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XMLHttpRequest
を使うとHTTPリクエストをとても簡単に送信できます.単にオブジェクトのインスタンスを生成し.URLをオープンして,リクエストを送信するだけです.トランザクションが完了すると, 結果のHTTP statusと内容をリクエストオブジェクトから取得できます.本ページでは、この強力なJavaScriptオブジェクトのユースケースについて、一般的なものから分かりづらいものまで、概観します.XMLHttpRequest
makes sending HTTP requests very easy. You simply create an instance of the object, open a URL, and send the request. The HTTP status of the result, as well as the result's contents, are available in the request object when the transaction is completed. This page outlines some of the common and even slightly obscure use cases for this powerful JavaScript object.
リクエストの種類
XMLHttpRequest経由で作成されたリクエストは,非同期または同期のいずれかの方法でデータを取得することが可能です.リクエストをどちらの方法で行うのかは、XMLHttpRequest .open()メソッドのasync
プロパティで指示できます(オプション).このプロパティをfalseにセットするとXMLHttpRequestは同期処理となります.それ以外だと非同期処理になります.これら2種類のリクエストの詳細および使用例は,同期および非同期リクエストのページを参照してください.
(以下原文)
A request made via XMLHttpRequest can fetch the data in one of two ways, asynchronously or synchronously. The type of request is dictated by the optional async
property that is set on the XMLHttpRequest .open() method. If this property is set to false, then the XMLHttpRequest will be processed synchronously, otherwise the process will be done asynchronously. A detailed discussion and demonstrations of these two types of requests can be found on the synchronous and asynchronous requests page.
レスポンスの取り扱い
W3C標準はXMLHttpRequestの応答メッセージに何種類かの属性を定義しています(response attributes). クライアントはこれを使って, 応答の状態に関する重要な情報を XMLHttpRequest から読み出すことができます. 多くのユースケースでは, そのやり方は下の例のように分かりやすいものになります:
(以下原文)
There are several types of response attributes defined by the W3C specification for XMLHttpRequest. These tell the client making the XMLHttpRequest important information about the status of the response. For many use cases this is as straightforward as the following example:
状況によっては, リモートからの応答をXMLHttpRequestから取り出すのが, 上の例のように簡単でないこともあります. その例として, responseXMLやresponseTextの操作や解析を伴う例を, 以下のセクションで紹介します.
(以下原文)
There are some situations where the contents of a remote response from an XMLHttpRequest may not be handled as easily as the case above. A few of these cases where dealing with reponseXML and responseText involves some manipulation and analysis are outlined in the following sections.
responseXML
プロパティの解析と操作
If you use XMLHttpRequest
to get the content of a remote XML document, the responseXML
property will be a DOM Object containing a parsed XML document, which can be hard to manipulate and analyze. There are four primary ways of analyzing this XML document:
- Using XPath to address (point to) parts of it.
- Using JXON to convert it into a JavaScript Object tree.
- Manually Parsing and serializing XML to strings or objects.
- Using XMLSerializer to serialize DOM trees to strings or to files.
- RegExp can be used if you always know the content of the XML document beforehand. You might want to remove line breaks, if you use RegExp to scan with regard to linebreaks. However, this method is a "last resort" since if the XML code changes slightly, the method will likely fail.
HTML ドキュメントを含むresponseText
プロパティの解析と操作
XMLHttpRequest
, which originally supported only XML parsing. This feature allows Web apps to obtain an HTML resource as a parsed DOM using XMLHttpRequest.responseXML
property. Read the article about HTML in XMLHttpRequest for details.If you use XMLHttpRequest
to get the content of a remote HTML webpage, the responseText
property is a string containing a "soup" of all the HTML tags, which can be hard to manipulate and analyze. There are three primary ways of analyzing this HTML soup string:
- Safely parsing with nsIScriptableUnescapeHTML will quickly convert the HTML string into DOM, while stripping out JavaScript and other advanced elements, including the
<head>
of the webpage. - RegExp can be used if you always know the content of the HTML
responseText
beforehand. You might want to remove line breaks, if you use RegExp to scan with regard to linebreaks. However, this method is a "last resort" since if the HTML code changes slightly, the method will likely fail. - Using a hidden chrome or content-level iframe to load up the webpage can also be done to then manipulate it as DOM, however there are security risks to giving remote code this level of privileged access, which can cause issues for the review of your addon. For example, if a webpage executes the common "
document.location = redirecttothispage.html
" command on load, this will get interpreted as changing the browser chrome location (document.location
in an extension) as opposed to the webpage location (content.document.location
in an extension), thus destroying all browser components. Alternatively, and somewhat safer, aresponseText
string attained through aXMLHttpRequest
can be analyzed using RegExp to remove potential JavaScript problems, then loaded into the hidden iframe that you have set up:
document.getElementById("hiddenXULiframe").contentWindow.document.body.innerHTML = req.responseText
Using FormData objects
The FormData
object lets you compile a set of key/value pairs to send using XMLHttpRequest
. Its primarily intended for use in sending form data, but can be used independently from forms in order to transmit keyed data. The transmitted data is in the same format that the form's submit()
method would use to send the data if the form's encoding type were set to "multipart/form-data". FormData objects can be utilized in a number of ways with an XMLHttpRequest. For examples and explanations of how one can utilize FormData with XMLHttpRequests see the Using FormData Objects page.
Sending forms through the URL string
When a <form>
uses the GET
method, you can send its content directly through the URL string:
<!doctype html> <html> <head> <meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /> <title>MDN Example – AJAX and forms</title> <script type="text/javascript"> function AJAXSuccess () { alert(this.responseText); } function AJAXError (oError) { alert("An error occurred, please try again."); } function AJAXGet (oForm) { if (oForm.method.toLowerCase() !== "get") { return; } var sGet = "", aFields = oForm.elements, oReq = new XMLHttpRequest(); for (var oField, nItem = 0; nItem < aFields.length; nItem++) { oField = aFields[nItem]; if (!oField.hasAttribute("name") || (/^(?:radio|checkbox)$/.test(oField.type) && !oField.checked)) { continue; } sGet += "&" + escape(oField.getAttribute("name")) + "=" + escape(oField.value); } oReq.onload = AJAXSuccess; oReq.onerror = AJAXError; oReq.open("get", sGet ? oForm.action + "?" + sGet.slice(1) : oForm.action, true); oReq.send(null); } </script> </head> <body> <form onsubmit="return AJAXGet(this), false;" action="test.php" method="get"> <p> First name: <input type="text" name="firstname" /><br /> Last name: <input type="text" name="lastname" /><br /> Password: <input type="password" name="pwd" /><br /> <input type="radio" name="sex" value="male" /> Male <input type="radio" name="sex" value="female" /> Female </p> <p> <input type="checkbox" name="vehicle" value="Bike" />I have a bike<br /> <input type="checkbox" name="vehicle" value="Car" />I have a car </p> <p> <input type="submit" value="Submit" /> </p> </form> </body> </html>
バイナリデータハンドリング
Although XMLHttpRequest
is most commonly used to send and receive textual data, it can be used to send and receive binary content. There are several well tested methods for coercing the response of an XMLHttpRequest into sending binary data. These involve utilizing the .overrideMimeType() method on the XMLHttpRequest object and is a workable solution.
var xhr = new XMLHttpRequest(); xhr.open("GET", url, true); // retrieve data unprocessed as a binary string xhr.overrideMimeType("text/plain; charset=x-user-defined"); /* ... */
The XMLHttpRequest Level 2 Specification adds new responseType attributes which make sending and receiving binary data much easier.
var xhr = new XMLHttpRequest(); xhr.open("GET", url, true); xhr.responseType = "arraybuffer"; xhr.onload = function(e) { var arraybuffer = xhr.response; // not responseText /* ... */ } xhr.send();
For more examples check out the Sending and Receiving Binary Data page
プロセス監視
XMLHttpRequest
provides the ability to listen to various events that can occur while the request is being processed. This includes periodic progress notifications, error notifications, and so forth.
Support for DOM progress event monitoring of XMLHttpRequest
transfers follows the Web API specification for progress events.
var req = new XMLHttpRequest(); req.addEventListener("progress", updateProgress, false); req.addEventListener("load", transferComplete, false); req.addEventListener("error", transferFailed, false); req.addEventListener("abort", transferCanceled, false); req.open(); ... // progress on transfers from the server to the client (downloads) function updateProgress(evt) { if (evt.lengthComputable) { var percentComplete = evt.loaded / evt.total; ... } else { // Unable to compute progress information since the total size is unknown } } function transferComplete(evt) { alert("The transfer is complete."); } function transferFailed(evt) { alert("An error occurred while transferring the file."); } function transferCanceled(evt) { alert("The transfer has been canceled by the user."); }
Lines 3-6 add event listeners for the various events that are sent while performing a data transfer using XMLHttpRequest
.
open()
on the request. Otherwise the progress events will not fire.The progress event handler, specified by the updateProgress()
function in this example, receives the total number of bytes to transfer as well as the number of bytes transferred so far in the event's total
and loaded
fields. However, if the lengthComputable
field is false, the total length is not known and will be zero.
Progress events exist for both download and upload transfers. The download events are fired on the XMLHttpRequest
object itself, as shown in the above sample. The upload events are fired on the XMLHttpRequest.upload
object, as shown below:
var req = new XMLHttpRequest(); req.upload.addEventListener("progress", updateProgress, false); req.upload.addEventListener("load", transferComplete, false); req.upload.addEventListener("error", transferFailed, false); req.upload.addEventListener("abort", transferCanceled, false); req.open();
file:
protocol.Starting in Gecko 9.0 (Firefox 9.0 / Thunderbird 9.0 / SeaMonkey 2.6), progress events can now be relied upon to come in for every chunk of data received, including the last chunk in cases in which the last packet is received and the connection closed before the progress event is fired. In this case, the progress event is automatically fired when the load event occurs for that packet. This lets you now reliably monitor progress by only watching the "progress" event.
If your progress event is called with a responseType
of "moz-blob", the value of response is a Blob
containing the data received so far.
One can also detect all three load-ending conditions (abort
, load
, or error
) using the loadend
event:
req.addEventListener("loadend", loadEnd, false); function loadEnd(evt) { alert("The transfer finished (although we don't know if it succeeded or not)."); }
Note that there's no way to be certain from the information received by the loadend
event as to which condition caused the operation to terminate; however, you can use this to handle tasks that need to be performed in all end-of-transfer scenarios.
Cross-site XMLHttpRequest
Modern browsers support cross-site requests by implementing the web applications working group's Access Control for Cross-Site Requests standard. As long as the server is configured to allow requests from your web application's origin, XMLHttpRequest
will work. Otherwise, an INVALID_ACCESS_ERR
exception is thrown.
Bypassing the cache
Normally, XMLHttpRequest
tries to retrieve content from the cache, if it's available. To bypass this, do the following:
var req = new XMLHttpRequest(); req.open('GET', url, false); req.channel.loadFlags |= Components.interfaces.nsIRequest.LOAD_BYPASS_CACHE; req.send(null);
channel
attribute is Gecko-specific.An alternate, cross-browser compatible approach is to append a timestamp to the URL, being sure to include a "?" or "&" as appropriate. For example:
https://foo.com/bar.html
becomes
https://foo.com/bar.html?12345
and
https://foo.com/bar.html?foobar=baz
becomes
https://foo.com/bar.html?foobar=baz&12345
Since the local cache is indexed by URL, this causes every request to be unique, thereby bypassing the cache.
You can automatically adjust URLs using the following code:
var req = new XMLHttpRequest(); req.open("GET", url += ((/\?/).test(url) ? "&" : "?") + (new Date()).getTime(), false); req.send(null);
セキュリティ
Versions of Firefox prior to Firefox 3 allowed you to set the preference capability.policy.<policyname>.XMLHttpRequest.open</policyname>
to allAccess
to give specific sites cross-site access. This is no longer supported.
Versions of Firefox prior to Firefox 5 could use netscape.security.PrivilegeManager.enablePrivilege("UniversalBrowserRead");
to request cross-site access. This is no longer supported, even though it produces no warning and permission dialog is still presented.
The recommended way to enable cross-site scripting is to use the Access-Control-Allow-Origin
HTTP header in the response to the XMLHttpRequest.
XMLHttpRequests being stopped
If you end up with an XMLHttpRequest having status=0
and statusText=null
, it means that the request was not allowed to be performed. It was UNSENT
. A likely cause for this is when the XMLHttpRequest
origin (at the creation of the XMLHttpRequest) has changed when the XMLHttpRequest is then open()
. This case can happen for example when one has an XMLHttpRequest that gets fired on an onunload event for a window: the XMLHttpRequest gets in fact created when the window to be closed is still there, and then the request is sent (ie open()
) when this window has lost its focus and potentially different window has gained focus. The way to avoid this problem is to set a listener on the new window "activate" event that gets set when the old window has its "unload" event fired.
Downloading JSON and JavaScript from extensions
For security reasons, extensions should never use eval()
to parse JSON or JavaScript code downloaded from the web. See Downloading JSON and JavaScript in extensions for details.
Using XMLHttpRequest from JavaScript modules / XPCOM components
Instantiating XMLHttpRequest
from a JavaScript module or an XPCOM component works a little differently; it can't be instantiated using the XMLHttpRequest()
constructor. The constructor is not defined inside components and the code results in an error. The best way to work around this is to use the XPCOM component constructor.
const XMLHttpRequest = Components.Constructor("@mozilla.org/xmlextras/xmlhttprequest;1"); var req = XMLHttpRequest();
Unfortunately in versions of Gecko prior to Gecko 16 there is a bug which can cause requests created this way to be cancelled for no reason. If you need your code to work on Gecko 15 or earlier, you can get the XMLHttpRequest constructor from the hidden DOM window like so.
const { XMLHttpRequest } = Components.classes["@mozilla.org/appshell/appShellService;1"] .getService(Components.interfaces.nsIAppShellService) .hiddenDOMWindow; var req = XMLHttpRequest();
関連情報
- MDC AJAX introduction
- HTTP access control
- How to check the security state of an XMLHTTPRequest over SSL
- XMLHttpRequest - REST and the Rich User Experience
- Microsoft documentation
- Apple developers' reference
- "Using the XMLHttpRequest Object" (jibbering.com)
- The XMLHttpRequest Object: W3C Specification
- Web Progress Events specification
- Reading Ogg files with JavaScript (Chris Double)