gecko/content/base/test/test_fileapi.html

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<!DOCTYPE HTML>
<html>
<head>
<!--
https://bugzilla.mozilla.org/show_bug.cgi?id=414796
-->
<title>Test for Bug 414796</title>
<script type="text/javascript" src="/MochiKit/packed.js"></script>
<script type="text/javascript" src="/tests/SimpleTest/SimpleTest.js"></script>
<link rel="stylesheet" type="text/css" href="/tests/SimpleTest/test.css" />
</head>
<body>
<a target="_blank" href="https://bugzilla.mozilla.org/show_bug.cgi?id=414796">Mozilla Bug 414796</a>
<p id="display">
<input id="fileList" type="file"></input>
</p>
<div id="content" style="display: none">
</div>
<pre id="test">
<script class="testbody" type="text/javascript">
const minFileSize = 20000;
var fileNum = 1;
var testRanCounter = 0;
var expectedTestCount = 0;
SimpleTest.waitForExplicitFinish();
netscape.security.PrivilegeManager.enablePrivilege("UniversalXPConnect");
is(FileReader.EMPTY, 0, "correct EMPTY value");
is(FileReader.LOADING, 1, "correct LOADING value");
is(FileReader.DONE, 2, "correct DONE value");
// Create strings containing data we'll test with. We'll want long
// strings to ensure they span multiple buffers while loading
var testTextData = "asd b\tlah\u1234w\u00a0r";
while (testTextData.length < minFileSize) {
testTextData = testTextData + testTextData;
}
var testASCIIData = "abcdef 123456\n";
while (testASCIIData.length < minFileSize) {
testASCIIData = testASCIIData + testASCIIData;
}
var testBinaryData = "";
for (var i = 0; i < 256; i++) {
testBinaryData += String.fromCharCode(i);
}
while (testBinaryData.length < minFileSize) {
testBinaryData = testBinaryData + testBinaryData;
}
//Set up files for testing
var asciiFile = createFileWithData(testASCIIData);
var binaryFile = createFileWithData(testBinaryData);
var fileList = document.getElementById('fileList');
fileList.value = "/none/existing/path/fileAPI/testing";
var nonExistingFile = fileList.files[0];
// Test that plain reading works and fires events as expected, both
// for text and binary reading
var onloadHasRunText = false;
var onloadStartHasRunText = false;
r = new FileReader();
is(r.readyState, FileReader.EMPTY, "correct initial text readyState");
r.onload = getLoadHandler(testASCIIData, testASCIIData.length, "plain reading");
r.addEventListener("load", function() { onloadHasRunText = true }, false);
r.addEventListener("loadstart", function() { onloadStartHasRunText = true }, false);
r.readAsText(asciiFile);
is(r.readyState, FileReader.LOADING, "correct loading text readyState");
is(onloadHasRunText, false, "text loading must be async");
is(onloadStartHasRunText, true, "text loadstart should fire sync");
expectedTestCount++;
var onloadHasRunBinary = false;
var onloadStartHasRunBinary = false;
r = new FileReader();
is(r.readyState, FileReader.EMPTY, "correct initial binary readyState");
r.addEventListener("load", function() { onloadHasRunBinary = true }, false);
r.addEventListener("loadstart", function() { onloadStartHasRunBinary = true }, false);
r.readAsBinaryString(binaryFile);
r.onload = getLoadHandler(testBinaryData, testBinaryData.length, "binary reading");
is(r.readyState, FileReader.LOADING, "correct loading binary readyState");
is(onloadHasRunBinary, false, "binary loading must be async");
is(onloadStartHasRunBinary, true, "binary loadstart should fire sync");
expectedTestCount++;
// Test a variety of encodings, and make sure they work properly
r = new FileReader();
r.onload = getLoadHandler(testASCIIData, testASCIIData.length, "no encoding reading");
r.readAsText(asciiFile, "");
expectedTestCount++;
r = new FileReader();
r.onload = getLoadHandler(testASCIIData, testASCIIData.length, "iso8859 reading");
r.readAsText(asciiFile, "iso-8859-1");
expectedTestCount++;
r = new FileReader();
r.onload = getLoadHandler(testTextData,
convertToUTF8(testTextData).length,
"utf8 reading");
r.readAsText(createFileWithData(convertToUTF8(testTextData)), "utf8");
expectedTestCount++;
r = new FileReader();
r.readAsText(createFileWithData(convertToUTF16(testTextData)), "utf-16");
r.onload = getLoadHandler(testTextData,
convertToUTF16(testTextData).length,
"utf16 reading");
expectedTestCount++;
r = new FileReader();
r.onload = getLoadHandler(testTextData,
convertToUTF32(testTextData).length,
"utf32 reading");
r.readAsText(createFileWithData(convertToUTF32(testTextData)), "UTF-32");
expectedTestCount++;
// Test reusing a FileReader to read multiple times
r = new FileReader();
r.onload = getLoadHandler(testASCIIData,
testASCIIData.length,
"to-be-reused reading text")
var makeAnotherReadListener = function(event) {
r = event.target;
r.removeEventListener("load", makeAnotherReadListener, false);
r.onload = getLoadHandler(testASCIIData,
testASCIIData.length,
"reused reading text");
r.readAsText(asciiFile);
};
r.addEventListener("load", makeAnotherReadListener, false);
r.readAsText(asciiFile);
expectedTestCount += 2;
r = new FileReader();
r.onload = getLoadHandler(testBinaryData,
testBinaryData.length,
"to-be-reused reading binary")
var makeAnotherReadListener2 = function(event) {
r = event.target;
r.removeEventListener("load", makeAnotherReadListener2, false);
r.onload = getLoadHandler(testBinaryData,
testBinaryData.length,
"reused reading binary");
r.readAsBinaryString(binaryFile);
};
r.addEventListener("load", makeAnotherReadListener2, false);
r.readAsBinaryString(binaryFile);
expectedTestCount += 2;
r = new FileReader();
r.onload = getLoadHandler(convertToDataURL(testBinaryData),
testBinaryData.length,
"to-be-reused reading data url")
var makeAnotherReadListener3 = function(event) {
r = event.target;
r.removeEventListener("load", makeAnotherReadListener3, false);
r.onload = getLoadHandler(convertToDataURL(testBinaryData),
testBinaryData.length,
"reused reading data url");
r.readAsDataURL(binaryFile);
};
r.addEventListener("load", makeAnotherReadListener3, false);
r.readAsDataURL(binaryFile);
expectedTestCount += 2;
//Test data-URI encoding on differing file sizes
dataurldata = testBinaryData.substr(0, testBinaryData.length -
testBinaryData.length % 3);
is(dataurldata.length % 3, 0, "Want to test data with length % 3 == 0");
r = new FileReader();
r.onload = getLoadHandler(convertToDataURL(dataurldata),
dataurldata.length,
"dataurl reading, %3 = 0");
r.readAsDataURL(createFileWithData(dataurldata));
expectedTestCount++;
dataurldata = testBinaryData.substr(0, testBinaryData.length - 2 -
testBinaryData.length % 3);
is(dataurldata.length % 3, 1, "Want to test data with length % 3 == 1");
r = new FileReader();
r.onload = getLoadHandler(convertToDataURL(dataurldata),
dataurldata.length,
"dataurl reading, %3 = 1");
r.readAsDataURL(createFileWithData(dataurldata));
expectedTestCount++;
dataurldata = testBinaryData.substr(0, testBinaryData.length - 1 -
testBinaryData.length % 3);
is(dataurldata.length % 3, 2, "Want to test data with length % 3 == 2");
r = new FileReader();
r.onload = getLoadHandler(convertToDataURL(dataurldata),
dataurldata.length,
"dataurl reading, %3 = 2");
r.readAsDataURL(createFileWithData(dataurldata));
expectedTestCount++;
// Test abort()
var abortHasRun = false;
var loadEndHasRun = false;
r = new FileReader();
r.onabort = function (event) {
is(abortHasRun, false, "abort should only fire once");
is(loadEndHasRun, false, "loadend shouldn't have fired yet");
abortHasRun = true;
is(event.target.readyState, FileReader.DONE, "should be DONE while firing onabort");
is(event.target.error.code, FileError.ABORT_ERR, "error code set to ABORT for aborted reads");
is(event.target.result, null, "file data should be null on aborted reads");
}
r.onloadend = function (event) {
is(abortHasRun, true, "abort should fire before loadend");
is(loadEndHasRun, false, "loadend should only fire once");
loadEndHasRun = true;
is(event.target.readyState, FileReader.DONE, "should be DONE while firing onabort");
is(event.target.error.code, FileError.ABORT_ERR, "error code set to ABORT for aborted reads");
is(event.target.result, null, "file data should be null on aborted reads");
}
r.onload = function() { ok(false, "load should not fire for aborted reads") };
r.onerror = function() { ok(false, "error should not fire for aborted reads") };
r.onprogress = function() { ok(false, "progress should not fire for aborted reads") };
r.abort();
is(abortHasRun, false, "abort() is a no-op unless loading");
r.readAsText(asciiFile);
r.abort();
is(abortHasRun, true, "abort should fire sync");
is(loadEndHasRun, true, "loadend should fire sync");
// Test calling readAsX to cause abort()
var reuseAbortHasRun = false;
r = new FileReader();
r.onabort = function (event) {
is(reuseAbortHasRun, false, "abort should only fire once");
reuseAbortHasRun = true;
is(event.target.readyState, FileReader.DONE, "should be DONE while firing onabort");
is(event.target.error.code, FileError.ABORT_ERR, "error code set to ABORT for aborted reads");
is(event.target.result, null, "file data should be null on aborted reads");
}
r.onload = function() { ok(false, "load should not fire for aborted reads") };
r.abort();
is(reuseAbortHasRun, false, "abort() is a no-op unless loading");
r.readAsText(asciiFile);
r.readAsText(asciiFile);
is(reuseAbortHasRun, true, "abort should fire sync");
r.onload = getLoadHandler(testASCIIData, testASCIIData.length, "reuse-as-abort reading");
expectedTestCount++;
// Test reading from nonexistent files
r = new FileReader();
var didThrow = false;
try {
r.readAsDataURL(nonExistingFile);
} catch(ex) {
didThrow = true;
}
// Once this test passes, we shoud test that onerror gets called and
// that the FileReader object is in the right state during that call.
todo(!didThrow, "shouldn't throw when opening nonexistent file, should fire error instead");
function getLoadHandler(expectedResult, expectedLength, testName) {
return function (event) {
is(event.target.readyState, FileReader.DONE,
"readyState in test " + testName);
is(event.target.error, null,
"no error in test " + testName);
is(event.target.result, expectedResult,
"result in test " + testName);
is(event.lengthComputable, true,
"lengthComputable in test " + testName);
is(event.loaded, expectedLength,
"lengthComputable in test " + testName);
is(event.total, expectedLength,
"lengthComputable in test " + testName);
testHasRun();
}
}
function testHasRun() {
//alert(testRanCounter);
++testRanCounter;
if (testRanCounter == expectedTestCount) {
is(onloadHasRunText, true, "onload text should have fired by now");
is(onloadHasRunBinary, true, "onload binary should have fired by now");
SimpleTest.finish();
}
}
function createFileWithData(fileData) {
var dirSvc = Components.classes["@mozilla.org/file/directory_service;1"].getService(Components.interfaces.nsIProperties);
var testFile = dirSvc.get("ProfD", Components.interfaces.nsIFile);
testFile.append("fileAPItestfile" + fileNum);
fileNum++;
var outStream = Components.classes["@mozilla.org/network/file-output-stream;1"].createInstance(Components.interfaces.nsIFileOutputStream);
outStream.init(testFile, 0x02 | 0x08 | 0x20, // write, create, truncate
0666, 0);
outStream.write(fileData, fileData.length);
outStream.close();
var fileList = document.getElementById('fileList');
fileList.value = testFile.path;
return fileList.files[0];
}
function convertToUTF16(s) {
res = "";
for (var i = 0; i < s.length; ++i) {
c = s.charCodeAt(i);
res += String.fromCharCode(c >>> 8, c & 255);
}
return res;
}
function convertToUTF32(s) {
res = "";
for (var i = 0; i < s.length; ++i) {
c = s.charCodeAt(i);
res += "\0\0" + String.fromCharCode(c >>> 8, c & 255);
}
return res;
}
function convertToUTF8(s) {
return unescape(encodeURIComponent(s));
}
function convertToDataURL(s) {
return "data:application/octet-stream;base64," + btoa(s);
}
</script>
</pre>
</body> </html>