From cd406dac3b58a24553120d21c3b4635041a78656 Mon Sep 17 00:00:00 2001 From: aler9 <46489434+aler9@users.noreply.github.com> Date: Sun, 6 Oct 2024 17:28:32 +0200 Subject: [PATCH] add Unity instructions --- README.md | 271 +++++++++++++++++++++++++++++++++++++++++++++++++++--- 1 file changed, 260 insertions(+), 11 deletions(-) diff --git a/README.md b/README.md index e04c09f49ef0..44ae3b80a273 100644 --- a/README.md +++ b/README.md @@ -22,7 +22,7 @@ Live streams can be published to the server with: |--------|--------|------------|------------| |[SRT clients](#srt-clients)||H265, H264, MPEG-4 Video (H263, Xvid), MPEG-1/2 Video|Opus, MPEG-4 Audio (AAC), MPEG-1/2 Audio (MP3), AC-3| |[SRT cameras and servers](#srt-cameras-and-servers)||H265, H264, MPEG-4 Video (H263, Xvid), MPEG-1/2 Video|Opus, MPEG-4 Audio (AAC), MPEG-1/2 Audio (MP3), AC-3| -|[WebRTC clients](#webrtc-clients)|Browser-based, WHIP|AV1, VP9, VP8, H265, H264|Opus, G722, G711 (PCMA, PCMU)| +|[WebRTC clients](#webrtc-clients)|WHIP|AV1, VP9, VP8, H265, H264|Opus, G722, G711 (PCMA, PCMU)| |[WebRTC servers](#webrtc-servers)|WHEP|AV1, VP9, VP8, H265, H264|Opus, G722, G711 (PCMA, PCMU)| |[RTSP clients](#rtsp-clients)|UDP, TCP, RTSPS|AV1, VP9, VP8, H265, H264, MPEG-4 Video (H263, Xvid), MPEG-1/2 Video, M-JPEG and any RTP-compatible codec|Opus, MPEG-4 Audio (AAC), MPEG-1/2 Audio (MP3), AC-3, G726, G722, G711 (PCMA, PCMU), LPCM and any RTP-compatible codec| |[RTSP cameras and servers](#rtsp-cameras-and-servers)|UDP, UDP-Multicast, TCP, RTSPS|AV1, VP9, VP8, H265, H264, MPEG-4 Video (H263, Xvid), MPEG-1/2 Video, M-JPEG and any RTP-compatible codec|Opus, MPEG-4 Audio (AAC), MPEG-1/2 Audio (MP3), AC-3, G726, G722, G711 (PCMA, PCMU), LPCM and any RTP-compatible codec| @@ -32,17 +32,21 @@ Live streams can be published to the server with: |[UDP/MPEG-TS](#udpmpeg-ts)|Unicast, broadcast, multicast|H265, H264, MPEG-4 Video (H263, Xvid), MPEG-1/2 Video|Opus, MPEG-4 Audio (AAC), MPEG-1/2 Audio (MP3), AC-3| |[Raspberry Pi Cameras](#raspberry-pi-cameras)||H264|| -And can be read from the server with: +Instructions are provided for publishing through these protocols by using [FFmpeg](#ffmpeg), [GStreamer](#gstreamer), [OBS Studio](#obs-studio), [OpenCV](#opencv), [Unity](#unity), [Web browsers](#web-browsers). + +Live streams can be read from the server with: |protocol|variants|video codecs|audio codecs| |--------|--------|------------|------------| |[SRT](#srt)||H265, H264, MPEG-4 Video (H263, Xvid), MPEG-1/2 Video|Opus, MPEG-4 Audio (AAC), MPEG-1/2 Audio (MP3), AC-3| -|[WebRTC](#webrtc)|Browser-based, WHEP|AV1, VP9, VP8, H264|Opus, G722, G711 (PCMA, PCMU)| +|[WebRTC](#webrtc)|WHEP|AV1, VP9, VP8, H264|Opus, G722, G711 (PCMA, PCMU)| |[RTSP](#rtsp)|UDP, UDP-Multicast, TCP, RTSPS|AV1, VP9, VP8, H265, H264, MPEG-4 Video (H263, Xvid), MPEG-1/2 Video, M-JPEG and any RTP-compatible codec|Opus, MPEG-4 Audio (AAC), MPEG-1/2 Audio (MP3), AC-3, G726, G722, G711 (PCMA, PCMU), LPCM and any RTP-compatible codec| |[RTMP](#rtmp)|RTMP, RTMPS, Enhanced RTMP|H264|MPEG-4 Audio (AAC), MPEG-1/2 Audio (MP3)| |[HLS](#hls)|Low-Latency HLS, MP4-based HLS, legacy HLS|AV1, VP9, H265, H264|Opus, MPEG-4 Audio (AAC)| -And can be recorded and played back with: +Instructions are provided for reading through these protocols by using [FFmpeg](#ffmpeg-1), [GStreamer](#gstreamer-1), [VLC](#vlc), [Unity](#unity-1), [Web browsers](#web-browsers-1). + +Live streams be recorded and played back with: |format|video codecs|audio codecs| |------|------------|------------| @@ -83,6 +87,7 @@ _rtsp-simple-server_ has been rebranded as _MediaMTX_. The reason is pretty obvi * [GStreamer](#gstreamer) * [OBS Studio](#obs-studio) * [OpenCV](#opencv) + * [Unity](#unity) * [Web browsers](#web-browsers) * [By device](#by-device) * [Generic webcam](#generic-webcam) @@ -103,6 +108,7 @@ _rtsp-simple-server_ has been rebranded as _MediaMTX_. The reason is pretty obvi * [FFmpeg](#ffmpeg-1) * [GStreamer](#gstreamer-1) * [VLC](#vlc) + * [Unity](#unity-1) * [Web browsers](#web-browsers-1) * [By protocol](#by-protocol-1) * [SRT](#srt) @@ -347,7 +353,7 @@ The resulting stream will be available in path `/mystream`. #### OpenCV -OpenCV can publish to the server through its GStreamer plugin, as a [RTSP client](#rtsp-clients). It must be compiled with GStreamer support, by following this procedure: +Software which uses the OpenCV library can publish to the server through its GStreamer plugin, as a [RTSP client](#rtsp-clients). It must be compiled with GStreamer support, by following this procedure: ```sh sudo apt install -y libgstreamer1.0-dev libgstreamer-plugins-base1.0-dev gstreamer1.0-plugins-ugly gstreamer1.0-rtsp python3-dev python3-numpy @@ -367,7 +373,7 @@ python3 -c 'import cv2; print(cv2.getBuildInformation())' Check that the output contains `GStreamer: YES`. -Videos can be published with `VideoWriter`: +Videos can be published with `cv2.VideoWriter`: ```python from datetime import datetime @@ -420,6 +426,117 @@ while True: The resulting stream will be available in path `/mystream`. +#### Unity + +Software written with the Unity Engine can publish a stream to the server by using the [WebRTC protocol](#webrtc). + +Create a new Unity project or open an existing open. + +Open _Window -> Package Manager_, click on the plus sign, _Add Package by name..._ and insert `com.unity.webrtc`. Wait for the package to be installed. + +In the _Project_ window, under `Assets`, create a new C# Script called `WebRTCPublisher.cs` with this content: + +```cs +using System.Collections; +using UnityEngine; +using Unity.WebRTC; +using UnityEngine.Networking; + +public class WebRTCPublisher : MonoBehaviour +{ + public string url = "http://localhost:8889/unity/whip"; + public int videoWidth = 1280; + public int videoHeight = 720; + + private RTCPeerConnection pc; + private MediaStream videoStream; + + void Start() + { + pc = new RTCPeerConnection(); + Camera sourceCamera = gameObject.GetComponent(); + videoStream = sourceCamera.CaptureStream(videoWidth, videoHeight); + foreach (var track in videoStream.GetTracks()) + { + pc.AddTrack(track); + } + + StartCoroutine(WebRTC.Update()); + StartCoroutine(createOffer()); + } + + private IEnumerator createOffer() + { + var op = pc.CreateOffer(); + yield return op; + if (op.IsError) { + Debug.LogError("CreateOffer() failed"); + yield break; + } + + yield return setLocalDescription(op.Desc); + } + + private IEnumerator setLocalDescription(RTCSessionDescription offer) + { + var op = pc.SetLocalDescription(ref offer); + yield return op; + if (op.IsError) { + Debug.LogError("SetLocalDescription() failed"); + yield break; + } + + yield return postOffer(offer); + } + + private IEnumerator postOffer(RTCSessionDescription offer) + { + var content = new System.Net.Http.StringContent(offer.sdp); + content.Headers.ContentType = new System.Net.Http.Headers.MediaTypeHeaderValue("application/sdp"); + var client = new System.Net.Http.HttpClient(); + + var task = System.Threading.Tasks.Task.Run(async () => { + var res = await client.PostAsync(new System.UriBuilder(url).Uri, content); + res.EnsureSuccessStatusCode(); + return await res.Content.ReadAsStringAsync(); + }); + yield return new WaitUntil(() => task.IsCompleted); + if (task.Exception != null) { + Debug.LogError(task.Exception); + yield break; + } + + yield return setRemoteDescription(task.Result); + } + + private IEnumerator setRemoteDescription(string answer) + { + RTCSessionDescription desc = new RTCSessionDescription(); + desc.type = RTCSdpType.Answer; + desc.sdp = answer; + var op = pc.SetRemoteDescription(ref desc); + yield return op; + if (op.IsError) { + Debug.LogError("SetRemoteDescription() failed"); + yield break; + } + + yield break; + } + + void OnDestroy() + { + pc?.Close(); + pc?.Dispose(); + videoStream?.Dispose(); + } +} +``` + +In the _Hierarchy_ window, find or create a scene and a camera, then add the `WebRTCPublisher.cs` script as component of the camera, by dragging it inside the _Inspector_ window. then Press the _Play_ button at the top of the page. + +The resulting stream will be available in path `/unity`. + #### Web browsers Web browsers can publish a stream to the server by using the [WebRTC protocol](#webrtc). Start the server and open the web page: @@ -442,7 +559,7 @@ For more advanced setups, you can create and serve a custom web page by starting #### Generic webcam -If the OS is Linux-based, edit `mediamtx.yml` and replace everything inside section `paths` with the following content: +If the operating system is Linux-based, edit `mediamtx.yml` and replace everything inside section `paths` with the following content: ```yml paths: @@ -451,7 +568,7 @@ paths: runOnInitRestart: yes ``` -If the OS is Windows: +If the operating system is Windows: ```yml paths: @@ -470,7 +587,7 @@ The resulting stream will be available in path `/cam`. #### Raspberry Pi Cameras -_MediaMTX_ natively supports the Raspberry Pi Camera, enabling high-quality and low-latency video streaming from the camera to any user, for any purpose. There are a couple of requirements: +_MediaMTX_ natively supports most of the Raspberry Pi Camera models, enabling high-quality and low-latency video streaming from the camera to any user, for any purpose. There are a couple of requirements: 1. The server must run on a Raspberry Pi, with one of the following operating systems: @@ -617,7 +734,7 @@ Regarding authentication, read [Authenticating with WHIP/WHEP](#authenticating-w Depending on the network it may be difficult to establish a connection between server and clients, read [Solving WebRTC connectivity issues](#solving-webrtc-connectivity-issues). -Known clients that can publish with WebRTC and WHIP are [FFmpeg](#ffmpeg), [GStreamer](#gstreamer), [OBS Studio](#obs-studio). +Known clients that can publish with WebRTC and WHIP are [FFmpeg](#ffmpeg), [GStreamer](#gstreamer), [OBS Studio](#obs-studio), [Unity](#unity) and [Web browsers](#web-browsers). #### WebRTC servers @@ -813,6 +930,138 @@ snap install vlc At the moment VLC doesn't support reading encrypted RTSP streams. However, you can use a proxy like [stunnel](https://www.stunnel.org) or [nginx](https://nginx.org/) or a local _MediaMTX_ instance to decrypt streams before reading them. +#### Unity + +Software written with the Unity Engine can read a stream from the server by using the [WebRTC protocol](#webrtc). + +Create a new Unity project or open an existing open. + +Open _Window -> Package Manager_, click on the plus sign, _Add Package by name..._ and insert `com.unity.webrtc`. Wait for the package to be installed. + +In the _Project_ window, under `Assets`, create a new C# Script called `WebRTCReader.cs` with this content: + +```cs +using System.Collections; +using UnityEngine; +using Unity.WebRTC; + +public class WebRTCReader : MonoBehaviour +{ + public string url = "http://localhost:8889/stream/whep"; + + private RTCPeerConnection pc; + private MediaStream receiveStream; + + void Start() + { + UnityEngine.UI.RawImage rawImage = gameObject.GetComponentInChildren(); + AudioSource audioSource = gameObject.GetComponentInChildren(); + pc = new RTCPeerConnection(); + receiveStream = new MediaStream(); + + pc.OnTrack = e => + { + receiveStream.AddTrack(e.Track); + }; + + receiveStream.OnAddTrack = e => + { + if (e.Track is VideoStreamTrack videoTrack) + { + videoTrack.OnVideoReceived += (tex) => + { + rawImage.texture = tex; + }; + } + else if (e.Track is AudioStreamTrack audioTrack) + { + audioSource.SetTrack(audioTrack); + audioSource.loop = true; + audioSource.Play(); + } + }; + + RTCRtpTransceiverInit init = new RTCRtpTransceiverInit(); + init.direction = RTCRtpTransceiverDirection.RecvOnly; + pc.AddTransceiver(TrackKind.Audio, init); + pc.AddTransceiver(TrackKind.Video, init); + + StartCoroutine(WebRTC.Update()); + StartCoroutine(createOffer()); + } + + private IEnumerator createOffer() + { + var op = pc.CreateOffer(); + yield return op; + if (op.IsError) { + Debug.LogError("CreateOffer() failed"); + yield break; + } + + yield return setLocalDescription(op.Desc); + } + + private IEnumerator setLocalDescription(RTCSessionDescription offer) + { + var op = pc.SetLocalDescription(ref offer); + yield return op; + if (op.IsError) { + Debug.LogError("SetLocalDescription() failed"); + yield break; + } + + yield return postOffer(offer); + } + + private IEnumerator postOffer(RTCSessionDescription offer) + { + var content = new System.Net.Http.StringContent(offer.sdp); + content.Headers.ContentType = new System.Net.Http.Headers.MediaTypeHeaderValue("application/sdp"); + var client = new System.Net.Http.HttpClient(); + + var task = System.Threading.Tasks.Task.Run(async () => { + var res = await client.PostAsync(new System.UriBuilder(url).Uri, content); + res.EnsureSuccessStatusCode(); + return await res.Content.ReadAsStringAsync(); + }); + yield return new WaitUntil(() => task.IsCompleted); + if (task.Exception != null) { + Debug.LogError(task.Exception); + yield break; + } + + yield return setRemoteDescription(task.Result); + } + + private IEnumerator setRemoteDescription(string answer) + { + RTCSessionDescription desc = new RTCSessionDescription(); + desc.type = RTCSdpType.Answer; + desc.sdp = answer; + var op = pc.SetRemoteDescription(ref desc); + yield return op; + if (op.IsError) { + Debug.LogError("SetRemoteDescription() failed"); + yield break; + } + + yield break; + } + + void OnDestroy() + { + pc?.Close(); + pc?.Dispose(); + receiveStream?.Dispose(); + } +} +``` + +Edit the `url` variable according to your needs. + +In the _Hierarchy_ window, find or create a scene. Inside the scene, add a Canvas. Inside the Canvas, add a _Raw Image_ and an _Audio Source_. Then add the `WebRTCReader.cs` script as component of the canvas, by dragging it inside the _Inspector_ window. then Press the _Play_ button at the top of the page. + #### Web browsers Web browsers can read a stream from the server in multiple ways (WebRTC or HLS). @@ -885,7 +1134,7 @@ Regarding authentication, read [Authenticating with WHIP/WHEP](#authenticating-w Depending on the network it may be difficult to establish a connection between server and clients, read [Solving WebRTC connectivity issues](#solving-webrtc-connectivity-issues). -Known clients that can read with WebRTC and WHEP are [FFmpeg](#ffmpeg-1), [GStreamer](#gstreamer-1) and [web browsers](#web-browsers-1). +Known clients that can read with WebRTC and WHEP are [FFmpeg](#ffmpeg-1), [GStreamer](#gstreamer-1), [Unity](#unity-1) and [web browsers](#web-browsers-1). #### RTSP