use of org.glassfish.internal.deployment.analysis.DeploymentSpan in project Payara by payara.
the class ApplicationLifecycle method prepare.
@Override
public ApplicationDeployment prepare(Collection<? extends Sniffer> sniffers, final ExtendedDeploymentContext context) {
StructuredDeploymentTracing tracing = StructuredDeploymentTracing.load(context);
DeploymentSpan eventSpan = tracing.startSpan(DeploymentTracing.AppStage.PROCESS_EVENTS, Deployment.DEPLOYMENT_START.type());
events.send(new Event<>(Deployment.DEPLOYMENT_START, context), false);
eventSpan.close();
currentDeploymentContext.get().push(context);
final ActionReport report = context.getActionReport();
final DeployCommandParameters commandParams = context.getCommandParameters(DeployCommandParameters.class);
final String appName = commandParams.name();
ApplicationInfo appInfo;
Optional<ApplicationState> appState = hotDeployService.getApplicationState(context);
final ClassLoader currentCL = Thread.currentThread().getContextClassLoader();
ProgressTracker tracker = new ProgressTracker() {
@Override
public void actOn(Logger logger) {
// loaded but may not be started. Issue 18263
for (EngineRef module : get("loaded", EngineRef.class)) {
try {
module.stop(context);
} catch (Exception e) {
// ignore
}
}
try {
PreDestroy.class.cast(context).preDestroy();
} catch (Exception e) {
// ignore
}
for (EngineRef module : get("loaded", EngineRef.class)) {
try {
module.unload(context);
} catch (Exception e) {
// ignore
}
}
try {
ApplicationInfo appInfo = appRegistry.get(appName);
if (appInfo != null) {
// send the event to close necessary resources
events.send(new Event<>(Deployment.APPLICATION_DISABLED, appInfo));
}
} catch (Exception e) {
// ignore
}
for (EngineRef module : get("prepared", EngineRef.class)) {
try {
module.clean(context);
} catch (Exception e) {
// ignore
}
}
if (!commandParams.keepfailedstubs) {
try {
context.clean();
} catch (Exception e) {
// ignore
}
}
appRegistry.remove(appName);
}
};
try (DeploymentSpan topSpan = tracing.startSpan(DeploymentTracing.AppStage.PREPARE);
SpanSequence span = tracing.startSequence(DeploymentTracing.AppStage.PREPARE, "ArchiveMetadata")) {
if (commandParams.origin == OpsParams.Origin.deploy && appRegistry.get(appName) != null && !commandParams.hotDeploy) {
report.setMessage(localStrings.getLocalString("appnamenotunique", "Application name {0} is already in use. Please pick a different name.", appName));
report.setActionExitCode(ActionReport.ExitCode.FAILURE);
return null;
}
// defined virtual servers minus __asadmin on that target
if (commandParams.virtualservers == null) {
commandParams.virtualservers = DeploymentUtils.getVirtualServers(commandParams.target, env, domain);
}
if (commandParams.enabled == null) {
commandParams.enabled = Boolean.TRUE;
}
if (commandParams.altdd != null) {
context.getSource().addArchiveMetaData(DeploymentProperties.ALT_DD, commandParams.altdd);
}
if (commandParams.runtimealtdd != null) {
context.getSource().addArchiveMetaData(DeploymentProperties.RUNTIME_ALT_DD, commandParams.runtimealtdd);
}
context.addTransientAppMetaData(ExtendedDeploymentContext.TRACKER, tracker);
context.setPhase(DeploymentContextImpl.Phase.PREPARE);
span.start("ArchiveHandler");
ArchiveHandler handler = context.getArchiveHandler();
if (handler == null) {
handler = getArchiveHandler(context.getSource(), commandParams.type);
context.setArchiveHandler(handler);
}
if (handler == null) {
report.setMessage(localStrings.getLocalString("unknownarchivetype", "Archive type of {0} was not recognized", context.getSourceDir()));
report.setActionExitCode(ActionReport.ExitCode.FAILURE);
return null;
}
span.start(DeploymentTracing.AppStage.CLASS_SCANNING);
if (handler.requiresAnnotationScanning(context.getSource())) {
getDeployableTypes(context);
}
span.finish();
// is that some container do not support to be restarted.
if (sniffers != null && logger.isLoggable(Level.FINE)) {
for (Sniffer sniffer : sniffers) {
logger.log(FINE, "Before Sorting{0}", sniffer.getModuleType());
}
}
span.start(DeploymentTracing.AppStage.PREPARE, "Sniffer");
sniffers = getSniffers(handler, sniffers, context);
final Collection<? extends Sniffer> selectedSniffers = sniffers;
appState.ifPresent(s -> s.setSniffers(selectedSniffers));
span.start(DeploymentTracing.AppStage.PREPARE, "ClassLoaderHierarchy");
ClassLoaderHierarchy clh = habitat.getService(ClassLoaderHierarchy.class);
span.start(DeploymentTracing.AppStage.PREPARE, "ClassLoader");
context.createDeploymentClassLoader(clh, handler);
events.send(new Event<>(Deployment.AFTER_DEPLOYMENT_CLASSLOADER_CREATION, context), false);
Thread.currentThread().setContextClassLoader(context.getClassLoader());
span.start(DeploymentTracing.AppStage.PREPARE, "Container");
final List<EngineInfo> sortedEngineInfos;
if (appState.map(ApplicationState::getEngineInfos).isPresent()) {
sortedEngineInfos = appState.get().getEngineInfos();
loadDeployers(sortedEngineInfos.stream().collect(toMap(EngineInfo::getDeployer, Function.identity())), context);
} else {
sortedEngineInfos = setupContainerInfos(handler, sniffers, context);
appState.ifPresent(s -> s.setEngineInfos(sortedEngineInfos));
}
// a bit more is happening here, but I cannot quite describe it yet
span.start(DeploymentTracing.AppStage.CREATE_CLASSLOADER);
if (sortedEngineInfos.isEmpty()) {
throw new DeploymentException(localStrings.getLocalString("unknowncontainertype", "There is no installed container capable of handling this application {0}", context.getSource().getName()));
}
if (logger.isLoggable(Level.FINE)) {
for (EngineInfo info : sortedEngineInfos) {
logger.log(FINE, "After Sorting {0}", info.getSniffer().getModuleType());
}
}
// create a temporary application info to hold metadata
// so the metadata could be accessed at classloader
// construction time through ApplicationInfo
ApplicationInfo tempAppInfo = new ApplicationInfo(events, context.getSource(), appName);
for (Object m : context.getModuleMetadata()) {
tempAppInfo.addMetaData(m);
}
tempAppInfo.setIsJavaEEApp(sortedEngineInfos);
// set the flag on the archive to indicate whether it's
// a JavaEE archive or not
context.getSource().setExtraData(Boolean.class, tempAppInfo.isJavaEEApp());
appRegistry.add(appName, tempAppInfo);
try {
notifyLifecycleInterceptorsBefore(ExtendedDeploymentContext.Phase.PREPARE, context);
} catch (Throwable interceptorException) {
report.failure(logger, "Exception while invoking the lifecycle interceptor", null);
report.setFailureCause(interceptorException);
logger.log(SEVERE, KernelLoggerInfo.lifecycleException, interceptorException);
tracker.actOn(logger);
return null;
}
events.send(new Event<>(Deployment.DEPLOYMENT_BEFORE_CLASSLOADER_CREATION, context), false);
context.createApplicationClassLoader(clh, handler);
tempAppInfo.setAppClassLoader(context.getFinalClassLoader());
events.send(new Event<>(Deployment.AFTER_APPLICATION_CLASSLOADER_CREATION, context), false);
// this is a first time deployment as opposed as load following an unload event,
// we need to create the application info
// todo : we should come up with a general Composite API solution
final ModuleInfo moduleInfo;
try (SpanSequence innerSpan = span.start(DeploymentTracing.AppStage.PREPARE, "Module")) {
if (appState.map(ApplicationState::getModuleInfo).isPresent()) {
moduleInfo = appState.get().getModuleInfo();
moduleInfo.reset();
} else {
moduleInfo = prepareModule(sortedEngineInfos, appName, context, tracker);
appState.ifPresent(s -> s.setModuleInfo(moduleInfo));
}
// Now that the prepare phase is done, any artifacts
// should be available. Go ahead and create the
// downloadable client JAR. We want to do this now, or
// at least before the load and start phases, because
// (for example) the app client deployer start phase
// needs to find all generated files when it runs.
final ClientJarWriter cjw = new ClientJarWriter(context);
cjw.run();
} catch (Throwable prepareException) {
report.failure(logger, "Exception while preparing the app", null);
report.setFailureCause(prepareException);
logger.log(SEVERE, KernelLoggerInfo.lifecycleException, prepareException);
tracker.actOn(logger);
return null;
}
span.start(DeploymentTracing.AppStage.PROCESS_EVENTS, Deployment.APPLICATION_PREPARED.type());
// is not a composite module.
if (appState.map(ApplicationState::getApplicationInfo).isPresent()) {
appInfo = appState.get().getApplicationInfo();
appInfo.reset(context.getSource());
for (Object metadata : context.getModuleMetadata()) {
moduleInfo.addMetaData(metadata);
appInfo.addMetaData(metadata);
}
} else if ((appInfo = context.getModuleMetaData(ApplicationInfo.class)) == null) {
ApplicationInfo applicationInfo = new ApplicationInfo(events, context.getSource(), appName);
appInfo = applicationInfo;
appInfo.addModule(moduleInfo);
appState.ifPresent(s -> s.setApplicationInfo(applicationInfo));
for (Object metadata : context.getModuleMetadata()) {
moduleInfo.addMetaData(metadata);
appInfo.addMetaData(metadata);
}
} else {
for (EngineRef ref : moduleInfo.getEngineRefs()) {
appInfo.add(ref);
}
}
// remove the temp application info from the registry
// first, then register the real one
appRegistry.remove(appName);
appInfo.setIsJavaEEApp(sortedEngineInfos);
appRegistry.add(appName, appInfo);
notifyLifecycleInterceptorsAfter(ExtendedDeploymentContext.Phase.PREPARE, context);
// send the APPLICATION_PREPARED event
// set the phase and thread context classloader properly
// before sending the event
context.setPhase(DeploymentContextImpl.Phase.PREPARED);
Thread.currentThread().setContextClassLoader(context.getClassLoader());
appInfo.setAppClassLoader(context.getClassLoader());
appState.ifPresent(s -> s.setApplicationClassLoader(context.getClassLoader()));
events.send(new Event<>(Deployment.APPLICATION_PREPARED, context), false);
if (loadOnCurrentInstance(context)) {
appInfo.setLibraries(commandParams.libraries());
try (SpanSequence innerSpan = span.start(DeploymentTracing.AppStage.LOAD)) {
notifyLifecycleInterceptorsBefore(ExtendedDeploymentContext.Phase.LOAD, context);
appInfo.load(context, tracker);
notifyLifecycleInterceptorsAfter(ExtendedDeploymentContext.Phase.LOAD, context);
} catch (Throwable loadException) {
logger.log(SEVERE, KernelLoggerInfo.lifecycleException, loadException);
report.failure(logger, "Exception while loading the app", null);
report.setFailureCause(loadException);
tracker.actOn(logger);
return null;
}
}
} catch (DeploymentException de) {
report.failure(logger, de.getMessage());
tracker.actOn(logger);
return null;
} catch (Exception e) {
report.failure(logger, localStrings.getLocalString("error.deploying.app", "Exception while deploying the app [{0}]", appName), null);
report.setFailureCause(e);
logger.log(SEVERE, KernelLoggerInfo.lifecycleException, e);
tracker.actOn(logger);
return null;
} finally {
Thread.currentThread().setContextClassLoader(currentCL);
if (report.getActionExitCode() != ActionReport.ExitCode.SUCCESS) {
context.postDeployClean(false);
events.send(new Event<>(Deployment.DEPLOYMENT_FAILURE, context));
}
}
ApplicationDeployment depl = new ApplicationDeployment(appInfo, context);
appRegistry.addTransient(depl);
return depl;
}
use of org.glassfish.internal.deployment.analysis.DeploymentSpan in project Payara by payara.
the class ApplicationLifecycle method setupContainerInfos.
/**
* set up containers and prepare the sorted ModuleInfos
* @param handler
* @param sniffers
* @param context
* @return
* @throws java.lang.Exception
*/
@Override
public List<EngineInfo> setupContainerInfos(final ArchiveHandler handler, Collection<? extends Sniffer> sniffers, DeploymentContext context) throws Exception {
final ActionReport report = context.getActionReport();
StructuredDeploymentTracing tracing = StructuredDeploymentTracing.load(context);
Map<Deployer, EngineInfo> containerInfosByDeployers = new LinkedHashMap<>();
for (Sniffer sniffer : sniffers) {
if (sniffer.getContainersNames() == null || sniffer.getContainersNames().length == 0) {
report.failure(logger, "no container associated with application of type : " + sniffer.getModuleType(), null);
throw new DeploymentException(localStrings.getLocalString("unknowncontainertype", "There is no installed container capable of handling this application {0}", context.getSource().getName()));
}
final String containerName = sniffer.getContainersNames()[0];
EngineInfo engineInfo = startEngine(context, sniffer, containerName);
Deployer deployer = startDeployer(context, containerName, engineInfo);
containerInfosByDeployers.put(deployer, engineInfo);
}
// all containers that have recognized parts of the application being deployed
// have now been successfully started. Start the deployment process.
List<EngineInfo> sortedEngineInfos = new ArrayList<>();
// ok everything is satisfied, just a matter of running things in order
List<Deployer> orderedDeployers = loadDeployers(containerInfosByDeployers, context);
// now load metadata from deployers.
for (Deployer deployer : orderedDeployers) {
if (logger.isLoggable(Level.FINE)) {
logger.log(FINE, "Ordered Deployer {0}", deployer.getClass());
}
final MetaData metadata = deployer.getMetaData();
EngineInfo engineInfo = containerInfosByDeployers.get(deployer);
try (DeploymentSpan span = tracing.startSpan(TraceContext.Level.CONTAINER, engineInfo.getSniffer().getModuleType(), DeploymentTracing.AppStage.PREPARE, "MetaData")) {
if (metadata != null) {
if (metadata.provides() == null || metadata.provides().length == 0) {
deployer.loadMetaData(null, context);
} else {
for (Class<?> provide : metadata.provides()) {
if (context.getModuleMetaData(provide) == null) {
context.addModuleMetaData(deployer.loadMetaData(provide, context));
} else {
deployer.loadMetaData(null, context);
}
}
}
} else {
deployer.loadMetaData(null, context);
}
} catch (Exception e) {
report.failure(logger, "Exception while invoking " + deployer.getClass() + " prepare method", e);
throw e;
}
sortedEngineInfos.add(containerInfosByDeployers.get(deployer));
}
return sortedEngineInfos;
}
use of org.glassfish.internal.deployment.analysis.DeploymentSpan in project Payara by payara.
the class ApplicationLifecycle method loadDeployers.
private List<Deployer> loadDeployers(Map<Deployer, EngineInfo> containerInfosByDeployers, DeploymentContext context) throws IOException {
final ActionReport report = context.getActionReport();
final Map<Class, ApplicationMetaDataProvider> typeByProvider = getTypeByProvider();
final Map<Class, Deployer> typeByDeployer = getTypeByDeployer(containerInfosByDeployers);
final StructuredDeploymentTracing tracing = StructuredDeploymentTracing.load(context);
for (Deployer deployer : containerInfosByDeployers.keySet()) {
if (deployer.getMetaData() != null) {
for (Class dependency : deployer.getMetaData().requires()) {
if (!typeByDeployer.containsKey(dependency) && !typeByProvider.containsKey(dependency)) {
Service s = deployer.getClass().getAnnotation(Service.class);
String serviceName;
if (s != null && s.name() != null && s.name().length() > 0) {
serviceName = s.name();
} else {
serviceName = deployer.getClass().getSimpleName();
}
report.failure(logger, serviceName + " deployer requires " + dependency + " but no other deployer provides it", null);
return null;
}
}
}
}
List<Deployer> orderedDeployers = new ArrayList<>();
for (Map.Entry<Deployer, EngineInfo> entry : containerInfosByDeployers.entrySet()) {
Deployer deployer = entry.getKey();
if (logger.isLoggable(Level.FINE)) {
logger.log(FINE, "Keyed Deployer {0}", deployer.getClass());
}
DeploymentSpan span = tracing.startSpan(TraceContext.Level.CONTAINER, entry.getValue().getSniffer().getModuleType(), DeploymentTracing.AppStage.PREPARE);
loadDeployer(orderedDeployers, deployer, typeByDeployer, typeByProvider, context);
span.close();
}
return orderedDeployers;
}
use of org.glassfish.internal.deployment.analysis.DeploymentSpan in project Payara by payara.
the class DolProvider method getNameFor.
/**
* return the name for the given application
*
* @param archive
* @param context
* @return
*/
@Override
public String getNameFor(ReadableArchive archive, DeploymentContext context) {
if (context == null) {
return null;
}
DeployCommandParameters params = context.getCommandParameters(DeployCommandParameters.class);
Application application;
StructuredDeploymentTracing tracing = StructuredDeploymentTracing.load(context);
try (DeploymentSpan span = tracing.startSpan(DeploymentTracing.AppStage.DETERMINE_APP_NAME, "DeploymentDescriptors")) {
// name for ear and module name for standalone module
if (params.altdd != null || archive.exists("META-INF/application.xml") || archive.exists("WEB-INF/web.xml") || archive.exists("META-INF/ejb-jar.xml") || archive.exists("META-INF/application-client.xml") || archive.exists("META-INF/ra.xml")) {
String archiveType = context.getArchiveHandler().getArchiveType();
application = applicationFactory.createApplicationFromStandardDD(archive, archiveType);
ApplicationHolder holder = new ApplicationHolder(application);
context.addModuleMetaData(holder);
return application.getAppName();
}
} catch (Exception e) {
Logger.getAnonymousLogger().log(Level.WARNING, "Error occurred", e);
}
return null;
}
use of org.glassfish.internal.deployment.analysis.DeploymentSpan in project Payara by payara.
the class ApplicationInfo method load.
@Override
public void load(ExtendedDeploymentContext context, ProgressTracker tracker) throws Exception {
Logger logger = context.getLogger();
if (isLoaded) {
logger.fine("Application is already loaded.");
return;
}
context.setPhase(ExtendedDeploymentContext.Phase.LOAD);
StructuredDeploymentTracing tracing = StructuredDeploymentTracing.load(context);
DeploymentSpan span = tracing.startSpan(TraceContext.Level.APPLICATION, name, DeploymentTracing.AppStage.LOAD);
super.load(context, tracker);
appClassLoader = context.getClassLoader();
for (ModuleInfo module : modules) {
module.load(getSubContext(module, context), tracker);
}
populateApplicationServiceLocator();
isLoaded = true;
span.close();
if (events != null) {
span = tracing.startSpan(TraceContext.Level.APPLICATION, name, DeploymentTracing.AppStage.PROCESS_EVENTS, Deployment.APPLICATION_LOADED.type());
events.send(new Event<ApplicationInfo>(Deployment.APPLICATION_LOADED, this), false);
span.close();
}
}
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