8226511: Implement JFR Event Streaming
Reviewed-by: egahlin, mseledtsov, mgronlun
Contributed-by: erik.gahlin@oracle.com, mikhailo.seledtsov@oracle.com, markus.gronlund@oracle.com
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* accompanied this code).
*
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package jdk.jfr.internal.consumer;
import java.io.IOException;
import java.util.ArrayList;
import java.util.List;
import jdk.jfr.EventType;
import jdk.jfr.ValueDescriptor;
import jdk.jfr.internal.LongMap;
import jdk.jfr.internal.MetadataDescriptor;
import jdk.jfr.internal.PrivateAccess;
import jdk.jfr.internal.Type;
import jdk.jfr.internal.consumer.Parser;
import jdk.jfr.internal.consumer.RecordingInput;
/**
* Class that create parsers suitable for reading events and constant pools
*/
final class ParserFactory {
private final LongMap<Parser> parsers = new LongMap<>();
private final TimeConverter timeConverter;
private final LongMap<Type> types = new LongMap<>();
private final LongMap<ConstantLookup> constantLookups;
public ParserFactory(MetadataDescriptor metadata, LongMap<ConstantLookup> constantLookups, TimeConverter timeConverter) throws IOException {
this.constantLookups = constantLookups;
this.timeConverter = timeConverter;
for (Type t : metadata.getTypes()) {
types.put(t.getId(), t);
}
// Add to separate list
// so createCompositeParser can throw
// IOException outside lambda
List<Type> typeList = new ArrayList<>();
types.forEach(typeList::add);
for (Type t : typeList) {
if (!t.getFields().isEmpty()) { // Avoid primitives
CompositeParser cp = createCompositeParser(t, false);
if (t.isSimpleType()) { // Reduce to nested parser
parsers.put(t.getId(), cp.parsers[0]);
}
}
}
// Override event types with event parsers
for (EventType t : metadata.getEventTypes()) {
parsers.put(t.getId(), createEventParser(t));
}
}
public LongMap<Parser> getParsers() {
return parsers;
}
public LongMap<Type> getTypeMap() {
return types;
}
private EventParser createEventParser(EventType eventType) throws IOException {
List<Parser> parsers = new ArrayList<Parser>();
for (ValueDescriptor f : eventType.getFields()) {
parsers.add(createParser(f, true));
}
return new EventParser(timeConverter, eventType, parsers.toArray(new Parser[0]));
}
private Parser createParser(ValueDescriptor v, boolean event) throws IOException {
boolean constantPool = PrivateAccess.getInstance().isConstantPool(v);
if (v.isArray()) {
Type valueType = PrivateAccess.getInstance().getType(v);
ValueDescriptor element = PrivateAccess.getInstance().newValueDescriptor(v.getName(), valueType, v.getAnnotationElements(), 0, constantPool, null);
return new ArrayParser(createParser(element, event));
}
long id = v.getTypeId();
Type type = types.get(id);
if (type == null) {
throw new IOException("Type '" + v.getTypeName() + "' is not defined");
}
if (constantPool) {
ConstantLookup lookup = constantLookups.get(id);
if (lookup == null) {
ConstantMap pool = new ConstantMap(ObjectFactory.create(type, timeConverter), type.getName());
lookup = new ConstantLookup(pool, type);
constantLookups.put(id, lookup);
}
if (event) {
return new EventValueConstantParser(lookup);
}
return new ConstantValueParser(lookup);
}
Parser parser = parsers.get(id);
if (parser == null) {
if (!v.getFields().isEmpty()) {
return createCompositeParser(type, event);
} else {
return registerParserType(type, createPrimitiveParser(type, constantPool));
}
}
return parser;
}
private Parser createPrimitiveParser(Type type, boolean event) throws IOException {
switch (type.getName()) {
case "int":
return new IntegerParser();
case "long":
return new LongParser();
case "float":
return new FloatParser();
case "double":
return new DoubleParser();
case "char":
return new CharacterParser();
case "boolean":
return new BooleanParser();
case "short":
return new ShortParser();
case "byte":
return new ByteParser();
case "java.lang.String":
ConstantMap pool = new ConstantMap(ObjectFactory.create(type, timeConverter), type.getName());
ConstantLookup lookup = new ConstantLookup(pool, type);
constantLookups.put(type.getId(), lookup);
return new StringParser(lookup, event);
default:
throw new IOException("Unknown primitive type " + type.getName());
}
}
private Parser registerParserType(Type t, Parser parser) {
Parser p = parsers.get(t.getId());
// check if parser exists (known type)
if (p != null) {
return p;
}
parsers.put(t.getId(), parser);
return parser;
}
private CompositeParser createCompositeParser(Type type, boolean event) throws IOException {
List<ValueDescriptor> vds = type.getFields();
Parser[] parsers = new Parser[vds.size()];
CompositeParser composite = new CompositeParser(parsers);
// need to pre-register so recursive types can be handled
registerParserType(type, composite);
int index = 0;
for (ValueDescriptor vd : vds) {
parsers[index++] = createParser(vd, event);
}
return composite;
}
private static final class BooleanParser extends Parser {
@Override
public Object parse(RecordingInput input) throws IOException {
return input.readBoolean() ? Boolean.TRUE : Boolean.FALSE;
}
@Override
public void skip(RecordingInput input) throws IOException {
input.skipBytes(1);
}
}
private static final class ByteParser extends Parser {
@Override
public Object parse(RecordingInput input) throws IOException {
return Byte.valueOf(input.readByte());
}
@Override
public void skip(RecordingInput input) throws IOException {
input.skipBytes(1);
}
}
private static final class LongParser extends Parser {
private Object lastLongObject = Long.valueOf(0);
private long last = 0;
@Override
public Object parse(RecordingInput input) throws IOException {
long l = input.readLong();
if (l == last) {
return lastLongObject;
}
last = l;
lastLongObject = Long.valueOf(l);
return lastLongObject;
}
@Override
public void skip(RecordingInput input) throws IOException {
input.readLong();
}
}
private static final class IntegerParser extends Parser {
private Integer lastIntegergObject = Integer.valueOf(0);
private int last = 0;
@Override
public Object parse(RecordingInput input) throws IOException {
int i = input.readInt();
if (i != last) {
last = i;
lastIntegergObject = Integer.valueOf(i);
}
return lastIntegergObject;
}
@Override
public void skip(RecordingInput input) throws IOException {
input.readInt();
}
}
private static final class ShortParser extends Parser {
@Override
public Object parse(RecordingInput input) throws IOException {
return Short.valueOf(input.readShort());
}
@Override
public void skip(RecordingInput input) throws IOException {
input.readShort();
}
}
private static final class CharacterParser extends Parser {
@Override
public Object parse(RecordingInput input) throws IOException {
return Character.valueOf(input.readChar());
}
@Override
public void skip(RecordingInput input) throws IOException {
input.readChar();
}
}
private static final class FloatParser extends Parser {
@Override
public Object parse(RecordingInput input) throws IOException {
return Float.valueOf(input.readFloat());
}
@Override
public void skip(RecordingInput input) throws IOException {
input.skipBytes(Float.SIZE);
}
}
private static final class DoubleParser extends Parser {
@Override
public Object parse(RecordingInput input) throws IOException {
return Double.valueOf(input.readDouble());
}
@Override
public void skip(RecordingInput input) throws IOException {
input.skipBytes(Double.SIZE);
}
}
private final static class ArrayParser extends Parser {
private final Parser elementParser;
public ArrayParser(Parser elementParser) {
this.elementParser = elementParser;
}
@Override
public Object parse(RecordingInput input) throws IOException {
final int size = input.readInt();
final Object[] array = new Object[size];
for (int i = 0; i < size; i++) {
array[i] = elementParser.parse(input);
}
return array;
}
@Override
public void skip(RecordingInput input) throws IOException {
final int size = input.readInt();
for (int i = 0; i < size; i++) {
elementParser.skip(input);
}
}
}
private final static class CompositeParser extends Parser {
private final Parser[] parsers;
public CompositeParser(Parser[] valueParsers) {
this.parsers = valueParsers;
}
@Override
public Object parse(RecordingInput input) throws IOException {
final Object[] values = new Object[parsers.length];
for (int i = 0; i < values.length; i++) {
values[i] = parsers[i].parse(input);
}
return values;
}
@Override
public void skip(RecordingInput input) throws IOException {
for (int i = 0; i < parsers.length; i++) {
parsers[i].skip(input);
}
}
}
private static final class EventValueConstantParser extends Parser {
private final ConstantLookup lookup;
private Object lastValue = 0;
private long lastKey = -1;
EventValueConstantParser(ConstantLookup lookup) {
this.lookup = lookup;
}
@Override
public Object parse(RecordingInput input) throws IOException {
long key = input.readLong();
if (key == lastKey) {
return lastValue;
}
lastKey = key;
lastValue = lookup.getCurrentResolved(key);
return lastValue;
}
@Override
public void skip(RecordingInput input) throws IOException {
input.readLong();
}
}
private static final class ConstantValueParser extends Parser {
private final ConstantLookup lookup;
ConstantValueParser(ConstantLookup lookup) {
this.lookup = lookup;
}
@Override
public Object parse(RecordingInput input) throws IOException {
return lookup.getCurrent(input.readLong());
}
@Override
public void skip(RecordingInput input) throws IOException {
input.readLong();
}
}
}