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package sun.jvmstat.perfdata.monitor.v1_0;

import sun.jvmstat.monitor.*;
import sun.jvmstat.perfdata.monitor.*;
import java.nio.*;

Class representing the 1.0 version of the HotSpot PerfData instrumentation
buffer header.

The PerfDataBufferPrologue2_0 class supports parsing of the version
specific portions of the PerfDataPrologue C structure:
typedef struct {
  ...                      // handled by superclass
  jint used;               // number of PerfData memory bytes used
  jint overflow;           // number of bytes of overflow
  jlong mod_time_stamp;    // time stamp of the last structural modification
} PerfDataPrologue

Author:
Brian Doherty
Since:
1.5/**
 * Class representing the 1.0 version of the HotSpot PerfData instrumentation
 * buffer header.
 * <p>
 * The PerfDataBufferPrologue2_0 class supports parsing of the version
 * specific portions of the PerfDataPrologue C structure:
 * <pre>
 * typedef struct {
 *   ...                      // handled by superclass
 *   jint used;               // number of PerfData memory bytes used
 *   jint overflow;           // number of bytes of overflow
 *   jlong mod_time_stamp;    // time stamp of the last structural modification
 * } PerfDataPrologue
 * </pre>
 *
 * @author Brian Doherty
 * @since 1.5
 */
public class PerfDataBufferPrologue extends AbstractPerfDataBufferPrologue {

    private static final int SUPPORTED_MAJOR_VERSION = 1;
    private static final int SUPPORTED_MINOR_VERSION = 0;

    /*
     * the following constants must match the field offsets and sizes
     * in the PerfDataPrologue structure in perfMemory.hpp
     */
    final static int PERFDATA_PROLOG_USED_OFFSET=8;
    final static int PERFDATA_PROLOG_USED_SIZE=4;              // sizeof(int)
    final static int PERFDATA_PROLOG_OVERFLOW_OFFSET=12;
    final static int PERFDATA_PROLOG_OVERFLOW_SIZE=4;          // sizeof(int)
    final static int PERFDATA_PROLOG_MODTIMESTAMP_OFFSET=16;
    final static int PERFDATA_PROLOG_MODTIMESTAMP_SIZE=8;      // sizeof(long)
    final static int PERFDATA_PROLOG_SIZE=24;  // sizeof(struct PerfDataProlog)

    // counter names for prologue psuedo counters
    final static String PERFDATA_BUFFER_SIZE_NAME  = "sun.perfdata.size";
    final static String PERFDATA_BUFFER_USED_NAME  = "sun.perfdata.used";
    final static String PERFDATA_OVERFLOW_NAME     = "sun.perfdata.overflow";
    final static String PERFDATA_MODTIMESTAMP_NAME = "sun.perfdata.timestamp";

    
Create an instance of PerfDataBufferPrologue from the given
ByteBuffer object.
Params:
byteBuffer – the buffer containing the binary header data/**
     * Create an instance of PerfDataBufferPrologue from the given
     * ByteBuffer object.
     *
     * @param byteBuffer the buffer containing the binary header data
     */
    public PerfDataBufferPrologue(ByteBuffer byteBuffer)
           throws MonitorException  {
        super(byteBuffer);
        assert ((getMajorVersion() == 1) && (getMinorVersion() == 0));
    }

    
{@inheritDoc}
/**
     * {@inheritDoc}
     */
    public boolean supportsAccessible() {
        return false;
    }

    
{@inheritDoc}
/**
     * {@inheritDoc}
     */
    public boolean isAccessible() {
        return true;
    }

    
Get the utilization of the instrumentation memory buffer.
Returns:
int - the utilization of the buffer/**
     * Get the utilization of the instrumentation memory buffer.
     *
     * @return int - the utilization of the buffer
     */
    public int getUsed() {
        byteBuffer.position(PERFDATA_PROLOG_USED_OFFSET);
        return byteBuffer.getInt();
    }

    
Get the size of the instrumentation memory buffer.
Returns:
int - the size of the buffer/**
     * Get the size of the instrumentation memory buffer.
     *
     * @return int - the size of the buffer
     */
    public int getBufferSize() {
        return byteBuffer.capacity();
    }

    
Get the buffer overflow amount. This value is non-zero if the
HotSpot JVM has overflowed the instrumentation memory buffer.
The target JVM can be restarted with -XX:PerfDataMemSize=X to
create a larger memory buffer.
Returns:
int - the size of the buffer/**
     * Get the buffer overflow amount. This value is non-zero if the
     * HotSpot JVM has overflowed the instrumentation memory buffer.
     * The target JVM can be restarted with -XX:PerfDataMemSize=X to
     * create a larger memory buffer.
     *
     * @return int - the size of the buffer
     */
    public int getOverflow() {
        byteBuffer.position(PERFDATA_PROLOG_OVERFLOW_OFFSET);
        return byteBuffer.getInt();
    }

    
Get the time of last modification for the instrumentation
memory buffer. This method returns the time, as ticks since the
start of the target JVM, of the last structural modification to
the instrumentation buffer. Structural modifications correspond to
the addition or deletion of instrumentation objects. Updates to
counter values are not structural modifications.
/**
     * Get the time of last modification for the instrumentation
     * memory buffer. This method returns the time, as ticks since the
     * start of the target JVM, of the last structural modification to
     * the instrumentation buffer. Structural modifications correspond to
     * the addition or deletion of instrumentation objects. Updates to
     * counter values are not structural modifications.
     */
    public long getModificationTimeStamp() {
        byteBuffer.position(PERFDATA_PROLOG_MODTIMESTAMP_OFFSET);
        return byteBuffer.getLong();
    }

    
{@inheritDoc}
/**
     * {@inheritDoc}
     */
    public int getSize() {
        return PERFDATA_PROLOG_SIZE;  // sizeof(struct PerfDataProlog)
    }

    
Return an IntBuffer that accesses the used value. This is used
to create a Monitor object for this value.
See Also:
getUsed()
Returns:
IntBuffer - a ByteBuffer that accesses the used value
                    in the instrumentation buffer header./**
     * Return an IntBuffer that accesses the used value. This is used
     * to create a Monitor object for this value.
     *
     * @return IntBuffer - a ByteBuffer that accesses the used value
     *                     in the instrumentation buffer header.
     * @see #getUsed()
     */
    public IntBuffer usedBuffer() {
        byteBuffer.position(PERFDATA_PROLOG_USED_OFFSET);
        IntBuffer ib = byteBuffer.asIntBuffer();
        ib.limit(1);
        return ib;
    }

    
Return an IntBuffer that accesses the size value. This is used
to create a Monitor object for this value.
See Also:
getBufferSize()
Returns:
IntBuffer - a ByteBuffer that accesses the size value
                    in the instrumentation buffer header./**
     * Return an IntBuffer that accesses the size value. This is used
     * to create a Monitor object for this value.
     *
     * @return IntBuffer - a ByteBuffer that accesses the size value
     *                     in the instrumentation buffer header.
     * @see #getBufferSize()
     */
    public IntBuffer sizeBuffer() {
        IntBuffer ib = IntBuffer.allocate(1);
        ib.put(byteBuffer.capacity());
        return ib;
    }

    
Return an IntBuffer that accesses the overflow value. This is used
to create a Monitor object for this value.
See Also:
getOverflow()
Returns:
IntBuffer - a ByteBuffer that accesses the overflow value
                    in the instrumentation buffer header./**
     * Return an IntBuffer that accesses the overflow value. This is used
     * to create a Monitor object for this value.
     *
     * @return IntBuffer - a ByteBuffer that accesses the overflow value
     *                     in the instrumentation buffer header.
     * @see #getOverflow()
     */
    public IntBuffer overflowBuffer() {
        byteBuffer.position(PERFDATA_PROLOG_OVERFLOW_OFFSET);
        IntBuffer ib = byteBuffer.asIntBuffer();
        ib.limit(1);
        return ib;
    }

    
Return an LongBuffer that accesses the modification timestamp value.
This is used* to create a Monitor object for this value.
See Also:
getModificationTimeStamp()
Returns:
LongBuffer - a ByteBuffer that accesses the modification time
                     stamp value in the instrumentation buffer header./**
     * Return an LongBuffer that accesses the modification timestamp value.
     * This is used* to create a Monitor object for this value.
     *
     * @return LongBuffer - a ByteBuffer that accesses the modification time
     *                      stamp value in the instrumentation buffer header.
     * @see #getModificationTimeStamp()
     */
    public LongBuffer modificationTimeStampBuffer() {
        byteBuffer.position(PERFDATA_PROLOG_MODTIMESTAMP_OFFSET);
        LongBuffer lb = byteBuffer.asLongBuffer();
        lb.limit(1);
        return lb;
    }
}