "Set", new Variant ("(ssv)", _user_proxy.get_interface_name (), "Muted", new Variant ("b", mute)), null, DBusCallFlags.NONE, -1, _mute_cancellable);
} catch (GLib.Error e) {
warning ("unable to sync mute to AccountsService: %s", e.message);
}
}
private async void sync_volume_to_accountsservice (VolumeControl.Volume volume)
{
if (_user_proxy == null)
return;
_volume_cancellable.cancel ();
_volume_cancellable.reset ();
try {
yield _user_proxy.get_connection ().call (_user_proxy.get_name (), _user_proxy.get_object_path (), "org.freedesktop.DBus.Properties", "Set", new Variant ("(ssv)", _user_proxy.get_interface_name (), "Volume", new Variant ("d", volume.volume)), null, DBusCallFlags.NONE, -1, _volume_cancellable);
} catch (GLib.Error e) {
warning ("unable to sync volume to AccountsService: %s", e.message);
}
}
private void start_local_volume_timer()
{
// perform a slow sync with the accounts service. max at 1 per second.
// stop the AS update timer, as since we're going to be setting the volume.
stop_account_service_volume_timer();
if (_local_volume_timer == 0) {
sync_volume_to_accountsservice.begin (_volume);
_local_volume_timer = Timeout.add_seconds (1, local_volume_changed_timeout);
} else {
_send_next_local_volume = true;
}
}
private void stop_local_volume_timer()
{
if (_local_volume_timer != 0) {
Source.remove (_local_volume_timer);
_local_volume_timer = 0;
}
}
bool local_volume_changed_timeout()
{
_local_volume_timer = 0;
if (_send_next_local_volume) {
_send_next_local_volume = false;
start_local_volume_timer ();
}
return false; // G_SOURCE_REMOVE
}
private void start_account_service_volume_timer()
{
if (_accountservice_volume_timer == 0) {
// If we haven't been messing with local volume recently, apply immediately.
if (_local_volume_timer == 0) {
var vol = new VolumeControl.Volume();
vol.volume = _account_service_volume;
vol.reason = VolumeControl.VolumeReasons.ACCOUNTS_SERVICE_SET;
this.volume = vol;
return;
}
// Else check again in another second if needed.
// (if AS is throwing us lots of notifications, we update at most once a second)
_accountservice_volume_timer = Timeout.add_seconds (1, accountservice_volume_changed_timeout);
}
}
private void stop_account_service_volume_timer()
{
if (_accountservice_volume_timer != 0) {
Source.remove (_accountservice_volume_timer);
_accountservice_volume_timer = 0;
}
}
bool accountservice_volume_changed_timeout ()
{
_accountservice_volume_timer = 0;
start_account_service_volume_timer ();
return false; // G_SOURCE_REMOVE
}
}