最近的项目需要实现一个 Android 手机之间无网络传输文件的功能,就发现了 Wifi P2P(Wifi点对点)这么一个功能,最后也实现了通过 Wifi 隔空传输文件 的功能,这里我也来整理下代码,分享给大家。
Wifi P2P 是在 Android 4.0 以及更高版本系统中加入的功能,通过 Wifi P2P 可以在不连接网络的情况下,直接与配对的设备进行数据交换。相对于蓝牙,Wifi P2P 的搜索速度和传输速度更快,传输距离更远
实现的效果如下所示:
客户端.png
服务器端.png
一般而言,开发步骤分为以下几点:
一、声明权限
Wifi P2P 技术并不会访问网络,但由于会使用到 Java socket,所以需要申请网络权限。此外,由于是要实现文件互传,所以也需要申请SD卡读写权限。
<uses-permission android:name="android.permission.ACCESS_WIFI_STATE" /> <uses-permission android:name="android.permission.CHANGE_WIFI_STATE" /> <uses-permission android:name="android.permission.CHANGE_NETWORK_STATE" /> <uses-permission android:name="android.permission.INTERNET" /> <uses-permission android:name="android.permission.ACCESS_NETWORK_STATE" /> <uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE" /> <uses-permission android:name="android.permission.READ_EXTERNAL_STORAGE" />
二、注册广播
与 Wifi P2P 相关的广播有以下几个:
当接收到这几个广播时,我们都需要到 WifiP2pManager (对等网络管理器)来进行相应的信息请求,此外还需要用到 Channel 对象作为请求参数
mWifiP2pManager = (WifiP2pManager) getSystemService(Context.WIFI_P2P_SERVICE);mChannel = mWifiP2pManager.initialize(this, getMainLooper(), this);
当收到 WifiP2pManager.WIFI_P2P_STATE_CHANGED_ACTION 广播时,可以判断当前 Wifi P2P是否可用
int state = intent.getIntExtra(WifiP2pManager.EXTRA_WIFI_STATE, -1);if (state == WifiP2pManager.WIFI_P2P_STATE_ENABLED) { mDirectActionListener.wifiP2pEnabled(true);} else { mDirectActionListener.wifiP2pEnabled(false); }当收到 WifiP2pManager.WIFI_P2P_PEERS_CHANGED_ACTION 广播时,意味设备周围的可用设备列表发生了变化,可以通过 requestPeers 方法得到可用的设备列表,之后就可以选择当中的某一个设备进行连接操作
mWifiP2pManager.requestPeers(mChannel, new WifiP2pManager.PeerListListener() { @Override public void onPeersAvailable(WifiP2pDeviceList peers) { mDirectActionListener.onPeersAvailable(peers.getDeviceList()); }});当收到 WifiP2pManager.WIFI_P2P_CONNECTION_CHANGED_ACTION 广播时,意味着 Wifi P2P 的连接状态发生了变化,可能是连接到了某设备,或者是与某设备断开了连接
NetworkInfo networkInfo = intent.getParcelableExtra(WifiP2pManager.EXTRA_NETWORK_INFO);if (networkInfo.isConnected()) { mWifiP2pManager.requestConnectionInfo(mChannel, new WifiP2pManager.ConnectionInfoListener() { @Override public void onConnectionInfoAvailable(WifiP2pInfo info) { mDirectActionListener.onConnectionInfoAvailable(info); } }); Log.e(TAG, "已连接p2p设备");} else { mDirectActionListener.onDisconnection(); Log.e(TAG, "与p2p设备已断开连接");}如果是与某设备连接上了,则可以通过 requestConnectionInfo 方法获取到连接信息
当收到 WifiP2pManager.WIFI_P2P_THIS_DEVICE_CHANGED_ACTION 广播时,则可以获取到本设备变化后的设备信息
可以看出 Wifi P2P 的接口高度异步化,到现在已经用到了三个系统的回调函数,一个用于 WifiP2pManager 的初始化,两个用于在广播中异步请求数据,为了简化操作,此处统一使用一个自定义的回调函数,方法含义与系统的回调函数一致
public interface DirectActionListener extends WifiP2pManager.ChannelListener { void wifiP2pEnabled(boolean enabled); void onConnectionInfoAvailable(WifiP2pInfo wifiP2pInfo); void onDisconnection(); void onSelfDeviceAvailable(WifiP2pDevice wifiP2pDevice); void onPeersAvailable(Collection<WifiP2pDevice> wifiP2pDeviceList);}所以,整个广播接收器使用到的所有代码是:
/** * 作者:chenZY * 时间:2018/2/9 17:53 * 描述: */public class DirectBroadcastReceiver extends BroadcastReceiver { private static final String TAG = "DirectBroadcastReceiver"; private WifiP2pManager mWifiP2pManager; private WifiP2pManager.Channel mChannel; private DirectActionListener mDirectActionListener; public DirectBroadcastReceiver(WifiP2pManager wifiP2pManager, WifiP2pManager.Channel channel, DirectActionListener directActionListener) { mWifiP2pManager = wifiP2pManager; mChannel = channel; mDirectActionListener = directActionListener; } public static IntentFilter getIntentFilter() { IntentFilter intentFilter = new IntentFilter(); intentFilter.addAction(WifiP2pManager.WIFI_P2P_STATE_CHANGED_ACTION); intentFilter.addAction(WifiP2pManager.WIFI_P2P_PEERS_CHANGED_ACTION); intentFilter.addAction(WifiP2pManager.WIFI_P2P_CONNECTION_CHANGED_ACTION); intentFilter.addAction(WifiP2pManager.WIFI_P2P_THIS_DEVICE_CHANGED_ACTION); return intentFilter; } @Override public void onReceive(Context context, Intent intent) { Log.e(TAG, "接收到广播: " + intent.getAction()); if (!TextUtils.isEmpty(intent.getAction())) { switch (intent.getAction()) { // 用于指示 Wifi P2P 是否可用 case WifiP2pManager.WIFI_P2P_STATE_CHANGED_ACTION: { int state = intent.getIntExtra(WifiP2pManager.EXTRA_WIFI_STATE, -1); if (state == WifiP2pManager.WIFI_P2P_STATE_ENABLED) { mDirectActionListener.wifiP2pEnabled(true); } else { mDirectActionListener.wifiP2pEnabled(false); List<WifiP2pDevice> wifiP2pDeviceList = new ArrayList<>(); mDirectActionListener.onPeersAvailable(wifiP2pDeviceList); } break; } // 对等节点列表发生了变化 case WifiP2pManager.WIFI_P2P_PEERS_CHANGED_ACTION: { mWifiP2pManager.requestPeers(mChannel, new WifiP2pManager.PeerListListener() { @Override public void onPeersAvailable(WifiP2pDeviceList peers) { mDirectActionListener.onPeersAvailable(peers.getDeviceList()); } }); break; } // Wifi P2P 的连接状态发生了改变 case WifiP2pManager.WIFI_P2P_CONNECTION_CHANGED_ACTION: { NetworkInfo networkInfo = intent.getParcelableExtra(WifiP2pManager.EXTRA_NETWORK_INFO); if (networkInfo.isConnected()) { mWifiP2pManager.requestConnectionInfo(mChannel, new WifiP2pManager.ConnectionInfoListener() { @Override public void onConnectionInfoAvailable(WifiP2pInfo info) { mDirectActionListener.onConnectionInfoAvailable(info); } }); Log.e(TAG, "已连接p2p设备"); } else { mDirectActionListener.onDisconnection(); Log.e(TAG, "与p2p设备已断开连接"); } break; } //本设备的设备信息发生了变化 case WifiP2pManager.WIFI_P2P_THIS_DEVICE_CHANGED_ACTION: { mDirectActionListener.onSelfDeviceAvailable((WifiP2pDevice) intent.getParcelableExtra(WifiP2pManager.EXTRA_WIFI_P2P_DEVICE)); break; } } } }}三、服务器端创建群组
假设当设备A搜索到了设备B,并与设备B连接到了一起,此时系统会自动创建一个群组(Group)并随机指定一台设备为群主(GroupOwner)。此时,对于两台设备来说,群主的IP地址是可知的(系统回调函数中有提供),但客户端的IP地址需要再来通过其他方法来主动获取。例如,可以在设备连接成功后,客户端主动发起对服务器端的Socket连接请求,服务器端在指定端口监听客户端的连接请求,当连接成功后,服务器端就可以获取到客户端的IP地址了
此处为了简化操作,直接指定某台设备作为服务器端(群主),即直接指定某台设备用来接收文件
因此,服务器端要主动创建群组,并等待客户端的连接
wifiP2pManager.createGroup(channel, new WifiP2pManager.ActionListener() { @Override public void onSuccess() { Log.e(TAG, "createGroup onSuccess"); dismissLoadingDialog(); showToast("onSuccess"); } @Override public void onFailure(int reason) { Log.e(TAG, "createGroup onFailure: " + reason); dismissLoadingDialog(); showToast("onFailure"); }});此处,使用 IntentService 在后台监听客户端的Socket连接请求,并通过输入输出流来传输文件。此处的代码比较简单,就只是在指定端口一直堵塞监听客户端的连接请求,获取待传输的文件信息模型 FileTransfer ,之后就进行实际的数据传输
@Override protected void onHandleIntent(Intent intent) { clean(); File file = null; try { serverSocket = new ServerSocket(); serverSocket.setReuseAddress(true); serverSocket.bind(new InetSocketAddress(PORT)); Socket client = serverSocket.accept(); Log.e(TAG, "客户端IP地址 : " + client.getInetAddress().getHostAddress()); inputStream = client.getInputStream(); objectInputStream = new ObjectInputStream(inputStream); FileTransfer fileTransfer = (FileTransfer) objectInputStream.readObject(); Log.e(TAG, "待接收的文件: " + fileTransfer); String name = new File(fileTransfer.getFilePath()).getName(); //将文件存储至指定位置 file = new File(Environment.getExternalStorageDirectory() + "/" + name); fileOutputStream = new FileOutputStream(file); byte buf[] = new byte[512]; int len; long total = 0; int progress; while ((len = inputStream.read(buf)) != -1) { fileOutputStream.write(buf, 0, len); total += len; progress = (int) ((total * 100) / fileTransfer.getFileLength()); Log.e(TAG, "文件接收进度: " + progress); if (progressChangListener != null) { progressChangListener.onProgressChanged(fileTransfer, progress); } } serverSocket.close(); inputStream.close(); objectInputStream.close(); fileOutputStream.close(); serverSocket = null; inputStream = null; objectInputStream = null; fileOutputStream = null; Log.e(TAG, "文件接收成功,文件的MD5码是:" + Md5Util.getMd5(file)); } catch (Exception e) { Log.e(TAG, "文件接收 Exception: " + e.getMessage()); } finally { clean(); if (progressChangListener != null) { progressChangListener.onTransferFinished(file); } //再次启动服务,等待客户端下次连接 startService(new Intent(this, WifiServerService.class)); } }因为客户端可能会多次发起连接请求,所以当此处文件传输完成后(不管成功或失败),都需要重新 startService ,让服务再次堵塞等待客户端的连接请求
FileTransfer 包含三个字段,MD5码值用于校验文件的完整性,fileLength 是为了用于计算文件的传输进度
public class FileTransfer implements Serializable { //文件路径 private String filePath; //文件大小 private long fileLength; //MD5码 private String md5; ···}为了将文件传输进度发布到外部界面,所以除了需要启动Service外,界面还需要绑定Service,此处就需要用到一个更新文件传输状态的接口
public interface OnProgressChangListener { //当传输进度发生变化时 void onProgressChanged(FileTransfer fileTransfer, int progress); //当传输结束时 void onTransferFinished(File file);}因此,需要将 progressChangListener 作为参数传给 WifiServerService ,并在进度变化时更新进度对话框
private WifiServerService.OnProgressChangListener progressChangListener = new WifiServerService.OnProgressChangListener() { @Override public void onProgressChanged(final FileTransfer fileTransfer, final int progress) { runOnUiThread(new Runnable() { @Override public void run() { progressDialog.setMessage("文件名: " + new File(fileTransfer.getFilePath()).getName()); progressDialog.setProgress(progress); progressDialog.show(); } }); } @Override public void onTransferFinished(final File file) { runOnUiThread(new Runnable() { @Override public void run() { progressDialog.cancel(); if (file != null && file.exists()) { openFile(file.getPath()); } } }); } };四、客户端加入群组并发起文件传输请求
文件发送界面 SendFileActivity 需要实现 DirectActionListener 接口
首先,需要先注册P2P广播,以便获取周边设备信息以及连接状态
@Override protected void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); setContentView(R.layout.activity_send_file); initView(); mWifiP2pManager = (WifiP2pManager) getSystemService(Context.WIFI_P2P_SERVICE); mChannel = mWifiP2pManager.initialize(this, getMainLooper(), this); broadcastReceiver = new DirectBroadcastReceiver(mWifiP2pManager, mChannel, this); registerReceiver(broadcastReceiver, DirectBroadcastReceiver.getIntentFilter()); }通过 discoverPeers 方法搜索周边设备,回调函数用于通知方法是否调用成功
mWifiP2pManager.discoverPeers(mChannel, new WifiP2pManager.ActionListener() { @Override public void onSuccess() { showToast("Success"); } @Override public void onFailure(int reasonCode) { showToast("Failure"); loadingDialog.cancel(); }});当搜索结束后,系统就会触发 WifiP2pManager.WIFI_P2P_PEERS_CHANGED_ACTION 广播,此时就可以调用 requestPeers 方法获取设备列表信息,此处用 RecyclerView 展示列表,在 onPeersAvailable 方法刷新列表
mWifiP2pManager.requestPeers(mChannel, new WifiP2pManager.PeerListListener() { @Override public void onPeersAvailable(WifiP2pDeviceList peers) { mDirectActionListener.onPeersAvailable(peers.getDeviceList()); }});@Override public void onPeersAvailable(Collection<WifiP2pDevice> wifiP2pDeviceList) { Log.e(TAG, "onPeersAvailable :" + wifiP2pDeviceList.size()); this.wifiP2pDeviceList.clear(); this.wifiP2pDeviceList.addAll(wifiP2pDeviceList); deviceAdapter.notifyDataSetChanged(); loadingDialog.cancel(); }之后,通过点击事件选中群主(服务器端)设备,通过 connect 方法请求与之进行连接
private void connect() { WifiP2pConfig config = new WifiP2pConfig(); if (config.deviceAddress != null && mWifiP2pDevice != null) { config.deviceAddress = mWifiP2pDevice.deviceAddress; config.wps.setup = WpsInfo.PBC; showLoadingDialog("正在连接 " + mWifiP2pDevice.deviceName); mWifiP2pManager.connect(mChannel, config, new WifiP2pManager.ActionListener() { @Override public void onSuccess() { Log.e(TAG, "connect onSuccess"); } @Override public void onFailure(int reason) { showToast("连接失败 " + reason); dismissLoadingDialog(); } }); }}此处依然无法通过函数函数来判断连接结果,需要依靠系统发出的 WifiP2pManager.WIFI_P2P_CONNECTION_CHANGED_ACTION 方法来获取到连接结果,在此处可以通过 requestConnectionInfo 获取到组连接信息,信息最后通过 onConnectionInfoAvailable 方法传递出来,在此可以判断当前设备是否为群主,获取群组IP地址
@Overridepublic void onConnectionInfoAvailable(WifiP2pInfo wifiP2pInfo) { dismissLoadingDialog(); wifiP2pDeviceList.clear(); deviceAdapter.notifyDataSetChanged(); btn_disconnect.setEnabled(true); btn_chooseFile.setEnabled(true); Log.e(TAG, "onConnectionInfoAvailable"); Log.e(TAG, "onConnectionInfoAvailable groupFormed: " + wifiP2pInfo.groupFormed); Log.e(TAG, "onConnectionInfoAvailable isGroupOwner: " + wifiP2pInfo.isGroupOwner); Log.e(TAG, "onConnectionInfoAvailable getHostAddress: " + wifiP2pInfo.groupOwnerAddress.getHostAddress()); StringBuilder stringBuilder = new StringBuilder(); if (mWifiP2pDevice != null) { stringBuilder.append("连接的设备名:"); stringBuilder.append(mWifiP2pDevice.deviceName); stringBuilder.append("/n"); stringBuilder.append("连接的设备的地址:"); stringBuilder.append(mWifiP2pDevice.deviceAddress); } stringBuilder.append("/n"); stringBuilder.append("是否群主:"); stringBuilder.append(wifiP2pInfo.isGroupOwner ? "是群主" : "非群主"); stringBuilder.append("/n"); stringBuilder.append("群主IP地址:"); stringBuilder.append(wifiP2pInfo.groupOwnerAddress.getHostAddress()); tv_status.setText(stringBuilder); if (wifiP2pInfo.groupFormed && !wifiP2pInfo.isGroupOwner) { this.wifiP2pInfo = wifiP2pInfo; }}至此服务器端和客户端已经通过 Wifi P2P 连接在了一起,客户端也获取到了服务器端的IP地址,在选取好待发送的文件后就可以主动发起对服务器端的连接请求了
发起选取文件的方法
Intent intent = new Intent(Intent.ACTION_GET_CONTENT);intent.setType("*/*");intent.addCategory(Intent.CATEGORY_OPENABLE);startActivityForResult(intent, 1);获取选取的文件的实际路径
@Overrideprotected void onActivityResult(int requestCode, int resultCode, Intent data) { super.onActivityResult(requestCode, resultCode, data); if (requestCode == 1) { if (resultCode == RESULT_OK) { Uri uri = data.getData(); if (uri != null) { String path = getPath(this, uri); if (path != null) { File file = new File(path); if (file.exists() && wifiP2pInfo != null) { FileTransfer fileTransfer = new FileTransfer(file.getPath(), file.length()); Log.e(TAG, "待发送的文件:" + fileTransfer); new WifiClientTask(this, fileTransfer).execute(wifiP2pInfo.groupOwnerAddress.getHostAddress()); } } } } }}private String getPath(Context context, Uri uri) { if ("content".equalsIgnoreCase(uri.getScheme())) { Cursor cursor = context.getContentResolver().query(uri, new String[]{"_data"}, null, null, null); if (cursor != null) { if (cursor.moveToFirst()) { String data = cursor.getString(cursor.getColumnIndex("_data")); cursor.close(); return data; } } } else if ("file".equalsIgnoreCase(uri.getScheme())) { return uri.getPath(); } return null;}文件的发送操作放到 AsyncTask 中处理,将服务器端的IP地址作为参数传进来,在正式发送文件前,先发送包含文件信息(文件名,文件大小,文件MD5码)的信息模型 FileTransfer ,并在发送文件的过程中同时更新进度
/** * 作者:叶应是叶 * 时间:2018/2/15 8:51 * 描述:客户端发送文件 */public class WifiClientTask extends AsyncTask<String, Integer, Boolean> { private ProgressDialog progressDialog; private FileTransfer fileTransfer; private static final int PORT = 4786; private static final String TAG = "WifiClientTask"; public WifiClientTask(Context context, FileTransfer fileTransfer) { this.fileTransfer = fileTransfer; progressDialog = new ProgressDialog(context); progressDialog.setProgressStyle(ProgressDialog.STYLE_HORIZONTAL); progressDialog.setCancelable(false); progressDialog.setCanceledOnTouchOutside(false); progressDialog.setTitle("正在发送文件"); progressDialog.setMax(100); } @Override protected void onPreExecute() { progressDialog.show(); } @Override protected Boolean doInBackground(String... strings) { fileTransfer.setMd5(Md5Util.getMd5(new File(fileTransfer.getFilePath()))); Log.e(TAG, "文件的MD5码值是:" + fileTransfer.getMd5()); Socket socket = null; OutputStream outputStream = null; ObjectOutputStream objectOutputStream = null; InputStream inputStream = null; try { socket = new Socket(); socket.bind(null); socket.connect((new InetSocketAddress(strings[0], PORT)), 10000); outputStream = socket.getOutputStream(); objectOutputStream = new ObjectOutputStream(outputStream); objectOutputStream.writeObject(fileTransfer); inputStream = new FileInputStream(new File(fileTransfer.getFilePath())); long fileSize = fileTransfer.getFileLength(); long total = 0; byte buf[] = new byte[512]; int len; while ((len = inputStream.read(buf)) != -1) { outputStream.write(buf, 0, len); total += len; int progress = (int) ((total * 100) / fileSize); publishProgress(progress); Log.e(TAG, "文件发送进度:" + progress); } outputStream.close(); objectOutputStream.close(); inputStream.close(); socket.close(); outputStream = null; objectOutputStream = null; inputStream = null; socket = null; Log.e(TAG, "文件发送成功"); return true; } catch (Exception e) { Log.e(TAG, "文件发送异常 Exception: " + e.getMessage()); } finally { if (outputStream != null) { try { outputStream.close(); } catch (IOException e) { e.printStackTrace(); } } if (objectOutputStream != null) { try { objectOutputStream.close(); } catch (IOException e) { e.printStackTrace(); } } if (inputStream != null) { try { inputStream.close(); } catch (IOException e) { e.printStackTrace(); } } if (socket != null) { try { socket.close(); } catch (Exception e) { e.printStackTrace(); } } } return false; } @Override protected void onProgressUpdate(Integer... values) { progressDialog.setProgress(values[0]); } @Override protected void onPostExecute(Boolean aBoolean) { progressDialog.cancel(); Log.e(TAG, "onPostExecute: " + aBoolean); }}五、校验文件完整性
传输文件的完整性主要是通过计算文件的MD5码值来保证了,在发送文件前,即在 WifiClientTask 的 doInBackground 方法中进行计算,将MD5码值赋给 FileTransfer 模型,通过如下方法计算得到
/** * 作者:叶应是叶 * 时间:2018/2/14 21:16 * 描述: */public class Md5Util { public static String getMd5(File file) { InputStream inputStream = null; byte[] buffer = new byte[2048]; int numRead; MessageDigest md5; try { inputStream = new FileInputStream(file); md5 = MessageDigest.getInstance("MD5"); while ((numRead = inputStream.read(buffer)) > 0) { md5.update(buffer, 0, numRead); } inputStream.close(); inputStream = null; return md5ToString(md5.digest()); } catch (Exception e) { return null; } finally { if (inputStream != null) { try { inputStream.close(); } catch (IOException e) { e.printStackTrace(); } } } } private static String md5ToString(byte[] md5Bytes) { StringBuilder hexValue = new StringBuilder(); for (byte b : md5Bytes) { int val = ((int) b) & 0xff; if (val < 16) { hexValue.append("0"); } hexValue.append(Integer.toHexString(val)); } return hexValue.toString(); }}因为客户端会将 FileTransfer 传给服务器端,所以服务器端在文件传输结束后,可以重新计算文件的MD5码值,进行对比以判断文件是否完整
这里分享下上述代码:Android 实现无网络传输文件
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持VEVB武林网。
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