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GUPnP Reference Manual | |
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This chapter explains how to write an application which fetches the
external IP address from an UPnP-compliant modem. To do this a
Control Point is created, which searches for
services of the type
urn:schemas-upnp-org:service:WANIPConnection:1 (part of
the Internet Gateway
Device specification). As services are discovered
Service Proxy objects are created by GUPnP to allow
interaction with the service, on which we can invoke the action
GetExternalIPAddress to fetch the external IP
address.
First, we initialize GUPnP and create a control point targeting the service type. Then we connect a signal handler so that we are notified when services we are interested in are found.
#include <libgupnp/gupnp-control-point.h>
static GMainLoop *main_loop;
static void
service_proxy_available_cb (GUPnPControlPoint *cp,
GUPnPServiceProxy *proxy,
gpointer userdata)
{
/* … */
}
int
main (int argc, char **argv)
{
GUPnPContext *context;
GUPnPControlPoint *cp;
/* Required initialisation */
g_thread_init (NULL);
g_type_init ();
/* Create a new GUPnP Context. By here we are using the default GLib main
context, and connecting to the current machine's default IP on an
automatically generated port. */
context = gupnp_context_new (NULL, NULL, 0, NULL);
/* Create a Control Point targeting WAN IP Connection services */
cp = gupnp_control_point_new
(context, "urn:schemas-upnp-org:service:WANIPConnection:1");
/* The service-proxy-available signal is emitted when any services which match
our target are found, so connect to it */
g_signal_connect (cp,
"service-proxy-available",
G_CALLBACK (service_proxy_available_cb),
NULL);
/* Tell the Control Point to start searching */
gssdp_resource_browser_set_active (GSSDP_RESOURCE_BROWSER (cp), TRUE);
/* Enter the main loop. This will start the search and result in callbacks to
service_proxy_available_cb. */
main_loop = g_main_loop_new (NULL, FALSE);
g_main_loop_run (main_loop);
/* Clean up */
g_main_loop_unref (main_loop);
g_object_unref (cp);
g_object_unref (context);
return 0;
}
Now we have an application which searches for the service we specified and
calls service_proxy_available_cb for each one it
found. To get the external IP address we need to invoke the
GetExternalIPAddress action. This action takes no in
arguments, and has a single out argument called "NewExternalIPAddress".
GUPnP has a set of methods to invoke actions (which will be very familiar
to anyone who has used dbus-glib) where you pass a
NULL-terminated varargs list of (name, GType, value)
tuples for the in arguments, then a NULL-terminated
varargs list of (name, GType, return location) tuples for the out
arguments.
static void
service_proxy_available_cb (GUPnPControlPoint *cp,
GUPnPServiceProxy *proxy,
gpointer userdata)
{
GError *error = NULL;
char *ip = NULL;
gupnp_service_proxy_send_action (proxy,
/* Action name and error location */
"GetExternalIPAddress", &error,
/* IN args */
NULL,
/* OUT args */
"NewExternalIPAddress",
G_TYPE_STRING, &ip,
NULL);
if (error == NULL) {
g_print ("External IP address is %s\n", ip);
g_free (ip);
} else {
g_printerr ("Error: %s\n", error->message);
g_error_free (error);
}
g_main_loop_quit (main_loop);
}
Note that gupnp_service_proxy_send_action() blocks until the service has
replied. If you need to make non-blocking calls then use
gupnp_service_proxy_begin_action(), which takes a callback that will be
called from the mainloop when the reply is received.
It is possible to get change notifications for the service state variables
that have attribute sendEvents="yes". We'll demonstrate
this by modifying service_proxy_available_cb()gupnp_service_proxy_add_notify() to setup a notification callback:
static void
external_ip_address_changed (GUPnPServiceProxy *proxy,
const char *variable,
GValue *value,
gpointer userdata)
{
g_print ("External IP address changed: %s\n", g_value_get_string (value));
}
static void
service_proxy_available_cb (GUPnPControlPoint *cp,
GUPnPServiceProxy *proxy,
gpointer userdata)
{
g_print ("Found a WAN IP Connection service\n");
gupnp_service_proxy_set_subscribed (proxy, TRUE);
if (!gupnp_service_proxy_add_notify (proxy,
"ExternalIPAddress",
G_TYPE_STRING,
external_ip_address_changed,
NULL)) {
g_printerr ("Failed to add notify");
}
}
Using gupnp_service_proxy_send_action() and gupnp_service_proxy_add_notify()
can become tedious, because of the requirement to specify the types and deal
with GValues. An
alternative is to use gupnp-binding-tool(1), which
generates wrappers that hide the boilerplate code from you. Using a
wrapper generated with prefix 'ipconn' would replace
gupnp_service_proxy_send_action() with this code:
ipconn_get_external_ip_address (proxy, &ip, &error);
State variable change notifications are friendlier with wrappers as well:
static void
external_ip_address_changed (GUPnPServiceProxy *proxy,
const gchar *external_ip_address,
gpointer userdata)
{
g_print ("External IP address changed: '%s'\n", external_ip_address);
}
static void
service_proxy_available_cb (GUPnPControlPoint *cp,
GUPnPServiceProxy *proxy
gpointer userdata)
{
g_print ("Found a WAN IP Connection service\n");
gupnp_service_proxy_set_subscribed (proxy, TRUE);
if (!ipconn_external_ip_address_add_notify (proxy,
external_ip_address_changed,
NULL)) {
g_printerr ("Failed to add notify");
}
}