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///////////////////////////////////////////////////////////////////////////////
//
// JTOpen (IBM Toolbox for Java - OSS version)
//
// Filename: ProgramCall.java
//
// The source code contained herein is licensed under the IBM Public License
// Version 1.0, which has been approved by the Open Source Initiative.
// Copyright (C) 1997-2003 International Business Machines Corporation and
// others. All rights reserved.
//
///////////////////////////////////////////////////////////////////////////////
package com.ibm.as400.access;
import java.beans.PropertyChangeListener;
import java.beans.PropertyChangeSupport;
import java.beans.PropertyVetoException;
import java.beans.VetoableChangeListener;
import java.beans.VetoableChangeSupport;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.Serializable;
import java.util.Vector;
/**
The ProgramCall class allows a user to call an IBM i system program, pass parameters to it (input and output), and access data returned in the output parameters after the program runs. Use ProgramCall to call programs. To call service programs, use ServiceProgramCall.
The following example demonstrates the use of Program Call:
* // Call programs on system named "Hal."
* AS400 system = new AS400("Hal");
* ProgramCall program = new ProgramCall(system);
* try
* {
* // Initialize the name of the program to run.
* String programName = "/QSYS.LIB/TESTLIB.LIB/TESTPROG.PGM";
* // Set up the 3 parameters.
* ProgramParameter[] parameterList = new ProgramParameter[3];
* // First parameter is to input a name.
* AS400Text nametext = new AS400Text(8);
* parameterList[0] = new ProgramParameter(nametext.toBytes("John Doe"));
* // Second parameter is to get the answer, up to 50 bytes long.
* parameterList[1] = new ProgramParameter(50);
* // Third parameter is to input a quantity and return a value up to 30 bytes long.
* byte[] quantity = new byte[2];
* quantity[0] = 1; quantity[1] = 44;
* parameterList[2] = new ProgramParameter(quantity, 30);
* // Set the program name and parameter list.
* program.setProgram(programName, parameterList);
* // Run the program.
* if (program.run() != true)
* {
* // Report failure.
* System.out.println("Program failed!");
* // Show the messages.
* AS400Message[] messagelist = program.getMessageList();
* for (int i = 0; i < messagelist.length; ++i)
* {
* // Show each message.
* System.out.println(messagelist[i]);
* }
* }
* // Else no error, get output data.
* else
* {
* AS400Text text = new AS400Text(50);
* System.out.println(text.toObject(parameterList[1].getOutputData()));
* System.out.println(text.toObject(parameterList[2].getOutputData()));
* }
* }
* catch (Exception e)
* {
* System.out.println("Program " + program.getProgram() + " issued an exception!");
* e.printStackTrace();
* }
* // Done with the system.
* system.disconnectAllServices();
NOTE: When getting the AS400Message list from programs, users no longer have to create a MessageFile to obtain the program help text. The load() method can be used to retrieve additional message information. Then the getHelp() method can be called directly on the AS400Message object returned from getMessageList(). Here is an example:
* if (program.run("myPgm", myParmList) != true)
* {
* // Show messages.
* AS400Message[] messageList = program.getMessageList();
* for (int i = 0; i < messageList.length; ++i)
* {
* // Show each message.
* System.out.println(messageList[i].getText());
* // Load additional message information.
* messageList[i].load();
* //Show help text.
* System.out.println(messageList[i].getHelp());
* }
* }
NOTE: When the program runs within the host server job, the library list will be the initial library list specified in the job description in the user profile.
NOTE: There are two ways to run a program in an iasp. Users can call a program directly with path prefixed with the iasp information like "/IASP1/QSYS.LIB/TESTLIB.LIB/TESTPROG.PGM".
Users can also call AS400.setIASPGroup to set the asp group information firstly, then call the program in regular library-qualified object name syntax. The second way is recommended. For example:
* // Call a program on system named "Hal" on asp "iasp1"
* AS400 system = new AS400("Hal");
* system.setIASPGroup("iasp1"); //If do not use *CURUSR for current library and library list, call other setIASPGroup interfaces.
* ProgramCall program = new ProgramCall(system);
* program.setProgram("/QSYS.LIB/TESTLIB.LIB/TESTPROG.PGM");
@see ProgramParameter
@see AS400Message
@see ServiceProgramCall
**/
public class ProgramCall implements Serializable
{
private static final String CLASSNAME = "com.ibm.as400.access.ProgramCall";
static
{
if (Trace.traceOn_) Trace.logLoadPath(CLASSNAME);
}
static final long serialVersionUID = 4L;
// Constants that indicate how thread safety is specified/determined.
private static final int UNSPECIFIED = 0;
// property not specified; setThreadSafe() not called
private static final int SPECIFIED_BY_PROPERTY = 1;
// property was set
private static final int SPECIFIED_BY_SETTER = 2;
// setThreadSafe() was called
static final Boolean THREADSAFE_TRUE = CommandCall.THREADSAFE_TRUE;
static final Boolean THREADSAFE_FALSE = CommandCall.THREADSAFE_FALSE;
// Note: The following fields are package-scoped, to allow access by subclass ServiceProgramCall.
// The system where the program is located.
AS400 system_ = null;
// The full IFS path name of the program.
String program_ = "";
// Job of current program call
Job job_ = null;//@D10
// The library that contains the program.
String library_ = "";
// The name of the program.
String name_ = "";
// Program parameters.
ProgramParameter[] parameterList_ = new ProgramParameter[0];
// The messages returned by the program.
AS400Message[] messageList_ = new AS400Message[0];
// Thread safety of program.
transient Boolean threadSafetyValue_ = THREADSAFE_FALSE; // never null; there is no "lookup" for API's
// The following field is needed in order to preserve cross-release serializability between JTOpen 6.4 and later releases.
// Thread safety of program.
boolean threadSafety_ = false; // must be kept in sync with threadSafetyValue_
// How thread safety was determined.
private int threadSafetyDetermined_ = UNSPECIFIED;
// The number of messages to retrieve.
int messageOption_ = AS400Message.MESSAGE_OPTION_UP_TO_10; // Default for compatibility.
// Implementation object shared with command call, interacts with server or native methods.
transient RemoteCommandImpl impl_ = null;
// List of action completed event bean listeners.
transient Vector actionCompletedListeners_ = null; // Set on first add.
// List of property change event bean listeners.
transient PropertyChangeSupport propertyChangeListeners_ = null; // Set on first add.
// List of vetoable change event bean listeners.
transient VetoableChangeSupport vetoableChangeListeners_ = null; // Set on first add.
private int timeOut_ = 0;//@D10
private boolean running_ = false;//@D10
private boolean cancelling_ = false;//@D10
private ProgramCallCancelThread cancelThread_;//@D10
private Object cancelLock_ = new CancelLock();//@D10
private class CancelLock extends Object implements java.io.Serializable {static final long serialVersionUID = 4L;}//@D10//@I3
//@D10A - Start
/**
* Sets a valid time to run the program
* @param timeOut the valid time in sec
*/
public void setTimeOut(int timeOut) {
timeOut_ = timeOut;
}
/**
* Gets a valid time
* @return the valid time in sec
*/
public int getTimeout() {
return timeOut_;
}
/**
* Check if the program is still running
* @return true if the program is still running, otherwise return false
*/
public boolean isRunning() {
return running_;
}
/**
* End program call if the time exceeds the specified time
*/
public void cancel() {
synchronized(cancelLock_) {
cancelling_ = true;
if (Trace.traceOn_)
Trace.log(Trace.INFORMATION, this, "Cancelling program " + this.getProgram()); //@L8
try {
//Job job = new Job (new AS400(this.system_), job_.getName(), job_.getUser(), job_.getNumber()); @AB4D
//@AB4A
Job job = null;
if (this.system_ instanceof SecureAS400) {
job = new Job (new SecureAS400(this.system_), job_.getName(), job_.getUser(), job_.getNumber());
} else {
job = new Job (new AS400(this.system_), job_.getName(), job_.getUser(), job_.getNumber());
}
job.end(0);
} catch (Exception e) {
// Do nothing
if (Trace.traceOn_)
Trace.log(Trace.INFORMATION, this, "Cancelling program " + this.getProgram(), e); //@L8
} finally {
cancelling_ = false;
cancelLock_.notifyAll();
}
}
}
private void startCancelThread() {
// Start a cancel thread if there is a program running and a timeout value has been specified.
if (timeOut_ != 0) {
// Set a flag that a program is running.
running_ = true;
// Create a thread to do the cancel if needed. Start the thread.
cancelThread_ = new ProgramCallCancelThread(this);
cancelThread_.setDaemon(true);
cancelThread_.start();
}
}
private void endCancelThread() {
// Deal with the cancel thread at this point.
if (timeOut_ != 0) {
// Set the flag saying the program is no longer running.
running_ = false;
// Create a thread to do the cancel if needed. Start the thread.
cancelThread_.programCall_ = null;
// Interrupt the thread so that it wakes up and dies.
cancelThread_.interrupt();
}
}
private void checkCancel() {
synchronized(cancelLock_) {
while(cancelling_){
try {
cancelLock_.wait();
} catch(InterruptedException e) {
// Ignore
}
}
}
}
//@D10A - End
/**
Constructs a ProgramCall object. The system, program, and parameters must be set before using any method requiring a connection to the system.
**/
public ProgramCall()
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Constructing ProgramCall object."); //@L8
checkThreadSafetyProperty();
}
/**
Constructs a ProgramCall object. It uses the specified system. The program and parameters must be provided later.
@param system The system on which to run the program.
**/
public ProgramCall(AS400 system)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Constructing ProgramCall object, system: " + system); //@L8
if (system == null) {
throw new NullPointerException("system");
}
system_ = system;
checkThreadSafetyProperty();
}
/**
Constructs a program call object. It uses the specified system, program name, and parameter list.
@param system The system on which to run the program.
@param program The program name as a fully qualified path name in the library file system. The library and program name must each be 10 characters or less.
@param parameterList A list of up to 35 parameters with which to run the program.
**/
public ProgramCall(AS400 system, String program, ProgramParameter[] parameterList)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Constructing ProgramCall object, system: " + system + " program: " + program); //@L8
if (system == null) {
throw new NullPointerException("system");
}
system_ = system;
checkThreadSafetyProperty();
try
{
setProgram(program, parameterList);
}
catch (PropertyVetoException e)
{
Trace.log(Trace.ERROR, this, "Unexpected PropertyVetoException:", e); //@L8
throw new InternalErrorException(InternalErrorException.UNEXPECTED_EXCEPTION);
}
}
/**
Adds an ActionCompletedListener. The specified ActionCompletedListener's actionCompleted method will be called each time a program has run. The ActionCompletedListener object is added to a list of ActionCompletedListeners managed by this ProgramCall. It can be removed with removeActionCompletedListener.
@param listener The listener object.
**/
public void addActionCompletedListener(ActionCompletedListener listener)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Adding action completed listener."); //@L8
if (listener == null) {
throw new NullPointerException("listener");
}
synchronized (this)
{
// If first add.
if (actionCompletedListeners_ == null)
{
actionCompletedListeners_ = new Vector();
}
actionCompletedListeners_.addElement(listener);
}
}
/**
Adds a ProgramParameter to the parameter list.
@param parameter The ProgramParameter.
@exception PropertyVetoException If the change is vetoed.
**/
public void addParameter(ProgramParameter parameter) throws PropertyVetoException
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Adding parameter to parameter list."); //@L8
if (parameter == null) {
throw new NullPointerException("parameter");
}
int oldLength = parameterList_.length;
ProgramParameter[] newParameterList = new ProgramParameter[oldLength + 1];
System.arraycopy(parameterList_, 0, newParameterList, 0, oldLength);
newParameterList[oldLength] = parameter;
setParameterList(newParameterList);
}
/**
Adds a PropertyChangeListener. The specified PropertyChangeListener's propertyChange method will be called each time the value of any bound property is changed. The PropertyChangeListener object is added to a list of PropertyChangeListeners managed by this ProgramCall. It can be removed with removePropertyChangeListener.
@param listener The listener object.
**/
public void addPropertyChangeListener(PropertyChangeListener listener)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Adding property change listener."); //@L8
if (listener == null) {
throw new NullPointerException("listener");
}
synchronized (this)
{
// If first add.
if (propertyChangeListeners_ == null)
{
propertyChangeListeners_ = new PropertyChangeSupport(this);
}
propertyChangeListeners_.addPropertyChangeListener(listener);
}
}
/**
Adds a VetoableChangeListener. The specified VetoableChangeListener's vetoableChange method will be called each time the value of any constrained property is changed.
@param listener The listener object.
**/
public void addVetoableChangeListener(VetoableChangeListener listener)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Adding vetoable change listener."); //@L8
if (listener == null) {
throw new NullPointerException("listener");
}
synchronized (this)
{
// If first add.
if (vetoableChangeListeners_ == null)
{
vetoableChangeListeners_ = new VetoableChangeSupport(this);
}
vetoableChangeListeners_.addVetoableChangeListener(listener);
}
}
// Chooses the appropriate implementation, synchronize to protect impl_ object.
synchronized void chooseImpl() throws AS400SecurityException, IOException
{
if (system_ != null) system_.signon(false);
if (impl_ == null)
{
if (system_ == null)
{
/*
if (AS400.onAS400)
{
impl_ = (RemoteCommandImpl)AS400.loadImpl("com.ibm.as400.access.RemoteCommandImplNative");
if (impl_ != null) return;
}*/
Trace.log(Trace.ERROR, this, "Attempt to connect to command server before setting system."); //@L8
throw new ExtendedIllegalStateException("system", ExtendedIllegalStateException.PROPERTY_NOT_SET);
}
impl_ = (RemoteCommandImpl)system_.loadImpl3("com.ibm.as400.access.RemoteCommandImplNative", "com.ibm.as400.access.RemoteCommandImplRemote", "com.ibm.as400.access.RemoteCommandImplProxy");
impl_.setSystem(system_.getImpl());
}
}
// Fires the action completed event.
void fireActionCompleted()
{
Vector targets = (Vector)actionCompletedListeners_.clone();
ActionCompletedEvent event = new ActionCompletedEvent(this);
for (int i = 0; i < targets.size(); ++i)
{
ActionCompletedListener target = (ActionCompletedListener)targets.elementAt(i);
target.actionCompleted(event);
}
}
// Removed this obsolete method. Deprecated on 2003-01-22.
// /**
// Returns an RJob object which represents the server job in which the program will be run. The information contained in the RJob object is invalidated by AS400.disconnectService() or AS400.disconnectAllServices().
//
Typical uses include:
//
(1) before run() to identify the job before calling the program;
//
(2) after run() to see what job the program ran under (to identify the job log, for example).
// Note: This method is not supported in the Toolbox proxy environment.
// @return The job in which the program will be run.
// @exception AS400SecurityException If a security or authority error occurs.
// @exception ErrorCompletingRequestException If an error occurs before the request is completed.
// @exception IOException If an error occurs while communicating with the system.
// @exception InterruptedException If this thread is interrupted.
// @deprecated Use getServerJob() instead.
// **/
// public RJob getJob() throws AS400SecurityException, ErrorCompletingRequestException, IOException, InterruptedException
// {
// if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, "Getting job.");
// chooseImpl();
// String jobInfo = impl_.getJobInfo(threadSafetyValue_);
// if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, "Constructing RJob for job: " + jobInfo);
// // Contents of the "job information" string: The name of the user job that the thread is associated with. The format of the job name is a 10-character simple job name, a 10-character user name, and a 6-character job number.
// return new RJob(system_, jobInfo.substring(0, 10).trim(), jobInfo.substring(10, 20).trim(), jobInfo.substring(20, 26).trim());
// }
/**
Returns the list of messages returned from running the program. It will return an empty list if the program has not been run yet or if there are no messages.
@return The array of messages returned by the program.
**/
public AS400Message[] getMessageList()
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Getting message list."); //@L8
return messageList_;
}
/**
Returns the option for how many messages will be retrieved.
@return A constant indicating how many messages will be retrieved. Valid values are:
- {@link AS400Message#MESSAGE_OPTION_UP_TO_10 MESSAGE_OPTION_UP_TO_10}
- {@link AS400Message#MESSAGE_OPTION_NONE MESSAGE_OPTION_NONE}
- {@link AS400Message#MESSAGE_OPTION_ALL MESSAGE_OPTION_ALL}
**/
public int getMessageOption()
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Getting message option:", messageOption_); //@L8
return messageOption_;
}
/**
Returns the list of parameters. It will return an empty list if not previously set.
@return The list of parameters.
**/
public ProgramParameter[] getParameterList()
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Getting parameter list."); //@L8
return parameterList_;
}
/**
Returns the integrated file system pathname for the program. It will return an empty string ("") if not previously set.
@return The integrated file system pathname for the program.
**/
public String getProgram()
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Getting program: " + program_); //@L8
return program_;
}
/**
Returns a Job object which represents the server job in which the program will be run.
The information contained in the Job object is invalidated by AS400.disconnectService() or AS400.disconnectAllServices().
Typical uses include:
(1) before run() to identify the job before calling the program;
(2) after run() to see what job the program ran under (to identify the job log, for example).
Note: This method is not supported in the Toolbox proxy environment.
@return The job in which the program will be run.
@exception AS400SecurityException If a security or authority error occurs.
@exception ErrorCompletingRequestException If an error occurs before the request is completed.
@exception IOException If an error occurs while communicating with the system.
@exception InterruptedException If this thread is interrupted.
**/
public Job getServerJob() throws AS400SecurityException, ErrorCompletingRequestException, IOException, InterruptedException
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Getting job."); //@L8
chooseImpl();
String jobInfo = impl_.getJobInfo(threadSafetyValue_);
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Constructing Job for job: " + jobInfo); //@L8
// Contents of the "job information" string: The name of the user job that the thread is associated with. The format of the job name is a 10-character simple job name, a 10-character user name, and a 6-character job number.
return new Job(system_, jobInfo.substring(0, 10).trim(), jobInfo.substring(10, 20).trim(), jobInfo.substring(20, 26).trim());
}
/**
Returns the system on which the program is to be run.
@return The system on which the program is to be run. If the system has not been set, null is returned.
**/
public AS400 getSystem()
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Getting system: " + system_); //@L8
return system_;
}
/**
Returns the thread on which the program would be run, if it were to be called on-thread. Returns null if either:
- The client is communicating with the system through sockets.
- The program has not been marked as thread safe.
@return The thread on which the program would be run.
@exception AS400SecurityException If a security or authority error occurs.
@exception IOException If an error occurs while communicating with the system.
**/
public Thread getSystemThread() throws AS400SecurityException, IOException
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Getting system thread."); //@L8
chooseImpl();
Thread currentThread = impl_.isNative() ? Thread.currentThread() : null;
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "System thread: " + currentThread); //@L8
return currentThread;
}
static String getThreadSafetyProperty()
{
String val = SystemProperties.getProperty(SystemProperties.PROGRAMCALL_THREADSAFE);
return (val == null || val.length()==0 ? null : val.toLowerCase());
}
static Boolean getDefaultThreadSafety()
{
return new Boolean(getThreadSafetyProperty());
}
// Check thread safety system property.
private void checkThreadSafetyProperty()
{
String property = getThreadSafetyProperty();
if (property == null) // Property not set.
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Thread safe system property not set, thread safety property remains unspecified."); //@L8
}
else
{
threadSafetyValue_ = (property.equals("true") ? THREADSAFE_TRUE : THREADSAFE_FALSE);
threadSafety_ = (THREADSAFE_TRUE.equals(threadSafetyValue_));
threadSafetyDetermined_ = SPECIFIED_BY_PROPERTY;
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Thread safe system property: " + property); //@L8
}
}
/**
Indicates whether or not the program will actually get run on the current thread.
Note: If the program is run on-thread, it will run in a different job than if it were run off-thread.
@return true if the program will be run on the current thread; false otherwise.
@exception AS400SecurityException If a security or authority error occurs.
@exception ErrorCompletingRequestException If an error occurs before the request is completed.
@exception IOException If an error occurs while communicating with the system.
@exception InterruptedException If this thread is interrupted.
**/
public boolean isStayOnThread() throws AS400SecurityException, ErrorCompletingRequestException, IOException, InterruptedException
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Checking if program will actually get run on the current thread."); //@L8
chooseImpl();
boolean isStayOnThread = ((THREADSAFE_TRUE.equals(threadSafetyValue_)) &&
impl_.isNative());
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Will program actually get run on the current thread:", isStayOnThread); //@L8
return isStayOnThread;
}
/**
Indicates whether or not the program will be assumed thread-safe, according to the settings specified by setThreadSafe() or the com.ibm.as400.access.ProgramCall.threadSafe property.
Note: If the program is run on-thread, it will run in a different job than if it were run off-thread.
@return true if the program will be assumed thread-safe; false otherwise.
@deprecated The name of this method is misleading. Use {@link #isStayOnThread isStayOnThread()} instead.
**/
public boolean isThreadSafe()
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Checking if program will be assumed thread-safe."); //@L8
return threadSafetyValue_.booleanValue();
}
// Deserializes and initializes the transient data.
private void readObject(ObjectInputStream in) throws ClassNotFoundException, IOException
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "De-serializing ProgramCall object."); //@L8
in.defaultReadObject();
if (cancelLock_ == null) {
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "cancelLock is NULL, recreate it."); //@L8
cancelLock_ = new CancelLock();
}
// impl_ remains null.
// actionCompletedListeners_ remains null.
// propertyChangeListeners_ remains null.
// vetoableChangeListeners_ remains null.
// See how we determined this object's thread-safety before it was serialized.
if (threadSafetyDetermined_ == SPECIFIED_BY_SETTER)
{
threadSafetyValue_ = (threadSafety_ == true ? THREADSAFE_TRUE : THREADSAFE_FALSE);
}
else // Not specified by 'set' method.
{
// This object was serialized when its thread-safe behavior was determined by a system property (that is, not explicitly specified by setThreadSafe()). This property may have since changed, and we must honor the current local property value.
String property = getThreadSafetyProperty();
if (property == null) // Property is not set.
{
threadSafetyValue_ = THREADSAFE_FALSE;
threadSafetyDetermined_ = UNSPECIFIED;
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Thread safe system property not set, thread safety property changed to unspecified."); //@L8
}
else // Property is set.
{
threadSafetyValue_ = (property.equals("true") ? THREADSAFE_TRUE : THREADSAFE_FALSE);
threadSafetyDetermined_ = SPECIFIED_BY_PROPERTY;
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Thread safe system property: " + property); //@L8
}
threadSafety_ = (THREADSAFE_TRUE.equals(threadSafetyValue_));
}
}
/**
Removes the ActionCompletedListener. If the ActionCompletedListener is not on the list, nothing is done.
@param listener The listener object.
**/
public void removeActionCompletedListener(ActionCompletedListener listener)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Removing action completed listener."); //@L8
if (listener == null) {
throw new NullPointerException("listener");
}
// If we have listeners.
if (actionCompletedListeners_ != null)
{
actionCompletedListeners_.removeElement(listener);
}
}
/**
Removes the PropertyChangeListener. If the PropertyChangeListener is not on the list, nothing is done.
@param listener The listener object.
**/
public void removePropertyChangeListener(PropertyChangeListener listener)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Removing property change listener."); //@L8
if (listener == null) {
throw new NullPointerException("listener");
}
// If we have listeners.
if (propertyChangeListeners_ != null)
{
propertyChangeListeners_.removePropertyChangeListener(listener);
}
}
/**
Removes the VetoableChangeListener. If the VetoableChangeListener is not on the list, nothing is done.
@param listener The listener object.
**/
public void removeVetoableChangeListener(VetoableChangeListener listener)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Removing vetoable change listener."); //@L8
if (listener == null) {
throw new NullPointerException("listener");
}
// If we have listeners.
if (vetoableChangeListeners_ != null)
{
vetoableChangeListeners_.removeVetoableChangeListener(listener);
}
}
/**
Runs the program on the system. The program and parameter list need to be set prior to this call.
@return true if program ran successfully; false otherwise.
@exception AS400SecurityException If a security or authority error occurs.
@exception ErrorCompletingRequestException If an error occurs before the request is completed.
@exception IOException If an error occurs while communicating with the system.
@exception InterruptedException If this thread is interrupted.
@exception ObjectDoesNotExistException If the object does not exist on the system.
**/
public boolean run() throws AS400SecurityException, ErrorCompletingRequestException, IOException, InterruptedException, ObjectDoesNotExistException
{
if (Trace.traceOn_) Trace.log(Trace.INFORMATION, this, "Running program: " + program_); //@L8
if (program_.length() == 0)
{
Trace.log(Trace.ERROR, this, "Attempt to run before setting program."); //@L8
throw new ExtendedIllegalStateException("program", ExtendedIllegalStateException.PROPERTY_NOT_SET);
}
//@M2A Add support for running program located on IASP and path set starting with iasp name.
//@P2C
String prg = program_.toUpperCase();
if(!prg.startsWith("/QSYS.LIB")){
String iasp=prg.substring(1, prg.indexOf("/QSYS.LIB"));
if(!system_.aspName.equalsIgnoreCase(iasp)){
try{
String SetASPGrp = "SETASPGRP ASPGRP("+ iasp + ") CURLIB(*CURUSR) USRLIBL(*CURUSR)";//@P2C
CommandCall commandCall = new CommandCall(system_);
Job job = commandCall.getServerJob();
String currentASP = job.getJobAsp();
system_.aspName= currentASP;
if(currentASP!=null && !currentASP.equalsIgnoreCase(iasp)){
Trace.log(Trace.DIAGNOSTIC,"ProgramCall call command of setaspgrp "+SetASPGrp);
if (commandCall.run(SetASPGrp) != true) {
Trace.log(Trace.ERROR, this,"Command SETASPGRP Failed with iasp "+iasp);
}
else
system_.aspName= iasp;
}
}catch (Exception e){
e.printStackTrace();
}
}
}
// Validate that all the program parameters have been set.
for (int i = 0; i < parameterList_.length; ++i)
{
if (parameterList_[i] == null)
{
throw new ExtendedIllegalArgumentException("parameterList[" + i + "] (" + parameterList_[i] + ")", ExtendedIllegalArgumentException.PARAMETER_VALUE_NOT_VALID);
}
}
chooseImpl();
// Run the program.
try
{
//@D10C - Start
// We can only cancel if running remote
boolean result;
if (impl_ instanceof RemoteCommandImplRemote) {
job_ = this.getServerJob();
checkCancel();
startCancelThread();
result = impl_.runProgram(library_, name_, parameterList_, threadSafetyValue_, messageOption_);
// We treat it as a normal case
endCancelThread();
} else {
result = impl_.runProgram(library_, name_, parameterList_, threadSafetyValue_, messageOption_);
}
//@D10C - End
// Retrieve the messages.
messageList_ = impl_.getMessageList();
// Set our system object into each of the messages.
if (system_ != null)
{
for (int i = 0; i < messageList_.length; ++i)
{
messageList_[i].setSystem(system_);
}
}
// Fire action completed event.
if (actionCompletedListeners_ != null) fireActionCompleted();
return result;
}
catch (ObjectDoesNotExistException e)
{
// Retrieve the messages.
messageList_ = impl_.getMessageList();
// Set our system object into each of the messages.
if (system_ != null)
{
for (int i = 0; i < messageList_.length; ++i)
{
messageList_[i].setSystem(system_);
}
}
throw e;
}
}
/**
Sets the program name and the parameter list and runs the program on the system.
@param program The fully qualified integrated file system path name to the program. The library and program name must each be 10 characters or less.
@param parameterList The list of parameters with which to run the program.
@return true if program ran successfully, false otherwise.
@exception AS400SecurityException If a security or authority error occurs.
@exception ErrorCompletingRequestException If an error occurs before the request is completed.
@exception IOException If an error occurs while communicating with the system.
@exception InterruptedException If this thread is interrupted.
@exception ObjectDoesNotExistException If the object does not exist on the system.
@exception PropertyVetoException If a change is vetoed.
**/
public boolean run(String program, ProgramParameter[] parameterList) throws AS400SecurityException, ErrorCompletingRequestException, IOException, InterruptedException, ObjectDoesNotExistException, PropertyVetoException
{
setProgram(program, parameterList);
return run();
}
/**
Sets the list of parameters to pass to the program.
@param parameterList A list of up to 35 parameters with which to run the program.
@exception PropertyVetoException If a change is vetoed.
**/
public void setParameterList(ProgramParameter[] parameterList) throws PropertyVetoException
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Setting parameter list."); //@L8
if (parameterList == null) {
throw new NullPointerException("parameterList");
}
//@J3 - Start
//boolean isV7R2 = false;//@RCD
// boolean isV7R1 = false;//@N6A//@RCD
boolean isSupport255 = false;//@RCA
try {
//isV7R2 = system_.getVRM() == 0x00070200; //@RCD
//isV7R1 = system_.getVRM() == 0x00070100;//@RCD //@N6A V7R1 with ptf SI55519 supported parameter with max 255
isSupport255 = (system_.getVRM() >= 0x00070100);//@RCA
} catch(Exception e) {
e.printStackTrace();
}
if ((isSupport255)&& parameterList.length > 255)//@N6C //@RCC
{
Trace.log(Trace.ERROR, this, "Parameter list length exceeds limit of 255 parameters:", parameterList.length); //@L8
throw new ExtendedIllegalArgumentException("parameterList.length (" + parameterList.length + ")", ExtendedIllegalArgumentException.LENGTH_NOT_VALID);
}
else if (!isSupport255 && parameterList.length > 35)//@N6C //@RCC
{
Trace.log(Trace.ERROR, this, "Parameter list length exceeds limit of 35 parameters:", parameterList.length); //@L8
throw new ExtendedIllegalArgumentException("parameterList.length (" + parameterList.length + ")", ExtendedIllegalArgumentException.LENGTH_NOT_VALID);
}
//@J3 - End
ProgramParameter[] oldValue = parameterList_;
ProgramParameter[] newValue = parameterList;
if (vetoableChangeListeners_ != null)
{
vetoableChangeListeners_.fireVetoableChange("parameterList", oldValue, newValue);
}
parameterList_ = newValue;
if (propertyChangeListeners_ != null)
{
propertyChangeListeners_.firePropertyChange("parameterList", oldValue, newValue);
}
}
/**
Sets the path name of the program and the parameter list.
@param program The fully qualified integrated file system path name to the program. The library and program name must each be 10 characters or less.
@param parameterList A list of up to 35 parameters with which to run the program.
@exception PropertyVetoException If a change is vetoed.
**/
public void setProgram(String program, ProgramParameter[] parameterList) throws PropertyVetoException
{
// Validate and set program.
setProgram(program);
// Validate and set parmlist.
setParameterList(parameterList);
}
/**
Sets the path name of the program.
@param program The fully qualified integrated file system path name to the program. The library and program name must each be 10 characters or less.
@exception PropertyVetoException If the change is vetoed.
**/
public void setProgram(String program) throws PropertyVetoException
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Setting program: " + program); //@L8
if (program == null) {
throw new NullPointerException("program");
}
if (Trace.traceOn_ && program.length() == 0)
{
Trace.log(Trace.WARNING, this, "Parameter 'program' is has length of 0."); //@L8
}
// Verify program is valid IFS path name.
QSYSObjectPathName ifs = new QSYSObjectPathName(program, "PGM");
String oldValue = program_;
String newValue = program;
if (vetoableChangeListeners_ != null)
{
vetoableChangeListeners_.fireVetoableChange("program", oldValue, newValue);
}
library_ = ifs.getLibraryName();
name_ = ifs.getObjectName();
program_ = newValue;
if (propertyChangeListeners_ != null)
{
propertyChangeListeners_.firePropertyChange("program", oldValue, newValue);
}
}
/**
Specifies the option for how many messages should be retrieved. By default, to preserve compatability, only the messages sent to the program caller and only up to ten messages are retrieved. This property will only take affect on systems that support the new option.
@param messageOption A constant indicating how many messages to retrieve. Valid values are:
- AS400Message.MESSAGE_OPTION_UP_TO_10
- AS400Message.MESSAGE_OPTION_NONE
- AS400Message.MESSAGE_OPTION_ALL
**/
public void setMessageOption(int messageOption)
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Setting message option:", messageOption); //@L8
// Validate the messageOption parameter.
if (messageOption < 0 || messageOption > 2)
{
throw new ExtendedIllegalArgumentException("messageOption (" + messageOption + ")", ExtendedIllegalArgumentException.PARAMETER_VALUE_NOT_VALID);
}
messageOption_ = messageOption;
}
/**
Sets the system to run the program. The system cannot be changed once a connection is made to the system.
@param system The system on which to run the program.
@exception PropertyVetoException If the change is vetoed.
**/
public void setSystem(AS400 system) throws PropertyVetoException
{
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Setting system: " + system); //@L8
if (system == null) {
throw new NullPointerException("system");
}
if (impl_ != null)
{
Trace.log(Trace.ERROR, this, "Cannot set property 'system' after connect."); //@L8
throw new ExtendedIllegalStateException("system", ExtendedIllegalStateException.PROPERTY_NOT_CHANGED);
}
AS400 oldValue = system_;
AS400 newValue = system;
if (vetoableChangeListeners_ != null)
{
vetoableChangeListeners_.fireVetoableChange("system", oldValue, newValue);
}
system_ = newValue;
if (propertyChangeListeners_ != null)
{
propertyChangeListeners_.firePropertyChange("system", oldValue, newValue);
}
}
/**
Specifies whether or not the program should be assumed thread-safe. The default is false.
Note: This method has no effect if the Java application is running remotely, that is, is not running "natively" on an IBM i system. When running remotely, the Toolbox submits all program calls through the Remote Command Host Server, regardless of the value of the threadSafe attribute.
Note: This method does not modify the actual program object on the system.
Note: If the program is run on-thread, it will run in a different job than if it were run off-thread.
@param threadSafe true if the program should be assumed to be thread-safe; false otherwise.
**/
public void setThreadSafe(boolean threadSafe)
{
// Note to maintenance programmer:
// Currently all host server jobs are single-threaded. If that ever changes, then we'll need to communicate the threadsafety of the called program to the host server.
if (Trace.traceOn_) Trace.log(Trace.DIAGNOSTIC, this, "Setting thread safe: " + threadSafe); //@L8
Boolean newValue = (threadSafe ? THREADSAFE_TRUE : THREADSAFE_FALSE);
if (propertyChangeListeners_ != null)
{
Boolean oldValue = threadSafetyValue_;
propertyChangeListeners_.firePropertyChange ("threadSafe", oldValue, newValue);
}
threadSafetyValue_ = newValue;
threadSafety_ = threadSafe;
threadSafetyDetermined_ = SPECIFIED_BY_SETTER;
}
/**
Specifies that the called program should be assumed to be thread-safe.
If the system property com.ibm.as400.access.ProgramCall.threadSafe has been set,
this method does nothing.
**/
public void suggestThreadsafe()
{
// Note: Unlike with CL commands, there's no way for us to lookup the threadsafety of an API.
if (getThreadSafetyProperty() == null)
{
setThreadSafe(true);
}
}
/**
Returns the string representation of this program call object.
@return The string representing this program call object.
**/
public String toString()
{
return "ProgramCall (system: " + system_ + " program: " + program_ + "):" + super.toString();
}
}