javahttphttprequesthttpurlconnectionurlconnection

How to use java.net.URLConnection to fire and handle HTTP requests


Use of java.net.URLConnection is asked about pretty often here, and the Oracle tutorial is too concise about it.

That tutorial basically only shows how to fire a GET request and read the response. It doesn't explain anywhere how to use it to, among others, perform a POST request, set request headers, read response headers, deal with cookies, submit a HTML form, upload a file, etc.

So, how can I use java.net.URLConnection to fire and handle "advanced" HTTP requests?


Solution

  • First a disclaimer beforehand: the posted code snippets are all basic examples. You'll need to handle trivial IOExceptions and RuntimeExceptions like NullPointerException, ArrayIndexOutOfBoundsException and consorts yourself.

    In case you're developing for Android instead of Java, note also that since introduction of API level 28, cleartext HTTP requests are disabled by default. You are encouraged to use HttpsURLConnection. When really necessary, cleartext can be enabled in the Application Manifest.


    Java 11

    In case you're already on Java 11 or newer, then it's good to know that there's next to java.net.URLConnection another API to deal with HTTP requests in a less verbose manner: java.net.http.HttpClient.

    Preparing

    We first need to know at least the URL and the charset. The parameters are optional and depend on the functional requirements.

    String url = "http://example.com";
    String charset = "UTF-8";  // Or in Java 7 and later, use the constant: java.nio.charset.StandardCharsets.UTF_8.name()
    String param1 = "value1";
    String param2 = "value2";
    // ...
    
    String query = String.format("param1=%s&param2=%s",
        URLEncoder.encode(param1, charset),
        URLEncoder.encode(param2, charset));
    

    The query parameters must be in name=value format and be concatenated by &. You would normally also URL-encode the query parameters with the specified charset using URLEncoder#encode().

    The String#format() is just for convenience. I prefer it when I would need the String concatenation operator + more than twice.


    Firing an HTTP GET request with (optionally) query parameters

    It's a trivial task. It's the default request method.

    URLConnection connection = new URL(url + "?" + query).openConnection();
    connection.setRequestProperty("Accept-Charset", charset);
    InputStream response = connection.getInputStream();
    // ...
    

    Any query string should be concatenated to the URL using ?. The Accept-Charset header may hint the server what encoding the parameters are in. If you don't send any query string, then you can leave the Accept-Charset header away. If you don't need to set any headers, then you can even use the URL#openStream() shortcut method.

    InputStream response = new URL(url).openStream();
    // ...
    

    Either way, if the other side is an HttpServlet, then its doGet() method will be called and the parameters will be available by HttpServletRequest#getParameter().

    For testing purposes, you can print the response body to standard output as below:

    try (Scanner scanner = new Scanner(response)) {
        String responseBody = scanner.useDelimiter("\\A").next();
        System.out.println(responseBody);
    }
    

    Firing an HTTP POST request with query parameters

    Setting the URLConnection#setDoOutput() to true implicitly sets the request method to POST. The standard HTTP POST as web forms do is of type application/x-www-form-urlencoded wherein the query string is written to the request body.

    URLConnection connection = new URL(url).openConnection();
    connection.setDoOutput(true); // Triggers POST.
    connection.setRequestProperty("Accept-Charset", charset);
    connection.setRequestProperty("Content-Type", "application/x-www-form-urlencoded;charset=" + charset);
    
    try (OutputStream output = connection.getOutputStream()) {
        output.write(query.getBytes(charset));
    }
    
    InputStream response = connection.getInputStream();
    // ...
    

    Note: whenever you'd like to submit a HTML form programmatically, don't forget to take the name=value pairs of any <input type="hidden"> elements into the query string and of course also the name=value pair of the <input type="submit"> element which you'd like to "press" programmatically (because that's usually been used in the server side to distinguish if a button was pressed and if so, which one).

    You can also cast the obtained URLConnection to HttpURLConnection and use its HttpURLConnection#setRequestMethod() instead. But if you're trying to use the connection for output you still need to set URLConnection#setDoOutput() to true.

    HttpURLConnection httpConnection = (HttpURLConnection) new URL(url).openConnection();
    httpConnection.setRequestMethod("POST");
    // ...
    

    Either way, if the other side is an HttpServlet, then its doPost() method will be called and the parameters will be available by HttpServletRequest#getParameter().


    Actually firing the HTTP request

    You can fire the HTTP request explicitly with URLConnection#connect(), but the request will automatically be fired on demand when you want to get any information about the HTTP response, such as the response body using URLConnection#getInputStream() and so on. The above examples does exactly that, so the connect() call is in fact superfluous.


    Timeouts

    You can use URLConnection#setConnectTimeout() to set the connect timeout and URLConnection#setReadTimeout() to set the read timeout.

    The default is basically "no timeout". So you'd like to set these yourself. For example:

    httpConnection.setConnectTimeout(3000); // 3s
    httpConnection.setReadTimeout(6000); // 6s
    

    There's however a caveat with the read timeout when using Sun/Oracle based JRE. It will silently retry the reading before throwing the timeout exception, most probably merely to have any successfull reading ready in the cache. See also Android (Java) HttpURLConnection silent retry on 'read' timeout This is okayish for GET, but absolutely wrong for POST. In case you're using a Sun/Oracle based JRE, you'll want to turn off that as follows:

    System.setProperty("sun.net.http.retryPost", "false")
    

    In case you're writing for Android, above will not work, you'll need this work around on POST:

    httpConnection.setChunkedStreamingMode(0);
    

    This will only slightly impact the performance. In case that's undesireable, then consider switching to a different HTTP client such as OkHttp.


    Gathering HTTP response information

    1. HTTP response status:

    You need an HttpURLConnection here. Cast it first if necessary.

        int status = httpConnection.getResponseCode();
    
    1. HTTP response headers:

       for (Entry<String, List<String>> header : connection.getHeaderFields().entrySet()) {
           System.out.println(header.getKey() + "=" + header.getValue());
       }
      
    2. HTTP response encoding:

    When the Content-Type contains a charset parameter, then the response body is likely text based and we'd like to process the response body with the server-side specified character encoding then.

        String contentType = connection.getHeaderField("Content-Type");
        String charset = null;
    
        for (String param : contentType.replace(" ", "").split(";")) {
            if (param.startsWith("charset=")) {
                charset = param.split("=", 2)[1];
                break;
            }
        }
    
        if (charset != null) {
            try (BufferedReader reader = new BufferedReader(new InputStreamReader(response, charset))) {
                for (String line; (line = reader.readLine()) != null;) {
                    // ... System.out.println(line)?
                }
            }
        } else {
            // It's likely binary content, use InputStream/OutputStream.
        }
    

    Maintaining the session

    The server side session is usually backed by a cookie. Some web forms require that you're logged in and/or are tracked by a session. You can use the CookieHandler API to maintain cookies. You need to prepare a CookieManager with a CookiePolicy of ACCEPT_ALL before sending all HTTP requests.

    // First set the default cookie manager.
    CookieHandler.setDefault(new CookieManager(null, CookiePolicy.ACCEPT_ALL));
    
    // All the following subsequent URLConnections will use the same cookie manager.
    URLConnection connection = new URL(url).openConnection();
    // ...
    
    connection = new URL(url).openConnection();
    // ...
    
    connection = new URL(url).openConnection();
    // ...
    

    Note that this is known to not always work properly in all circumstances. If it fails for you, then best is to manually gather and set the cookie headers. You basically need to grab all Set-Cookie headers from the response of the login or the first GET request and then pass this through the subsequent requests.

    // Gather all cookies on the first request.
    URLConnection connection = new URL(url).openConnection();
    List<String> cookies = connection.getHeaderFields().get("Set-Cookie");
    // ...
    
    // Then use the same cookies on all subsequent requests.
    connection = new URL(url).openConnection();
    for (String cookie : cookies) {
        connection.addRequestProperty("Cookie", cookie.split(";", 2)[0]);
    }
    // ...
    

    The split(";", 2)[0] is there to get rid of cookie attributes which are irrelevant for the server side like expires, path, etc. Alternatively, you could also use cookie.substring(0, cookie.indexOf(';')) instead of split().


    Streaming mode

    The HttpURLConnection will by default buffer the entire request body before actually sending it, regardless of whether you've set a fixed content length yourself using connection.setRequestProperty("Content-Length", contentLength);. This may cause OutOfMemoryExceptions whenever you concurrently send large POST requests (e.g. uploading files). To avoid this, you would like to set the HttpURLConnection#setFixedLengthStreamingMode().

    httpConnection.setFixedLengthStreamingMode(contentLength);
    

    But if the content length is really not known beforehand, then you can make use of chunked streaming mode by setting the HttpURLConnection#setChunkedStreamingMode() accordingly. This will set the HTTP Transfer-Encoding header to chunked which will force the request body being sent in chunks. The below example will send the body in chunks of 1 KB.

    httpConnection.setChunkedStreamingMode(1024);
    

    User-Agent

    It can happen that a request returns an unexpected response, while it works fine with a real web browser. The server side is probably blocking requests based on the User-Agent request header. The URLConnection will by default set it to Java/1.6.0_19 where the last part is obviously the JRE version. You can override this as follows:

    connection.setRequestProperty("User-Agent", "Mozilla/5.0 (Windows NT 6.1) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/41.0.2228.0 Safari/537.36"); // Do as if you're using Chrome 41 on Windows 7.
    

    Use the User-Agent string from a recent browser.


    Error handling

    If the HTTP response code is 4nn (Client Error) or 5nn (Server Error), then you may want to read the HttpURLConnection#getErrorStream() to see if the server has sent any useful error information.

    InputStream error = ((HttpURLConnection) connection).getErrorStream();
    

    If the HTTP response code is -1, then something went wrong with connection and response handling. The HttpURLConnection implementation is in older JREs somewhat buggy with keeping connections alive. You may want to turn it off by setting the http.keepAlive system property to false. You can do this programmatically in the beginning of your application by:

    System.setProperty("http.keepAlive", "false");
    

    Uploading files

    You'd normally use multipart/form-data encoding for mixed POST content (binary and character data). The encoding is in more detail described in RFC2388.

    String param = "value";
    File textFile = new File("/path/to/file.txt");
    File binaryFile = new File("/path/to/file.bin");
    String boundary = Long.toHexString(System.currentTimeMillis()); // Just generate some unique random value.
    String CRLF = "\r\n"; // Line separator required by multipart/form-data.
    URLConnection connection = new URL(url).openConnection();
    connection.setDoOutput(true);
    connection.setRequestProperty("Content-Type", "multipart/form-data; boundary=" + boundary);
    
    try (
        OutputStream output = connection.getOutputStream();
        PrintWriter writer = new PrintWriter(new OutputStreamWriter(output, charset), true);
    ) {
        // Send normal param.
        writer.append("--" + boundary).append(CRLF);
        writer.append("Content-Disposition: form-data; name=\"param\"").append(CRLF);
        writer.append("Content-Type: text/plain; charset=" + charset).append(CRLF);
        writer.append(CRLF).append(param).append(CRLF).flush();
    
        // Send text file.
        writer.append("--" + boundary).append(CRLF);
        writer.append("Content-Disposition: form-data; name=\"textFile\"; filename=\"" + textFile.getName() + "\"").append(CRLF);
        writer.append("Content-Type: text/plain; charset=" + charset).append(CRLF); // Text file itself must be saved in this charset!
        writer.append(CRLF).flush();
        Files.copy(textFile.toPath(), output);
        output.flush(); // Important before continuing with writer!
        writer.append(CRLF).flush(); // CRLF is important! It indicates end of boundary.
    
        // Send binary file.
        writer.append("--" + boundary).append(CRLF);
        writer.append("Content-Disposition: form-data; name=\"binaryFile\"; filename=\"" + binaryFile.getName() + "\"").append(CRLF);
        writer.append("Content-Type: " + URLConnection.guessContentTypeFromName(binaryFile.getName())).append(CRLF);
        writer.append("Content-Transfer-Encoding: binary").append(CRLF);
        writer.append(CRLF).flush();
        Files.copy(binaryFile.toPath(), output);
        output.flush(); // Important before continuing with writer!
        writer.append(CRLF).flush(); // CRLF is important! It indicates end of boundary.
    
        // End of multipart/form-data.
        writer.append("--" + boundary + "--").append(CRLF).flush();
    }
    

    If the other side is an HttpServlet, then its doPost() method will be called and the parts will be available by HttpServletRequest#getPart() (note, thus not getParameter() and so on!). Also see this answer for examples.


    Dealing with untrusted or misconfigured HTTPS sites

    In case you're developing for Android instead of Java, be careful: the workaround below may save your day if you don't have correct certificates deployed during development. But you should not use it for production. These days (April 2021) Google will not allow your app be distributed on Play Store if they detect insecure hostname verifier, see https://support.google.com/faqs/answer/7188426.

    Sometimes you need to connect an HTTPS URL, perhaps because you're writing a web scraper. In that case, you may likely face a javax.net.ssl.SSLException: Not trusted server certificate on some HTTPS sites who doesn't keep their SSL certificates up to date, or a java.security.cert.CertificateException: No subject alternative DNS name matching [hostname] found or javax.net.ssl.SSLProtocolException: handshake alert: unrecognized_name on some misconfigured HTTPS sites.

    The following one-time-run static initializer in your web scraper class should make HttpsURLConnection more lenient as to those HTTPS sites and thus not throw those exceptions anymore.

    static {
        TrustManager[] trustAllCertificates = new TrustManager[] {
            new X509TrustManager() {
                @Override
                public X509Certificate[] getAcceptedIssuers() {
                    return null; // Not relevant.
                }
                @Override
                public void checkClientTrusted(X509Certificate[] certs, String authType) {
                    // Do nothing. Just allow them all.
                }
                @Override
                public void checkServerTrusted(X509Certificate[] certs, String authType) {
                    // Do nothing. Just allow them all.
                }
            }
        };
    
        HostnameVerifier trustAllHostnames = new HostnameVerifier() {
            @Override
            public boolean verify(String hostname, SSLSession session) {
                return true; // Just allow them all.
            }
        };
    
        try {
            System.setProperty("jsse.enableSNIExtension", "false");
            SSLContext sc = SSLContext.getInstance("SSL");
            sc.init(null, trustAllCertificates, new SecureRandom());
            HttpsURLConnection.setDefaultSSLSocketFactory(sc.getSocketFactory());
            HttpsURLConnection.setDefaultHostnameVerifier(trustAllHostnames);
        }
        catch (GeneralSecurityException e) {
            throw new ExceptionInInitializerError(e);
        }
    }
    

    Parsing and extracting HTML

    If all you want is parsing and extracting data from HTML, then better use a HTML parser like Jsoup.