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Test Info: Warnings
- This test has a WPT meta file that disables it given conditions:
- os == "win" : https://bugzilla.mozilla.org/show_bug.cgi?id=1546879
- This test has a WPT meta file that expects 1 subtest issues.
- This WPT test may be referenced by the following Test IDs:
- /media-source/mediasource-correct-frames-after-reappend.html - WPT Dashboard Interop Dashboard
<!DOCTYPE html>
<!-- Copyright © 2019 Igalia. -->
<html>
<head>
<title>Frame checking test for MSE playback in presence of a reappend.</title>
<meta name="timeout" content="long">
<meta name="charset" content="UTF-8">
<link rel="author" title="Alicia Boya García" href="mailto:aboya@igalia.com">
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<script src="mediasource-util.js"></script>
</head>
<body>
<div id="log"></div>
<canvas id="test-canvas"></canvas>
<script>
function waitForEventPromise(element, event) {
return new Promise(resolve => {
function handler(ev) {
element.removeEventListener(event, handler);
resolve(ev);
}
element.addEventListener(event, handler);
});
}
function appendBufferPromise(sourceBuffer, data) {
sourceBuffer.appendBuffer(data);
return waitForEventPromise(sourceBuffer, "update");
}
function waitForPlayerToReachTimePromise(mediaElement, time) {
return new Promise(resolve => {
function timeupdate() {
if (mediaElement.currentTime < time)
return;
mediaElement.removeEventListener("timeupdate", timeupdate);
resolve();
}
mediaElement.addEventListener("timeupdate", timeupdate);
});
}
function readPixel(imageData, x, y) {
return {
r: imageData.data[4 * (y * imageData.width + x)],
g: imageData.data[1 + 4 * (y * imageData.width + x)],
b: imageData.data[2 + 4 * (y * imageData.width + x)],
a: imageData.data[3 + 4 * (y * imageData.width + x)],
};
}
function isPixelLit(pixel) {
const threshold = 200; // out of 255
return pixel.r >= threshold && pixel.g >= threshold && pixel.b >= threshold;
}
// The test video has a few gray boxes. Each box interval (1 second) a new box is lit white and a different note
// is played. This test makes sure the right number of lit boxes and the right note are played at the right time.
const totalBoxes = 7;
const boxInterval = 1; // seconds
const videoWidth = 320;
const videoHeight = 240;
const boxesY = 210;
const boxSide = 20;
const boxMargin = 20;
const allBoxesWidth = totalBoxes * boxSide + (totalBoxes - 1) * boxMargin;
const boxesX = new Array(totalBoxes).fill(undefined)
.map((_, i) => (videoWidth - allBoxesWidth) / 2 + boxSide / 2 + i * (boxSide + boxMargin));
// Sound starts playing A4 (440 Hz) and goes one chromatic note up with every box lit.
// By comparing the player position to both the amount of boxes lit and the note played we can detect A/V
// synchronization issues automatically.
const noteFrequencies = new Array(1 + totalBoxes).fill(undefined)
.map((_, i) => 440 * Math.pow(Math.pow(2, 1 / 12), i));
// We also check the first second [0, 1) where no boxes are lit, therefore we start counting at -1 to do the check
// for zero lit boxes.
let boxesLitSoFar = -1;
mediasource_test(async function (test, mediaElement, mediaSource) {
const canvas = document.getElementById("test-canvas");
const canvasCtx = canvas.getContext("2d");
canvas.width = videoWidth;
canvas.height = videoHeight;
const videoData = await (await fetch("mp4/test-boxes-video.mp4")).arrayBuffer();
const audioData = (await (await fetch("mp4/test-boxes-audio.mp4")).arrayBuffer());
const videoSb = mediaSource.addSourceBuffer('video/mp4; codecs="avc1.4d401f"');
const audioSb = mediaSource.addSourceBuffer('audio/mp4; codecs="mp4a.40.2"');
mediaElement.addEventListener('error', test.unreached_func("Unexpected event 'error'"));
mediaElement.addEventListener('ended', onEnded);
mediaElement.addEventListener('timeupdate', onTimeUpdate);
await appendBufferPromise(videoSb, videoData);
await appendBufferPromise(audioSb, audioData);
mediaElement.play();
audioCtx = new (window.AudioContext || window.webkitAudioContext)();
source = audioCtx.createMediaElementSource(mediaElement);
analyser = audioCtx.createAnalyser();
analyser.fftSize = 8192;
source.connect(analyser);
analyser.connect(audioCtx.destination);
const freqDomainArray = new Float32Array(analyser.frequencyBinCount);
function checkNoteBeingPlayed() {
const expectedNoteFrequency = noteFrequencies[boxesLitSoFar];
analyser.getFloatFrequencyData(freqDomainArray);
const maxBin = freqDomainArray.reduce((prev, curValue, i) =>
curValue > prev.value ? {index: i, value: curValue} : prev,
{index: -1, value: -Infinity});
const binFrequencyWidth = audioCtx.sampleRate / analyser.fftSize;
const binFreq = maxBin.index * binFrequencyWidth;
assert_true(Math.abs(expectedNoteFrequency - binFreq) <= binFrequencyWidth,
`The note being played matches the expected one (boxes lit: ${boxesLitSoFar}, ${expectedNoteFrequency.toFixed(1)} Hz)` +
`, found ~${binFreq.toFixed(1)} Hz`);
}
function countLitBoxesInCurrentVideoFrame() {
canvasCtx.drawImage(mediaElement, 0, 0);
const imageData = canvasCtx.getImageData(0, 0, videoWidth, videoHeight);
const lights = boxesX.map(boxX => isPixelLit(readPixel(imageData, boxX, boxesY)));
let litBoxes = 0;
for (let i = 0; i < lights.length; i++) {
if (lights[i])
litBoxes++;
}
for (let i = litBoxes; i < lights.length; i++) {
assert_false(lights[i], 'After the first non-lit box, all boxes must non-lit');
}
return litBoxes;
}
await waitForPlayerToReachTimePromise(mediaElement, 2.5);
await appendBufferPromise(audioSb, audioData);
mediaSource.endOfStream();
function onTimeUpdate() {
const graceTime = 0.5;
if (mediaElement.currentTime >= (1 + boxesLitSoFar) * boxInterval + graceTime && boxesLitSoFar < totalBoxes) {
assert_equals(countLitBoxesInCurrentVideoFrame(), boxesLitSoFar + 1, "Num of lit boxes:");
boxesLitSoFar++;
checkNoteBeingPlayed();
}
}
function onEnded() {
assert_equals(boxesLitSoFar, totalBoxes, "Boxes lit at video ended event");
test.done();
}
}, "Test the expected frames are played at the expected times, even in presence of reappends");
</script>
</body>
</html>