leavesC / Wififiletransfer
实现了Android设备之间通过Wifi传输文件的功能,用于在局域网下传输任意文件
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于 2019/11/23 更新,主要是适配了运行时权限,修复 bug,优化了传输流程
在我的上一篇文章:Android 实现无网络传输文件,我介绍了通过 Wifi Direct(Wifi 直连)实现 Android 设备之间进行文件传输的方法,可以在无移动网络的情况下实现点对点的文件传输
本来觉得这样也就够了,可在要应用到实际项目的时候,又考虑到用户的设备系统版本可能并不都符合要求(Wifi Direct 是 Android 4.0 后支持的功能,话说低于 4.4 版本的手机应该都很少了吧?),而且我也不确定 IOS 系统是否支持 Wifi Direct,所以为了让文件传输逻辑可以应用到更多的设备上,就又实现了通过 Wifi热点 进行文件传输的功能
相比于通过 Wiif Direct 进行文件传输,通过 Wifi 热点进行设备配对更加方便,逻辑也更为直接,传输一个1G左右的压缩包用了5分钟左右的时间,平均传输速率有 3.5 M/S 左右。此外,相对于上个版本,新版本除了提供传输进度外,还提供了传输速率、预估完成时间、文件传输前后的MD5码等数据
项目地址:WifiFileTransfer
实现的效果如下所示:
开启Ap热点接收文件
连接Wiif热点发送文件
文件传输完成后校验文件完整性
开发步骤分为以下几点:
- 在 AndroidManifest 中声明相关权限(网络和文件读写权限)
- 文件接收端开启Ap热点,作为服务器端建立Socket,在指定端口等待客户端的连接
- 文件发送端连接到Wifi热点,作为客户端主动连接到服务器端
- 文件发送端将待发送的文件信息模型(包括文件路径,文件大小和文件MD5码等信息)通过Socket发送给文件接收端
- 文件发送端发起实际的文件传输请求,接收端和发送端根据已接收到或已发送的的文件字节数,计算文件传输进度、文件传输速率和预估完成时间等数据
- 文件传输结束后,对比文件信息模型携带来的MD5码值与本地文件重新计算生成的MD5码是否相等,以此校验文件完整性
一、声明权限
本应用并不会消耗移动数据,但由于要使用到 Wifi 以及 Java Socket,所以需要申请网络相关的权限。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、文件接收端
文件接收端作为服务器存在,需要主动开启Ap热点供文件发送端连接,由于通过反射来开启热点的方法在高版本系统上无法实现,所以需要用户主动去开启热点,并设置固定的热点名称
此处需要先定义一个文件信息模型 FileTransfer ,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和传输速率
public class FileTransfer implements Serializable {
//文件路径
private String filePath;
//文件大小
private long fileLength;
//MD5码
private String md5;
···
}
Ap热点开启成功后,就可以启动一个服务在后台等待文件发送端来主动连接了,这里使用 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
文件传输速率是每一秒计算一次,根据这段时间内接收的字节数与消耗的时间做除法,从而得到传输速率,再通过将剩余的未传输字节数与传输速率做除法,从而得到预估的剩余传输时间
@Override
protected void onHandleIntent(Intent intent) {
if (intent != null && ACTION_START_RECEIVE.equals(intent.getAction())) {
clean();
File file = null;
Exception exception = null;
try {
serverSocket = new ServerSocket();
serverSocket.setReuseAddress(true);
serverSocket.bind(new InetSocketAddress(Constants.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) objectInputStream.readObject();
Log.e(TAG, "待接收的文件: " + fileTransfer);
if (fileTransfer == null) {
exception = new Exception("从文件发送端发来的文件模型为null");
return;
} else if (TextUtils.isEmpty(fileTransfer.getMd5())) {
exception = new Exception("从文件发送端发来的文件模型不包含MD5码");
return;
}
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);
startCallback();
byte[] buf = new byte[512];
int len;
while ((len = inputStream.read(buf)) != -1) {
fileOutputStream.write(buf, 0, len);
total += len;
}
Log.e(TAG, "文件接收成功");
stopCallback();
if (progressChangListener != null) {
//因为上面在计算文件传输进度时因为小数点问题可能不会显示到100%,所以此处手动将之设为100%
progressChangListener.onProgressChanged(fileTransfer, 0, 100, 0, 0, 0, 0);
//开始计算传输到本地的文件的MD5码
progressChangListener.onStartComputeMD5();
}
} catch (Exception e) {
Log.e(TAG, "文件接收 Exception: " + e.getMessage());
exception = e;
} finally {
FileTransfer transfer = new FileTransfer();
if (file != null && file.exists()) {
transfer.setFilePath(file.getPath());
transfer.setFileSize(file.length());
transfer.setMd5(Md5Util.getMd5(file));
Log.e(TAG, "计算出的文件的MD5码是:" + transfer.getMd5());
}
if (exception != null) {
if (progressChangListener != null) {
progressChangListener.onTransferFailed(transfer, exception);
}
} else {
if (progressChangListener != null && fileTransfer != null) {
if (fileTransfer.getMd5().equals(transfer.getMd5())) {
progressChangListener.onTransferSucceed(transfer);
} else {
//如果本地计算出的MD5码和文件发送端传来的值不一致,则认为传输失败
progressChangListener.onTransferFailed(transfer, new Exception("MD5码不一致"));
}
}
}
clean();
//再次启动服务,等待客户端下次连接
startActionTransfer(this);
}
}
}
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
为了让界面能够实时获取到文件的传输状态,所以此处除了需要启动Service外,界面还需要绑定Service,所以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回调
*
* @param fileTransfer 文件发送方传来的文件模型
* @param progress 文件传输进度
* @param speed 文件传输速率
* @param remainingTime 预估的剩余完成时间
*/
void onProgressChanged(FileTransfer fileTransfer, int progress, double speed, long remainingTime);
//当传输结束时
void onTransferFinished(FileTransfer fileTransfer);
}
在界面层刷新UI
private FileReceiverService.OnReceiveProgressChangListener progressChangListener = new FileReceiverService.OnReceiveProgressChangListener() {
private FileTransfer originFileTransfer;
@Override
public void onProgressChanged(final FileTransfer fileTransfer, final long totalTime, final int progress, final double instantSpeed, final long instantRemainingTime, final double averageSpeed, final long averageRemainingTime) {
this.originFileTransfer = fileTransfer;
runOnUiThread(new Runnable() {
@Override
public void run() {
if (isCreated()) {
progressDialog.setTitle("正在接收的文件: " + originFileTransfer.getFileName());
if (progress != 100) {
progressDialog.setMessage("原始文件的MD5码是:" + originFileTransfer.getMd5()
+ "\n\n" + "总的传输时间:" + totalTime + " 秒"
+ "\n\n" + "瞬时-传输速率:" + (int) instantSpeed + " Kb/s"
+ "\n" + "瞬时-预估的剩余完成时间:" + instantRemainingTime + " 秒"
+ "\n\n" + "平均-传输速率:" + (int) averageSpeed + " Kb/s"
+ "\n" + "平均-预估的剩余完成时间:" + averageRemainingTime + " 秒"
);
}
progressDialog.setProgress(progress);
progressDialog.setCancelable(true);
progressDialog.show();
}
}
});
}
@Override
public void onStartComputeMD5() {
runOnUiThread(new Runnable() {
@Override
public void run() {
if (isCreated()) {
progressDialog.setTitle("传输结束,正在计算本地文件的MD5码以校验文件完整性");
progressDialog.setMessage("原始文件的MD5码是:" + originFileTransfer.getMd5());
progressDialog.setCancelable(false);
progressDialog.show();
}
}
});
}
@Override
public void onTransferSucceed(final FileTransfer fileTransfer) {
runOnUiThread(new Runnable() {
@Override
public void run() {
if (isCreated()) {
progressDialog.setTitle("传输成功");
progressDialog.setMessage("原始文件的MD5码是:" + originFileTransfer.getMd5()
+ "\n" + "本地文件的MD5码是:" + fileTransfer.getMd5()
+ "\n" + "文件位置:" + fileTransfer.getFilePath());
progressDialog.setCancelable(true);
progressDialog.show();
Glide.with(FileReceiverActivity.this).load(fileTransfer.getFilePath()).into(iv_image);
}
}
});
}
@Override
public void onTransferFailed(final FileTransfer fileTransfer, final Exception e) {
runOnUiThread(new Runnable() {
@Override
public void run() {
if (isCreated()) {
progressDialog.setTitle("传输失败");
progressDialog.setMessage("原始文件的MD5码是:" + originFileTransfer.getMd5()
+ "\n" + "本地文件的MD5码是:" + fileTransfer.getMd5()
+ "\n" + "文件位置:" + fileTransfer.getFilePath()
+ "\n" + "异常信息:" + e.getMessage());
progressDialog.setCancelable(true);
progressDialog.show();
}
}
});
}
};
三、文件发送端
文件发送端作为客户端存在,需要主动连接文件接收端开启的Wifi热点
/**
* 连接指定Wifi
*
* @param context 上下文
* @param ssid SSID
* @param password 密码
* @return 是否连接成功
*/
public static boolean connectWifi(Context context, String ssid, String password) {
String connectedSsid = getConnectedSSID(context);
if (!TextUtils.isEmpty(connectedSsid) && connectedSsid.equals(ssid)) {
return true;
}
openWifi(context);
WifiConfiguration wifiConfiguration = isWifiExist(context, ssid);
if (wifiConfiguration == null) {
wifiConfiguration = createWifiConfiguration(ssid, password);
}
WifiManager wifiManager = (WifiManager) context.getApplicationContext().getSystemService(Context.WIFI_SERVICE);
if (wifiManager == null) {
return false;
}
int networkId = wifiManager.addNetwork(wifiConfiguration);
return wifiManager.enableNetwork(networkId, true);
}
/**
* 开启Wifi
*
* @param context 上下文
* @return 是否成功
*/
public static boolean openWifi(Context context) {
WifiManager wifiManager = (WifiManager) context.getApplicationContext().getSystemService(Context.WIFI_SERVICE);
return wifiManager != null && (wifiManager.isWifiEnabled() || wifiManager.setWifiEnabled(true));
}
/**
* 获取当前连接的Wifi的SSID
*
* @param context 上下文
* @return SSID
*/
public static String getConnectedSSID(Context context) {
WifiManager wifiManager = (WifiManager) context.getApplicationContext().getSystemService(Context.WIFI_SERVICE);
WifiInfo wifiInfo = wifiManager == null ? null : wifiManager.getConnectionInfo();
return wifiInfo != null ? wifiInfo.getSSID().replaceAll("\"", "") : "";
}
连接到指定Wifi后,在选择了要发送的文件后,就启动一个后台线程去主动请求连接服务器端,然后就是进行实际的文件传输操作了
demo 提供的例子是只用来传输图片,但理论上是可以传输任意格式的文件的
private void navToChose() {
Matisse.from(this)
.choose(MimeType.ofImage())
.countable(true)
.showSingleMediaType(true)
.maxSelectable(1)
.capture(false)
.captureStrategy(new CaptureStrategy(true, BuildConfig.APPLICATION_ID + ".fileprovider"))
.restrictOrientation(ActivityInfo.SCREEN_ORIENTATION_UNSPECIFIED)
.thumbnailScale(0.70f)
.imageEngine(new Glide4Engine())
.forResult(CODE_CHOOSE_FILE);
}
获取选取的文件的实际路径,并启动 FileSenderService 去进行文件传输操作
@Override
protected void onActivityResult(int requestCode, int resultCode, Intent data) {
super.onActivityResult(requestCode, resultCode, data);
if (requestCode == CODE_CHOOSE_FILE && resultCode == RESULT_OK) {
List<String> strings = Matisse.obtainPathResult(data);
if (strings != null && !strings.isEmpty()) {
String path = strings.get(0);
File file = new File(path);
if (file.exists()) {
FileTransfer fileTransfer = new FileTransfer(file);
Log.e(TAG, "待发送的文件:" + fileTransfer);
FileSenderService.startActionTransfer(this, fileTransfer, WifiLManager.getHotspotIpAddress(this));
}
}
}
}
将服务器端的IP地址作为参数传给 FileSenderService,在正式发送文件前,先发送包含文件信息的 FileTransfer ,并在发送文件的过程中实时更新文件传输状态
@Override
protected void onHandleIntent(Intent intent) {
if (intent != null && ACTION_START_SEND.equals(intent.getAction())) {
clean();
fileTransfer = (FileTransfer) intent.getSerializableExtra(EXTRA_PARAM_FILE_TRANSFER);
String ipAddress = intent.getStringExtra(EXTRA_PARAM_IP_ADDRESS);
Log.e(TAG, "IP地址:" + ipAddress);
if (fileTransfer == null || TextUtils.isEmpty(ipAddress)) {
return;
}
if (TextUtils.isEmpty(fileTransfer.getMd5())) {
Logger.e(TAG, "MD5码为空,开始计算文件的MD5码");
if (progressChangListener != null) {
progressChangListener.onStartComputeMD5();
}
fileTransfer.setMd5(Md5Util.getMd5(new File(fileTransfer.getFilePath())));
Log.e(TAG, "计算结束,文件的MD5码值是:" + fileTransfer.getMd5());
} else {
Logger.e(TAG, "MD5码不为空,无需再次计算,MD5码为:" + fileTransfer.getMd5());
}
int index = 0;
while (ipAddress.equals("0.0.0.0") && index < 5) {
Log.e(TAG, "ip: " + ipAddress);
ipAddress = WifiLManager.getHotspotIpAddress(this);
index++;
try {
Thread.sleep(1000);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
if (ipAddress.equals("0.0.0.0")) {
return;
}
try {
socket = new Socket();
socket.bind(null);
socket.connect((new InetSocketAddress(ipAddress, Constants.PORT)), 20000);
outputStream = socket.getOutputStream();
objectOutputStream = new ObjectOutputStream(outputStream);
objectOutputStream.writeObject(fileTransfer);
inputStream = new FileInputStream(new File(fileTransfer.getFilePath()));
startCallback();
byte[] buf = new byte[512];
int len;
while ((len = inputStream.read(buf)) != -1) {
outputStream.write(buf, 0, len);
total += len;
}
Log.e(TAG, "文件发送成功");
stopCallback();
if (progressChangListener != null) {
//因为上面在计算文件传输进度时因为小数点问题可能不会显示到100%,所以此处手动将之设为100%
progressChangListener.onProgressChanged(fileTransfer, 0, 100, 0, 0, 0, 0);
progressChangListener.onTransferSucceed(fileTransfer);
}
} catch (Exception e) {
Log.e(TAG, "文件发送异常 Exception: " + e.getMessage());
if (progressChangListener != null) {
progressChangListener.onTransferFailed(fileTransfer, e);
}
} finally {
clean();
}
}
}
四、校验文件完整性
文件的完整性主要是通过对比文件前后的MD5码值来校验了,文件发送端在发送文件前,先计算得到文件的MD5码,将值赋给 FileTransfer 模型传给文件接收端,文件接收端在传输结束后,再次计算本地的文件MD5码值,通过对比前后值是否相等,就可以判断文件是否传输完整 MD5码值通过如下方法计算得到
/**
* 作者:chenZY
* 时间:2018/4/3 15:20
* 描述:https://www.jianshu.com/u/9df45b87cfdf
* https://github.com/leavesC
*/
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();
}
}
项目地址:WifiFileTransfer
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