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// Portions Copyright [2016-2024] [Payara Foundation and/or its affiliates]
package org.glassfish.concurrent.runtime;
import com.sun.enterprise.config.serverbeans.Application;
import com.sun.enterprise.config.serverbeans.Applications;
import com.sun.enterprise.container.common.spi.util.ComponentEnvManager;
import com.sun.enterprise.deployment.JndiNameEnvironment;
import com.sun.enterprise.deployment.util.DOLUtils;
import com.sun.enterprise.security.SecurityContext;
import com.sun.enterprise.transaction.api.JavaEETransactionManager;
import com.sun.enterprise.util.Utility;
import org.glassfish.api.invocation.ComponentInvocation;
import org.glassfish.api.invocation.InvocationManager;
import org.glassfish.concurrent.LogFacade;
import org.glassfish.concurro.spi.ContextHandle;
import org.glassfish.concurro.spi.ContextSetupProvider;
import org.glassfish.internal.deployment.Deployment;
import jakarta.enterprise.concurrent.ContextService;
import jakarta.enterprise.concurrent.ManagedTask;
import jakarta.enterprise.concurrent.spi.ThreadContextProvider;
import jakarta.enterprise.concurrent.spi.ThreadContextRestorer;
import jakarta.enterprise.concurrent.spi.ThreadContextSnapshot;
import jakarta.transaction.Status;
import jakarta.transaction.Transaction;
import java.io.IOException;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;
import fish.payara.nucleus.requesttracing.RequestTracingService;
import fish.payara.nucleus.healthcheck.stuck.StuckThreadsStore;
import fish.payara.opentracing.OpenTracingService;
import io.opentracing.Tracer;
import io.opentracing.Tracer.SpanBuilder;
import jakarta.enterprise.concurrent.ContextServiceDefinition;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.ServiceLoader;
import java.util.Set;
import java.util.stream.Collectors;
import java.util.stream.StreamSupport;
import org.glassfish.internal.api.Globals;
import org.glassfish.internal.data.ApplicationRegistry;
public class ContextSetupProviderImpl implements ContextSetupProvider {
private transient InvocationManager invocationManager;
private transient Deployment deployment;
private transient ComponentEnvManager compEnvMgr;
private transient ApplicationRegistry applicationRegistry;
private transient Applications applications;
// transactionManager should be null for ContextService since it uses TransactionSetupProviderImpl
private transient JavaEETransactionManager transactionManager;
private static final Logger logger = LogFacade.getLogger();
static final long serialVersionUID = -1095988075917755802L;
// Predefined handlers for context propagation
// TODO: replace with ConcurrentRuntime.CONTEXT_INFO_* ?
public static final String CONTEXT_TYPE_CLASSLOADING = "CLASSLOADING"; // Concurrency 3.0: N/A
public static final String CONTEXT_TYPE_SECURITY = "SECURITY"; // Concurrency 3.0: SECURITY
public static final String CONTEXT_TYPE_NAMING = "NAMING"; // Concurrency 3.0: APPLICATION
public static final String CONTEXT_TYPE_WORKAREA = "WORKAREA"; // Concurrency 3.0: TRANSACTION
// TODO: do we need these booleans if we have sets?
private boolean classloading, security, naming, workArea;
private final Set contextPropagate;
private final Set contextClear;
private final Set contextUnchanged;
private Map allThreadContextProviders = null;
/**
* Points to the context, which contains ALL_REMAINING.
*/
private final Set allRemaining;
private transient RequestTracingService requestTracing;
private transient OpenTracingService openTracing;
private transient StuckThreadsStore stuckThreads;
public ContextSetupProviderImpl(InvocationManager invocationManager,
Deployment deployment,
ComponentEnvManager compEnvMgr,
ApplicationRegistry applicationRegistry,
Applications applications,
JavaEETransactionManager transactionManager,
Set propagated,
Set cleared,
Set unchanged) {
this.invocationManager = invocationManager;
this.deployment = deployment;
this.compEnvMgr = compEnvMgr;
this.applicationRegistry = applicationRegistry;
this.applications = applications;
this.transactionManager = transactionManager;
contextPropagate = new HashSet<>(propagated);
contextClear = new HashSet<>(cleared);
contextUnchanged = new HashSet<>(unchanged);
// process ALL_REMAINING
if (contextPropagate.contains(ContextServiceDefinition.ALL_REMAINING)) {
allRemaining = contextPropagate;
} else if (contextClear.contains(ContextServiceDefinition.ALL_REMAINING)) {
allRemaining = contextClear;
} else if (contextUnchanged.contains(ContextServiceDefinition.ALL_REMAINING)) {
allRemaining = contextUnchanged;
} else {
allRemaining = contextPropagate; // By default, propagate contexts
}
// put standard "providers" to Remaining if not specified
addToRemainingIfNotPresent(CONTEXT_TYPE_CLASSLOADING);
addToRemainingIfNotPresent(CONTEXT_TYPE_SECURITY);
addToRemainingIfNotPresent(CONTEXT_TYPE_NAMING);
addToRemainingIfNotPresent(CONTEXT_TYPE_WORKAREA);
initialiseServices();
for (String contextType : contextPropagate) {
switch (contextType) {
case CONTEXT_TYPE_CLASSLOADING:
classloading = true;
break;
case CONTEXT_TYPE_SECURITY:
security = true;
break;
case CONTEXT_TYPE_NAMING:
naming = true;
break;
case CONTEXT_TYPE_WORKAREA:
workArea = true;
break;
}
}
}
@Override
public ContextHandle saveContext(ContextService contextService) {
return saveContext(contextService, null);
}
@Override
public ContextHandle saveContext(ContextService contextService, Map contextObjectProperties) {
// Capture the current thread context
ClassLoader contextClassloader = null;
SecurityContext currentSecurityContext = null;
ComponentInvocation savedInvocation = null;
if (classloading) {
contextClassloader = Utility.getClassLoader();
}
if (security) {
currentSecurityContext = SecurityContext.getCurrent();
}
// TODO: put initialization of providers to better place; caching is a problem due to different classloaders
allThreadContextProviders = new HashMap<>();
for (ThreadContextProvider service : ServiceLoader.load(jakarta.enterprise.concurrent.spi.ThreadContextProvider.class, Utility.getClassLoader())) {
String serviceName = service.getThreadContextType();
if (contextPropagate.contains(serviceName) || contextClear.contains(serviceName) || contextUnchanged.contains(serviceName)) {
allThreadContextProviders.put(serviceName, service);
} else {
if (allRemaining != null) {
allRemaining.add(serviceName);
allThreadContextProviders.put(serviceName, service);
}
}
}
// check, if there is no unexpected provider name
Set verifiedContextPropagate = filterVerifiedProviders(contextPropagate);
Set verifiedContextClear = filterVerifiedProviders(contextClear);
Set verifiedContextUnchanged = filterVerifiedProviders(contextUnchanged);
ComponentInvocation currentInvocation = invocationManager.getCurrentInvocation();
if (currentInvocation != null) {
if (verifiedContextPropagate.contains(CONTEXT_TYPE_NAMING)) {
savedInvocation = createComponentInvocation(currentInvocation);
}
if (verifiedContextClear.contains(CONTEXT_TYPE_NAMING)) {
savedInvocation = new ComponentInvocation();
}
}
boolean useTransactionOfExecutionThread = (transactionManager == null && useTransactionOfExecutionThread(contextObjectProperties))
|| verifiedContextUnchanged.contains(CONTEXT_TYPE_WORKAREA);
// store the snapshots of the current state
List threadContextSnapshots = new ArrayList<>();
// remember values from propagate and clear lists
verifiedContextPropagate.stream()
.map((provider) -> allThreadContextProviders.get(provider))
.filter(snapshot -> snapshot != null) // ignore standard providers like CONTEXT_TYPE_CLASSLOADING
.map(snapshot -> snapshot.currentContext(contextObjectProperties))
.forEach(snapshot -> threadContextSnapshots.add(snapshot));
verifiedContextClear.stream()
.map((provider) -> allThreadContextProviders.get(provider))
.filter(snapshot -> snapshot != null)
.map(snapshot -> snapshot.clearedContext(contextObjectProperties))
.forEach(snapshot -> threadContextSnapshots.add(snapshot));
return new InvocationContext(savedInvocation, contextClassloader, currentSecurityContext, useTransactionOfExecutionThread,
threadContextSnapshots, Collections.EMPTY_LIST);
}
@Override
public ContextHandle setup(ContextHandle contextHandle) throws IllegalStateException {
if (! (contextHandle instanceof InvocationContext)) {
logger.log(Level.SEVERE, LogFacade.UNKNOWN_CONTEXT_HANDLE);
return null;
}
InvocationContext handle = (InvocationContext) contextHandle;
String appName = null;
ComponentInvocation invocation = handle.getInvocation();
ClassLoader backupClassLoader = null;
if (invocation != null) {
appName = invocation.getRegistrationName();
if (appName == null && invocation.getJNDIEnvironment() != null) {
appName = DOLUtils.getApplicationFromEnv((JndiNameEnvironment) invocation.getJNDIEnvironment()).getRegistrationName();
}
if (appName == null) {
// try to get environment from component ID
if (invocation.getComponentId() != null && compEnvMgr != null) {
JndiNameEnvironment currJndiEnv = compEnvMgr.getJndiNameEnvironment(invocation.getComponentId());
if (currJndiEnv != null) {
com.sun.enterprise.deployment.Application appInfo = DOLUtils.getApplicationFromEnv(currJndiEnv);
if (appInfo != null) {
appName = appInfo.getRegistrationName();
// cache JNDI environment
invocation.setJNDIEnvironment(currJndiEnv);
backupClassLoader = appInfo.getClassLoader();
}
}
}
}
}
// Check whether the application component submitting the task is still running. Throw IllegalStateException if not.
if (appName != null && !isApplicationEnabled(appName)) { // appName == null in case of the server context
throw new IllegalStateException("Module " + appName + " is disabled");
}
ClassLoader resetClassLoader = null;
if (handle.getContextClassLoader() != null) {
resetClassLoader = Utility.setContextClassLoader(handle.getContextClassLoader());
} else if (backupClassLoader != null) {
resetClassLoader = Utility.setContextClassLoader(backupClassLoader);
}
SecurityContext resetSecurityContext = null;
if (handle.getSecurityContext() != null && !contextUnchanged.contains(CONTEXT_TYPE_SECURITY)) {
resetSecurityContext = SecurityContext.getCurrent();
SecurityContext.setCurrent(handle.getSecurityContext());
}
if (invocation != null) {
// Each invocation needs a ResourceTableKey that returns a unique hashCode for TransactionManager
invocation.setResourceTableKey(new PairKey(invocation.getInstance(), Thread.currentThread()));
invocationManager.preInvoke(invocation);
}
// Ensure that there is no existing transaction in the current thread
if (transactionManager != null && contextClear.contains(CONTEXT_TYPE_WORKAREA)) {
transactionManager.clearThreadTx();
}
if (requestTracing != null && requestTracing.isRequestTracingEnabled()) {
startConcurrentContextSpan(invocation, handle);
}
if (stuckThreads != null) {
stuckThreads.registerThread(Thread.currentThread().threadId());
}
// execute thread contexts snapshots to begin
List restorers = Collections.EMPTY_LIST;
if (handle.getThreadContextSnapshots() != null) {
restorers = handle.getThreadContextSnapshots().stream()
.map((ThreadContextSnapshot snapshot) -> snapshot.begin())
.collect(Collectors.toList());
}
return new InvocationContext(invocation, resetClassLoader, resetSecurityContext, handle.isUseTransactionOfExecutionThread(),
Collections.EMPTY_LIST, restorers);
}
private void startConcurrentContextSpan(ComponentInvocation invocation, InvocationContext handle) {
Tracer tracer = openTracing.getTracer(openTracing.getApplicationName(
Globals.getDefaultBaseServiceLocator().getService(InvocationManager.class)));
// Start a trace in the request tracing system
SpanBuilder builder = tracer.buildSpan("executeConcurrentContext");
// Check for propagated span
if (handle.getParentTraceContext() != null) {
builder.asChildOf(handle.getParentTraceContext());
// Check for the presence of a propagated parent operation name
StreamSupport.stream(handle.getParentTraceContext().baggageItems().spliterator(), false)
.filter(e -> "operation.name".equals(e.getKey()))
.forEach(e -> builder.withTag("Parent Operation Name", e.getValue()));
}
if (invocation != null) {
builder.withTag("App Name", invocation.getAppName())
.withTag("Component ID", invocation.getComponentId())
.withTag("Module Name", invocation.getModuleName());
Object instance = invocation.getInstance();
if (instance != null) {
builder.withTag("Class Name", instance.getClass().getName());
}
}
builder.withTag("Thread Name", Thread.currentThread().getName());
tracer.activateSpan(builder.start());
}
@Override
public void reset(ContextHandle contextHandle) {
if (! (contextHandle instanceof InvocationContext)) {
logger.log(Level.SEVERE, LogFacade.UNKNOWN_CONTEXT_HANDLE);
return;
}
InvocationContext handle = (InvocationContext) contextHandle;
// execute thread contexts restorers to end
for (ThreadContextRestorer restorer : handle.getThreadContextRestorers()) {
restorer.endContext();
}
if (handle.getContextClassLoader() != null) {
Utility.setContextClassLoader(handle.getContextClassLoader());
}
if (handle.getSecurityContext() != null) {
SecurityContext.setCurrent(handle.getSecurityContext());
}
if (handle.getInvocation() != null) {
invocationManager.postInvoke(((InvocationContext) contextHandle).getInvocation());
}
if (contextClear.contains(CONTEXT_TYPE_WORKAREA) && transactionManager != null) {
// clean up after user if a transaction is still active
// This is not required by the Concurrency spec
Transaction transaction = transactionManager.getCurrentTransaction();
if (transaction != null) {
try {
int status = transaction.getStatus();
if (status == Status.STATUS_ACTIVE) {
transactionManager.commit();
} else if (status == Status.STATUS_MARKED_ROLLBACK) {
transactionManager.rollback();
}
} catch (Exception ex) {
Logger.getLogger(this.getClass().getName()).log(Level.SEVERE, ex.toString());
}
}
transactionManager.clearThreadTx();
}
if (requestTracing != null && requestTracing.isRequestTracingEnabled()) {
requestTracing.endTrace();
}
if (stuckThreads != null) {
stuckThreads.deregisterThread(Thread.currentThread().threadId());
}
}
private boolean isApplicationEnabled(String appId) {
boolean result = false;
if (appId != null) {
Application app = applications.getApplication(appId);
if (app != null) {
result = deployment.isAppEnabled(app);
} else {
// if app is null then it is likely that appId is still deploying
// and its enabled status has not been written to the domain.xml yet
// this can happen for example with a Startup EJB submitting something
// it its startup method, and since Aug 2021 CDI deployment in general. Reference Payara GitHub issue 204
if(applicationRegistry.get(appId) != null){
logger.log(Level.FINE, "Job submitted for {0} likely during deployment. Continuing...", appId);
result = true;
}
}
}
return result;
}
private ComponentInvocation createComponentInvocation(ComponentInvocation currInv) {
ComponentInvocation newInv = currInv.clone();
newInv.setResourceTableKey(null);
newInv.clearRegistry();
newInv.instance = currInv.getInstance();
if (!naming) {
newInv.setJNDIEnvironment(null);
}
return newInv;
}
private boolean useTransactionOfExecutionThread(Map executionProperties) {
return (ManagedTask.USE_TRANSACTION_OF_EXECUTION_THREAD.equals(getTransactionExecutionProperty(executionProperties)));
}
private String getTransactionExecutionProperty(Map executionProperties) {
if (executionProperties != null && executionProperties.get(ManagedTask.TRANSACTION) != null) {
return executionProperties.get(ManagedTask.TRANSACTION);
}
return ManagedTask.SUSPEND;
}
private Set filterVerifiedProviders(Set providers) {
HashSet filtered = new HashSet<>();
Iterator providerIter = providers.iterator();
while (providerIter.hasNext()) {
String provider = providerIter.next();
switch (provider) {
case CONTEXT_TYPE_CLASSLOADING:
case CONTEXT_TYPE_SECURITY:
case CONTEXT_TYPE_NAMING:
case CONTEXT_TYPE_WORKAREA:
case ContextServiceDefinition.ALL_REMAINING:
filtered.add(provider);
break;
default:
if (allThreadContextProviders.containsKey(provider)) {
filtered.add(provider);
} else {
logger.log(Level.SEVERE, "Thread context provider ''{0}'' is not registered in WEB-APP/services/jakarta.enterprise.concurrent.spi.ThreadContextProvider and will be ignored!", provider);
}
break;
}
}
return filtered;
}
private void addToRemainingIfNotPresent(String contextType) {
if (!(contextPropagate.contains(contextType) || contextClear.contains(contextType) || contextUnchanged.contains(contextType))) {
// such context type is not present in any context
allRemaining.add(contextType);
}
}
private void writeObject(java.io.ObjectOutputStream out) throws IOException {
out.defaultWriteObject();
out.writeBoolean(transactionManager == null);
}
private void readObject(java.io.ObjectInputStream in) throws IOException, ClassNotFoundException {
in.defaultReadObject();
boolean nullTransactionManager = in.readBoolean();
ConcurrentRuntime concurrentRuntime = ConcurrentRuntime.getRuntime();
// re-initialize these fields
invocationManager = concurrentRuntime.getInvocationManager();
deployment = concurrentRuntime.getDeployment();
applications = concurrentRuntime.getApplications();
compEnvMgr = concurrentRuntime.getCompEnvMgr();
if (!nullTransactionManager) {
transactionManager = concurrentRuntime.getTransactionManager();
}
initialiseServices();
}
private static class PairKey {
private Object instance = null;
private Thread thread = null;
int hCode = 0;
private PairKey(Object inst, Thread thr) {
instance = inst;
thread = thr;
if (inst != null) {
hCode = 7 * inst.hashCode();
}
if (thr != null) {
hCode += thr.hashCode();
}
}
@Override
public int hashCode() {
return hCode;
}
@Override
public boolean equals(Object obj) {
if (obj == this) {
return true;
}
boolean eq = false;
if (obj != null && obj instanceof PairKey) {
PairKey p = (PairKey)obj;
if (instance != null) {
eq = (instance.equals(p.instance));
} else {
eq = (p.instance == null);
}
if (eq) {
if (thread != null) {
eq = (thread.equals(p.thread));
} else {
eq = (p.thread == null);
}
}
}
return eq;
}
}
private void initialiseServices() {
try {
this.requestTracing = Globals.getDefaultHabitat().getService(RequestTracingService.class);
} catch (NullPointerException ex) {
logger.log(Level.INFO, "Error retrieving Request Tracing service "
+ "during initialisation of Concurrent Context - NullPointerException", ex);
}
try {
this.stuckThreads = Globals.getDefaultHabitat().getService(StuckThreadsStore.class);
} catch (NullPointerException ex) {
logger.log(Level.INFO, "Error retrieving Stuck Threads Store Healthcheck service "
+ "during initialisation of Concurrent Context - NullPointerException", ex);
}
try {
this.openTracing = Globals.getDefaultHabitat().getService(OpenTracingService.class);
} catch (NullPointerException ex) {
logger.log(Level.INFO, "Error retrieving OpenTracing service "
+ "during initialisation of Concurrent Context - NullPointerException", ex);
}
}
}
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