forked from mirrors/gstreamer-rs
rtsp_server: Add example making use of subclassing RTSPMediaFactory and RTSPMedia
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2 changed files with 487 additions and 1 deletions
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@ -15,6 +15,7 @@ gstreamer-video = { path = "../gstreamer-video" }
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gstreamer-pbutils = { path = "../gstreamer-pbutils" }
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gstreamer-player = { path = "../gstreamer-player", optional = true }
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gstreamer-editing-services = { path = "../gstreamer-editing-services", optional = true }
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gstreamer-sdp = { path = "../gstreamer-sdp", optional = true }
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gstreamer-rtsp = { path = "../gstreamer-rtsp", optional = true }
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gstreamer-rtsp-server = { path = "../gstreamer-rtsp-server", optional = true }
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gstreamer-rtsp-server-sys = { git = "https://gitlab.freedesktop.org/gstreamer/gstreamer-rs-sys", features = ["v1_8"], optional = true }
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@ -43,7 +44,7 @@ gtksink = ["gtk", "gio"]
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gtkvideooverlay = ["gtk", "gdk", "gio"]
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gtkvideooverlay-x11 = ["gtkvideooverlay"]
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gtkvideooverlay-quartz = ["gtkvideooverlay"]
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gst-rtsp-server = ["gstreamer-rtsp-server"]
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gst-rtsp-server = ["gstreamer-rtsp-server", "gstreamer-rtsp", "gstreamer-sdp"]
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gst-rtsp-server-record = ["gstreamer-rtsp-server-sys", "gstreamer-rtsp-server", "gstreamer-rtsp", "gio"]
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v1_10 = ["gstreamer/v1_10"]
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pango-cairo = ["pango", "pangocairo", "cairo-rs"]
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@ -110,6 +111,10 @@ name = "rtpfecserver"
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name = "rtsp-server"
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required-features = ["gst-rtsp-server"]
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[[bin]]
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name = "rtsp-server-subclass"
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required-features = ["gst-rtsp-server"]
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[[bin]]
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name = "tagsetter"
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481
examples/src/bin/rtsp-server-subclass.rs
Normal file
481
examples/src/bin/rtsp-server-subclass.rs
Normal file
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@ -0,0 +1,481 @@
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// This example demonstrates how to set up a rtsp server using GStreamer
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// and extending the behaviour by subclass RTSPMediaFactory and RTSPMedia.
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// For this, the example creates a videotestsrc pipeline manually to be used
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// by the RTSP server for providing data, and adds a custom attribute to the
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// SDP provided to the client.
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//
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// It also comes with a custom RTSP server/client subclass for hooking into
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// the client machinery and printing some status.
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extern crate gstreamer as gst;
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extern crate gstreamer_rtsp as gst_rtsp;
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extern crate gstreamer_rtsp_server as gst_rtsp_server;
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extern crate gstreamer_sdp as gst_sdp;
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use gst_rtsp_server::prelude::*;
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#[macro_use]
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extern crate glib;
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extern crate failure;
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use failure::Error;
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#[macro_use]
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extern crate failure_derive;
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#[path = "../examples-common.rs"]
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mod examples_common;
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#[derive(Debug, Fail)]
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#[fail(display = "Could not get mount points")]
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struct NoMountPoints;
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#[derive(Debug, Fail)]
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#[fail(display = "Usage: {} LAUNCH_LINE", _0)]
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struct UsageError(String);
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fn main_loop() -> Result<(), Error> {
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let main_loop = glib::MainLoop::new(None, false);
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let server = server::Server::new();
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// Much like HTTP servers, RTSP servers have multiple endpoints that
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// provide different streams. Here, we ask our server to give
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// us a reference to his list of endpoints, so we can add our
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// test endpoint, providing the pipeline from the cli.
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let mounts = server.get_mount_points().ok_or(NoMountPoints)?;
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// Next, we create our custom factory for the endpoint we want to create.
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// The job of the factory is to create a new pipeline for each client that
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// connects, or (if configured to do so) to reuse an existing pipeline.
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let factory = media_factory::Factory::new();
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// This setting specifies whether each connecting client gets the output
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// of a new instance of the pipeline, or whether all connected clients share
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// the output of the same pipeline.
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// If you want to stream a fixed video you have stored on the server to any
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// client, you would not set this to shared here (since every client wants
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// to start at the beginning of the video). But if you want to distribute
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// a live source, you will probably want to set this to shared, to save
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// computing and memory capacity on the server.
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factory.set_shared(true);
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// Now we add a new mount-point and tell the RTSP server to serve the content
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// provided by the factory we configured above, when a client connects to
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// this specific path.
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mounts.add_factory("/test", &factory);
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// Attach the server to our main context.
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// A main context is the thing where other stuff is registering itself for its
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// events (e.g. sockets, GStreamer bus, ...) and the main loop is something that
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// polls the main context for its events and dispatches them to whoever is
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// interested in them. In this example, we only do have one, so we can
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// leave the context parameter empty, it will automatically select
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// the default one.
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let id = server.attach(None);
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println!(
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"Stream ready at rtsp://127.0.0.1:{}/test",
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server.get_bound_port()
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);
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// Start the mainloop. From this point on, the server will start to serve
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// our quality content to connecting clients.
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main_loop.run();
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glib::source_remove(id);
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Ok(())
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}
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// Our custom media factory that creates a media input manually
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mod media_factory {
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use super::*;
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use glib::subclass;
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use glib::subclass::prelude::*;
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use glib::translate::*;
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extern crate gstreamer_rtsp_server as gst_rtsp_server;
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use gst_rtsp_server::subclass::prelude::*;
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// In the imp submodule we include the actual implementation
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mod imp {
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use super::*;
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// This is the private data of our factory
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pub struct Factory {}
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// This trait registers our type with the GObject object system and
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// provides the entry points for creating a new instance and setting
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// up the class data
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impl ObjectSubclass for Factory {
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const NAME: &'static str = "RsRTSPMediaFactory";
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type ParentType = gst_rtsp_server::RTSPMediaFactory;
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type Instance = gst::subclass::ElementInstanceStruct<Self>;
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type Class = subclass::simple::ClassStruct<Self>;
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// This macro provides some boilerplate
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glib_object_subclass!();
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// Called when a new instance is to be created. We need to return an instance
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// of our struct here.
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fn new() -> Self {
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Self {}
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}
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}
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// Implementation of glib::Object virtual methods
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impl ObjectImpl for Factory {
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// This macro provides some boilerplate.
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glib_object_impl!();
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fn constructed(&self, obj: &glib::Object) {
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self.parent_constructed(obj);
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let factory = obj
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.downcast_ref::<gst_rtsp_server::RTSPMediaFactory>()
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.unwrap();
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// All media created by this factory are our custom media type. This would
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// not require a media factory subclass and can also be called on the normal
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// RTSPMediaFactory.
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factory.set_media_gtype(super::media::Media::static_type());
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}
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}
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// Implementation of gst_rtsp_server::RTSPMediaFactory virtual methods
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impl RTSPMediaFactoryImpl for Factory {
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fn create_element(
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&self,
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_factory: &gst_rtsp_server::RTSPMediaFactory,
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_url: &gst_rtsp::RTSPUrl,
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) -> Option<gst::Element> {
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// Create a simple VP8 videotestsrc input
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let bin = gst::Bin::new(None);
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let src = gst::ElementFactory::make("videotestsrc", None).unwrap();
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let enc = gst::ElementFactory::make("vp8enc", None).unwrap();
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// The names of the payloaders must be payX
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let pay = gst::ElementFactory::make("rtpvp8pay", Some("pay0")).unwrap();
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// Configure the videotestsrc live
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src.set_property("is-live", &true).unwrap();
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// Produce encoded data as fast as possible
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enc.set_property("deadline", &1i64).unwrap();
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bin.add_many(&[&src, &enc, &pay]).unwrap();
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gst::Element::link_many(&[&src, &enc, &pay]).unwrap();
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Some(bin.upcast())
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}
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}
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}
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// This here defines the public interface of our factory and implements
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// the corresponding traits so that it behaves like any other RTSPMediaFactory
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glib_wrapper! {
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pub struct Factory(
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Object<
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gst::subclass::ElementInstanceStruct<imp::Factory>,
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subclass::simple::ClassStruct<imp::Factory>,
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FactoryClass
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>
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) @extends gst_rtsp_server::RTSPMediaFactory;
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match fn {
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get_type => || imp::Factory::get_type().to_glib(),
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}
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}
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// Factories must be Send+Sync, and ours is
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unsafe impl Send for Factory {}
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unsafe impl Sync for Factory {}
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impl Factory {
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// Creates a new instance of our factory
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pub fn new() -> Factory {
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glib::Object::new(Self::static_type(), &[])
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.expect("Failed to create factory")
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.downcast()
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.expect("Created factory is of wrong type")
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}
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}
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}
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// Our custom media subclass that adds a custom attribute to the SDP returned by DESCRIBE
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mod media {
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use super::*;
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use glib::subclass;
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use glib::subclass::prelude::*;
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use glib::translate::*;
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extern crate gstreamer_rtsp_server as gst_rtsp_server;
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use gst_rtsp_server::subclass::prelude::*;
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// In the imp submodule we include the actual implementation
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mod imp {
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use super::*;
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// This is the private data of our media
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pub struct Media {}
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// This trait registers our type with the GObject object system and
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// provides the entry points for creating a new instance and setting
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// up the class data
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impl ObjectSubclass for Media {
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const NAME: &'static str = "RsRTSPMedia";
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type ParentType = gst_rtsp_server::RTSPMedia;
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type Instance = gst::subclass::ElementInstanceStruct<Self>;
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type Class = subclass::simple::ClassStruct<Self>;
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// This macro provides some boilerplate
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glib_object_subclass!();
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// Called when a new instance is to be created. We need to return an instance
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// of our struct here.
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fn new() -> Self {
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Self {}
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}
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}
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// Implementation of glib::Object virtual methods
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impl ObjectImpl for Media {
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// This macro provides some boilerplate.
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glib_object_impl!();
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}
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// Implementation of gst_rtsp_server::RTSPMedia virtual methods
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impl RTSPMediaImpl for Media {
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fn setup_sdp(
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&self,
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media: &gst_rtsp_server::RTSPMedia,
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sdp: &mut gst_sdp::SDPMessageRef,
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info: &gst_rtsp_server::subclass::rtsp_media::SDPInfo,
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) -> Result<(), gst::LoggableError> {
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self.parent_setup_sdp(media, sdp, info)?;
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sdp.add_attribute("my-custom-attribute", Some("has-a-value"));
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Ok(())
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}
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}
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}
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// This here defines the public interface of our factory and implements
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// the corresponding traits so that it behaves like any other RTSPMedia
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glib_wrapper! {
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pub struct Media(
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Object<
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gst::subclass::ElementInstanceStruct<imp::Media>,
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subclass::simple::ClassStruct<imp::Media>,
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MediaClass
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>
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) @extends gst_rtsp_server::RTSPMedia;
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match fn {
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get_type => || imp::Media::get_type().to_glib(),
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}
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}
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// Medias must be Send+Sync, and ours is
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unsafe impl Send for Media {}
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unsafe impl Sync for Media {}
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}
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// Our custom RTSP server subclass that reports when clients are connecting and uses
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// our custom RTSP client subclass for each client
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mod server {
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use super::*;
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use glib::subclass;
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use glib::subclass::prelude::*;
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use glib::translate::*;
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extern crate gstreamer_rtsp_server as gst_rtsp_server;
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use gst_rtsp_server::subclass::prelude::*;
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// In the imp submodule we include the actual implementation
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mod imp {
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use super::*;
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// This is the private data of our server
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pub struct Server {}
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// This trait registers our type with the GObject object system and
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// provides the entry points for creating a new instance and setting
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// up the class data
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impl ObjectSubclass for Server {
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const NAME: &'static str = "RsRTSPServer";
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type ParentType = gst_rtsp_server::RTSPServer;
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type Instance = gst::subclass::ElementInstanceStruct<Self>;
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type Class = subclass::simple::ClassStruct<Self>;
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// This macro provides some boilerplate
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glib_object_subclass!();
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// Called when a new instance is to be created. We need to return an instance
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// of our struct here.
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fn new() -> Self {
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Self {}
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}
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}
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// Implementation of glib::Object virtual methods
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impl ObjectImpl for Server {
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// This macro provides some boilerplate.
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glib_object_impl!();
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}
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// Implementation of gst_rtsp_server::RTSPServer virtual methods
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impl RTSPServerImpl for Server {
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fn create_client(
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&self,
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server: &gst_rtsp_server::RTSPServer,
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) -> Option<gst_rtsp_server::RTSPClient> {
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let client = super::client::Client::new();
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// Duplicated from the default implementation
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client.set_session_pool(server.get_session_pool().as_ref());
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client.set_mount_points(server.get_mount_points().as_ref());
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client.set_auth(server.get_auth().as_ref());
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client.set_thread_pool(server.get_thread_pool().as_ref());
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Some(client.upcast())
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}
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fn client_connected(
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&self,
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server: &gst_rtsp_server::RTSPServer,
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client: &gst_rtsp_server::RTSPClient,
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) {
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self.parent_client_connected(server, client);
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println!("Client {:?} connected", client);
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}
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}
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}
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// This here defines the public interface of our factory and implements
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// the corresponding traits so that it behaves like any other RTSPServer
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glib_wrapper! {
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pub struct Server(
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Object<
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gst::subclass::ElementInstanceStruct<imp::Server>,
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subclass::simple::ClassStruct<imp::Server>,
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ServerClass
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>
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) @extends gst_rtsp_server::RTSPServer;
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match fn {
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get_type => || imp::Server::get_type().to_glib(),
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}
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}
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// Servers must be Send+Sync, and ours is
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unsafe impl Send for Server {}
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unsafe impl Sync for Server {}
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impl Server {
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// Creates a new instance of our factory
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pub fn new() -> Server {
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glib::Object::new(Self::static_type(), &[])
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.expect("Failed to create server")
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.downcast()
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.expect("Created server is of wrong type")
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}
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}
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}
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// Our custom RTSP client subclass.
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mod client {
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use super::*;
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use glib::subclass;
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use glib::subclass::prelude::*;
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use glib::translate::*;
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extern crate gstreamer_rtsp_server as gst_rtsp_server;
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use gst_rtsp_server::subclass::prelude::*;
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// In the imp submodule we include the actual implementation
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mod imp {
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use super::*;
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// This is the private data of our server
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pub struct Client {}
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// This trait registers our type with the GObject object system and
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// provides the entry points for creating a new instance and setting
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// up the class data
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impl ObjectSubclass for Client {
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const NAME: &'static str = "RsRTSPClient";
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type ParentType = gst_rtsp_server::RTSPClient;
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type Instance = gst::subclass::ElementInstanceStruct<Self>;
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type Class = subclass::simple::ClassStruct<Self>;
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// This macro provides some boilerplate
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glib_object_subclass!();
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// Called when a new instance is to be created. We need to return an instance
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// of our struct here.
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fn new() -> Self {
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Self {}
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}
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}
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// Implementation of glib::Object virtual methods
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impl ObjectImpl for Client {
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// This macro provides some boilerplate.
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glib_object_impl!();
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}
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// Implementation of gst_rtsp_server::RTSPClient virtual methods
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impl RTSPClientImpl for Client {
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fn closed(&self, client: &gst_rtsp_server::RTSPClient) {
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self.parent_closed(client);
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println!("Client {:?} closed", client);
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}
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}
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}
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// This here defines the public interface of our factory and implements
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// the corresponding traits so that it behaves like any other RTSPClient
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glib_wrapper! {
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pub struct Client(
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Object<
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gst::subclass::ElementInstanceStruct<imp::Client>,
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subclass::simple::ClassStruct<imp::Client>,
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ClientClass
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>
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) @extends gst_rtsp_server::RTSPClient;
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match fn {
|
||||
get_type => || imp::Client::get_type().to_glib(),
|
||||
}
|
||||
}
|
||||
|
||||
// Clients must be Send+Sync, and ours is
|
||||
unsafe impl Send for Client {}
|
||||
unsafe impl Sync for Client {}
|
||||
|
||||
impl Client {
|
||||
// Creates a new instance of our factory
|
||||
pub fn new() -> Client {
|
||||
glib::Object::new(Self::static_type(), &[])
|
||||
.expect("Failed to create client")
|
||||
.downcast()
|
||||
.expect("Created client is of wrong type")
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
fn example_main() -> Result<(), Error> {
|
||||
gst::init()?;
|
||||
main_loop()
|
||||
}
|
||||
|
||||
fn main() {
|
||||
match examples_common::run(example_main) {
|
||||
Ok(r) => r,
|
||||
Err(e) => eprintln!("Error! {}", e),
|
||||
}
|
||||
}
|
Loading…
Reference in a new issue