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      1 page.title=Connecting to the Network
      2 parent.title=Performing Network Operations
      3 parent.link=index.html
      4 
      5 trainingnavtop=true
      6 next.title=Managing Network Usage
      7 next.link=managing.html
      8 
      9 @jd:body
     10 
     11 <div id="tb-wrapper">
     12 <div id="tb">
     13 
     14 
     15 
     16 <h2>This lesson teaches you to</h2>
     17 <ol>
     18   <li><a href="#http-client">Choose an HTTP Client</a></li>
     19   <li><a href="#connection">Check the Network Connection</a></li>
     20   <li><a href="#AsyncTask">Perform Network Operations on a Separate Thread</a></li>
     21   <li><a href="#download">Connect and Download Data</a></li>
     22   <li><a href="#stream">Convert the InputStream to a String</a></li>
     23 
     24 </ol>
     25 
     26 <h2>You should also read</h2>
     27 <ul>
     28   <li><a href="{@docRoot}training/volley/index.html">Transmitting Network Data Using Volley</a></li>
     29   <li><a href="{@docRoot}training/monitoring-device-state/index.html">Optimizing Battery Life</a></li>
     30   <li><a href="{@docRoot}training/efficient-downloads/index.html">Transferring Data Without Draining the Battery</a></li>
     31   <li><a href="{@docRoot}guide/webapps/index.html">Web Apps Overview</a></li>
     32   <li><a href="{@docRoot}guide/components/fundamentals.html">Application Fundamentals</a></li>
     33 </ul>
     34 
     35 </div>
     36 </div>
     37 
     38 <p>This lesson shows you how to implement a simple application that connects to
     39 the network. It explains some of the best practices you should follow in
     40 creating even the simplest network-connected app.</p>
     41 
     42 <p>Note that to perform the network operations described in this lesson, your
     43 application manifest must include the following permissions:</p>
     44 
     45 <pre>&lt;uses-permission android:name=&quot;android.permission.INTERNET&quot; /&gt;
     46 &lt;uses-permission android:name=&quot;android.permission.ACCESS_NETWORK_STATE&quot; /&gt;</pre>
     47 
     48 
     49 
     50 <h2 id="http-client">Choose an HTTP Client</h2>
     51 
     52 <p>Most network-connected Android apps use HTTP to send and receive data. The
     53 Android platform includes the {@link java.net.HttpURLConnection} client, which
     54 supports HTTPS, streaming uploads and downloads, configurable timeouts,
     55 IPv6, and connection pooling.</p>
     56 
     57 <h2 id="connection">Check the Network Connection</h2>
     58 
     59 <p>Before your app attempts to connect to the network, it should check to see whether a
     60 network connection is available using
     61 {@link android.net.ConnectivityManager#getActiveNetworkInfo getActiveNetworkInfo()}
     62 and {@link android.net.NetworkInfo#isConnected isConnected()}.
     63 Remember, the device may be out of range of a
     64 network, or the user may have disabled both Wi-Fi and mobile data access.
     65 For more discussion of this topic, see the lesson <a
     66 href="{@docRoot}training/basics/network-ops/managing.html">Managing Network
     67 Usage</a>.</p>
     68 
     69 <pre>
     70 public void myClickHandler(View view) {
     71     ...
     72     ConnectivityManager connMgr = (ConnectivityManager)
     73         getSystemService(Context.CONNECTIVITY_SERVICE);
     74     NetworkInfo networkInfo = connMgr.getActiveNetworkInfo();
     75     if (networkInfo != null &amp;&amp; networkInfo.isConnected()) {
     76         // fetch data
     77     } else {
     78         // display error
     79     }
     80     ...
     81 }</pre>
     82 
     83 <h2 id="AsyncTask">Perform Network Operations on a Separate Thread</h2>
     84 
     85 <p>Network operations can involve unpredictable delays. To prevent this from
     86 causing a poor user experience, always perform network operations on a separate
     87 thread from the UI. The {@link android.os.AsyncTask} class provides one of the
     88 simplest ways to fire off a new task from the UI thread. For more discussion of
     89 this topic, see the blog post <a
     90 href="http://android-developers.blogspot.com/2010/07/multithreading-for-
     91 performance.html">Multithreading For Performance</a>.</p>
     92 
     93 
     94 <p>In the following snippet, the <code>myClickHandler()</code> method invokes <code>new
     95 DownloadWebpageTask().execute(stringUrl)</code>. The
     96 <code>DownloadWebpageTask</code> class is a subclass of {@link
     97 android.os.AsyncTask}. <code>DownloadWebpageTask</code> implements the following
     98 {@link android.os.AsyncTask} methods:</p>
     99 
    100     <ul>
    101 
    102       <li>{@link android.os.AsyncTask#doInBackground doInBackground()} executes
    103 the method <code>downloadUrl()</code>. It passes the  web page URL as a
    104 parameter. The method <code>downloadUrl()</code> fetches and processes the web
    105 page content. When it finishes, it passes back a result string.</li>
    106 
    107       <li>{@link android.os.AsyncTask#onPostExecute onPostExecute()} takes the
    108 returned string and displays it in the UI.</li>
    109 
    110 
    111     </ul>
    112 
    113 <pre>
    114 public class HttpExampleActivity extends Activity {
    115     private static final String DEBUG_TAG = "HttpExample";
    116     private EditText urlText;
    117     private TextView textView;
    118 
    119     &#64;Override
    120     public void onCreate(Bundle savedInstanceState) {
    121         super.onCreate(savedInstanceState);
    122         setContentView(R.layout.main);
    123         urlText = (EditText) findViewById(R.id.myUrl);
    124         textView = (TextView) findViewById(R.id.myText);
    125     }
    126 
    127     // When user clicks button, calls AsyncTask.
    128     // Before attempting to fetch the URL, makes sure that there is a network connection.
    129     public void myClickHandler(View view) {
    130         // Gets the URL from the UI's text field.
    131         String stringUrl = urlText.getText().toString();
    132         ConnectivityManager connMgr = (ConnectivityManager)
    133             getSystemService(Context.CONNECTIVITY_SERVICE);
    134         NetworkInfo networkInfo = connMgr.getActiveNetworkInfo();
    135         if (networkInfo != null &amp;&amp; networkInfo.isConnected()) {
    136             new DownloadWebpageTask().execute(stringUrl);
    137         } else {
    138             textView.setText("No network connection available.");
    139         }
    140     }
    141 
    142      // Uses AsyncTask to create a task away from the main UI thread. This task takes a
    143      // URL string and uses it to create an HttpUrlConnection. Once the connection
    144      // has been established, the AsyncTask downloads the contents of the webpage as
    145      // an InputStream. Finally, the InputStream is converted into a string, which is
    146      // displayed in the UI by the AsyncTask's onPostExecute method.
    147      private class DownloadWebpageTask extends AsyncTask&lt;String, Void, String&gt; {
    148         &#64;Override
    149         protected String doInBackground(String... urls) {
    150 
    151             // params comes from the execute() call: params[0] is the url.
    152             try {
    153                 return downloadUrl(urls[0]);
    154             } catch (IOException e) {
    155                 return "Unable to retrieve web page. URL may be invalid.";
    156             }
    157         }
    158         // onPostExecute displays the results of the AsyncTask.
    159         &#64;Override
    160         protected void onPostExecute(String result) {
    161             textView.setText(result);
    162        }
    163     }
    164     ...
    165 }</pre>
    166 
    167 <p>The sequence of events in this snippet is as follows:</p>
    168 <ol>
    169 
    170   <li>When users click the button that invokes {@code myClickHandler()},
    171   the app passes
    172 the specified URL to the {@link android.os.AsyncTask} subclass
    173 <code>DownloadWebpageTask</code>.</li>
    174 
    175  <li>The {@link android.os.AsyncTask} method {@link
    176 android.os.AsyncTask#doInBackground doInBackground()} calls the
    177 <code>downloadUrl()</code> method. </li>
    178 
    179   <li>The <code>downloadUrl()</code> method takes a URL string as a parameter
    180 and uses it to create a {@link java.net.URL} object.</li>
    181 
    182   <li>The {@link java.net.URL} object is used to establish an {@link
    183 java.net.HttpURLConnection}.</li>
    184 
    185   <li>Once the connection has been established, the {@link
    186 java.net.HttpURLConnection} object fetches the web page content as an {@link
    187 java.io.InputStream}.</li>
    188 
    189   <li>The {@link java.io.InputStream} is passed to the <code>readIt()</code>
    190 method, which converts the stream to a string.</li>
    191 
    192   <li>Finally, the {@link android.os.AsyncTask}'s {@link
    193 android.os.AsyncTask#onPostExecute onPostExecute()} method displays the string
    194 in the main activity's UI.</li>
    195 
    196 </ol>
    197 
    198  <h2 id="download">Connect and Download Data</h2>
    199 
    200  <p>In your thread that performs your network transactions, you can use
    201  {@link java.net.HttpURLConnection} to perform a {@code GET} and download your data.
    202  After you call {@code connect()}, you can get an {@link java.io.InputStream} of the data
    203  by calling {@code getInputStream()}.
    204 
    205  <p>In the following snippet, the {@link android.os.AsyncTask#doInBackground
    206 doInBackground()} method calls the method <code>downloadUrl()</code>. The
    207 <code>downloadUrl()</code> method takes the given URL and uses it to connect to
    208 the network via {@link java.net.HttpURLConnection}. Once a connection has been
    209 established, the app uses the method <code>getInputStream()</code> to retrieve
    210 the data as an {@link java.io.InputStream}.</p>
    211 
    212 <pre>
    213 // Given a URL, establishes an HttpUrlConnection and retrieves
    214 // the web page content as a InputStream, which it returns as
    215 // a string.
    216 private String downloadUrl(String myurl) throws IOException {
    217     InputStream is = null;
    218     // Only display the first 500 characters of the retrieved
    219     // web page content.
    220     int len = 500;
    221 
    222     try {
    223         URL url = new URL(myurl);
    224         HttpURLConnection conn = (HttpURLConnection) url.openConnection();
    225         conn.setReadTimeout(10000 /* milliseconds */);
    226         conn.setConnectTimeout(15000 /* milliseconds */);
    227         conn.setRequestMethod("GET");
    228         conn.setDoInput(true);
    229         // Starts the query
    230         conn.connect();
    231         int response = conn.getResponseCode();
    232         Log.d(DEBUG_TAG, "The response is: " + response);
    233         is = conn.getInputStream();
    234 
    235         // Convert the InputStream into a string
    236         String contentAsString = readIt(is, len);
    237         return contentAsString;
    238 
    239     // Makes sure that the InputStream is closed after the app is
    240     // finished using it.
    241     } finally {
    242         if (is != null) {
    243             is.close();
    244         }
    245     }
    246 }</pre>
    247 
    248 <p>Note that the method <code>getResponseCode()</code> returns the connection's
    249 <a href="http://www.w3.org/Protocols/HTTP/HTRESP.html">status code</a>. This is
    250 a useful way of getting additional information about the connection. A status
    251 code of 200 indicates success.</p>
    252 
    253 <h2 id="stream">Convert the InputStream to a String</h2>
    254 
    255 <p>An {@link java.io.InputStream} is a readable source of bytes. Once you get an {@link java.io.InputStream},
    256 it's common to decode or convert it into a
    257 target data type. For example, if you were downloading image data, you might
    258 decode and display it like this:</p>
    259 
    260 <pre>InputStream is = null;
    261 ...
    262 Bitmap bitmap = BitmapFactory.decodeStream(is);
    263 ImageView imageView = (ImageView) findViewById(R.id.image_view);
    264 imageView.setImageBitmap(bitmap);
    265 </pre>
    266 
    267 <p>In the example shown above, the {@link java.io.InputStream} represents the text of a
    268 web page. This is how the example converts the {@link java.io.InputStream} to
    269 a string so that the activity can display it in the UI:</p>
    270 
    271 <pre>// Reads an InputStream and converts it to a String.
    272 public String readIt(InputStream stream, int len) throws IOException, UnsupportedEncodingException {
    273     Reader reader = null;
    274     reader = new InputStreamReader(stream, "UTF-8");
    275     char[] buffer = new char[len];
    276     reader.read(buffer);
    277     return new String(buffer);
    278 }</pre>
    279 
    280 
    281 
    282