I am trying to create a leader election protocol using JGroups so that N instances of my program can elect a master and all clients get the ip of this master.
More or less the current implementation relies on each instance trying to acquire a lock on lock-channel and when it successfully acquires this channel it becomes master and all others switch to clients.
import java.net.InetAddress;
import java.net.NetworkInterface;
import java.util.*;
import org.jgroups.*;
import org.jgroups.blocks.locking.LockService;
public class AutoDiscovery
{
static org.apache.log4j.Logger log = org.apache.log4j.Logger.getLogger(AutoDiscovery.class); //used for logging purposes (see log4j library)
/* this variable indicates whether I have become the master or I'm just a client*/
public volatile AtomicBoolean becomeMaster = new AtomicBoolean(false);
/* The address of the server if we are a client or of ourself if we are
* server */
public String serverAddress;
/* A channel on which to acquire a lock, so that only one can become server */
private JChannel lockChannel;
/* A shared channel ffor communication between client and master*/
private JChannel communicationChannel;
private LockService lockService;
/* A thread which tries to acquire a lock */
private Thread acquiringThread;
/* A thread which listens for the server ip which may change */
private Thread listeningThread;
/* A thread which lists the status and initializes the acquiring thread*/
private Thread statusThread;
private String name;
/* If we pass from being a client to being a server we must stop the listening
* thread however we cannot call listeningThread.stop() but instead we change
* the stopListening boolean to true */
private boolean stopListening = false;
/* This lock communicates I have finally become either master or client so
* the serverAddress and becomeMaster variables are correctly set */
public final Object finishedLock = new Object();
public static void main(String[] args) throws Exception
{
Thread.currentThread().setName("MyMainThread");
Random rand = new Random();
AutoDiscovery master = new AutoDiscovery("Node" + rand.nextInt(10));
master.lockChannel = new JChannel(AutoDiscovery.class.getResource("/resource/udp.xml"));
master.lockChannel.connect("lock-channel");
master.communicationChannel = new JChannel(AutoDiscovery.class.getResource("/resource/udp.xml"));
master.communicationChannel.connect("communication-channel");
master.lockService = new LockService(master.lockChannel);
master.startStatusPrinterThread();
}
public AutoDiscovery(String name)
{
this.name = name;
}
public AutoDiscovery()
{
try
{
Thread.currentThread().setName("MyMainThread");
Random rand = new Random();
this.name = ("Node" + rand.nextInt(10));
lockChannel = new JChannel(AutoDiscovery.class.getResource("/resource/udp.xml"));
lockChannel.connect("lock-channel");
communicationChannel = new JChannel(AutoDiscovery.class.getResource("/resource/udp.xml"));
communicationChannel.connect("communication-channel");
lockService = new LockService(lockChannel);
startStatusPrinterThread();
}
catch (Exception ex)
{
Logger.getLogger(AutoDiscovery.class.getName()).log(Level.SEVERE, null, ex);
}
}
public void startAcquiringThread()
{
acquiringThread = new Thread()
{
#Override
public void run()
{
while (true)
{
//if you have become Master send your ip every now and then
if (becomeMaster.get())
{
try
{
communicationChannel.send(new Message(null, null, "serverip " + serverAddress));
}
catch (Exception ex)
{
Logger.getLogger(AutoDiscovery.class.getName()).log(Level.SEVERE, null, ex);
}
}
else
{
try
{
Thread.currentThread().setName(name + "AcquiringThread");
Lock lock = lockService.getLock("serverLock");
if (lock.tryLock(4, TimeUnit.SECONDS))
{
becomeMaster.set(true);
stopListening = true;
/* Now that I'm server I must find out my own ip address on which to listen */
Enumeration<NetworkInterface> networkInterfaces;
try
{
networkInterfaces = NetworkInterface.getNetworkInterfaces();
for (NetworkInterface netint : Collections.list(networkInterfaces))
{
Enumeration<InetAddress> inetAddresses = netint.getInetAddresses();
for (InetAddress inetAddress : Collections.list(inetAddresses))
{
if (isIPAddress(inetAddress.getHostAddress())
&& !inetAddress.getHostAddress().equals("127.0.0.1"))
{
serverAddress = inetAddress.getHostAddress();
}
}
}
/* I notify to the rest of the program I have correctly initialized
* becomeMaster and serverAddress */
synchronized (finishedLock)
{
finishedLock.notify();
}
}
catch (Exception e)
{
Logger.getLogger(AutoDiscovery.class.getName()).log(Level.SEVERE, null, e);
System.exit(0);
}
log.info(Thread.currentThread().getName() + ": I acquired lock! will become master! my ip is " + serverAddress);
}
else
{
becomeMaster.set(false);
stopListening = false;
if (listeningThread == null || !listeningThread.isAlive())
{
if (!stopListening) //??? this codnition might be useless
{
startListeningThread();
}
}
}
}
catch (Exception e)
{
e.printStackTrace();
}
}
try
{
sleep(5000L);
}
catch (InterruptedException ex)
{
Logger.getLogger(AutoDiscovery.class.getName()).log(Level.SEVERE, null, ex);
}
}
}
};
acquiringThread.setDaemon(true);
acquiringThread.start();
}
public void startListeningThread()
{
listeningThread = new Thread()
{
#Override
public void run()
{
try
{
while (true)
{
Thread.currentThread().setName(name + "ListeningThread");
communicationChannel.setReceiver(new ReceiverAdapter()
{
#Override
public void receive(Message msg)
{
if (msg.getObject() != null)
{
String leaderServerAddress = (msg.getObject().toString().substring(9));
if (isIPAddress(leaderServerAddress))
{
serverAddress = leaderServerAddress;
log.info(name + " Master server has ip" + serverAddress);
/* I notify to the rest of the program I have correctly initialized
* becomeMaster and serverAddress */
synchronized (finishedLock)
{
finishedLock.notify();
}
}
else
{
log.info(name + ": discarded message " + msg.getObject().toString());
}
}
}
});
sleep(10000L);
if (stopListening)
{
return;
}
}
}
catch (Exception e)
{
e.printStackTrace();
}
}
};
listeningThread.setDaemon(true);
listeningThread.start();
}
private void startStatusPrinterThread()
{
statusThread = new Thread()
{
#Override
public void run()
{
Thread.currentThread().setName(name + "StatusPrinterThread");
startAcquiringThread();
while (true)
{
try
{
if (becomeMaster.get())
{
log.info(name + " startStatusPrinterThread(): I am happily a Master!");
}
else
{
if (!acquiringThread.isAlive())
{
startAcquiringThread();
}
}
sleep(5000L);
}
catch (InterruptedException e)
{
e.printStackTrace();
}
}
}
};
statusThread.setDaemon(true);
statusThread.start();
}
private static boolean isIPAddress(String str)
{
Pattern ipPattern = Pattern.compile("^([01]?\\d\\d?|2[0-4]\\d|25[0-5])\\."
+ "([01]?\\d\\d?|2[0-4]\\d|25[0-5])\\."
+ "([01]?\\d\\d?|2[0-4]\\d|25[0-5])\\."
+ "([01]?\\d\\d?|2[0-4]\\d|25[0-5])$");
return ipPattern.matcher(str).matches();
}
}
now my current udp.xml is
<config xmlns="urn:org:jgroups"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="urn:org:jgroups http://www.jgroups.org/schema/JGroups-3.0.xsd">
<UDP
mcast_port="${jgroups.udp.mcast_port:45588}"
tos="8"
ucast_recv_buf_size="20M"
ucast_send_buf_size="640K"
mcast_recv_buf_size="25M"
mcast_send_buf_size="640K"
loopback="true"
level="WARN"
log_discard_msgs="false"
max_bundle_size="64K"
max_bundle_timeout="30"
ip_ttl="${jgroups.udp.ip_ttl:8}"
enable_diagnostics="true"
thread_naming_pattern="cl"
timer_type="new"
timer.min_threads="4"
timer.max_threads="10"
timer.keep_alive_time="3000"
timer.queue_max_size="500"
thread_pool.enabled="true"
thread_pool.min_threads="2"
thread_pool.max_threads="8"
thread_pool.keep_alive_time="5000"
thread_pool.queue_enabled="true"
thread_pool.queue_max_size="10000"
thread_pool.rejection_policy="discard"
oob_thread_pool.enabled="true"
oob_thread_pool.min_threads="1"
oob_thread_pool.max_threads="8"
oob_thread_pool.keep_alive_time="5000"
oob_thread_pool.queue_enabled="false"
oob_thread_pool.queue_max_size="100"
oob_thread_pool.rejection_policy="Run"/>
<PING timeout="2000"
num_initial_members="3"/>
<MERGE2 max_interval="30000"
min_interval="10000"/>
<FD_SOCK/>
<FD_ALL/>
<VERIFY_SUSPECT timeout="1500" />
<BARRIER />
<pbcast.NAKACK exponential_backoff="300"
xmit_stagger_timeout="200"
use_mcast_xmit="false"
discard_delivered_msgs="true"/>
<UNICAST />
<pbcast.STABLE stability_delay="1000" desired_avg_gossip="50000"
max_bytes="4M"/>
<pbcast.GMS print_local_addr="true" join_timeout="3000"
view_bundling="true"/>
<UFC max_credits="2M"
min_threshold="0.4"/>
<MFC max_credits="2M"
min_threshold="0.4"/>
<FRAG2 frag_size="60K" />
<pbcast.STATE_TRANSFER />
<CENTRAL_LOCK />
<!-- pbcast.FLUSH /-->
</config>
Now the above works when I run N instances of the program on the same machine (with N-1 members becoming client and 1 becoming master).
When run on two different machines both connected to the same LAN, apparently after calling JChannel.connect() with the same clustername in each member, each member creates its channel and no common cluster is created. The result is that when sending messages to the clients the other master sees a different physical address for the same cluster name and all messages are dropped.
So I get warnings like:
7683 [Incoming-1,communication-channel,pc-home-41714] WARN org.jgroups.protocols.pbcast.NAKACK - [JGRP00011] pc-home-41714: dropped message 293 from non-member cf8b4ea6-8cc8-cb21-538f-b03f3fa7413d (view=[pc-home-41714|0] [pc-home-41714])
1207996 [TransferQueueBundler,communication-channel,pc-home-5280] WARN org.jgroups.protocols.UDP - pc-home-5280: no physical address for cf8b4ea6-8cc8-cb21-538f-b03f3fa7413d, dropping message
1209526 [TransferQueueBundler,lock-channel,pc-home-59082] WARN org.jgroups.protocols.UDP - pc-home-59082: no physical address for efbe6408-0e21-d119-e2b8-f1d5762d9b45, dropping message
If I change udp.xml loopback="true" to loopback="false" what happens is that they both connect to the same cluster but then they give an error like:
55539 [Node0StatusPrinterThread] INFO plarz.net.planningig.autodiscovery.AutoDiscovery - Node0 startStatusPrinterThread(): I am happily a Master!
59077 [TransferQueueBundler,lock-channel,pc-test-6919] ERROR org.jgroups.protocols.UDP - pc-test-6919: exception sending bundled msgs: java.lang.Exception: dest=/fe80:0:0:0:226:18ff:fece:6ccc%2:43109 (130 bytes):, cause: java.io.IOException: Network is unreachable
59505 [TransferQueueBundler,communication-channel,pc-test-35303] ERROR org.jgroups.protocols.UDP - pc-test-35303: exception sending bundled msgs: java.lang.Exception: dest=/fe80:0:0:0:226:18ff:fece:6ccc%2:55053 (139 bytes):, cause: java.io.IOException: Network is unreachable
Error:
[Server:ha-server-3] 13:59:13,122 WARNING [org.jgroups.protocols.UDP]
(OOB-15,null) null: no physical address for
766de5c9-8ac2-6d30-89ef-78d39aa5f7eb, dropping message
In My case, it was due to having multiple jboss clusters at a same
network and each of the clusters were having same name. For example
ha-server-1 and ha-server-2 existed at two different clusters in
different machines.
Cluster-1(10.10.10.10): |
+- ha-server-1
+- ha-server-2
Cluster-2(10.10.10.20): |
+- ha-server-1
+- ha-server-2
I have resolved this problem by changing the ha-server names. Note:
Both were independent cluster. I assume it happened due to the
multicast issue of JGroups. Any further explanation from an expert
like you will be nice.
refer to http://icfun.blogspot.com/2013/10/no-physical-address-for-766de5c9-8ac2.html
Related
Hi I have downloaded pcap4j and winpcap and all jar (jna, pcap4j-core-1.8.2, slf4j-api-1.7.25, slf4j-simple-1.7.25) dependency manually. Added to the project and all compile well.
BUT:
when I began to sniff packet.getHeader() and packet.getPayload() returns null!
if I run manually rpcapd.exe then it works...
why?
package sniffer;
import java.io.IOException;
import org.pcap4j.core.BpfProgram.BpfCompileMode;
import org.pcap4j.core.NotOpenException;
import org.pcap4j.core.PacketListener;
import org.pcap4j.core.PcapHandle;
import org.pcap4j.core.PcapNativeException;
import org.pcap4j.core.PcapNetworkInterface;
import org.pcap4j.core.PcapNetworkInterface.PromiscuousMode;
import org.pcap4j.packet.Packet;
import org.pcap4j.util.NifSelector;
public class App {
static PcapNetworkInterface getNetworkDevice() {
PcapNetworkInterface device = null;
try {
device = new NifSelector().selectNetworkInterface();
} catch (IOException e) {
e.printStackTrace();
}
return device;
}
public static void main(String[] args) throws PcapNativeException, NotOpenException {
// The code we had before
PcapNetworkInterface device = getNetworkDevice();
System.out.println("You chose: " + device);
// New code below here
if (device == null) {
System.out.println("No device chosen.");
System.exit(1);
}
// Open the device and get a handle
int snapshotLength = 65536; // in bytes
int readTimeout = 50; // in milliseconds
final PcapHandle handle;
handle = device.openLive(snapshotLength, PromiscuousMode.PROMISCUOUS, readTimeout);
String filter = "tcp port 80";
handle.setFilter(filter, BpfCompileMode.OPTIMIZE);
// Create a listener that defines what to do with the received packets
PacketListener listener = new PacketListener() {
#Override
public void gotPacket(Packet packet) {
// Override the default gotPacket() function and process packet
System.out.println(handle.getTimestamp());
System.out.println(packet);
System.out.println(packet.getHeader());///////////////<<<<<<<<<<<------------
}
};
// Tell the handle to loop using the listener we created
try {
int maxPackets = 50;
handle.loop(maxPackets, listener);
} catch (InterruptedException e) {
e.printStackTrace();
}
// Cleanup when complete
handle.close();
}
}
You need to add a packet factory (e.g. pcap4j-packetfactory-static.jar) to your classpath, or Pcap4J creates UnknownPacket instances, getPayload() and getHeader() of which return null, for all packets.
I am transforming an Image into pdf for test purposes.
To ensure that the Image is compatible with the printing process later on, I'm running a quick test print during the upload.
I'm creating a simple Test-PDF with a transformer. When I try to print an image with an incompatible format, the ImageManager of the transformer throws an ImageException, starting in the preloadImage() function:
public ImageInfo preloadImage(String uri, Source src)
throws ImageException, IOException {
Iterator iter = registry.getPreloaderIterator();
while (iter.hasNext()) {
ImagePreloader preloader = (ImagePreloader)iter.next();
ImageInfo info = preloader.preloadImage(uri, src, imageContext);
if (info != null) {
return info;
}
}
throw new ImageException("The file format is not supported. No ImagePreloader found for "
+ uri);
}
throwing it to:
public ImageInfo needImageInfo(String uri, ImageSessionContext session, ImageManager manager)
throws ImageException, IOException {
//Fetch unique version of the URI and use it for synchronization so we have some sort of
//"row-level" locking instead of "table-level" locking (to use a database analogy).
//The fine locking strategy is necessary since preloading an image is a potentially long
//operation.
if (isInvalidURI(uri)) {
throw new FileNotFoundException("Image not found: " + uri);
}
String lockURI = uri.intern();
synchronized (lockURI) {
ImageInfo info = getImageInfo(uri);
if (info == null) {
try {
Source src = session.needSource(uri);
if (src == null) {
registerInvalidURI(uri);
throw new FileNotFoundException("Image not found: " + uri);
}
info = manager.preloadImage(uri, src);
session.returnSource(uri, src);
} catch (IOException ioe) {
registerInvalidURI(uri);
throw ioe;
} catch (ImageException e) {
registerInvalidURI(uri);
throw e;
}
putImageInfo(info);
}
return info;
}
}
throwing it to :
public ImageInfo getImageInfo(String uri, ImageSessionContext session)
throws ImageException, IOException {
if (getCache() != null) {
return getCache().needImageInfo(uri, session, this);
} else {
return preloadImage(uri, session);
}
}
Finally it gets caught and logged in the ExternalGraphic.class:
/** {#inheritDoc} */
public void bind(PropertyList pList) throws FOPException {
super.bind(pList);
src = pList.get(PR_SRC).getString();
//Additional processing: obtain the image's intrinsic size and baseline information
url = URISpecification.getURL(src);
FOUserAgent userAgent = getUserAgent();
ImageManager manager = userAgent.getFactory().getImageManager();
ImageInfo info = null;
try {
info = manager.getImageInfo(url, userAgent.getImageSessionContext());
} catch (ImageException e) {
ResourceEventProducer eventProducer = ResourceEventProducer.Provider.get(
getUserAgent().getEventBroadcaster());
eventProducer.imageError(this, url, e, getLocator());
} catch (FileNotFoundException fnfe) {
ResourceEventProducer eventProducer = ResourceEventProducer.Provider.get(
getUserAgent().getEventBroadcaster());
eventProducer.imageNotFound(this, url, fnfe, getLocator());
} catch (IOException ioe) {
ResourceEventProducer eventProducer = ResourceEventProducer.Provider.get(
getUserAgent().getEventBroadcaster());
eventProducer.imageIOError(this, url, ioe, getLocator());
}
if (info != null) {
this.intrinsicWidth = info.getSize().getWidthMpt();
this.intrinsicHeight = info.getSize().getHeightMpt();
int baseline = info.getSize().getBaselinePositionFromBottom();
if (baseline != 0) {
this.intrinsicAlignmentAdjust
= FixedLength.getInstance(-baseline);
}
}
}
That way it isn't accessible for me in my code that uses the transformer.
I tried to use a custom ErrorListener, but the transformer only registers fatalErrors to the ErrorListener.
Is there any way to access the Exception and handle it myself without changing the code of the library?
It was easier than I thought. Before I call the transformation I register a costum EventListener to the User Agent of the Fop I'm using. This Listener just stores the Information what kind of Event was triggered, so I can throw an Exception if it's an ImageError.
My Listener:
import org.apache.fop.events.Event;
import org.apache.fop.events.EventListener;
public class ImageErrorListener implements EventListener
{
private String eventKey = "";
private boolean imageError = false;
#Override
public void processEvent(Event event)
{
eventKey = event.getEventKey();
if(eventKey.equals("imageError")) {
imageError = true;
}
}
public String getEventKey()
{
return eventKey;
}
public void setEventKey(String eventKey)
{
this.eventKey = eventKey;
}
public boolean isImageError()
{
return imageError;
}
public void setImageError(boolean imageError)
{
this.imageError = imageError;
}
}
Use of the Listener:
// Start XSLT transformation and FOP processing
ImageErrorListener imageListener = new ImageErrorListener();
fop.getUserAgent().getEventBroadcaster().addEventListener(imageListener);
if (res != null)
{
transformer.transform(xmlDomStreamSource, res);
}
if(imageListener.isImageError()) {
throw new ImageException("");
}
fop is of the type Fop ,xmlDomStreamSource ist the xml-Source I want to transform and res is my SAXResult.
I am following this tutorial: https://cwiki.apache.org/confluence/display/CXF20DOC/JAXRS+Testing
But I get this error:
javax.naming.NoInitialContextException:Need to specify class name in environment or system property, or as an applet parameter, or in an application resource file: java.naming.factory.initial
This is my local server class:
public class CXFLocalTransportTestSuite {
public static final Logger LOGGER = LogManager.getLogger();
public static final String ENDPOINT_ADDRESS = "local://service0";
private static Server server;
#BeforeClass
public static void initialize() throws Exception {
startServer();
}
private static void startServer() throws Exception {
JAXRSServerFactoryBean factory = new JAXRSServerFactoryBean();
factory.setAddress(ENDPOINT_ADDRESS);
List<Class<?>> resourceClasses = new ArrayList<Class<?>>();
resourceClasses.add(CommunicationWSRESTImpl.class);
factory.setResourceClasses(resourceClasses);
List<ResourceProvider> resourceProviders = new ArrayList<>();
resourceProviders.add(new SingletonResourceProvider(new CommunicationWSRESTImpl()));
factory.setResourceProviders(resourceProviders);
List<Object> providers = new ArrayList<Object>();
providers.add(new JacksonJaxbJsonProvider());
providers.add(new ApiOriginFilter());
providers.add(new AuthenticationFilter());
providers.add(new AuthorizationFilter());
factory.setProviders(providers);
server = factory.create();
server.start();
LOGGER.info("LOCAL TRANSPORT STARTED");
}
#AfterClass
public static void destroy() throws Exception {
server.stop();
server.destroy();
LOGGER.info("LOCAL TRANSPORT STOPPED");
}
}
And a client example:
public class CommunicationApiTest {
// [PUBLIC PROFILE]
// --------------------------------------------------------------------------------------------------------
#Test
public void getLinkedComponentsTest() {
// PATH. PARAM.
// ********************************************************************************************************
String userId = "1";
String componentInstance = "a3449197-cc72-49eb-bc14-5d43a80dfa80";
String portId = "00";
// ********************************************************************************************************
WebClient client = WebClient.create(CXFLocalTransportTestSuite.ENDPOINT_ADDRESS);
client.path("/communication/getLinkedComponents/{userId}-{componentInstance}-{portId}", userId, componentInstance, portId);
client.header("Authorization", "Bearer " + CXFLocalTransportTestSuite.authenticationTokenPublicProfile);
Response res = client.get();
if (null != res) {
assertEquals(StatusCode.SUCCESSFUL_OPERATION.getStatusCode(), res.getStatus());
assertNotNull(res.getEntity());
// VALID RESPONSE
// ********************************************************************************************************
assertEquals("> Modules has not been initialized for userID = 1", res.readEntity(GetLinksResult.class).getMessage());
// ********************************************************************************************************
}
}
}
Finally, this is the jax-rs implementation on the server side:
#Path("/communication")
public class CommunicationWSRESTImpl implements CommunicationWS {
#Path("/getLinkedComponents/{userId}-{componentInstance}-{portId}")
#GET
#Produces(MediaType.APPLICATION_JSON)
public Response getLinkedComponents(
#HeaderParam("Authorization") String accessToken,
#PathParam("userId") String userId,
#PathParam("componentInstance") String componentInstance,
#PathParam("portId") String portId) {
LOGGER.info("[CommunicationWSREST - getLinksComponents] userId: " + userId + " -- componentInstace: "
+ componentInstance + " -- portId: " + portId);
GetLinksResult result = new GetLinksResult();
result.setGotten(false);
result.setPortList(null);
if (userId != null && userId.compareTo("") != 0) {
if (componentInstance != null && componentInstance.compareTo("") != 0) {
if (portId != null && portId.compareTo("") != 0) {
TMM tmm = null;
javax.naming.Context initialContext;
try {
initialContext = new InitialContext();
tmm = (TMM) initialContext.lookup("java:app/cos/TMM");
result = tmm.calculateConnectedPorts(userId, componentInstance, portId);
} catch (Exception e) {
LOGGER.error(e);
result.setMessage("> Internal Server Error");
return Response.status(Status.INTERNAL_SERVER_ERROR).entity(result).build();
}
} else {
LOGGER.error("Not found or Empty Port Error");
result.setMessage("> Not found or Empty Port Error");
return Response.status(Status.NOT_FOUND).entity(result).build();
}
} else {
LOGGER.error("Not found or Empty Component Instance Error");
result.setMessage("> Not found or Empty Component Instance Error");
return Response.status(Status.NOT_FOUND).entity(result).build();
}
} else {
LOGGER.error("Not found or Empty userid Error");
result.setMessage("> Not found or Empty username Error");
return Response.status(Status.NOT_FOUND).entity(result).build();
}
return Response.ok(result).build();
}
}
Maybe the problem is the local transport is not correctly configured what launches the exception because of the lookup (see: server side):
TMM tmm = null;
javax.naming.Context initialContext;
try {
initialContext = new InitialContext();
tmm = (TMM) initialContext.lookup("java:app/cos/TMM");
result = tmm.calculateConnectedPorts(userId, componentInstance, portId);
} catch (Exception e) {
..
The problem is most likely because you are running your test in a Java SE environment that is not configured with a JNDI server. If you run your test as part of a WAR inside a Java EE app server, this would probably work just fine.
So you might need to either run your unit test inside an app server or you could try mocking a JNDI server like what is described here: http://en.newinstance.it/2009/03/27/mocking-jndi/#
Hope this helps,
Andy
I have a service that returns the current position every 30 seconds, my problem is that the service consumes about 40% of the battery. The GPS icon is always active, even if I increase the time interval. I see this problem with my Nexus 4 android 4.4.2. Once the callback OnLocationChanged is called, the GPS is awake all the time and this consumes the entire battery. With my other Phone Nexus One android 2.2.3 , I do not see this problem, the GPS turns on every 30 seconds and turns off. And I have no battery consommation. The service use Location Request, with .setPriority(LocationRequest.PRIORITY_HIGH_ACCURACY), excepted to use GPS and Network and is not the case. I thinks there is a problem with android 4.4.2 or is Google play service
Here my service code:
public class MyServiceGpsDebug extends Service implements
GooglePlayServicesClient.ConnectionCallbacks,
GooglePlayServicesClient.OnConnectionFailedListener,LocationListener
{
IBinder mBinder = new LocalBinder();
private LocationClient mLocationClient;
private LocationRequest mLocationRequest;
// Flag that indicates if a request is underway.
private boolean mInProgress;
private Boolean servicesAvailable = false;
public class LocalBinder extends Binder
{
public MyServiceGpsDebug getServerInstance()
{
return MyServiceGpsDebug.this;
}
}
#Override
public void onCreate()
{
super.onCreate();
mInProgress = false;
// Create the LocationRequest object
mLocationRequest = LocationRequest.create();
// Use high accuracy
mLocationRequest.setPriority(LocationRequest.PRIORITY_HIGH_ACCURACY);
// Set the update interval to 5 seconds
mLocationRequest.setInterval(Constants.UPDATE_INTERVAL);
// Set the fastest update interval to 1 second
mLocationRequest.setFastestInterval(Constants.FASTEST_INTERVAL);
servicesAvailable = servicesConnected();
mLocationClient = new LocationClient(this, this, this);
}
private boolean servicesConnected()
{
// Check that Google Play services is available
int resultCode = GooglePlayServicesUtil.isGooglePlayServicesAvailable(this);
// If Google Play services is available
if (ConnectionResult.SUCCESS == resultCode)
{
return true;
}
else
{
return false;
}
}
public int onStartCommand (Intent intent, int flags, int startId)
{
super.onStartCommand(intent, flags, startId);
if(!servicesAvailable || mLocationClient.isConnected() || mInProgress)
return START_STICKY;
setUpLocationClientIfNeeded();
if(!mLocationClient.isConnected() || !mLocationClient.isConnecting() && !mInProgress)
{
appendLog(DateFormat.getDateTimeInstance().format(new Date()) + ": Started", Constants.LOG_FILE);
mInProgress = true;
mLocationClient.connect();
}
return START_STICKY;
}
private void setUpLocationClientIfNeeded()
{
if(mLocationClient == null)
mLocationClient = new LocationClient(this, this, this);
}
#Override
public void onLocationChanged(Location location)
{
// Report to the UI that the location was updated
String msg = Double.toString(location.getLatitude()) + "," + Double.toString(location.getLongitude());
Log.d("debug", msg);
// Toast.makeText(this, msg, Toast.LENGTH_SHORT).show();
appendLog(msg, Constants.LOCATION_FILE);
}
#Override
public IBinder onBind(Intent intent)
{
return mBinder;
}
public String getTime()
{
SimpleDateFormat mDateFormat = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
return mDateFormat.format(new Date());
}
public void appendLog(String text, String filename)
{
File logFile = new File(filename);
if (!logFile.exists())
{
try
{
logFile.createNewFile();
}
catch (IOException e)
{
// TODO Auto-generated catch block
e.printStackTrace();
}
}
try
{
//BufferedWriter for performance, true to set append to file flag
BufferedWriter buf = new BufferedWriter(new FileWriter(logFile, true));
buf.append(text);
buf.newLine();
buf.close();
}
catch (IOException e)
{
// TODO Auto-generated catch block
e.printStackTrace();
}
}
#Override
public void onDestroy()
{
// Turn off the request flag
mInProgress = false;
if(servicesAvailable && mLocationClient != null)
{
mLocationClient.removeLocationUpdates(this);
// Destroy the current location client
mLocationClient = null;
}
// Display the connection status
// Toast.makeText(this, DateFormat.getDateTimeInstance().format(new Date()) + ": Disconnected. Please re-connect.", Toast.LENGTH_SHORT).show();
appendLog(DateFormat.getDateTimeInstance().format(new Date()) + ": Stopped", Constants.LOG_FILE);
super.onDestroy();
}
#Override
public void onConnected(Bundle bundle)
{
// Request location updates using static settings
mLocationClient.requestLocationUpdates(mLocationRequest, this);
appendLog(DateFormat.getDateTimeInstance().format(new Date()) + ": Connected", Constants.LOG_FILE);
}
#Override
public void onDisconnected()
{
// Turn off the request flag
mInProgress = false;
// Destroy the current location client
mLocationClient = null;
// Display the connection status
// Toast.makeText(this, DateFormat.getDateTimeInstance().format(new Date()) + ": Disconnected. Please re-connect.", Toast.LENGTH_SHORT).show();
appendLog(DateFormat.getDateTimeInstance().format(new Date()) + ": Disconnected", Constants.LOG_FILE);
}
#Override
public void onConnectionFailed(ConnectionResult connectionResult)
{
mInProgress = false;
if (connectionResult.hasResolution())
{
// If no resolution is available, display an error dialog
} else {
}
}
public final class Constants
{
// Milliseconds per second
private static final int MILLISECONDS_PER_SECOND = 1000;
// Update frequency in seconds
private static final int UPDATE_INTERVAL_IN_SECONDS = 60;
// Update frequency in milliseconds
public static final long UPDATE_INTERVAL = MILLISECONDS_PER_SECOND * UPDATE_INTERVAL_IN_SECONDS;
// The fastest update frequency, in seconds
private static final int FASTEST_INTERVAL_IN_SECONDS = 60;
// A fast frequency ceiling in milliseconds
public static final long FASTEST_INTERVAL = MILLISECONDS_PER_SECOND * FASTEST_INTERVAL_IN_SECONDS;
// Stores the lat / long pairs in a text file
public static final String LOCATION_FILE = "sdcard/location.txt";
// Stores the connect / disconnect data in a text file
public static final String LOG_FILE = "sdcard/log.txt";
/**
* Suppress default constructor for noninstantiability
*/
private Constants() {
throw new AssertionError();
}
}
}
I have similar problem with Nexus 4. My app has a service which uses location updates (fusion location or android providers, not both). Everything works OK for all android phones but in Nexus4 after some time the phone gets hot and slow even if i kill the app (through DDMS, 100% stopped). The only solution is to kill Google play services .
I think that there is a bug in play services for nexus 4. There is a dirty solution to kill Google Play Services every 30mins for example if phone=nexus4, but i do not know if it is possible
Hi all please give some basic about ActiveMQ with JMS for novice. And configuration steps also.
We are going to create a console based application using multithreading. So create an java project for console application.
Now follow these steps..........
Add javax.jms.jar, activemq-all-5.3.0.jar, log4j-1.2.15.jar to your project library.
(You can download all of above jar files from http://www.jarfinder.com/ .
create a file naming jndi.properties and paste these following texts .. ( Deatils for jndi.properties just Google it)
# START SNIPPET: jndi
java.naming.factory.initial = org.apache.activemq.jndi.ActiveMQInitialContextFactory
# use the following property to configure the default connector
java.naming.provider.url = tcp://localhost:61616
# use the following property to specify the JNDI name the connection factory
# should appear as.
#connectionFactoryNames = connectionFactory, queueConnectionFactory, topicConnectionFactry
connectionFactoryNames = connectionFactory, queueConnectionFactory, topicConnectionFactry
# register some queues in JNDI using the form
# queue.[jndiName] = [physicalName]
queue.MyQueue = example.MyQueue
# register some topics in JNDI using the form
# topic.[jndiName] = [physicalName]
topic.MyTopic = example.MyTopic
# END SNIPPET: jndi
Add JMSConsumer.java
import javax.jms.*;
import javax.naming.Context;
import javax.naming.InitialContext;
import javax.naming.NamingException;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
public class JMSConsumer implements Runnable{
private static final Log LOG = LogFactory.getLog(JMSConsumer.class);
public void run() {
Context jndiContext = null;
ConnectionFactory connectionFactory = null;
Connection connection = null;
Session session = null;
MessageConsumer consumer = null;
Destination destination = null;
String sourceName = null;
final int numMsgs;
sourceName= "MyQueue";
numMsgs = 1;
LOG.info("Source name is " + sourceName);
/*
* Create a JNDI API InitialContext object
*/
try {
jndiContext = new InitialContext();
} catch (NamingException e) {
LOG.info("Could not create JNDI API context: " + e.toString());
System.exit(1);
}
/*
* Look up connection factory and destination.
*/
try {
connectionFactory = (ConnectionFactory)jndiContext.lookup("queueConnectionFactory");
destination = (Destination)jndiContext.lookup(sourceName);
} catch (NamingException e) {
LOG.info("JNDI API lookup failed: " + e);
System.exit(1);
}
try {
connection = connectionFactory.createConnection();
session = connection.createSession(false, Session.AUTO_ACKNOWLEDGE);
consumer = session.createConsumer(destination);
connection.start();
try {
Thread.sleep(2000);
} catch (InterruptedException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
MessageListener listener = new MyQueueMessageListener();
consumer.setMessageListener(listener );
//Let the thread run for some time so that the Consumer has suffcient time to consume the message
try {
Thread.sleep(5000);
} catch (InterruptedException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
} catch (JMSException e) {
LOG.info("Exception occurred: " + e);
} finally {
if (connection != null) {
try {
connection.close();
} catch (JMSException e) {
}
}
}
}
}
Add JMSProducer.java
import javax.jms.*;
import javax.naming.Context;
import javax.naming.InitialContext;
import javax.naming.NamingException;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
public class JMSProducer implements Runnable{
private static final Log LOG = LogFactory.getLog(JMSProducer.class);
public JMSProducer() {
}
//Run method implemented to run this as a thread.
public void run(){
Context jndiContext = null;
ConnectionFactory connectionFactory = null;
Connection connection = null;
Session session = null;
Destination destination = null;
MessageProducer producer = null;
String destinationName = null;
final int numMsgs;
destinationName = "MyQueue";
numMsgs = 5;
LOG.info("Destination name is " + destinationName);
/*
* Create a JNDI API InitialContext object
*/
try {
jndiContext = new InitialContext();
} catch (NamingException e) {
LOG.info("Could not create JNDI API context: " + e.toString());
System.exit(1);
}
/*
* Look up connection factory and destination.
*/
try {
connectionFactory = (ConnectionFactory)jndiContext.lookup("queueConnectionFactory");
destination = (Destination)jndiContext.lookup(destinationName);
} catch (NamingException e) {
LOG.info("JNDI API lookup failed: " + e);
System.exit(1);
}
/*
* Create connection. Create session from connection; false means
* session is not transacted.create producer, set the text message, set the co-relation id and send the message.
*/
try {
connection = connectionFactory.createConnection();
session = connection.createSession(false, Session.AUTO_ACKNOWLEDGE);
producer = session.createProducer(destination);
TextMessage message = session.createTextMessage();
for (int i = 0; i
Add MyQueueMessageListener.java
import java.io.*;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import javax.jms.*;
public class MyQueueMessageListener implements MessageListener {
private static final Log LOG = LogFactory.getLog(MyQueueMessageListener.class);
/**
*
*/
public MyQueueMessageListener() {
// TODO Auto-generated constructor stub
}
/** (non-Javadoc)
* #see javax.jms.MessageListener#onMessage(javax.jms.Message)
* This is called on receving of a text message.
*/
public void onMessage(Message arg0) {
LOG.info("onMessage() called!");
if(arg0 instanceof TextMessage){
try {
//Print it out
System.out.println("Recieved message in listener: " + ((TextMessage)arg0).getText());
System.out.println("Co-Rel Id: " + ((TextMessage)arg0).getJMSCorrelationID());
try {
//Log it to a file
BufferedWriter outFile = new BufferedWriter(new FileWriter("MyQueueConsumer.txt"));
outFile.write("Recieved message in listener: " + ((TextMessage)arg0).getText());
} catch (IOException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
} catch (JMSException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
}else{
System.out.println("~~~~Listener : Error in message format~~~~");
}
}
}
Add SimpleApp.java
public class SimpleApp {
//Run the producer first, then the consumer
public static void main(String[] args) throws Exception {
runInNewthread(new JMSProducer());
runInNewthread(new JMSConsumer());
}
public static void runInNewthread(Runnable runnable) {
Thread brokerThread = new Thread(runnable);
brokerThread.setDaemon(false);
brokerThread.start();
}
}
Now run SimpleApp.java class.
All da best. Happy coding.
Here it is a simple junit test for ActiveMQ and Apache Camel. This two technologies works very good together.
If you want more details about the code, you can find a post in my blog:
http://ignaciosuay.com/unit-testing-active-mq/
public class ActiveMQTest extends CamelTestSupport {
#Override
protected CamelContext createCamelContext() throws Exception {
CamelContext camelContext = super.createCamelContext();
ConnectionFactory connectionFactory = new ActiveMQConnectionFactory("vm://localhost?broker.persistent=false");
camelContext.addComponent("activemq", jmsComponentClientAcknowledge(connectionFactory));
return camelContext;
}
#Override
protected RouteBuilder createRouteBuilder() throws Exception {
return new RouteBuilder() {
#Override
public void configure() throws Exception {
from("mina:tcp://localhost:6666?textline=true&sync=false")
.to("activemq:processHL7");
from("activemq:processHL7")
.to("mock:end");
}
};
}
#Test
public void testSendHL7Message() throws Exception {
MockEndpoint mock = getMockEndpoint("mock:end");
String m = "MSH|^~\\&|hl7Integration|hl7Integration|||||ADT^A01|||2.5|\r" +
"EVN|A01|20130617154644\r" +
"PID|1|465 306 5961||407623|Wood^Patrick^^^MR||19700101|1|\r" +
"PV1|1||Location||||||||||||||||261938_6_201306171546|||||||||||||||||||||||||20130617134644|";
mock.expectedBodiesReceived(m);
template.sendBody("mina:tcp://localhost:6666?textline=true&sync=false", m);
mock.assertIsSatisfied();
}