path: root/testing/web-platform/tests/mediacapture-insertable-streams/VideoTrackGenerator-with-window-tracks.https.html

<!DOCTYPE html>
<html>
<head>
<title>MediaStream Insertable Streams - VideoTrackGenerator</title>
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<script src="/webrtc/RTCPeerConnection-helper.js"></script>
</head>
<body>
  <h1 class="instructions">Description</h1>
  <p class="instructions">This test checks that generating video MediaStreamTracks from VideoTrackGenerator works as expected.</p>
  <script id="scriptRoutines">
    const pixelColour = [50, 100, 150, 255];
    const height = 240;
    const width = 320;
    function makeVideoFrame(timestamp) {
      const canvas = new OffscreenCanvas(width, height);

      const ctx = canvas.getContext('2d', {alpha: false});
      ctx.fillStyle = `rgba(${pixelColour.join()})`;
      ctx.fillRect(0, 0, width, height);

      return new VideoFrame(canvas, {timestamp, alpha: 'discard'});
    }

    async function getVideoFrame() {
      const stream = await getNoiseStream({video: true});
      const input_track = stream.getTracks()[0];
      const processor = new MediaStreamTrackProcessor(input_track);
      const reader = processor.readable.getReader();
      const result = await reader.read();
      input_track.stop();
      return result.value;
    }

    function assertPixel(t, bytes, expected, epsilon = 5) {
      for (let i = 0; i < bytes.length; i++) {
        t.step(() => {
          assert_less_than(Math.abs(bytes[i] - expected[i]),  epsilon, "Mismatched pixel");
        });
      }
    }

    async function initiateSingleTrackCall(t, track, output) {
      const caller = new RTCPeerConnection();
      t.add_cleanup(() => caller.close());
      const callee = new RTCPeerConnection();
      t.add_cleanup(() => callee.close());
      caller.addTrack(track);
      t.add_cleanup(() => track.stop());

      exchangeIceCandidates(caller, callee);
      // Wait for the first track.
      const e = await exchangeOfferAndListenToOntrack(t, caller, callee);
      output.srcObject = new MediaStream([e.track]);
      // Exchange answer.
      await exchangeAnswer(caller, callee);
      await waitForConnectionStateChange(callee, ['connected']);
    }
  </script>
  <script>
    async function createWorker(script) {
      script = scriptRoutines.text + script + "self.postMessage('ready');";
      const blob = new Blob([script], { type: 'text/javascript' });
      const url = URL.createObjectURL(blob);
      const worker = new Worker(url);
      await new Promise(resolve => worker.onmessage = () => {
          resolve();
      });
      URL.revokeObjectURL(url);
      return worker;
    }

   promise_test(async t => {
     const worker = await createWorker(`
         const generator = new VideoTrackGenerator();
         const videoFrame = makeVideoFrame(1);
         const originalWidth = videoFrame.displayWidth;
         const originalHeight = videoFrame.displayHeight;
         self.onmessage = async (event) => {
           if (event.data == "transfer") {
             self.postMessage({ track: generator.track, originalWidth, originalHeight }, [generator.track]);
             return;
           }
           if (event.data == "write frame") {
             generator.writable.getWriter().write(videoFrame)
             return;
           }
           if (event.data == "cleanup") {
             videoFrame.close();
             return;
           }
         }
     `);

     t.add_cleanup(() => worker.postMessage("cleanup"));

     worker.postMessage("transfer");
     const { track, originalWidth, originalHeight } = await new Promise(resolve => worker.onmessage = e => resolve(e.data));
     t.add_cleanup(() => track.stop());

     const video = document.createElement("video");
     video.autoplay = true;
     video.width = 320;
     video.height = 240;
     video.srcObject = new MediaStream([track]);
     video.play();

     // Wait for the video element to be connected to the generator and
     // generate the frame.
     video.onloadstart = () => worker.postMessage("write frame");

     return new Promise((resolve)=> {
       video.ontimeupdate = t.step_func(() => {
         const canvas = document.createElement("canvas");
         canvas.width = originalWidth;
         canvas.height = originalHeight;
         const context = canvas.getContext('2d');
         context.drawImage(video, 0, 0);
         // Pick a pixel in the centre of the video and check that it has the colour of the frame provided.
         const pixel = context.getImageData(originalWidth/2, originalHeight/2, 1, 1);
         assertPixel(t, pixel.data, pixelColour);
         resolve();
       });
     });
   }, 'Tests that frames are actually rendered correctly in a stream used for a video element.');

   promise_test(async t => {
     const worker = await createWorker(`
         const generator = new VideoTrackGenerator();
         const videoFrame = makeVideoFrame(1);
         const originalWidth = videoFrame.displayWidth;
         const originalHeight = videoFrame.displayHeight;
         let intervalId;
         self.onmessage = async (event) => {
           if (event.data == "transfer") {
             self.postMessage({ track: generator.track}, [generator.track]);
             // Write frames for the duration of the test.
             const writer = generator.writable.getWriter();
             let timestamp = 0;
             intervalId = setInterval(async () => {
               timestamp++;
               await writer.write(makeVideoFrame(timestamp));
             }, 40);
             return;
           }
         }
     `);

     worker.postMessage("transfer");
     const { track } = await new Promise(resolve => worker.onmessage = e => resolve(e.data));
     t.add_cleanup(() => track.stop());

     const video = document.createElement('video');
     video.autoplay = true;
     video.width = width;
     video.height = height;
     video.muted = true;

     await initiateSingleTrackCall(t, track, video);
     return new Promise(resolve => {
       video.requestVideoFrameCallback(t.step_func(() => {
         const canvas = document.createElement('canvas');
         canvas.width = width;
         canvas.height = height;
         const context = canvas.getContext('2d');
         context.drawImage(video, 0, 0);
         // Pick a pixel in the centre of the video and check that it has the
         // colour of the frame provided.
         const pixel = context.getImageData(width / 2, height / 2, 1, 1);
         // Encoding/decoding can add noise, so increase the threshhold to 8.
         assertPixel(t, pixel.data, pixelColour, 8);
         resolve();
       }));
     });
   }, 'Tests that frames are actually rendered correctly in a stream sent over a peer connection.');

    promise_test(async t => {
      const colorUL = [255, 0, 0, 255];
      const colorUR = [255, 255, 0, 255];
      const colorLL = [0, 255, 0, 255];
      const colorLR = [0, 255, 255, 255];
      const worker = await createWorker(`
          const generator = new VideoTrackGenerator();
          const videoFrame = makeVideoFrame(1);
          const originalWidth = videoFrame.displayWidth;
          const originalHeight = videoFrame.displayHeight;
          let intervalId;
          self.onmessage = async (event) => {
            if (event.data == "transfer") {
              self.postMessage({ track: generator.track}, [generator.track]);
              const inputCanvas = new OffscreenCanvas(width, height);
              const inputContext = inputCanvas.getContext('2d', {alpha: false});
              // draw four quadrants
              inputContext.fillStyle = \`rgba(${colorUL.join()})\`;
              inputContext.fillRect(0, 0, width / 2, height / 2);
              inputContext.fillStyle = \`rgba(${colorUR.join()})\`;
              inputContext.fillRect(width / 2, 0, width / 2, height / 2);
              inputContext.fillStyle = \`rgba(${colorLL.join()})\`;
              inputContext.fillRect(0, height / 2, width / 2, height / 2);
              inputContext.fillStyle = \`rgba(${colorLR.join()})\`;
              inputContext.fillRect(width / 2, height / 2, width / 2, height / 2);

              // Write frames for the duration of the test.
              const writer = generator.writable.getWriter();
              let timestamp = 0;
              const intervalId = setInterval(async () => {
                timestamp++;
                await writer.write(new VideoFrame(inputCanvas, {timestamp: timestamp, alpha: 'discard'}));
              }, 40);
              return;
            }
            if (event.data.type === "getVideoFrame") {
              const processor = new MediaStreamTrackProcessor({ track: event.data.track });
              const reader = processor.readable.getReader();
              const frame = (await reader.read()).value;
              self.postMessage({frame}, [frame])
              event.data.track.stop();
            }
          }
      `);

      worker.postMessage("transfer");
      const { track } = await new Promise(resolve => worker.onmessage = e => resolve(e.data));
      t.add_cleanup(() => track.stop());

      const caller = new RTCPeerConnection();
      t.add_cleanup(() => caller.close());
      const callee = new RTCPeerConnection();
      t.add_cleanup(() => callee.close());
      const sender = caller.addTrack(track);

      exchangeIceCandidates(caller, callee);
      // Wait for the first track.
      const e = await exchangeOfferAndListenToOntrack(t, caller, callee);

      // Exchange answer.
      await exchangeAnswer(caller, callee);
      await waitForConnectionStateChange(callee, ['connected']);
      const params = sender.getParameters();
      params.encodings.forEach(e => e.scaleResolutionDownBy = 2);
      sender.setParameters(params);

      // The first frame may not have had scaleResolutionDownBy applied
      const numTries = 5;
      for (let i = 1; i <= numTries; i++) {
        worker.postMessage({type:"getVideoFrame", track: e.track}, [e.track]);
        const {frame: outputFrame} = await new Promise(resolve => worker.onmessage = e => resolve(e.data));
        if (outputFrame.displayWidth !== width / 2) {
          assert_less_than(i, numTries, `First ${numTries} frames were the wrong size.`);
          outputFrame.close();
          continue;
        }

        assert_equals(outputFrame.displayWidth, width / 2);
        assert_equals(outputFrame.displayHeight, height / 2);

        const outputCanvas = new OffscreenCanvas(width / 2, height / 2);
        const outputContext = outputCanvas.getContext('2d', {alpha: false});
        outputContext.drawImage(outputFrame, 0, 0);
        outputFrame.close();
        // Check the four quadrants
        const pixelUL = outputContext.getImageData(width / 8, height / 8, 1, 1);
        assertPixel(t, pixelUL.data, colorUL);
        const pixelUR =
            outputContext.getImageData(width * 3 / 8, height / 8, 1, 1);
        assertPixel(t, pixelUR.data, colorUR);
        const pixelLL =
            outputContext.getImageData(width / 8, height * 3 / 8, 1, 1);
        assertPixel(t, pixelLL.data, colorLL);
        const pixelLR =
            outputContext.getImageData(width * 3 / 8, height * 3 / 8, 1, 1);
        assertPixel(t, pixelLR.data, colorLR);
        break;
      }
    }, 'Tests that frames are sent correctly with RTCRtpEncodingParameters.scaleResolutionDownBy.');

  </script>
</body>
</html>