use crate::utils::{
build_reqwest_client, parse_redirect_location, set_ice_servers, wait, wait_async, WaitError,
RUNTIME,
};
use crate::IceTransportPolicy;
use async_recursion::async_recursion;
use futures::future;
use gst::glib;
use gst::prelude::*;
use gst::subclass::prelude::*;
use gst_sdp::*;
use gst_webrtc::*;
use once_cell::sync::Lazy;
use reqwest::header::HeaderMap;
use reqwest::header::HeaderValue;
use reqwest::StatusCode;
use std::sync::Mutex;
static CAT: Lazy<gst::DebugCategory> = Lazy::new(|| {
gst::DebugCategory::new("whipsink", gst::DebugColorFlags::empty(), Some("WHIP Sink"))
});
const DEFAULT_ICE_TRANSPORT_POLICY: IceTransportPolicy = IceTransportPolicy::All;
const MAX_REDIRECTS: u8 = 10;
const DEFAULT_TIMEOUT: u32 = 15;
#[derive(Debug, Clone)]
struct Settings {
whip_endpoint: Option<String>,
use_link_headers: bool,
auth_token: Option<String>,
turn_server: Option<String>,
stun_server: Option<String>,
ice_transport_policy: IceTransportPolicy,
timeout: u32,
}
#[allow(clippy::derivable_impls)]
impl Default for Settings {
fn default() -> Self {
Self {
whip_endpoint: None,
use_link_headers: false,
auth_token: None,
stun_server: None,
turn_server: None,
ice_transport_policy: DEFAULT_ICE_TRANSPORT_POLICY,
timeout: DEFAULT_TIMEOUT,
}
}
}
#[derive(Debug)]
enum State {
Stopped,
Post { redirects: u8 },
Running { whip_resource_url: String },
}
impl Default for State {
fn default() -> Self {
Self::Stopped
}
}
pub struct WhipSink {
settings: Mutex<Settings>,
state: Mutex<State>,
webrtcbin: gst::Element,
canceller: Mutex<Option<future::AbortHandle>>,
}
impl Default for WhipSink {
fn default() -> Self {
let webrtcbin = gst::ElementFactory::make("webrtcbin")
.name("whip-webrtcbin")
.build()
.expect("Failed to create webrtcbin");
Self {
settings: Mutex::new(Settings::default()),
state: Mutex::new(State::default()),
webrtcbin,
canceller: Mutex::new(None),
}
}
}
impl BinImpl for WhipSink {}
impl GstObjectImpl for WhipSink {}
impl ElementImpl for WhipSink {
fn metadata() -> Option<&'static gst::subclass::ElementMetadata> {
static ELEMENT_METADATA: Lazy<gst::subclass::ElementMetadata> = Lazy::new(|| {
gst::subclass::ElementMetadata::new(
"WHIP Sink Bin",
"Sink/Network/WebRTC",
"A bin to stream media using the WebRTC HTTP Ingestion Protocol (WHIP)",
"Taruntej Kanakamalla <taruntej@asymptotic.io>",
)
});
Some(&*ELEMENT_METADATA)
}
fn pad_templates() -> &'static [gst::PadTemplate] {
static PAD_TEMPLATES: Lazy<Vec<gst::PadTemplate>> = Lazy::new(|| {
let sink_caps = gst::Caps::builder("application/x-rtp").build();
let sink_pad_template = gst::PadTemplate::new(
"sink_%u",
gst::PadDirection::Sink,
gst::PadPresence::Request,
&sink_caps,
)
.unwrap();
vec![sink_pad_template]
});
PAD_TEMPLATES.as_ref()
}
fn request_new_pad(
&self,
templ: &gst::PadTemplate,
name: Option<&str>,
caps: Option<&gst::Caps>,
) -> Option<gst::Pad> {
let wb_sink_pad = self.webrtcbin.request_pad(templ, name, caps)?;
let sink_pad = gst::GhostPad::new(Some(&wb_sink_pad.name()), gst::PadDirection::Sink);
sink_pad.set_target(Some(&wb_sink_pad)).unwrap();
self.obj().add_pad(&sink_pad).unwrap();
Some(sink_pad.upcast())
}
fn change_state(
&self,
transition: gst::StateChange,
) -> Result<gst::StateChangeSuccess, gst::StateChangeError> {
if transition == gst::StateChange::NullToReady {
let settings = self.settings.lock().unwrap();
if settings.whip_endpoint.is_none() {
gst::error!(CAT, imp: self, "WHIP endpoint URL must be set");
return Err(gst::StateChangeError);
}
if let Err(e) = reqwest::Url::parse(settings.whip_endpoint.as_ref().unwrap().as_str()) {
gst::error!(
CAT,
imp: self,
"WHIP endpoint URL could not be parsed: {}",
e
);
return Err(gst::StateChangeError);
}
drop(settings);
}
if transition == gst::StateChange::PausedToReady {
if let Some(canceller) = &*self.canceller.lock().unwrap() {
canceller.abort();
}
let state = self.state.lock().unwrap();
if let State::Running { .. } = *state {
drop(state);
self.terminate_session();
}
}
self.parent_change_state(transition)
}
}
impl ObjectImpl for WhipSink {
fn properties() -> &'static [glib::ParamSpec] {
static PROPERTIES: Lazy<Vec<glib::ParamSpec>> = Lazy::new(|| {
vec![glib::ParamSpecString::builder("whip-endpoint")
.nick("WHIP Endpoint")
.blurb("The WHIP server endpoint to POST SDP offer to.
e.g.: https://example.com/whip/endpoint/room1234")
.mutable_ready()
.build(),
glib::ParamSpecBoolean::builder("use-link-headers")
.nick("Use Link Headers")
.blurb("Use link headers to configure ice-servers from the WHIP server response to the POST request.
If set to TRUE and the WHIP server returns valid ice-servers,
this property overrides the ice-servers values set using the stun-server and turn-server properties.")
.mutable_ready()
.build(),
glib::ParamSpecString::builder("auth-token")
.nick("Authorization Token")
.blurb("Authentication token to use, will be sent in the HTTP Header as 'Bearer <auth-token>'")
.mutable_ready()
.build(),
glib::ParamSpecString::builder("stun-server")
.nick("STUN Server")
.blurb("The STUN server of the form stun://hostname:port")
.build(),
glib::ParamSpecString::builder("turn-server")
.nick("TURN Server")
.blurb("The TURN server of the form turn(s)://username:password@host:port.")
.build(),
glib::ParamSpecEnum::builder::<IceTransportPolicy>("ice-transport-policy", DEFAULT_ICE_TRANSPORT_POLICY)
.nick("ICE transport policy")
.blurb("The policy to apply for ICE transport")
.build(),
glib::ParamSpecUInt::builder("timeout")
.nick("Timeout")
.blurb("Value in seconds to timeout WHIP endpoint requests (0 = No timeout).")
.maximum(3600)
.default_value(DEFAULT_TIMEOUT)
.build(),
]
});
PROPERTIES.as_ref()
}
fn set_property(&self, _id: usize, value: &glib::Value, pspec: &glib::ParamSpec) {
match pspec.name() {
"whip-endpoint" => {
let mut settings = self.settings.lock().unwrap();
settings.whip_endpoint = value.get().expect("WHIP endpoint should be a string");
}
"use-link-headers" => {
let mut settings = self.settings.lock().unwrap();
settings.use_link_headers = value
.get()
.expect("use-link-headers should be a boolean value");
}
"auth-token" => {
let mut settings = self.settings.lock().unwrap();
settings.auth_token = value.get().expect("Auth token should be a string");
}
"stun-server" => {
let mut settings = self.settings.lock().unwrap();
settings.stun_server = value
.get::<Option<String>>()
.expect("type checked upstream");
self.webrtcbin
.set_property("stun-server", settings.stun_server.as_ref());
}
"turn-server" => {
let mut settings = self.settings.lock().unwrap();
settings.turn_server = value
.get::<Option<String>>()
.expect("type checked upstream");
self.webrtcbin
.set_property("turn-server", settings.turn_server.as_ref());
}
"ice-transport-policy" => {
let mut settings = self.settings.lock().unwrap();
settings.ice_transport_policy = value
.get::<IceTransportPolicy>()
.expect("ice-transport-policy should be an enum value");
if settings.ice_transport_policy == IceTransportPolicy::Relay {
self.webrtcbin
.set_property_from_str("ice-transport-policy", "relay");
} else {
self.webrtcbin
.set_property_from_str("ice-transport-policy", "all");
}
}
"timeout" => {
let mut settings = self.settings.lock().unwrap();
settings.timeout = value.get().expect("type checked upstream");
}
_ => unimplemented!(),
}
}
fn property(&self, _id: usize, pspec: &glib::ParamSpec) -> glib::Value {
match pspec.name() {
"whip-endpoint" => {
let settings = self.settings.lock().unwrap();
settings.whip_endpoint.to_value()
}
"use-link-headers" => {
let settings = self.settings.lock().unwrap();
settings.use_link_headers.to_value()
}
"auth-token" => {
let settings = self.settings.lock().unwrap();
settings.auth_token.to_value()
}
"stun-server" => {
let settings = self.settings.lock().unwrap();
settings.stun_server.to_value()
}
"turn-server" => {
let settings = self.settings.lock().unwrap();
settings.turn_server.to_value()
}
"ice-transport-policy" => {
let settings = self.settings.lock().unwrap();
settings.ice_transport_policy.to_value()
}
"timeout" => {
let settings = self.settings.lock().unwrap();
settings.timeout.to_value()
}
_ => unimplemented!(),
}
}
fn constructed(&self) {
self.parent_constructed();
let obj = self.obj();
obj.set_suppressed_flags(gst::ElementFlags::SINK | gst::ElementFlags::SOURCE);
obj.set_element_flags(gst::ElementFlags::SINK);
self.webrtcbin
.set_property("bundle-policy", gst_webrtc::WebRTCBundlePolicy::MaxBundle);
let self_weak = self.downgrade();
self.webrtcbin
.connect_notify(Some("ice-gathering-state"), move |webrtcbin, _pspec| {
let self_ = match self_weak.upgrade() {
Some(self_) => self_,
None => return,
};
let state = webrtcbin.property::<WebRTCICEGatheringState>("ice-gathering-state");
match state {
WebRTCICEGatheringState::Gathering => {
gst::info!(CAT, imp: self_, "ICE gathering started")
}
WebRTCICEGatheringState::Complete => {
gst::info!(CAT, imp: self_, "ICE gathering completed");
let self_ref = self_.ref_counted();
RUNTIME.spawn(async move {
self_ref.send_offer().await
});
}
_ => (),
}
});
self.webrtcbin.connect("on-negotiation-needed", false, {
move |args| {
let webrtcbin = args[0].get::<gst::Element>().unwrap();
let ele = match webrtcbin
.parent()
.map(|p| p.downcast::<Self::Type>().unwrap())
{
Some(e) => e,
None => return None,
};
let whipsink = ele.imp();
let settings = whipsink.settings.lock().unwrap();
if settings.whip_endpoint.is_none() {
gst::element_error!(
ele,
gst::ResourceError::NotFound,
["Endpoint URL must be set"]
);
return None;
}
let endpoint =
reqwest::Url::parse(settings.whip_endpoint.as_ref().unwrap().as_str());
if let Err(e) = endpoint {
gst::element_error!(
ele,
gst::ResourceError::Failed,
["Could not parse endpoint URL :{}", e]
);
return None;
}
drop(settings);
let promise = gst::Promise::with_change_func(move |reply| {
let ele = match webrtcbin
.parent()
.map(|p| p.downcast::<Self::Type>().unwrap())
{
Some(ele) => ele,
None => return,
};
let whipsink = ele.imp();
let offer_sdp = match reply {
Ok(Some(reply)) => {
if let Ok(sdp) = reply.value("offer").map(|offer| {
offer.get::<gst_webrtc::WebRTCSessionDescription>().unwrap()
}) {
sdp
} else {
let error = reply
.value("error")
.expect("structure must have an error value")
.get::<glib::Error>()
.expect("value must be a GLib error");
gst::element_imp_error!(
whipsink,
gst::LibraryError::Failed,
["generate offer::Promise returned with error: {}", error]
);
return;
}
}
Ok(None) => {
gst::element_error!(
ele,
gst::LibraryError::Failed,
["create-offer::Promise returned with no reply"]
);
return;
}
Err(e) => {
gst::element_error!(
ele,
gst::LibraryError::Failed,
["create-offer::Promise returned with error {:?}", e]
);
return;
}
};
whipsink.webrtcbin.emit_by_name::<()>(
"set-local-description",
&[&offer_sdp, &None::<gst::Promise>],
);
});
whipsink
.webrtcbin
.emit_by_name::<()>("create-offer", &[&None::<gst::Structure>, &promise]);
None
}
});
self.webrtcbin.connect("on-new-transceiver", false, {
move |args| {
let trans = args[1].get::<gst_webrtc::WebRTCRTPTransceiver>().unwrap();
trans.set_direction(gst_webrtc::WebRTCRTPTransceiverDirection::Sendonly);
None
}
});
obj.add(&self.webrtcbin).unwrap();
}
}
#[glib::object_subclass]
impl ObjectSubclass for WhipSink {
const NAME: &'static str = "GstWhipSink";
type Type = super::WhipSink;
type ParentType = gst::Bin;
}
impl WhipSink {
fn raise_error(&self, resource_error: gst::ResourceError, msg: String) {
gst::error_msg!(resource_error, [msg.as_str()]);
gst::element_imp_error!(self, resource_error, [msg.as_str()]);
}
fn handle_future_error(&self, err: WaitError) {
match err {
WaitError::FutureAborted => {
gst::warning!(CAT, imp: self, "Future aborted")
}
WaitError::FutureError(err) => {
self.raise_error(gst::ResourceError::Failed, err.to_string())
}
};
}
async fn send_offer(&self) {
{
let mut state = self.state.lock().unwrap();
*state = State::Post { redirects: 0 };
drop(state);
}
let local_desc = self
.webrtcbin
.property::<Option<WebRTCSessionDescription>>("local-description");
let offer_sdp = match local_desc {
None => {
gst::element_imp_error!(
self,
gst::ResourceError::Failed,
["Local description is not set"]
);
return;
}
Some(offer) => offer,
};
gst::debug!(
CAT,
imp: self,
"Sending offer SDP: {:?}",
offer_sdp.sdp().as_text()
);
let timeout;
{
let settings = self.settings.lock().unwrap();
timeout = settings.timeout;
drop(settings);
}
if let Err(e) = wait_async(&self.canceller, self.do_post(offer_sdp), timeout).await {
self.handle_future_error(e);
}
}
#[async_recursion]
async fn do_post(&self, offer: gst_webrtc::WebRTCSessionDescription) {
let auth_token;
let endpoint;
let timeout;
{
let settings = self.settings.lock().unwrap();
endpoint =
reqwest::Url::parse(settings.whip_endpoint.as_ref().unwrap().as_str()).unwrap();
auth_token = settings.auth_token.clone();
timeout = settings.timeout;
drop(settings);
}
#[allow(unused_mut)]
let mut redirects;
{
let state = self.state.lock().unwrap();
redirects = match *state {
State::Post { redirects } => redirects,
_ => {
self.raise_error(
gst::ResourceError::Failed,
"Trying to do POST in unexpected state".to_string(),
);
return;
}
};
drop(state);
}
let pol = reqwest::redirect::Policy::none();
let client = build_reqwest_client(pol);
let sdp = offer.sdp();
let body = sdp.as_text().unwrap();
gst::debug!(CAT, imp: self, "Using endpoint {}", endpoint.as_str());
let mut headermap = HeaderMap::new();
headermap.insert(
reqwest::header::CONTENT_TYPE,
HeaderValue::from_static("application/sdp"),
);
if let Some(token) = auth_token.as_ref() {
let bearer_token = "Bearer ".to_owned() + token;
headermap.insert(
reqwest::header::AUTHORIZATION,
HeaderValue::from_str(bearer_token.as_str())
.expect("Failed to set auth token to header"),
);
}
let res = wait_async(
&self.canceller,
client
.request(reqwest::Method::POST, endpoint.clone())
.headers(headermap)
.body(body)
.send(),
timeout,
)
.await;
match res {
Ok(r) => match r {
Ok(resp) => {
if let Err(e) = wait_async(
&self.canceller,
self.parse_endpoint_response(offer, resp, redirects),
timeout,
)
.await
{
self.handle_future_error(e);
}
}
Err(err) => self.raise_error(gst::ResourceError::Failed, err.to_string()),
},
Err(err) => self.handle_future_error(err),
}
}
async fn parse_endpoint_response(
&self,
offer: gst_webrtc::WebRTCSessionDescription,
resp: reqwest::Response,
redirects: u8,
) {
let endpoint;
let timeout;
let use_link_headers;
{
let settings = self.settings.lock().unwrap();
endpoint =
reqwest::Url::parse(settings.whip_endpoint.as_ref().unwrap().as_str()).unwrap();
use_link_headers = settings.use_link_headers;
timeout = settings.timeout;
drop(settings);
}
match resp.status() {
StatusCode::OK | StatusCode::CREATED => {
if use_link_headers {
if let Err(e) = set_ice_servers(&self.webrtcbin, resp.headers()) {
self.raise_error(gst::ResourceError::Failed, e.to_string());
return;
};
}
let location = match resp.headers().get(reqwest::header::LOCATION) {
Some(location) => location,
None => {
self.raise_error(
gst::ResourceError::Failed,
"Location header field should be present for WHIP resource URL"
.to_string(),
);
return;
}
};
let location = match location.to_str() {
Ok(loc) => loc,
Err(e) => {
self.raise_error(
gst::ResourceError::Failed,
format!("Failed to convert location to string: {e}"),
);
return;
}
};
let url = reqwest::Url::parse(endpoint.as_str()).unwrap();
gst::debug!(CAT, imp: self, "WHIP resource: {:?}", location);
let url = match url.join(location) {
Ok(joined_url) => joined_url,
Err(err) => {
self.raise_error(
gst::ResourceError::Failed,
format!("URL join operation failed: {err:?}"),
);
return;
}
};
{
let mut state = self.state.lock().unwrap();
*state = match *state {
State::Post { redirects: _r } => State::Running {
whip_resource_url: url.to_string(),
},
_ => {
self.raise_error(
gst::ResourceError::Failed,
"Expected to be in POST state".to_string(),
);
return;
}
};
drop(state);
}
match wait_async(&self.canceller, resp.bytes(), timeout).await {
Ok(res) => match res {
Ok(ans_bytes) => match sdp_message::SDPMessage::parse_buffer(&ans_bytes) {
Ok(ans_sdp) => {
let answer = gst_webrtc::WebRTCSessionDescription::new(
gst_webrtc::WebRTCSDPType::Answer,
ans_sdp,
);
self.webrtcbin.emit_by_name::<()>(
"set-remote-description",
&[&answer, &None::<gst::Promise>],
);
}
Err(err) => {
self.raise_error(
gst::ResourceError::Failed,
format!("Could not parse answer SDP: {err}"),
);
}
},
Err(err) => self.raise_error(gst::ResourceError::Failed, err.to_string()),
},
Err(err) => self.handle_future_error(err),
}
}
s if s.is_redirection() => {
if redirects < MAX_REDIRECTS {
match parse_redirect_location(resp.headers(), &endpoint) {
Ok(redirect_url) => {
{
let mut state = self.state.lock().unwrap();
*state = match *state {
State::Post { redirects: _r } => State::Post {
redirects: redirects + 1,
},
State::Running { .. } => {
self.raise_error(
gst::ResourceError::Failed,
"Unexpected redirection in RUNNING state".to_string(),
);
return;
}
State::Stopped => unreachable!(),
};
drop(state);
}
gst::debug!(
CAT,
imp: self,
"Redirecting endpoint to {}",
redirect_url.as_str()
);
if let Err(err) =
wait_async(&self.canceller, self.do_post(offer), timeout).await
{
self.handle_future_error(err);
}
}
Err(e) => self.raise_error(gst::ResourceError::Failed, e.to_string()),
}
} else {
self.raise_error(
gst::ResourceError::Failed,
"Too many redirects. Unable to connect.".to_string(),
);
}
}
s => {
match wait_async(&self.canceller, resp.bytes(), timeout).await {
Ok(r) => {
let res = r
.map(|x| x.escape_ascii().to_string())
.unwrap_or_else(|_| "(no further details)".to_string());
self.raise_error(
gst::ResourceError::Failed,
format!("Unexpected response: {} - {}", s.as_str(), res),
);
}
Err(err) => self.handle_future_error(err),
}
}
}
}
fn terminate_session(&self) {
let settings = self.settings.lock().unwrap();
let state = self.state.lock().unwrap();
let timeout = settings.timeout;
let resource_url = match *state {
State::Running {
whip_resource_url: ref resource_url,
} => resource_url.clone(),
_ => {
gst::element_imp_error!(
self,
gst::ResourceError::Failed,
["Terminated in unexpected state"]
);
return;
}
};
drop(state);
let mut headermap = HeaderMap::new();
if let Some(token) = &settings.auth_token {
let bearer_token = "Bearer ".to_owned() + token.as_str();
headermap.insert(
reqwest::header::AUTHORIZATION,
HeaderValue::from_str(bearer_token.as_str())
.expect("Failed to set auth token to header"),
);
}
gst::debug!(CAT, imp: self, "DELETE request on {}", resource_url);
let client = build_reqwest_client(reqwest::redirect::Policy::default());
let future = async {
client
.delete(resource_url.clone())
.headers(headermap)
.send()
.await
.map_err(|err| {
gst::error_msg!(
gst::ResourceError::Failed,
["DELETE request failed {}: {:?}", resource_url, err]
)
})
};
let res = wait(&self.canceller, future, timeout);
match res {
Ok(r) => {
gst::debug!(CAT, imp: self, "Response to DELETE : {}", r.status());
}
Err(e) => match e {
WaitError::FutureAborted => {
gst::warning!(CAT, imp: self, "DELETE request aborted")
}
WaitError::FutureError(e) => {
gst::error!(CAT, imp: self, "Error on DELETE request : {}", e)
}
},
};
}
}