static gboolean
init_server (GUPnPContext *context)
{
NetworkLight *network_light;
GUPnPRootDevice *dev;
GUPnPServiceInfo *switch_power;
GUPnPServiceInfo *dimming;
GError *error = NULL;
/* Create root device */
dev = gupnp_root_device_new_full (context,
gupnp_resource_factory_get_default (),
doc,
desc_location,
DATA_DIR);
switch_power = gupnp_device_info_get_service (GUPNP_DEVICE_INFO (dev),
SWITCH_SERVICE);
if (switch_power) {
gupnp_service_signals_autoconnect
(GUPNP_SERVICE (switch_power),
NULL,
&error);
g_signal_connect (switch_power,
"notify-failed",
G_CALLBACK (on_notify_failed),
NULL);
}
dimming = gupnp_device_info_get_service (GUPNP_DEVICE_INFO (dev),
DIMMING_SERVICE);
if (dimming) {
gupnp_service_signals_autoconnect (GUPNP_SERVICE (dimming),
NULL,
&error);
g_signal_connect (dimming,
"notify-failed",
G_CALLBACK (on_notify_failed),
NULL);
}
network_light = network_light_new (dev, switch_power, dimming);
g_hash_table_insert (nl_hash, g_object_ref (context), network_light);
/* Run */
gupnp_root_device_set_available (dev, TRUE);
g_print ("Attaching to IP/Host %s on port %d\n",
gupnp_context_get_host_ip (context),
gupnp_context_get_port (context));
return TRUE;
}
static void
mapped_external_port_cb (GUPnPSimpleIgd *igd, gchar *proto,
gchar *external_ip, gchar *replaces_external_ip, guint external_port,
gchar *local_ip, guint local_port, gchar *description, gpointer user_data)
{
guint requested_external_port = GPOINTER_TO_UINT (user_data);
g_assert (invalid_ip == NULL);
if (requested_external_port)
g_assert (external_port == requested_external_port);
else if (return_conflict)
g_assert (external_port != INTERNAL_PORT);
else
g_assert (external_port == INTERNAL_PORT);
g_assert (proto && !strcmp (proto, "UDP"));
g_assert (local_port == INTERNAL_PORT);
g_assert (local_ip && !strcmp (local_ip, "192.168.4.22"));
g_assert (description != NULL);
g_assert (external_ip);
if (replaces_external_ip)
{
g_assert ((!strcmp (replaces_external_ip, IP_ADDRESS_FIRST) &&
!strcmp (external_ip, IP_ADDRESS_SECOND)) ||
(!strcmp (replaces_external_ip, PPP_ADDRESS_FIRST) &&
!strcmp (external_ip, PPP_ADDRESS_SECOND)));
if (dispose_removes)
g_object_unref (igd);
else
gupnp_simple_igd_remove_port (igd, "UDP", requested_external_port);
}
else
{
if (!strcmp (external_ip, IP_ADDRESS_FIRST))
gupnp_service_notify (GUPNP_SERVICE (ipservice),
"ExternalIPAddress", G_TYPE_STRING, IP_ADDRESS_SECOND, NULL);
else if (!strcmp (external_ip, PPP_ADDRESS_FIRST))
gupnp_service_notify (GUPNP_SERVICE (pppservice),
"ExternalIPAddress", G_TYPE_STRING, PPP_ADDRESS_SECOND, NULL);
else
g_assert_not_reached ();
}
}
void
notify_load_level_change (gint load_level)
{
GList *network_lights;
GList *nl_node;
network_lights = g_hash_table_get_values (nl_hash);
for (nl_node = network_lights;
nl_node != NULL;
nl_node = nl_node->next) {
NetworkLight *nl = (NetworkLight *) nl_node->data;
gupnp_service_notify (GUPNP_SERVICE (nl->dimming),
"LoadLevelStatus",
G_TYPE_UINT,
load_level,
NULL);
}
}
void
notify_status_change (gboolean status)
{
GList *network_lights;
GList *nl_node;
network_lights = g_hash_table_get_values (nl_hash);
for (nl_node = network_lights;
nl_node != NULL;
nl_node = nl_node->next) {
NetworkLight *nl = (NetworkLight *) nl_node->data;
gupnp_service_notify (GUPNP_SERVICE (nl->switch_power),
"Status",
G_TYPE_BOOLEAN,
status,
NULL);
}
}
void upnpConnectionManagerServiceConnect(UpnpConnectionManagerService *self) {
UpnpConnectionManagerServicePrivate *priv = UPNP_CONNECTION_MANAGER_SERVICE_GET_PRIVATE(self);
priv->service = gupnp_device_info_get_service(GUPNP_DEVICE_INFO(priv->device), "urn:schemas-upnp-org:service:ConnectionManager:3");
if(!priv->service) {
// g_printerr("Cannot get ConnectionManager service\n");
exit(EXIT_FAILURE);
}
/* ACTION CONNECT */
g_signal_connect(GUPNP_SERVICE(priv->service), "action-invoked::GetProtocolInfo", G_CALLBACK(getProtocolInfo), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "action-invoked::GetCurrentConnectionIDs", G_CALLBACK(getCurrentConnectionIDs), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "action-invoked::GetCurrentConnectionInfo", G_CALLBACK(getCurrentConnectionInfo), self);
/* QUERY CONNECT */
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::SourceProtocolInfo", G_CALLBACK(querySourceProtocolInfo), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::SinkProtocolInfo", G_CALLBACK(querySinkProtocolInfo), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::CurrentConnectionIDs", G_CALLBACK(queryCurrentConnectionIDs), self);
// g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::FeatureList", G_CALLBACK(queryFeatureList), self);
// g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::ClockUpdateID", G_CALLBACK(queryClockUpdateID), self);
// g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::DeviceClockInfoUpdates", G_CALLBACK(queryDeviceClockInfoUpdates), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_ConnectionStatus", G_CALLBACK(queryConnectionStatus), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_ConnectionManager", G_CALLBACK(queryConnectionManager), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_Direction", G_CALLBACK(queryDirection), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_ProtocolInfo", G_CALLBACK(queryProtocolInfo), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_ConnectionID", G_CALLBACK(queryConnectionID), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_AVTransportID", G_CALLBACK(queryAVTransportID), self);
g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_RcsID", G_CALLBACK(queryRcsID), self);
// g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_ItemInfoFilter", G_CALLBACK(queryItemInfoFilter), self);
// g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_Result", G_CALLBACK(queryResult), self);
// g_signal_connect(GUPNP_SERVICE(priv->service), "query-variable::A_ARG_TYPE_RenderingInfoList", G_CALLBACK(queryRenderingInfoList), self);
}
int
main (G_GNUC_UNUSED int argc, G_GNUC_UNUSED char **argv)
{
GOptionContext *optionContext;
GMainLoop *main_loop;
GError *error = NULL;
GUPnPContext *context;
GUPnPRootDevice *dev;
GUPnPServiceInfo *service;
#if !GLIB_CHECK_VERSION(2,35,0)
g_type_init ();
#endif
optionContext = g_option_context_new (NULL);
g_option_context_add_main_entries (optionContext, entries, NULL);
if (!g_option_context_parse (optionContext, &argc, &argv, &error))
{
g_print ("option parsing failed: %s\n", error->message);
exit (1);
}
/* By default the light is off */
status = FALSE;
if (!quiet)
{
g_print ("The light is now %s.\n", status ? "on" : "off");
}
/* Create the UPnP context */
context = gupnp_context_new (NULL, NULL, 0, &error);
if (error) {
g_printerr ("Error creating the GUPnP context: %s\n",
error->message);
g_error_free (error);
return EXIT_FAILURE;
}
/* Create root device */
dev = gupnp_root_device_new (context, "BinaryLight1.xml", ".");
gupnp_root_device_set_available (dev, TRUE);
/* Get the switch service from the root device */
service = gupnp_device_info_get_service
(GUPNP_DEVICE_INFO (dev), "urn:schemas-upnp-org:service:SwitchPower:1");
if (!service) {
g_printerr ("Cannot get SwitchPower1 service\n");
return EXIT_FAILURE;
}
/* Autoconnect the action and state variable handlers. This connects
query_target_cb and query_status_cb to the Target and Status state
variables query callbacks, and set_target_cb, get_target_cb and
get_status_cb to SetTarget, GetTarget and GetStatus actions
respectively. */
gupnp_service_signals_autoconnect (GUPNP_SERVICE (service), NULL, &error);
if (error) {
g_printerr ("Failed to autoconnect signals: %s\n", error->message);
g_error_free (error);
return EXIT_FAILURE;
}
/* Run the main loop */
main_loop = g_main_loop_new (NULL, FALSE);
g_main_loop_run (main_loop);
/* Cleanup */
g_main_loop_unref (main_loop);
g_object_unref (service);
g_object_unref (dev);
g_object_unref (context);
return EXIT_SUCCESS;
}
