I am using XBMC android source code and now try to extract some code to new xbmc android project. When i try to connect to a ip address and check whether it is reachable using isReachable(), it is throwing a NetworkOnMainThreadException but same source code(in XBMC source code that is i downloded from the git) it is working fine,
This is the source code i'm working on
Handler handler = new Handler(){
public void handleMessage(android.os.Message message){
if(message.getData().containsKey(MacAddressResolver.MESSAGE_MAC_ADDRESS)){
String mac = message.getData().getString(MacAddressResolver.MESSAGE_MAC_ADDRESS);
if(!mac.equals("")) {
mMacAddrView.setText(mac);
Toast toast = Toast.makeText(getContext(), "Updated MAC for host: " + mHostView.getText().toString() + "\nto: " + mac, Toast.LENGTH_SHORT);
toast.show();
}
}
}
};
public class MacAddressResolver implements Runnable{
private String mHost = null;
private String mMac = null;
private Handler mHandler;
public static final String MESSAGE_MAC_ADDRESS = "MAC_ADDRESS";
public MacAddressResolver(String ipString, Handler handler){
mHost = ipString;
mHandler = handler;
}
public void run(){
mMac = arpResolve(mHost);
Bundle bundle = new Bundle();
bundle.putString(MESSAGE_MAC_ADDRESS, mMac);
Message message = new Message();
message.setData(bundle);
mHandler.sendMessage(message);
}
private String arpResolve(String host){
System.out.println("ARPRESOLVE HOST: " + host);
try{
//Parse it as a proper InetAddress - it might be a hostname. We don't know yet.
InetAddress inet = InetAddress.getByName(host);
//initiate some sort of traffic to ensure we get an arp entry (if we're on same subnet, that is...)
inet.isReachable(500); //timeout of 500ms. just to trigger the arp resolution process
//Get the official string representation of the resolved ip address
String ipString = inet.getHostAddress();
BufferedReader br = new BufferedReader(new FileReader("/proc/net/arp"));
String line = "";
while(true){
line = br.readLine();
if (line == null)
break;
if(line.startsWith(ipString)){
br.close();
System.out.println("ARPRESOLVE MAC:\n" + line);
return line.split("\\s+")[3]; // 4th word, separated by "whitespace"
}
}
br.close();
return "";
}catch(Exception e){
return "";
}
}
}
and i also put these two permission in my AndroidManifest.xml file
<uses-sdk
android:minSdkVersion="8"
android:targetSdkVersion="13" />
<uses-permission android:name="android.permission.INTERNET" />
<uses-permission android:name="android.permission.ACCESS_NETWORK_STATE" />
I don't know, what is the problem and how can i fix it?
NetworkOnMainThreadException exception means that you are doing some Networking Work on MainThread (which will overload that Thread and throw an Exception).
So, you have to move that Networking Code to the Background Thread(another thread other then Main Thread).
AsyncTask
is a good example to handle such things
Related
I'm building a PJSUA2 (PJSIP 2.8) Android app and I have some issues: i.e. only on incoming call, call state remains in "PJSIP_INV_STATE_CONNECTING" and after 32 seconds the call drops.
I'm looking for the cause of the issue since several days, I googled a lot and all what I found is: in most situations this issue is related to NAT management or network issues related to NAT. In a few words: in most cases the called party does not receive the ACK after answering the call.
Finally I was able to log all SIP messages between my app and the SIP server and found that my app receives the ACK from the server, so I suppose it's not a network related issue.
I compiled PJSIP 2.8 with OpenSSL and SRTP support, but without video support (I don't need it at least at the moment). If it makes any difference, the app has a target version 28 and minimum SDK version 19.
I tried several apps on the market and they work fine enough with and without SRTP and with all signaling transports (UDP, TCP, TLS), WebRTC works fine too (tested with SipML5), so I would exclude a server misconfiguration. My app does the same (except SRTP with which I have some issues at the moment).
I tried with a SIP provider too (MessageNet) using UDP and the behaviour is always the same. I tried to use compact SIP messages and it behaves the same, with and without uri parameters, with and without STUN and or ICE and nothing changes. Mobile network and WiFi networks give the same results.
I tried to debug inside PJSIP library too, but without any success, then I tried to follow the code, to understand what I was doing wrong, but it doesn't seem to me there is something evidently wrong.
The following is the code (last version) which initializes PJSIP:
public class SipService extends Service {
private Looper serviceLooper;
private ServiceHandler serviceHandler;
private final Messenger mMessenger = new Messenger(new IncomingHandler());
private LocalBroadcastManager localBroadcast;
private LifecycleBroadcastReceiver lifecycleBroadcastReceiver;
private boolean lastCheckConnected;
private Endpoint endpoint;
private LogWriter logWriter;
private EpConfig epConfig;
private final List<ManagedSipAccount> accounts = new ArrayList<>();
private final Map<String, Messenger> eventRegistrations = new HashMap<>();
#TargetApi(Build.VERSION_CODES.N)
#Override
public void onCreate() {
super.onCreate();
String userAgent = "MyApp";
try {
PackageInfo pInfo = getPackageManager().getPackageInfo(getPackageName(), 0);
String appLabel = (pInfo.applicationInfo.labelRes == 0 ? pInfo.applicationInfo.nonLocalizedLabel.toString() : getString(pInfo.applicationInfo.labelRes));
userAgent = appLabel + "/" + pInfo.versionName;
} catch (PackageManager.NameNotFoundException e) {
Log.e("SipService", "Unable to get app version", e);
}
try {
endpoint = new MyAppEndpoint();
endpoint.libCreate();
epConfig = new EpConfig();
// Logging
logWriter = new PJSIPToAndroidLogWriter();
epConfig.getLogConfig().setWriter(logWriter);
epConfig.getLogConfig().setLevel(5);
// UA
epConfig.getUaConfig().setMaxCalls(4);
epConfig.getUaConfig().setUserAgent(userAgent);
// STUN
StringVector stunServer = new StringVector();
stunServer.add("stun.pjsip.org");
epConfig.getUaConfig().setStunServer(stunServer);
// General Media
epConfig.getMedConfig().setSndClockRate(16000);
endpoint.libInit(epConfig);
// UDP transport
TransportConfig udpCfg = new TransportConfig();
udpCfg.setQosType(pj_qos_type.PJ_QOS_TYPE_VOICE);
endpoint.transportCreate(pjsip_transport_type_e.PJSIP_TRANSPORT_UDP, udpCfg);
// TCP transport
TransportConfig tcpCfg = new TransportConfig();
//tcpCfg.setPort(5060);
endpoint.transportCreate(pjsip_transport_type_e.PJSIP_TRANSPORT_TCP, tcpCfg);
// TLS transport
TransportConfig tlsCfg = new TransportConfig();
endpoint.transportCreate(pjsip_transport_type_e.PJSIP_TRANSPORT_TLS, tlsCfg);
endpoint.libStart();
} catch (Exception e) {
throw new RuntimeException("Unable to initialize and start PJSIP", e);
}
ConnectivityManager cm = (ConnectivityManager)getSystemService(Context.CONNECTIVITY_SERVICE);
NetworkInfo activeNetwork = cm.getActiveNetworkInfo();
lastCheckConnected = activeNetwork != null && activeNetwork.isConnected();
updateForegroundNotification();
startForeground(MyAppConstants.N_FOREGROUND_NOTIFICATION_ID, buildForegroundNotification());
localBroadcast = LocalBroadcastManager.getInstance(this);
HandlerThread thread = new HandlerThread("ServiceStartArguments",
Process.THREAD_PRIORITY_BACKGROUND);
thread.start();
// Get the HandlerThread's Looper and use it for our Handler
serviceLooper = thread.getLooper();
serviceHandler = new ServiceHandler(serviceLooper);
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.N) {
// Register LifeCycleBroadcastReceiver to receive network change notification
// It seems it's mandatory to do it programmatically since Android N (24)
lifecycleBroadcastReceiver = new LifecycleBroadcastReceiver();
IntentFilter intentFilter = new IntentFilter("android.net.conn.CONNECTIVITY_CHANGE");
registerReceiver(lifecycleBroadcastReceiver, intentFilter);
}
// Initialization
SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(this);
if (prefs != null) {
try {
CodecInfoVector codecs = endpoint.codecEnum();
SharedPreferences.Editor editor = prefs.edit();
for (int i = 0; i < codecs.size(); i++) {
CodecInfo codec = codecs.get(i);
int priority = prefs.getInt("codecs.audio{" + codec.getCodecId() + "}", 0);
try {
endpoint.codecSetPriority(codec.getCodecId(), (short) priority);
codec.setPriority((short) priority);
} catch (Exception e) {
Log.e("SipService", "Unexpected error setting codec priority for codec " + codec.getCodecId(), e);
}
}
} catch (Exception e) {
Log.e("SipService", "Unexpected error loading codecs priorities", e);
}
}
}
#Override
public void onDestroy() {
for (Account acc : accounts) {
acc.delete();
}
accounts.clear();
try {
endpoint.libDestroy();
} catch (Exception e) {
e.printStackTrace();
}
endpoint.delete();
endpoint = null;
epConfig = null;
if (lifecycleBroadcastReceiver != null) {
unregisterReceiver(lifecycleBroadcastReceiver);
}
super.onDestroy();
}
.......
}
And the following is my Account class with creation and registration code:
public class ManagedSipAccount extends Account {
public final String TAG;
private final VoipAccount account;
private final PhoneAccountHandle handle;
private final SipService service;
private final AccountStatus status;
private final Map<Integer, VoipCall> calls = new HashMap<>();
private final Map<String, VoipBuddy> buddies = new HashMap<>();
private AccountConfig acfg;
private List<SrtpCrypto> srtpCryptos = new ArrayList<>();
private AuthCredInfo authCredInfo;
public ManagedSipAccount(SipService service, VoipAccount account, PhoneAccountHandle handle) {
super();
TAG = "ManagedSipAccount/" + account.getId();
this.service = service;
this.account = account;
this.handle = handle;
this.status = new AccountStatus(account.getUserName() + "#" + account.getHost());
acfg = new AccountConfig();
}
public void register(Map<String, String> contactParameters) throws Exception {
StringBuilder contactBuilder = new StringBuilder();
for (Map.Entry<String, String> entry : contactParameters.entrySet()) {
contactBuilder.append(';');
contactBuilder.append(URLEncoder.encode(entry.getKey(), "UTF-8"));
contactBuilder.append("=\"");
contactBuilder.append(URLEncoder.encode(entry.getValue(), "UTF-8"));
contactBuilder.append("\"");
}
StringBuilder logBuilder = new StringBuilder();
logBuilder.append("Registering: ");
logBuilder.append(account.getProtocol().name());
/*logBuilder.append('(');
logBuilder.append(service.getTransport(account.getProtocol()));
logBuilder.append(')');*/
if (account.isEncryptionSRTP()) {
logBuilder.append(" SRTP");
}
if (account.isIce()) {
logBuilder.append(" ICE");
}
Log.d(TAG, logBuilder.toString());
String idUri = "sip:" + account.getUserName();
if (!"*".equals(account.getRealm())) {
idUri += "#" + account.getRealm();
}
else {
idUri += "#127.0.0.1" /*+ account.getHost()*/;
}
acfg.setIdUri(idUri);
acfg.getRegConfig().setRegistrarUri("sip:" + account.getHost() + ":" + account.getPort() + ";transport=" + account.getProtocol().name().toLowerCase());
acfg.getRegConfig().setRetryIntervalSec(account.getRetryInterval());
acfg.getRegConfig().setRegisterOnAdd(false);
acfg.getSipConfig().setContactUriParams(contactBuilder.toString());
// NAT management
acfg.getNatConfig().setSipStunUse(pjsua_stun_use.PJSUA_STUN_USE_DEFAULT);
if (account.isIce()) {
acfg.getNatConfig().setIceEnabled(true);
acfg.getNatConfig().setIceAlwaysUpdate(true);
acfg.getNatConfig().setIceAggressiveNomination(true);
}
else {
acfg.getNatConfig().setSdpNatRewriteUse(1);
}
acfg.getMediaConfig().getTransportConfig().setQosType(pj_qos_type.PJ_QOS_TYPE_VOICE);
if (account.isEncryptionSRTP()) {
acfg.getMediaConfig().setSrtpUse(pjmedia_srtp_use.PJMEDIA_SRTP_MANDATORY);
acfg.getMediaConfig().setSrtpSecureSignaling(0);
//acfg.getMediaConfig().getSrtpOpt().setKeyings(new IntVector(2));
acfg.getMediaConfig().getSrtpOpt().getKeyings().clear();
acfg.getMediaConfig().getSrtpOpt().getKeyings().add(pjmedia_srtp_keying_method.PJMEDIA_SRTP_KEYING_SDES.swigValue());
acfg.getMediaConfig().getSrtpOpt().getKeyings().add(pjmedia_srtp_keying_method.PJMEDIA_SRTP_KEYING_DTLS_SRTP.swigValue());
acfg.getMediaConfig().getSrtpOpt().getCryptos().clear();
StringVector cryptos = Endpoint.instance().srtpCryptoEnum();
for (int i = 0; i < cryptos.size(); i++) {
SrtpCrypto crypto = new SrtpCrypto();
crypto.setName(cryptos.get(i));
crypto.setFlags(0);
srtpCryptos.add(crypto);
acfg.getMediaConfig().getSrtpOpt().getCryptos().add(crypto);
}
}
else {
acfg.getMediaConfig().setSrtpUse(pjmedia_srtp_use.PJMEDIA_SRTP_DISABLED);
acfg.getMediaConfig().setSrtpSecureSignaling(0);
}
authCredInfo = new AuthCredInfo("digest",
account.getRealm(),
account.getAuthenticationId() != null && account.getAuthenticationId().trim().length() > 0 ? account.getAuthenticationId() : account.getUserName(),
0,
account.getPassword());
acfg.getSipConfig().getAuthCreds().add( authCredInfo );
acfg.getIpChangeConfig().setHangupCalls(false);
acfg.getIpChangeConfig().setShutdownTp(true);
create(acfg);
ConnectivityManager cm = (ConnectivityManager)service.getSystemService(Context.CONNECTIVITY_SERVICE);
NetworkInfo activeNetwork = cm.getActiveNetworkInfo();
boolean isConnected = activeNetwork != null && activeNetwork.isConnected();
if (isConnected) {
setRegistration(true);
}
}
#Override
public void onRegStarted(OnRegStartedParam prm) {
super.onRegStarted(prm);
Log.d(TAG, "Status: Registering...");
status.setStatus(AccountStatus.Status.REGISTERING);
service.updateStatus(this);
}
#Override
public void onRegState(OnRegStateParam prm) {
super.onRegState(prm);
try {
Log.d(TAG, "Registration state: " + prm.getCode().swigValue() + " " + prm.getReason());
AccountInfo ai = getInfo();
status.setStatus(ai.getRegIsActive() ? AccountStatus.Status.REGISTERED : AccountStatus.Status.UNREGISTERED);
Log.d(TAG, "Status: " + status.getStatus().name() + " " + super.getInfo().getUri());
service.updateStatus(this);
} catch (Exception e) {
e.printStackTrace();
}
}
.....
}
Finally, how I answer the code at the moment in a class which extends the PJSIP's Call class:
#Override
public void answerCall() {
Log.d(TAG, "Answering call...");
CallOpParam prm = new CallOpParam(true);
prm.setStatusCode(pjsip_status_code.PJSIP_SC_OK);
prm.getOpt().setAudioCount(1);
prm.getOpt().setVideoCount(0);
try {
this.answer(prm);
} catch (Exception e) {
e.printStackTrace();
}
}
I also tried with new CallOpParam(); with just the status code and nothing else, but nothing changes.
One note: I created the IdUri as sip:username#127.0.0.1 because without the host the resulting contact was and I thought that the missing user part may be the cause of the issue or part of it.
The following is the trace of the app <-> my Asterisk server communication during call (linked because of content length exceed).
https://gist.github.com/ivano85/a212ddc9a808f3cd991234725c2bdb45
The ServerIp is an internet public IP, while the MyIp[5.XXX.XXX.XXX] is my phone's public IP.
As you can see from the log, my app sends a 100 Trying, then a 180 Ringing when the phone rings, then the user answers and the app sends a 200 OK. The server replies with a ACK message (I would say it's not a NAT issue, because PJSIP receives the ACK). I see the same from Asterisk.
After this I would expect the call goes from PJSIP_INV_STATE_CONNECTING to PJSIP_INV_STATE_CONFIRMED, but it does not happen, so PJSIP continues to send a 200 OK and receive the ACK every about 2 seconds, until the call times out after 32 seconds and PJSIP disconnects the call (sending a BYE).
I'm starting to think that PJSIP just ignores ACK messages and just has a wrong behaviour. Please help me to understand what is happening here. I would appreciate it so much!
Obviously let me know if you think that more details are needed.
I have a client server model where the client runs on android. It establishes its tls sockets using the following code:.
(Everything the client does to login and relogin)
public class LoginAsync extends AsyncTask<Boolean, String, Boolean>
protected Boolean doInBackground(Boolean... params)
{
try
{
//only handle 1 login request at a time
synchronized(loginLock)
{
if(tryingLogin)
{
Utils.logcat(Const.LOGW, tag, "already trying a login. ignoring request");
onPostExecute(false);
return false;
}
tryingLogin = true;
}
//http://stackoverflow.com/a/34228756
//check if server is available first before committing to anything
// otherwise this process will stall. host not available trips timeout exception
Socket diag = new Socket();
diag.connect(new InetSocketAddress(Vars.serverAddress, Vars.commandPort), TIMEOUT);
diag.close();
//send login command
Vars.commandSocket = Utils.mkSocket(Vars.serverAddress, Vars.commandPort, Vars.expectedCertDump);
String login = Utils.currentTimeSeconds() + "|login|" + uname + "|" + passwd;
Vars.commandSocket.getOutputStream().write(login.getBytes());
//read response
byte[] responseRaw = new byte[Const.BUFFERSIZE];
int length = Vars.commandSocket.getInputStream().read(responseRaw);
//on the off chance the socket crapped out right from the get go, now you'll know
if(length < 0)
{
Utils.logcat(Const.LOGE, tag, "Socket closed before a response could be read");
onPostExecute(false);
return false;
}
//there's actual stuff to process, process it!
String loginresp = new String(responseRaw, 0, length);
Utils.logcat(Const.LOGD, tag, loginresp);
//process login response
String[] respContents = loginresp.split("\\|");
if(respContents.length != 4)
{
Utils.logcat(Const.LOGW, tag, "Server response imporoperly formatted");
onPostExecute(false); //not a legitimate server response
return false;
}
if(!(respContents[1].equals("resp") && respContents[2].equals("login")))
{
Utils.logcat(Const.LOGW, tag, "Server response CONTENTS imporperly formated");
onPostExecute(false); //server response doesn't make sense
return false;
}
long ts = Long.valueOf(respContents[0]);
if(!Utils.validTS(ts))
{
Utils.logcat(Const.LOGW, tag, "Server had an unacceptable timestamp");
onPostExecute(false);
return false;
}
Vars.sessionid = Long.valueOf(respContents[3]);
//establish media socket
Vars.mediaSocket = Utils.mkSocket(Vars.serverAddress, Vars.mediaPort, Vars.expectedCertDump);
String associateMedia = Utils.currentTimeSeconds() + "|" + Vars.sessionid;
Vars.mediaSocket.getOutputStream().write(associateMedia.getBytes());
Intent cmdListenerIntent = new Intent(Vars.applicationContext, CmdListener.class);
Vars.applicationContext.startService(cmdListenerIntent);
onPostExecute(true);
return true;
}
catch (CertificateException c)
{
Utils.logcat(Const.LOGE, tag, "server certificate didn't match the expected");
onPostExecute(false);
return false;
}
catch (Exception i)
{
Utils.dumpException(tag, i);
onPostExecute(false);
return false;
}
}
with the mksocket utility function being:
public static Socket mkSocket(String host, int port, final String expected64) throws CertificateException
{
TrustManager[] trustOnlyServerCert = new TrustManager[]
{new X509TrustManager()
{
#Override
public void checkClientTrusted(X509Certificate[] chain, String alg)
{
}
#Override
public void checkServerTrusted(X509Certificate[] chain, String alg) throws CertificateException
{
//Get the certificate encoded as ascii text. Normally a certificate can be opened
// by a text editor anyways.
byte[] serverCertDump = chain[0].getEncoded();
String server64 = Base64.encodeToString(serverCertDump, Base64.NO_PADDING & Base64.NO_WRAP);
//Trim the expected and presented server ceritificate ascii representations to prevent false
// positive of not matching because of randomly appended new lines or tabs or both.
server64 = server64.trim();
String expected64Trimmed = expected64.trim();
if(!expected64Trimmed.equals(server64))
{
throw new CertificateException("Server certificate does not match expected one.");
}
}
#Override
public X509Certificate[] getAcceptedIssuers()
{
return null;
}
}
};
try
{
SSLContext context;
context = SSLContext.getInstance("TLSv1.2");
context.init(new KeyManager[0], trustOnlyServerCert, new SecureRandom());
SSLSocketFactory mkssl = context.getSocketFactory();
Socket socket = mkssl.createSocket(host, port);
socket.setKeepAlive(true);
return socket;
}
catch (Exception e)
{
dumpException(tag, e);
return null;
}
}
Here is the command listener service that gets started on successful login:
public class CmdListener extends IntentService
protected void onHandleIntent(Intent workIntent)
{
// don't want this to catch the login resposne
Utils.logcat(Const.LOGD, tag, "command listener INTENT SERVICE started");
while(inputValid)
{
String logd = ""; //accumulate all the diagnostic message together to prevent multiple entries of diagnostics in log ui just for cmd listener
try
{//the async magic here... it will patiently wait until something comes in
byte[] rawString = new byte[Const.BUFFERSIZE];
int length = Vars.commandSocket.getInputStream().read(rawString);
if(length < 0)
{
throw new Exception("input stream read failed");
}
String fromServer = new String(rawString, 0, length);
String[] respContents = fromServer.split("\\|");
logd = logd + "Server response raw: " + fromServer + "\n";
//check for properly formatted command
if(respContents.length != 4)
{
Utils.logcat(Const.LOGW, tag, "invalid server response");
continue;
}
//verify timestamp
long ts = Long.valueOf(respContents[0]);
if(!Utils.validTS(ts))
{
Utils.logcat(Const.LOGW, tag, "Rejecting server response for bad timestamp");
continue;
}
//just parse and process commands here. not much to see
}
catch (IOException e)
{
Utils.logcat(Const.LOGE, tag, "Command socket closed...");
Utils.dumpException(tag, e);
inputValid = false;
}
catch(NumberFormatException n)
{
Utils.logcat(Const.LOGE, tag, "string --> # error: ");
}
catch(NullPointerException n)
{
Utils.logcat(Const.LOGE, tag, "Command socket null pointer exception");
inputValid = false;
}
catch(Exception e)
{
Utils.logcat(Const.LOGE, tag, "Other exception");
inputValid = false;
}
}
//only 1 case where you don't want to restart the command listener: quitting the app.
//the utils.quit function disables BackgroundManager first before killing the sockets
//that way when this dies, nobody will answer the command listener dead broadcast
Utils.logcat(Const.LOGE, tag, "broadcasting dead command listner");
try
{
Intent deadBroadcast = new Intent(Const.BROADCAST_BK_CMDDEAD);
sendBroadcast(deadBroadcast);
}
catch (Exception e)
{
Utils.logcat(Const.LOGE, tag, "couldn't broadcast dead command listener... leftover broadacast from java socket stupidities?");
Utils.dumpException(tag, e);
}
}
And here is the background manager that signs you in when you switch from wifi to lte, lte to wifi, or when you come out of the subway from nothing to lte:
public class BackgroundManager extends BroadcastReceiver
{
private static final String tag = "BackgroundManager";
#Override
public void onReceive(final Context context, Intent intent)
{
if(Vars.applicationContext == null)
{
//sometimes intents come in when the app is in the process of shutting down so all the contexts won't work.
//it's shutting down anyways. no point of starting something
return;
}
AlarmManager manager = (AlarmManager) context.getSystemService(Context.ALARM_SERVICE);
if(Vars.uname == null || Vars.passwd == null)
{
//if the person hasn't logged in then there's no way to start the command listener
// since you won't have a command socket to listen on
Utils.logcat(Const.LOGW, tag, "user name and password aren't available?");
}
String action = intent.getAction();
if(action.equals(ConnectivityManager.CONNECTIVITY_ACTION))
{
manager.cancel(Vars.pendingRetries);
new KillSocketsAsync().execute();
if(Utils.hasInternet())
{
//internet reconnected case
Utils.logcat(Const.LOGD, tag, "internet was reconnected");
new LoginAsync(Vars.uname, Vars.passwd).execute();
}
else
{
Utils.logcat(Const.LOGD, tag, "android detected internet loss");
}
//command listener does a better of job of figuring when the internet died than android's connectivity manager.
//android's connectivity manager doesn't always get subway internet loss
}
else if (action.equals(Const.BROADCAST_BK_CMDDEAD))
{
String loge = "command listener dead received\n";
//cleanup the pending intents and make sure the old sockets are gone before making new ones
manager.cancel(Vars.pendingRetries);
new KillSocketsAsync().execute(); //make sure everything is good and dead
//all of this just to address the stupid java socket issue where it might just endlessly die/reconnect
//initialize the quick dead count and timestamp if this is the first time
long now = System.currentTimeMillis();
long deadDiff = now - Vars.lastDead;
Vars.lastDead = now;
if(deadDiff < Const.QUICK_DEAD_THRESHOLD)
{
Vars.quickDeadCount++;
loge = loge + "Another quick death (java socket stupidity) occured. Current count: " + Vars.quickDeadCount + "\n";
}
//with the latest quick death, was it 1 too many? if so restart the app
//https://stackoverflow.com/questions/6609414/how-to-programatically-restart-android-app
if(Vars.quickDeadCount == Const.QUICK_DEAD_MAX)
{
loge = loge + "Too many quick deaths (java socket stupidities). Restarting the app\n";
Utils.logcat(Const.LOGE, tag, loge);
//self restart, give it a 5 seconds to quit
Intent selfStart = new Intent(Vars.applicationContext, InitialServer.class);
int pendingSelfId = 999;
PendingIntent selfStartPending = PendingIntent.getActivity(Vars.applicationContext, pendingSelfId, selfStart, PendingIntent.FLAG_CANCEL_CURRENT);
manager.set(AlarmManager.RTC_WAKEUP, System.currentTimeMillis()+Const.RESTART_DELAY, selfStartPending);
//hopefully 5 seconds will be enough to get out
Utils.quit();
return;
}
else
{ //app does not need to restart. still record the accumulated error messages
Utils.logcat(Const.LOGE, tag, loge);
}
//if the network is dead then don't bother
if(!Utils.hasInternet())
{
Utils.logcat(Const.LOGD, tag, "No internet detected from commnad listener dead");
return;
}
new LoginAsync(Vars.uname, Vars.passwd).execute();
}
else if (action.equals(Const.ALARM_ACTION_RETRY))
{
Utils.logcat(Const.LOGD, tag, "login retry received");
//no point of a retry if there is no internet to try on
if(!Utils.hasInternet())
{
Utils.logcat(Const.LOGD, tag, "no internet for sign in retry");
manager.cancel(Vars.pendingRetries);
return;
}
new LoginAsync(Vars.uname, Vars.passwd).execute();
}
else if(action.equals(Const.BROADCAST_LOGIN_BG))
{
boolean ok = intent.getBooleanExtra(Const.BROADCAST_LOGIN_RESULT, false);
Utils.logcat(Const.LOGD, tag, "got login result of: " + ok);
Intent loginResult = new Intent(Const.BROADCAST_LOGIN_FG);
loginResult.putExtra(Const.BROADCAST_LOGIN_RESULT, ok);
context.sendBroadcast(loginResult);
if(!ok)
{
Utils.setExactWakeup(Const.RETRY_FREQ, Vars.pendingRetries);
}
}
}
}
The server is on a select system call to listen to its established sockets. It accepts new sockets using this code (C on Linux)
incomingCmd = accept(cmdFD, (struct sockaddr *) &cli_addr, &clilen);
if(incomingCmd < 0)
{
string error = "accept system call error";
postgres->insertLog(DBLog(Utils::millisNow(), TAG_INCOMINGCMD, error, SELF, ERRORLOG, DONTKNOW, relatedKey));
perror(error.c_str());
goto skipNewCmd;
}
string ip = inet_ntoa(cli_addr.sin_addr);
//setup ssl connection
SSL *connssl = SSL_new(sslcontext);
SSL_set_fd(connssl, incomingCmd);
returnValue = SSL_accept(connssl);
//in case something happened before the incoming connection can be made ssl.
if(returnValue <= 0)
{
string error = "Problem initializing new command tls connection from " + ip;
postgres->insertLog(DBLog(Utils::millisNow(), TAG_INCOMINGCMD, error, SELF, ERRORLOG, ip, relatedKey));
SSL_shutdown(connssl);
SSL_free(connssl);
shutdown(incomingCmd, 2);
close(incomingCmd);
}
else
{
//add the new socket descriptor to the client self balancing tree
string message = "new command socket from " + ip;
postgres->insertLog(DBLog(Utils::millisNow(), TAG_INCOMINGCMD, message, SELF, INBOUNDLOG, ip, relatedKey));
clientssl[incomingCmd] = connssl;
sdinfo[incomingCmd] = SOCKCMD;
failCount[incomingCmd] = 0;
}
The problem I'm having is when the client reconnects to the server from an ip address it has used recently, the socket on the client always seems to die after creation. If I retry again, it dies again. The only way to get it to connect is for the android app to kill and restart itself.
Example: on wifi at home with address 192.168.1.101. Connection ok. Switch to LTE on address 24.157.18.90. Reconnects me to the server ok. Come back home and get 192.168.1.101. The socket always dies until the app kills itself. Or if while I'm outside, I loose LTE because I take the subway, when I come out, I get the same problem. Note that each time, it will make a new socket. It will not somehow try to salvage the old one. The socket creation also seems to succeed. It's just as soon as the client wants to do a read on it, java says the socket is closed.
I put all the relevant code in its unobfuscated original form since it's my hobby project. I am out of ideas why this happens.
// http://stackoverflow.com/a/34228756
//check if server is available first before committing to anything
// otherwise this process will stall. host not available trips timeout exception
Socket diag = new Socket();
diag.connect(new InetSocketAddress(Vars.serverAddress, Vars.commandPort), TIMEOUT);
diag.close();
It is caused by these three pointless lines of code. The server gets a connection and an immediate read() result of zero.
There is no value in establishing a connection only to close it and then assume you can open another one. You should use the conection you just established. In general the correct way to establish whether any resource is available is to try to use it in the normal way. Techniques like the above are indistinguishable from attempts to predict the future.
I am trying to make an app that would send a MMS without using the native Android messaging app. I followed the example here. My log statements seem to be correctly printing, but I can't figure out why the MMS is not being sent.
Also on a different note, I am a bit confused about where in the example the attachment (like an image) is being selected to send as MMS. I tried to import the demo into Android Studio but I ran into issues.
My function for sending MMS is below:
public void sendMMS() {
Log.d(TAG, "sendMMS()");
Random random = new Random();
final String fileName = "send." + String.valueOf(Math.abs(random.nextLong())) + ".dat";
final File mSendFile = new File(mContext.getCacheDir(), fileName);
// Making RPC call in non-UI thread
AsyncTask.THREAD_POOL_EXECUTOR.execute(new Runnable() {
#Override
public void run() {
final byte[] pdu = buildPdu();
Uri writerUri = (new Uri.Builder())
.authority("com.example.appname")
.path(fileName)
.scheme(ContentResolver.SCHEME_CONTENT)
.build();
Log.d(TAG, "sendMMS(): Uri: " + writerUri.toString());
FileOutputStream writer = null;
Uri contentUri = null;
try {
writer = new FileOutputStream(mSendFile);
writer.write(pdu);
contentUri = writerUri;
Log.d(TAG, "sendMMS(): just wrote file");
} catch (final IOException e) {
Log.d(TAG, "sendMMS(): FAILED: couldn't write file");
} finally {
if (writer != null) {
try {
writer.close();
} catch (IOException e) {
}
}
}
if (contentUri != null) {
SmsManager.getDefault().sendMultimediaMessage(mContext, contentUri, null, null, null);
Log.d(TAG, "sendMMS(): just sent");
} else {
Log.d(TAG, "sendMMS(): FAILED: couldn't write file so didn't send");
}
}
});
}
Helper functions
private byte[] buildPdu() {
final SendReq req = new SendReq();
// from
final String lineNumber = getSimNumber();
if (!TextUtils.isEmpty(lineNumber)) {
req.setFrom(new EncodedStringValue(lineNumber));
}
// to
String[] destsArray = mDestList.toArray(new String[mDestList.size()]);
EncodedStringValue[] encodedNumbers = EncodedStringValue.encodeStrings(destsArray);
if (encodedNumbers != null) {
req.setTo(encodedNumbers);
}
// date
req.setDate(System.currentTimeMillis() / 1000);
// body
PduBody body = new PduBody();
// message text
final int size = addMessagePart(body, true/* add text smil */);
req.setBody(body);
// message size
req.setMessageSize(size);
// message class
req.setMessageClass(PduHeaders.MESSAGE_CLASS_PERSONAL_STR.getBytes());
// expiry
req.setExpiry(DEFAULT_EXPIRY_TIME);
try {
// priority
req.setPriority(DEFAULT_PRIORITY);
// delivery report
req.setDeliveryReport(PduHeaders.VALUE_NO);
// read report
req.setReadReport(PduHeaders.VALUE_NO);
} catch (InvalidHeaderValueException e) {}
return new PduComposer(mContext, req).make();
}
private String getSimNumber() {
TelephonyManager telephonyManager = (TelephonyManager) mContext.getSystemService(Context.TELEPHONY_SERVICE);
return telephonyManager.getLine1Number();
}
private int addMessagePart(PduBody pb, boolean addTextSmil) {
PduPart part = new PduPart();
part.setCharset(CharacterSets.UTF_8);
part.setContentType(ContentType.TEXT_PLAIN.getBytes());
part.setContentLocation(TEXT_PART_FILENAME.getBytes());
int index = TEXT_PART_FILENAME.lastIndexOf(".");
String contentId = (index == -1) ? TEXT_PART_FILENAME : TEXT_PART_FILENAME.substring(0, index);
part.setContentId(contentId.getBytes());
part.setData(mMessage.getBytes());
pb.addPart(part);
if (addTextSmil) {
String smil = String.format(sSmilText, TEXT_PART_FILENAME);
addSmilPart(pb, smil);
}
return part.getData().length;
}
private void addSmilPart(PduBody pb, String smil) {
PduPart smilPart = new PduPart();
smilPart.setContentId("smil".getBytes());
smilPart.setContentType(ContentType.APP_SMIL.getBytes());
smilPart.setContentLocation("smil.xml".getBytes());
smilPart.setData(smil.getBytes());
pb.addPart(0, smilPart);
}
Relevant parts of my manifest
<uses-permission android:name="android.permission.SEND_SMS" />
<uses-permission android:name="android.permission.READ_SMS" />
<uses-permission android:name="android.permission.WRITE_SMS" />
<uses-permission android:name="android.permission.READ_PHONE_STATE"/>
Relevant instance variables
private final long DEFAULT_EXPIRY_TIME = 7 * 24 * 60 * 60;
private final String TEXT_PART_FILENAME = "text_0.txt";
private final int DEFAULT_PRIORITY = PduHeaders.PRIORITY_NORMAL;
private String mMessage;
private ArrayList<String> mDestList;
private Context mContext;
private static final String sSmilText =
"<smil>" +
"<head>" +
"<layout>" +
"<root-layout/>" +
"<region height=\"100%%\" id=\"Text\" left=\"0%%\" top=\"0%%\" width=\"100%%\"/>" +
"</layout>" +
"</head>" +
"<body>" +
"<par dur=\"8000ms\">" +
"<text src=\"%s\" region=\"Text\"/>" +
"</par>" +
"</body>" +
"</smil>";
I already do input checks, so by the time sendMMS() is called, my message and destList are not null.
The flow should be as such:
Create the Mms send-request - new SendReq() and config its date, body, to, etc.
Create the Mms body - new PduBody().
Create Parts via new PduPart() for each attachment, and add to the body: body.addPart(pdu)
Add the body to the request - req.setBody(body)
Convert the send-request to a byte[] ready to be sent by calling new PduComposer(context, mySendReq).make() - note that you'll need to copy lots of code from Android's source code to get the PduComposer class.
Now's the interesting part - you save the byte[] to a local file accessible to your app only, and add ContentProvider class that allows other apps to request access to your file, this is MmsFileProvider class in the sample app, don't forget to declare your provider in your manifest file.
Now, when you call the SmsManager.sendMultimediaMessage api, your file provider will wake up to serve the file containing the pdu bytes to the system SmsManager that will read it and send it on the wire.
Having that said, this API is only working for me on some devices (e.g. Nexuses), but not on some others (e.g. HTC One).
See my SO question here:
SmsManager MMS APIs on HTC/LG
i'm stuck at creating UDP connection between android phone(2.3) and my PC over wifi.
I know how to create a UDP connection in local server. My problem is do android support adhock network because whenever i try searching for my PC's wifi directly , it doesn't show it , hence i have to first create a virtual hotspot over my PC and then connect my phone to it .
After this , i simply try sending data packets from my phone to server running on my PC.
public class WifitestActivity extends Activity {
WifiManager w;
TextView status;
InetAddress server_ip;
int server_port = 9876;
public void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.main);
status = (TextView) findViewById(R.id.status);
w = (WifiManager) this.getSystemService(Context.WIFI_SERVICE);
if (!w.isWifiEnabled()) {
status.setText("switching ON wifi ");
w.setWifiEnabled(true);
} else {
status.setText("Its already ON ");
}
int x;
WifiInfo info = w.getConnectionInfo();
status.append("\n\nWiFi Status: " + info.toString());
x = info.getIpAddress();
String str = info.getMacAddress();
status.append("\n\nmac address===" + str + " ,ip===" + x);
try {
server_ip = InetAddress.getByName("192.168.181.1"); // ip of my server.How to dynamically update it
} catch (UnknownHostException e) {
status.append("Error at fetching inetAddress");
}
DatagramSocket s = new DatagramSocket(server_port, server_ip);
// **ERROR AT PREVIOUS LINE, I HAD TO FORCE STOP MY APP EVERTIME I RUN
// MY CODE**
String str = "TEST MESSAGE !!!";
byte b1[];
b1 = new byte[100];
b1 = str.getBytes();
DatagramPacket p1 = new DatagramPacket(b1, b1.length, server_ip,
server_port);
}
}
Server code running on my PC :
import java.io.*;
import java.net.*;
class server2
{
static InetAddress clientip;
static int clientport;
static DatagramPacket p3;
public static void main(String args[])throws Exception
{
DatagramSocket s = new DatagramSocket(9876);
byte b1[],b2[];
b1=new byte[100];
b2=new byte[100];
DatagramPacket p1 = new DatagramPacket(b1,b1.length);
s.receive(p1);
b1=p1.getData();
String str = new String( b1);
clientport = p1.getPort(); //packet mein save hota hai
clientip=p1.getAddress();
System.out.println("RECIEVED FROM CLIENT IP ="+clientip+" port="+clientport+" data="+str);
}
}
There is an error at client code (WifiTestActivity) and my app crashes whenever i try running it on my phone . Plzz help me out !
You need the Internet Permission. Add this to your manifest:
<uses-permission android:name="android.permission.INTERNET"/>
My App recieves a neverending datastream from a bluetooth device.
I am reading this stream in a while(true) loop and can see the read data in my log.
The problem is, that my device is not responding anymore. Is there a (hopefully) simple way to let the application read the stream in the background?
Thanks!
Christian.
#boulder:
Sorry, I don't really understand that AsynkTask class. :(
Can you please help me with this code putting it in the background?
Thank you very much!
try {
while (true)
{
read = isBT.read(msgBuffer);
connected = true;
StringBuilder strBuffer = new StringBuilder();
for (int i = 0; i<read; i++)
{
int b = msgBuffer[i];
strBuffer.append(b);
}
Log.d(TAG,"++++++ Read "+ read + " Bytes: " + strBuffer.toString());
}
}
catch (IOException e) {
Log.d(TAG," +++ IOException ++++", e);
}
May be this will be helpful http://android-developers.blogspot.com/2009/05/painless-threading.html
Handler example:
private static final String CONTENT_TAG = "content";
// Call this from datastream thread to post data
private void postProgress(String aBufferContent) {
// Wrapping data in bundle
final Bundle bundle = new Bundle();
bundle.putString(CONTENT_TAG, aBufferContent);
// Sending message to handler
final Message message = mProgressHandler.obtainMessage();
message.setData(bundle);
mProgressHandler.sendMessage(message);
}
// This will be executed in UI thread. Do you GUI update job here
private final Handler mProgressHandler = new Handler() {
public void handleMessage(Message msg) {
final String streamContent = msg.getData().getString(CONTENT_TAG);
myTextView.setText(streamContent);
}
};