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author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
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committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
tree | 10027f336435511475e392454359edea8e25895d /dom/media/webaudio/test/test_audioContextSuspendResumeClose.html | |
parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
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Add m-esr52 at 52.6.0
Diffstat (limited to 'dom/media/webaudio/test/test_audioContextSuspendResumeClose.html')
-rw-r--r-- | dom/media/webaudio/test/test_audioContextSuspendResumeClose.html | 410 |
1 files changed, 410 insertions, 0 deletions
diff --git a/dom/media/webaudio/test/test_audioContextSuspendResumeClose.html b/dom/media/webaudio/test/test_audioContextSuspendResumeClose.html new file mode 100644 index 000000000..269d5380e --- /dev/null +++ b/dom/media/webaudio/test/test_audioContextSuspendResumeClose.html @@ -0,0 +1,410 @@ +<!DOCTYPE HTML> +<html> +<head> + <title>Test suspend, resume and close method of the AudioContext</title> + <script type="text/javascript" src="/tests/SimpleTest/SimpleTest.js"></script> + <script type="text/javascript" src="webaudio.js"></script> + <link rel="stylesheet" type="text/css" href="/tests/SimpleTest/test.css" /> +</head> +<body> +<pre id="test"> +<script class="testbody" type="text/javascript"> + +function tryToCreateNodeOnClosedContext(ctx) { + ok(ctx.state, "closed", "The context is in closed state"); + + [ { name: "createBufferSource" }, + { name: "createMediaStreamDestination", + onOfflineAudioContext: false}, + { name: "createScriptProcessor" }, + { name: "createStereoPanner" }, + { name: "createAnalyser" }, + { name: "createGain" }, + { name: "createDelay" }, + { name: "createBiquadFilter" }, + { name: "createWaveShaper" }, + { name: "createPanner" }, + { name: "createConvolver" }, + { name: "createChannelSplitter" }, + { name: "createChannelMerger" }, + { name: "createDynamicsCompressor" }, + { name: "createOscillator" }, + { name: "createMediaElementSource", + args: [new Audio()], + onOfflineAudioContext: false }, + { name: "createMediaStreamSource", + args: [new Audio().mozCaptureStream()], + onOfflineAudioContext: false } ].forEach(function(e) { + + if (e.onOfflineAudioContext == false && + ctx instanceof OfflineAudioContext) { + return; + } + + expectException(function() { + ctx[e.name].apply(ctx, e.args); + }, DOMException.INVALID_STATE_ERR); + }); +} + +function loadFile(url, callback) { + var xhr = new XMLHttpRequest(); + xhr.open("GET", url, true); + xhr.responseType = "arraybuffer"; + xhr.onload = function() { + callback(xhr.response); + }; + xhr.send(); +} + +// createBuffer, createPeriodicWave and decodeAudioData should work on a context +// that has `state` == "closed" +function tryLegalOpeerationsOnClosedContext(ctx) { + ok(ctx.state, "closed", "The context is in closed state"); + + [ { name: "createBuffer", + args: [1, 44100, 44100] }, + { name: "createPeriodicWave", + args: [new Float32Array(10), new Float32Array(10)] } + ].forEach(function(e) { + expectNoException(function() { + ctx[e.name].apply(ctx, e.args); + }); + }); + loadFile("ting-44.1k-1ch.ogg", function(buf) { + ctx.decodeAudioData(buf).then(function(decodedBuf) { + ok(true, "decodeAudioData on a closed context should work, it did.") + todo(false, "0 " + (ctx instanceof OfflineAudioContext ? "Offline" : "Realtime")); + finish(); + }).catch(function(e){ + ok(false, "decodeAudioData on a closed context should work, it did not"); + finish(); + }); + }); +} + +// Test that MediaStreams that are the output of a suspended AudioContext are +// producing silence +// ac1 produce a sine fed to a MediaStreamAudioDestinationNode +// ac2 is connected to ac1 with a MediaStreamAudioSourceNode, and check that +// there is silence when ac1 is suspended +function testMultiContextOutput() { + var ac1 = new AudioContext(), + ac2 = new AudioContext(); + + ac1.onstatechange = function() { + ac1.onstatechange = null; + + var osc1 = ac1.createOscillator(), + mediaStreamDestination1 = ac1.createMediaStreamDestination(); + + var mediaStreamAudioSourceNode2 = + ac2.createMediaStreamSource(mediaStreamDestination1.stream), + sp2 = ac2.createScriptProcessor(), + silentBuffersInARow = 0; + + + sp2.onaudioprocess = function(e) { + ac1.suspend().then(function() { + is(ac1.state, "suspended", "ac1 is suspended"); + sp2.onaudioprocess = checkSilence; + }); + sp2.onaudioprocess = null; + } + + function checkSilence(e) { + var input = e.inputBuffer.getChannelData(0); + var silent = true; + for (var i = 0; i < input.length; i++) { + if (input[i] != 0.0) { + silent = false; + } + } + + todo(false, "input buffer is " + (silent ? "silent" : "noisy")); + + if (silent) { + silentBuffersInARow++; + if (silentBuffersInARow == 10) { + ok(true, + "MediaStreams produce silence when their input is blocked."); + sp2.onaudioprocess = null; + ac1.close(); + ac2.close(); + todo(false,"1"); + finish(); + } + } else { + is(silentBuffersInARow, 0, + "No non silent buffer inbetween silent buffers."); + } + } + + osc1.connect(mediaStreamDestination1); + + mediaStreamAudioSourceNode2.connect(sp2); + osc1.start(); + } +} + + +// Test that there is no buffering between contexts when connecting a running +// AudioContext to a suspended AudioContext. Our ScriptProcessorNode does some +// buffering internally, so we ensure this by using a very very low frequency +// on a sine, and oberve that the phase has changed by a big enough margin. +function testMultiContextInput() { + var ac1 = new AudioContext(), + ac2 = new AudioContext(); + + ac1.onstatechange = function() { + ac1.onstatechange = null; + + var osc1 = ac1.createOscillator(), + mediaStreamDestination1 = ac1.createMediaStreamDestination(), + sp1 = ac1.createScriptProcessor(); + + var mediaStreamAudioSourceNode2 = + ac2.createMediaStreamSource(mediaStreamDestination1.stream), + sp2 = ac2.createScriptProcessor(), + eventReceived = 0; + + + osc1.frequency.value = 0.0001; + + function checkDiscontinuity(e) { + var inputBuffer = e.inputBuffer.getChannelData(0); + if (eventReceived++ == 3) { + var delta = Math.abs(inputBuffer[1] - sp2.value), + theoreticalIncrement = 2048 * 3 * Math.PI * 2 * osc1.frequency.value / ac1.sampleRate; + ok(delta >= theoreticalIncrement, + "Buffering did not occur when the context was suspended (delta:" + delta + " increment: " + theoreticalIncrement+")"); + ac1.close(); + ac2.close(); + sp1.onaudioprocess = null; + sp2.onaudioprocess = null; + todo(false, "2"); + finish(); + } + } + + sp2.onaudioprocess = function(e) { + var inputBuffer = e.inputBuffer.getChannelData(0); + sp2.value = inputBuffer[inputBuffer.length - 1]; + ac2.suspend().then(function() { + ac2.resume().then(function() { + sp2.onaudioprocess = checkDiscontinuity; + }); + }); + } + + osc1.connect(mediaStreamDestination1); + osc1.connect(sp1); + + mediaStreamAudioSourceNode2.connect(sp2); + osc1.start(); + } +} + +// Test that ScriptProcessorNode's onaudioprocess don't get called while the +// context is suspended/closed. It is possible that we get the handler called +// exactly once after suspend, because the event has already been sent to the +// event loop. +function testScriptProcessNodeSuspended() { + var ac = new AudioContext(); + var sp = ac.createScriptProcessor(); + var remainingIterations = 30; + var afterResume = false; + ac.onstatechange = function() { + ac.onstatechange = null; + sp.onaudioprocess = function() { + ok(ac.state == "running", "If onaudioprocess is called, the context" + + " must be running (was " + ac.state + ", remainingIterations:" + remainingIterations +")"); + remainingIterations--; + if (!afterResume) { + if (remainingIterations == 0) { + ac.suspend().then(function() { + ac.resume().then(function() { + remainingIterations = 30; + afterResume = true; + }); + }); + } + } else { + sp.onaudioprocess = null; + todo(false,"3"); + finish(); + } + } + } + sp.connect(ac.destination); +} + +// Take an AudioContext, make sure it switches to running when the audio starts +// flowing, and then, call suspend, resume and close on it, tracking its state. +function testAudioContext() { + var ac = new AudioContext(); + is(ac.state, "suspended", "AudioContext should start in suspended state."); + var stateTracker = { + previous: ac.state, + // no promise for the initial suspended -> running + initial: { handler: false }, + suspend: { promise: false, handler: false }, + resume: { promise: false, handler: false }, + close: { promise: false, handler: false } + }; + + function initialSuspendToRunning() { + ok(stateTracker.previous == "suspended" && + ac.state == "running", + "AudioContext should switch to \"running\" when the audio hardware is" + + " ready."); + + stateTracker.previous = ac.state; + ac.onstatechange = afterSuspend; + stateTracker.initial.handler = true; + + ac.suspend().then(function() { + ok(!stateTracker.suspend.promise && !stateTracker.suspend.handler, + "Promise should be resolved before the callback, and only once.") + stateTracker.suspend.promise = true; + }); + } + + function afterSuspend() { + ok(stateTracker.previous == "running" && + ac.state == "suspended", + "AudioContext should switch to \"suspend\" when the audio stream is" + + "suspended."); + ok(stateTracker.suspend.promise && !stateTracker.suspend.handler, + "Handler should be called after the callback, and only once"); + + stateTracker.suspend.handler = true; + stateTracker.previous = ac.state; + ac.onstatechange = afterResume; + + ac.resume().then(function() { + ok(!stateTracker.resume.promise && !stateTracker.resume.handler, + "Promise should be called before the callback, and only once"); + stateTracker.resume.promise = true; + }); + } + + function afterResume() { + ok(stateTracker.previous == "suspended" && + ac.state == "running", + "AudioContext should switch to \"running\" when the audio stream resumes."); + + ok(stateTracker.resume.promise && !stateTracker.resume.handler, + "Handler should be called after the callback, and only once"); + + stateTracker.resume.handler = true; + stateTracker.previous = ac.state; + ac.onstatechange = afterClose; + + ac.close().then(function() { + ok(!stateTracker.close.promise && !stateTracker.close.handler, + "Promise should be called before the callback, and only once"); + stateTracker.close.promise = true; + tryToCreateNodeOnClosedContext(ac); + tryLegalOpeerationsOnClosedContext(ac); + }); + } + + function afterClose() { + ok(stateTracker.previous == "running" && + ac.state == "closed", + "AudioContext should switch to \"closed\" when the audio stream is" + + " closed."); + ok(stateTracker.close.promise && !stateTracker.close.handler, + "Handler should be called after the callback, and only once"); + } + + ac.onstatechange = initialSuspendToRunning; +} + +function testOfflineAudioContext() { + var o = new OfflineAudioContext(1, 44100, 44100); + is(o.state, "suspended", "OfflineAudioContext should start in suspended state."); + + expectRejectedPromise(o, "suspend", "NotSupportedError"); + expectRejectedPromise(o, "resume", "NotSupportedError"); + expectRejectedPromise(o, "close", "NotSupportedError"); + + var previousState = o.state, + finishedRendering = false; + function beforeStartRendering() { + ok(previousState == "suspended" && o.state == "running", "onstatechanged" + + "handler is called on state changed, and the new state is running"); + previousState = o.state; + o.onstatechange = onRenderingFinished; + } + + function onRenderingFinished() { + ok(previousState == "running" && o.state == "closed", + "onstatechanged handler is called when rendering finishes, " + + "and the new state is closed"); + ok(finishedRendering, "The Promise that is resolved when the rendering is" + + "done should be resolved earlier than the state change."); + previousState = o.state; + o.onstatechange = afterRenderingFinished; + + tryToCreateNodeOnClosedContext(o); + tryLegalOpeerationsOnClosedContext(o); + } + + function afterRenderingFinished() { + ok(false, "There should be no transition out of the closed state."); + } + + o.onstatechange = beforeStartRendering; + + o.startRendering().then(function(buffer) { + finishedRendering = true; + }); +} + +function testSuspendResumeEventLoop() { + var ac = new AudioContext(); + var source = ac.createBufferSource(); + source.buffer = ac.createBuffer(1, 44100, 44100); + source.onended = function() { + ok(true, "The AudioContext did resume."); + finish(); + } + ac.onstatechange = function() { + ac.onstatechange = null; + + ok(ac.state == "running", "initial state is running"); + ac.suspend(); + source.start(); + ac.resume(); + } +} + +var remaining = 0; +function finish() { + remaining--; + if (remaining == 0) { + SimpleTest.finish(); + } +} + + +SimpleTest.waitForExplicitFinish(); +addLoadEvent(function() { + var tests = [ + testAudioContext, + testOfflineAudioContext, + testScriptProcessNodeSuspended, + testMultiContextOutput, + testMultiContextInput, + testSuspendResumeEventLoop + ]; + remaining = tests.length; + tests.forEach(function(f) { f() }); +}); + +</script> +</pre> +</body> +</html> |