1 /*
2 * Copyright (c) 2004, 2018, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
9 * This code is distributed in the hope that it will be useful, but WITHOUT
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
12 * version 2 for more details (a copy is included in the LICENSE file that
13 * accompanied this code).
14 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
24
25 package sun.jvm.hotspot.utilities;
26
27 import java.io.*;
28 import java.nio.channels.*;
29 import java.util.*;
30 import sun.jvm.hotspot.debugger.*;
31 import sun.jvm.hotspot.memory.*;
32 import sun.jvm.hotspot.oops.*;
33 import sun.jvm.hotspot.runtime.*;
34 import sun.jvm.hotspot.classfile.*;
35 import sun.jvm.hotspot.gc.z.ZCollectedHeap;
36
37 /*
38 * This class writes Java heap in hprof binary format. This format is
39 * used by Heap Analysis Tool (HAT). The class is heavily influenced
40 * by 'hprof_io.c' of 1.5 new hprof implementation.
41 */
42
43 /* hprof binary format: (result either written to a file or sent over
44 * the network).
45 *
46 * WARNING: This format is still under development, and is subject to
47 * change without notice.
48 *
49 * header "JAVA PROFILE 1.0.2" (0-terminated)
50 * u4 size of identifiers. Identifiers are used to represent
51 * UTF8 strings, objects, stack traces, etc. They usually
52 * have the same size as host pointers. For example, on
53 * Solaris and Win32, the size is 4.
54 * u4 high word
55 * u4 low word number of milliseconds since 0:00 GMT, 1/1/70
56 * [record]* a sequence of records.
57 *
58 */
59
60 /*
61 *
62 * Record format:
63 *
64 * u1 a TAG denoting the type of the record
65 * u4 number of *microseconds* since the time stamp in the
66 * header. (wraps around in a little more than an hour)
67 * u4 number of bytes *remaining* in the record. Note that
68 * this number excludes the tag and the length field itself.
69 * [u1]* BODY of the record (a sequence of bytes)
70 */
71
72 /*
73 * The following TAGs are supported:
74 *
75 * TAG BODY notes
76 *----------------------------------------------------------
77 * HPROF_UTF8 a UTF8-encoded name
78 *
79 * id name ID
80 * [u1]* UTF8 characters (no trailing zero)
81 *
82 * HPROF_LOAD_CLASS a newly loaded class
83 *
84 * u4 class serial number (> 0)
85 * id class object ID
86 * u4 stack trace serial number
87 * id class name ID
88 *
89 * HPROF_UNLOAD_CLASS an unloading class
90 *
91 * u4 class serial_number
92 *
93 * HPROF_FRAME a Java stack frame
94 *
95 * id stack frame ID
96 * id method name ID
97 * id method signature ID
98 * id source file name ID
99 * u4 class serial number
100 * i4 line number. >0: normal
101 * -1: unknown
102 * -2: compiled method
103 * -3: native method
104 *
105 * HPROF_TRACE a Java stack trace
106 *
107 * u4 stack trace serial number
108 * u4 thread serial number
109 * u4 number of frames
110 * [id]* stack frame IDs
111 *
112 *
113 * HPROF_ALLOC_SITES a set of heap allocation sites, obtained after GC
114 *
115 * u2 flags 0x0001: incremental vs. complete
116 * 0x0002: sorted by allocation vs. live
117 * 0x0004: whether to force a GC
118 * u4 cutoff ratio
119 * u4 total live bytes
120 * u4 total live instances
121 * u8 total bytes allocated
122 * u8 total instances allocated
123 * u4 number of sites that follow
124 * [u1 is_array: 0: normal object
125 * 2: object array
126 * 4: boolean array
127 * 5: char array
128 * 6: float array
129 * 7: double array
130 * 8: byte array
131 * 9: short array
132 * 10: int array
133 * 11: long array
134 * u4 class serial number (may be zero during startup)
135 * u4 stack trace serial number
136 * u4 number of bytes alive
137 * u4 number of instances alive
138 * u4 number of bytes allocated
139 * u4]* number of instance allocated
140 *
141 * HPROF_START_THREAD a newly started thread.
142 *
143 * u4 thread serial number (> 0)
144 * id thread object ID
145 * u4 stack trace serial number
146 * id thread name ID
147 * id thread group name ID
148 * id thread group parent name ID
149 *
150 * HPROF_END_THREAD a terminating thread.
151 *
152 * u4 thread serial number
153 *
154 * HPROF_HEAP_SUMMARY heap summary
155 *
156 * u4 total live bytes
157 * u4 total live instances
158 * u8 total bytes allocated
159 * u8 total instances allocated
160 *
161 * HPROF_HEAP_DUMP denote a heap dump
162 *
163 * [heap dump sub-records]*
164 *
165 * There are four kinds of heap dump sub-records:
166 *
167 * u1 sub-record type
168 *
169 * HPROF_GC_ROOT_UNKNOWN unknown root
170 *
171 * id object ID
172 *
173 * HPROF_GC_ROOT_THREAD_OBJ thread object
174 *
175 * id thread object ID (may be 0 for a
176 * thread newly attached through JNI)
177 * u4 thread sequence number
178 * u4 stack trace sequence number
179 *
180 * HPROF_GC_ROOT_JNI_GLOBAL JNI global ref root
181 *
182 * id object ID
183 * id JNI global ref ID
184 *
185 * HPROF_GC_ROOT_JNI_LOCAL JNI local ref
186 *
187 * id object ID
188 * u4 thread serial number
189 * u4 frame # in stack trace (-1 for empty)
190 *
191 * HPROF_GC_ROOT_JAVA_FRAME Java stack frame
192 *
193 * id object ID
194 * u4 thread serial number
195 * u4 frame # in stack trace (-1 for empty)
196 *
197 * HPROF_GC_ROOT_NATIVE_STACK Native stack
198 *
199 * id object ID
200 * u4 thread serial number
201 *
202 * HPROF_GC_ROOT_STICKY_CLASS System class
203 *
204 * id object ID
205 *
206 * HPROF_GC_ROOT_THREAD_BLOCK Reference from thread block
207 *
208 * id object ID
209 * u4 thread serial number
210 *
211 * HPROF_GC_ROOT_MONITOR_USED Busy monitor
212 *
213 * id object ID
214 *
215 * HPROF_GC_CLASS_DUMP dump of a class object
216 *
217 * id class object ID
218 * u4 stack trace serial number
219 * id super class object ID
220 * id class loader object ID
221 * id signers object ID
222 * id protection domain object ID
223 * id reserved
224 * id reserved
225 *
226 * u4 instance size (in bytes)
227 *
228 * u2 size of constant pool
229 * [u2, constant pool index,
230 * ty, type
231 * 2: object
232 * 4: boolean
233 * 5: char
234 * 6: float
235 * 7: double
236 * 8: byte
237 * 9: short
238 * 10: int
239 * 11: long
240 * vl]* and value
241 *
242 * u2 number of static fields
243 * [id, static field name,
244 * ty, type,
245 * vl]* and value
246 *
247 * u2 number of inst. fields (not inc. super)
248 * [id, instance field name,
249 * ty]* type
250 *
251 * HPROF_GC_INSTANCE_DUMP dump of a normal object
252 *
253 * id object ID
254 * u4 stack trace serial number
255 * id class object ID
256 * u4 number of bytes that follow
257 * [vl]* instance field values (class, followed
258 * by super, super's super ...)
259 *
260 * HPROF_GC_OBJ_ARRAY_DUMP dump of an object array
261 *
262 * id array object ID
263 * u4 stack trace serial number
264 * u4 number of elements
265 * id array class ID
266 * [id]* elements
267 *
268 * HPROF_GC_PRIM_ARRAY_DUMP dump of a primitive array
269 *
270 * id array object ID
271 * u4 stack trace serial number
272 * u4 number of elements
273 * u1 element type
274 * 4: boolean array
275 * 5: char array
276 * 6: float array
277 * 7: double array
278 * 8: byte array
279 * 9: short array
280 * 10: int array
281 * 11: long array
282 * [u1]* elements
283 *
284 * HPROF_CPU_SAMPLES a set of sample traces of running threads
285 *
286 * u4 total number of samples
287 * u4 # of traces
288 * [u4 # of samples
289 * u4]* stack trace serial number
290 *
291 * HPROF_CONTROL_SETTINGS the settings of on/off switches
292 *
293 * u4 0x00000001: alloc traces on/off
294 * 0x00000002: cpu sampling on/off
295 * u2 stack trace depth
296 *
297 *
298 * A heap dump can optionally be generated as a sequence of heap dump
299 * segments. This sequence is terminated by an end record. The additional
300 * tags allowed by format "JAVA PROFILE 1.0.2" are:
301 *
302 * HPROF_HEAP_DUMP_SEGMENT denote a heap dump segment
303 *
304 * [heap dump sub-records]*
305 * The same sub-record types allowed by HPROF_HEAP_DUMP
306 *
307 * HPROF_HEAP_DUMP_END denotes the end of a heap dump
308 *
309 */
310
311 public class HeapHprofBinWriter extends AbstractHeapGraphWriter {
312
313 // Record which Symbol names have been dumped already.
314 private HashSet<Symbol> names;
315
316 private static final long HPROF_SEGMENTED_HEAP_DUMP_THRESHOLD = 2L * 0x40000000;
317
318 // The approximate size of a heap segment. Used to calculate when to create
319 // a new segment.
320 private static final long HPROF_SEGMENTED_HEAP_DUMP_SEGMENT_SIZE = 1L * 0x40000000;
321
322 // hprof binary file header
323 private static final String HPROF_HEADER_1_0_2 = "JAVA PROFILE 1.0.2";
324
325 // constants in enum HprofTag
326 private static final int HPROF_UTF8 = 0x01;
327 private static final int HPROF_LOAD_CLASS = 0x02;
328 private static final int HPROF_UNLOAD_CLASS = 0x03;
329 private static final int HPROF_FRAME = 0x04;
330 private static final int HPROF_TRACE = 0x05;
331 private static final int HPROF_ALLOC_SITES = 0x06;
332 private static final int HPROF_HEAP_SUMMARY = 0x07;
333 private static final int HPROF_START_THREAD = 0x0A;
334 private static final int HPROF_END_THREAD = 0x0B;
335 private static final int HPROF_HEAP_DUMP = 0x0C;
336 private static final int HPROF_CPU_SAMPLES = 0x0D;
337 private static final int HPROF_CONTROL_SETTINGS = 0x0E;
338
339 // 1.0.2 record types
340 private static final int HPROF_HEAP_DUMP_SEGMENT = 0x1C;
341 private static final int HPROF_HEAP_DUMP_END = 0x2C;
342
343 // Heap dump constants
344 // constants in enum HprofGcTag
345 private static final int HPROF_GC_ROOT_UNKNOWN = 0xFF;
346 private static final int HPROF_GC_ROOT_JNI_GLOBAL = 0x01;
347 private static final int HPROF_GC_ROOT_JNI_LOCAL = 0x02;
348 private static final int HPROF_GC_ROOT_JAVA_FRAME = 0x03;
349 private static final int HPROF_GC_ROOT_NATIVE_STACK = 0x04;
350 private static final int HPROF_GC_ROOT_STICKY_CLASS = 0x05;
351 private static final int HPROF_GC_ROOT_THREAD_BLOCK = 0x06;
352 private static final int HPROF_GC_ROOT_MONITOR_USED = 0x07;
353 private static final int HPROF_GC_ROOT_THREAD_OBJ = 0x08;
354 private static final int HPROF_GC_CLASS_DUMP = 0x20;
355 private static final int HPROF_GC_INSTANCE_DUMP = 0x21;
356 private static final int HPROF_GC_OBJ_ARRAY_DUMP = 0x22;
357 private static final int HPROF_GC_PRIM_ARRAY_DUMP = 0x23;
358
359 // constants in enum HprofType
360 private static final int HPROF_ARRAY_OBJECT = 1;
361 private static final int HPROF_NORMAL_OBJECT = 2;
362 private static final int HPROF_BOOLEAN = 4;
363 private static final int HPROF_CHAR = 5;
364 private static final int HPROF_FLOAT = 6;
365 private static final int HPROF_DOUBLE = 7;
366 private static final int HPROF_BYTE = 8;
367 private static final int HPROF_SHORT = 9;
368 private static final int HPROF_INT = 10;
369 private static final int HPROF_LONG = 11;
370
371 // Java type codes
372 private static final int JVM_SIGNATURE_BOOLEAN = 'Z';
373 private static final int JVM_SIGNATURE_CHAR = 'C';
374 private static final int JVM_SIGNATURE_BYTE = 'B';
375 private static final int JVM_SIGNATURE_SHORT = 'S';
376 private static final int JVM_SIGNATURE_INT = 'I';
377 private static final int JVM_SIGNATURE_LONG = 'J';
378 private static final int JVM_SIGNATURE_FLOAT = 'F';
379 private static final int JVM_SIGNATURE_DOUBLE = 'D';
380 private static final int JVM_SIGNATURE_ARRAY = '[';
381 private static final int JVM_SIGNATURE_CLASS = 'L';
382
383 private static final long MAX_U4_VALUE = 0xFFFFFFFFL;
384 int serialNum = 1;
385
386 public HeapHprofBinWriter() {
387 this.KlassMap = new ArrayList<Klass>();
388 this.names = new HashSet<Symbol>();
389 }
390
391 public synchronized void write(String fileName) throws IOException {
392 VM vm = VM.getVM();
393 if (vm.getUniverse().heap() instanceof ZCollectedHeap) {
394 throw new RuntimeException("This operation is not supported with ZGC.");
395 }
396
397 // open file stream and create buffered data output stream
398 fos = new FileOutputStream(fileName);
399 out = new DataOutputStream(new BufferedOutputStream(fos));
400
401 dbg = vm.getDebugger();
402 objectHeap = vm.getObjectHeap();
403
404 OBJ_ID_SIZE = (int) vm.getOopSize();
405
406 BOOLEAN_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_BOOLEAN);
407 BYTE_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_BYTE);
408 CHAR_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_CHAR);
409 SHORT_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_SHORT);
410 INT_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_INT);
411 LONG_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_LONG);
412 FLOAT_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_FLOAT);
413 DOUBLE_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_DOUBLE);
414 OBJECT_BASE_OFFSET = TypeArray.baseOffsetInBytes(BasicType.T_OBJECT);
415
416 BOOLEAN_SIZE = objectHeap.getBooleanSize();
417 BYTE_SIZE = objectHeap.getByteSize();
418 CHAR_SIZE = objectHeap.getCharSize();
419 SHORT_SIZE = objectHeap.getShortSize();
420 INT_SIZE = objectHeap.getIntSize();
421 LONG_SIZE = objectHeap.getLongSize();
422 FLOAT_SIZE = objectHeap.getFloatSize();
423 DOUBLE_SIZE = objectHeap.getDoubleSize();
424
425 // Check weather we should dump the heap as segments
426 useSegmentedHeapDump = vm.getUniverse().heap().used() > HPROF_SEGMENTED_HEAP_DUMP_THRESHOLD;
427
428 // hprof bin format header
429 writeFileHeader();
430
431 // dummy stack trace without any frames so that
432 // HAT can be run without -stack false option
433 writeDummyTrace();
434
435 // hprof UTF-8 symbols section
436 writeSymbols();
437
438 // HPROF_LOAD_CLASS records for all classes
439 writeClasses();
440
441 // write HPROF_FRAME and HPROF_TRACE records
442 dumpStackTraces();
443
444 // write CLASS_DUMP records
445 writeClassDumpRecords();
446
447 // this will write heap data into the buffer stream
448 super.write();
449
450 // flush buffer stream.
451 out.flush();
452
453 // Fill in final length
454 fillInHeapRecordLength();
455
456 if (useSegmentedHeapDump) {
457 // Write heap segment-end record
458 out.writeByte((byte) HPROF_HEAP_DUMP_END);
459 out.writeInt(0);
460 out.writeInt(0);
461 }
462
463 // flush buffer stream and throw it.
464 out.flush();
465 out = null;
466
467 // close the file stream
468 fos.close();
469 }
470
471 @Override
472 protected void writeHeapRecordPrologue() throws IOException {
473 if (currentSegmentStart == 0) {
474 // write heap data header, depending on heap size use segmented heap
475 // format
476 out.writeByte((byte) (useSegmentedHeapDump ? HPROF_HEAP_DUMP_SEGMENT
477 : HPROF_HEAP_DUMP));
478 out.writeInt(0);
479
480 // remember position of dump length, we will fixup
481 // length later - hprof format requires length.
482 out.flush();
483 currentSegmentStart = fos.getChannel().position();
484 // write dummy length of 0 and we'll fix it later.
485 out.writeInt(0);
486 }
487 }
488
489 @Override
490 protected void writeHeapRecordEpilogue() throws IOException {
491 if (useSegmentedHeapDump) {
492 out.flush();
493 if ((fos.getChannel().position() - currentSegmentStart - 4L) >= HPROF_SEGMENTED_HEAP_DUMP_SEGMENT_SIZE) {
494 fillInHeapRecordLength();
495 currentSegmentStart = 0;
496 }
497 }
498 }
499
500 private void fillInHeapRecordLength() throws IOException {
501
502 // now get the current position to calculate length
503 long dumpEnd = fos.getChannel().position();
504
505 // calculate the length of heap data
506 long dumpLenLong = (dumpEnd - currentSegmentStart - 4L);
507
508 // Check length boundary, overflow could happen but is _very_ unlikely
509 if (dumpLenLong >= (4L * 0x40000000)) {
510 throw new RuntimeException("Heap segment size overflow.");
511 }
512
513 // Save the current position
514 long currentPosition = fos.getChannel().position();
515
516 // seek the position to write length
517 fos.getChannel().position(currentSegmentStart);
518
519 int dumpLen = (int) dumpLenLong;
520
521 // write length as integer
522 fos.write((dumpLen >>> 24) & 0xFF);
523 fos.write((dumpLen >>> 16) & 0xFF);
524 fos.write((dumpLen >>> 8) & 0xFF);
525 fos.write((dumpLen >>> 0) & 0xFF);
526
527 //Reset to previous current position
528 fos.getChannel().position(currentPosition);
529 }
530
531 // get the size in bytes for the requested type
532 private long getSizeForType(int type) throws IOException {
533 switch (type) {
534 case TypeArrayKlass.T_BOOLEAN:
535 return BOOLEAN_SIZE;
536 case TypeArrayKlass.T_INT:
537 return INT_SIZE;
538 case TypeArrayKlass.T_CHAR:
539 return CHAR_SIZE;
540 case TypeArrayKlass.T_SHORT:
541 return SHORT_SIZE;
542 case TypeArrayKlass.T_BYTE:
543 return BYTE_SIZE;
544 case TypeArrayKlass.T_LONG:
545 return LONG_SIZE;
546 case TypeArrayKlass.T_FLOAT:
547 return FLOAT_SIZE;
548 case TypeArrayKlass.T_DOUBLE:
549 return DOUBLE_SIZE;
550 default:
551 throw new RuntimeException(
552 "Should not reach here: Unknown type: " + type);
553 }
554 }
555
556 private int getArrayHeaderSize(boolean isObjectAarray) {
557 return isObjectAarray?
558 ((int) BYTE_SIZE + 2 * (int) INT_SIZE + 2 * (int) OBJ_ID_SIZE):
559 (2 * (int) BYTE_SIZE + 2 * (int) INT_SIZE + (int) OBJ_ID_SIZE);
560 }
561
562 // Check if we need to truncate an array
563 private int calculateArrayMaxLength(long originalArrayLength,
564 int headerSize,
565 long typeSize,
566 String typeName) throws IOException {
567
568 long length = originalArrayLength;
569
570 // now get the current position to calculate length
571 long dumpEnd = fos.getChannel().position();
572 long originalLengthInBytes = originalArrayLength * typeSize;
573
574 // calculate the length of heap data
575 long currentRecordLength = (dumpEnd - currentSegmentStart - 4L);
576 if (currentRecordLength > 0 &&
577 (currentRecordLength + headerSize + originalLengthInBytes) > MAX_U4_VALUE) {
578 fillInHeapRecordLength();
579 currentSegmentStart = 0;
580 writeHeapRecordPrologue();
581 currentRecordLength = 0;
582 }
583
584 // Calculate the max bytes we can use.
585 long maxBytes = (MAX_U4_VALUE - (headerSize + currentRecordLength));
586
587 if (originalLengthInBytes > maxBytes) {
588 length = maxBytes/typeSize;
589 System.err.println("WARNING: Cannot dump array of type " + typeName
590 + " with length " + originalArrayLength
591 + "; truncating to length " + length);
592 }
593 return (int) length;
594 }
595
596 private void writeClassDumpRecords() throws IOException {
597 ClassLoaderDataGraph cldGraph = VM.getVM().getClassLoaderDataGraph();
598 try {
599 cldGraph.classesDo(new ClassLoaderDataGraph.ClassVisitor() {
600 public void visit(Klass k) {
601 try {
602 writeHeapRecordPrologue();
603 writeClassDumpRecord(k);
604 writeHeapRecordEpilogue();
605 } catch (IOException e) {
606 throw new RuntimeException(e);
607 }
608 }
609 });
610 } catch (RuntimeException re) {
611 handleRuntimeException(re);
612 }
613 }
614
615 protected void writeClass(Instance instance) throws IOException {
616 Klass reflectedKlass = java_lang_Class.asKlass(instance);
617 // dump instance record only for primitive type Class objects.
618 // all other Class objects are covered by writeClassDumpRecords.
619 if (reflectedKlass == null) {
620 writeInstance(instance);
621 }
622 }
623
624 private void writeClassDumpRecord(Klass k) throws IOException {
625 out.writeByte((byte)HPROF_GC_CLASS_DUMP);
626 writeObjectID(k.getJavaMirror());
627 out.writeInt(DUMMY_STACK_TRACE_ID);
628 Klass superKlass = k.getJavaSuper();
629 if (superKlass != null) {
630 writeObjectID(superKlass.getJavaMirror());
631 } else {
632 writeObjectID(null);
633 }
634
635 if (k instanceof InstanceKlass) {
636 InstanceKlass ik = (InstanceKlass) k;
637 writeObjectID(ik.getClassLoader());
638 writeObjectID(null); // ik.getJavaMirror().getSigners());
639 writeObjectID(null); // ik.getJavaMirror().getProtectionDomain());
640 // two reserved id fields
641 writeObjectID(null);
642 writeObjectID(null);
643 List fields = getInstanceFields(ik);
644 int instSize = getSizeForFields(fields);
645 classDataCache.put(ik, new ClassData(instSize, fields));
646 out.writeInt(instSize);
647
648 // For now, ignore constant pool - HAT ignores too!
649 // output number of cp entries as zero.
650 out.writeShort((short) 0);
651
652 List declaredFields = ik.getImmediateFields();
653 List staticFields = new ArrayList();
654 List instanceFields = new ArrayList();
655 Iterator itr = null;
656 for (itr = declaredFields.iterator(); itr.hasNext();) {
657 Field field = (Field) itr.next();
658 if (field.isStatic()) {
659 staticFields.add(field);
660 } else {
661 instanceFields.add(field);
662 }
663 }
664
665 // dump static field descriptors
666 writeFieldDescriptors(staticFields, ik);
667
668 // dump instance field descriptors
669 writeFieldDescriptors(instanceFields, null);
670 } else {
671 if (k instanceof ObjArrayKlass) {
672 ObjArrayKlass oak = (ObjArrayKlass) k;
673 Klass bottomKlass = oak.getBottomKlass();
674 if (bottomKlass instanceof InstanceKlass) {
675 InstanceKlass ik = (InstanceKlass) bottomKlass;
676 writeObjectID(ik.getClassLoader());
677 writeObjectID(null); // ik.getJavaMirror().getSigners());
678 writeObjectID(null); // ik.getJavaMirror().getProtectionDomain());
679 } else {
680 writeObjectID(null);
681 writeObjectID(null);
682 writeObjectID(null);
683 }
684 } else {
685 writeObjectID(null);
686 writeObjectID(null);
687 writeObjectID(null);
688 }
689 // two reserved id fields
690 writeObjectID(null);
691 writeObjectID(null);
692 // write zero instance size -- as instance size
693 // is variable for arrays.
694 out.writeInt(0);
695 // no constant pool for array klasses
696 out.writeShort((short) 0);
697 // no static fields for array klasses
698 out.writeShort((short) 0);
699 // no instance fields for array klasses
700 out.writeShort((short) 0);
701 }
702 }
703
704 private void dumpStackTraces() throws IOException {
705 // write a HPROF_TRACE record without any frames to be referenced as object alloc sites
706 writeHeader(HPROF_TRACE, 3 * (int)INT_SIZE );
707 out.writeInt(DUMMY_STACK_TRACE_ID);
708 out.writeInt(0); // thread number
709 out.writeInt(0); // frame count
710
711 int frameSerialNum = 0;
712 int numThreads = 0;
713 Threads threads = VM.getVM().getThreads();
714
715 for (JavaThread thread = threads.first(); thread != null; thread = thread.next()) {
716 Oop threadObj = thread.getThreadObj();
717 if (threadObj != null && !thread.isExiting() && !thread.isHiddenFromExternalView()) {
718
719 // dump thread stack trace
720 ThreadStackTrace st = new ThreadStackTrace(thread);
721 st.dumpStack(-1);
722 numThreads++;
723
724 // write HPROF_FRAME records for this thread's stack trace
725 int depth = st.getStackDepth();
726 int threadFrameStart = frameSerialNum;
727 for (int j=0; j < depth; j++) {
728 StackFrameInfo frame = st.stackFrameAt(j);
729 Method m = frame.getMethod();
730 int classSerialNum = KlassMap.indexOf(m.getMethodHolder()) + 1;
731 // the class serial number starts from 1
732 assert classSerialNum > 0:"class not found";
733 dumpStackFrame(++frameSerialNum, classSerialNum, m, frame.getBCI());
734 }
735
736 // write HPROF_TRACE record for one thread
737 writeHeader(HPROF_TRACE, 3 * (int)INT_SIZE + depth * (int)VM.getVM().getOopSize());
738 int stackSerialNum = numThreads + DUMMY_STACK_TRACE_ID;
739 out.writeInt(stackSerialNum); // stack trace serial number
740 out.writeInt(numThreads); // thread serial number
741 out.writeInt(depth); // frame count
742 for (int j=1; j <= depth; j++) {
743 writeObjectID(threadFrameStart + j);
744 }
745 }
746 }
747 }
748
749 private void dumpStackFrame(int frameSN, int classSN, Method m, int bci) throws IOException {
750 int lineNumber;
751 if (m.isNative()) {
752 lineNumber = -3; // native frame
753 } else {
754 lineNumber = m.getLineNumberFromBCI(bci);
755 }
756 // First dump UTF8 if needed
757 writeSymbol(m.getName()); // method's name
758 writeSymbol(m.getSignature()); // method's signature
759 writeSymbol(m.getMethodHolder().getSourceFileName()); // source file name
760 // Then write FRAME descriptor
761 writeHeader(HPROF_FRAME, 4 * (int)VM.getVM().getOopSize() + 2 * (int)INT_SIZE);
762 writeObjectID(frameSN); // frame serial number
763 writeSymbolID(m.getName()); // method's name
764 writeSymbolID(m.getSignature()); // method's signature
765 writeSymbolID(m.getMethodHolder().getSourceFileName()); // source file name
766 out.writeInt(classSN); // class serial number
767 out.writeInt(lineNumber); // line number
768 }
769
770 protected void writeJavaThread(JavaThread jt, int index) throws IOException {
771 out.writeByte((byte) HPROF_GC_ROOT_THREAD_OBJ);
772 writeObjectID(jt.getThreadObj());
773 out.writeInt(index);
774 out.writeInt(DUMMY_STACK_TRACE_ID);
775 writeLocalJNIHandles(jt, index);
776 }
777
778 protected void writeLocalJNIHandles(JavaThread jt, int index) throws IOException {
779 final int threadIndex = index;
780 JNIHandleBlock blk = jt.activeHandles();
781 if (blk != null) {
782 try {
783 blk.oopsDo(new AddressVisitor() {
784 public void visitAddress(Address handleAddr) {
785 try {
786 if (handleAddr != null) {
787 OopHandle oopHandle = handleAddr.getOopHandleAt(0);
788 Oop oop = objectHeap.newOop(oopHandle);
789 // exclude JNI handles hotspot internal objects
790 if (oop != null && isJavaVisible(oop)) {
791 out.writeByte((byte) HPROF_GC_ROOT_JNI_LOCAL);
792 writeObjectID(oop);
793 out.writeInt(threadIndex);
794 out.writeInt(EMPTY_FRAME_DEPTH);
795 }
796 }
797 } catch (IOException exp) {
798 throw new RuntimeException(exp);
799 }
800 }
801 public void visitCompOopAddress(Address handleAddr) {
802 throw new RuntimeException(
803 " Should not reach here. JNIHandles are not compressed \n");
804 }
805 });
806 } catch (RuntimeException re) {
807 handleRuntimeException(re);
808 }
809 }
810 }
811
812 protected void writeGlobalJNIHandle(Address handleAddr) throws IOException {
813 OopHandle oopHandle = handleAddr.getOopHandleAt(0);
814 Oop oop = objectHeap.newOop(oopHandle);
815 // exclude JNI handles of hotspot internal objects
816 if (oop != null && isJavaVisible(oop)) {
817 out.writeByte((byte) HPROF_GC_ROOT_JNI_GLOBAL);
818 writeObjectID(oop);
819 // use JNIHandle address as ID
820 writeObjectID(getAddressValue(handleAddr));
821 }
822 }
823
824 protected void writeObjectArray(ObjArray array) throws IOException {
825 int headerSize = getArrayHeaderSize(true);
826 final int length = calculateArrayMaxLength(array.getLength(),
827 headerSize,
828 OBJ_ID_SIZE,
829 "Object");
830 out.writeByte((byte) HPROF_GC_OBJ_ARRAY_DUMP);
831 writeObjectID(array);
832 out.writeInt(DUMMY_STACK_TRACE_ID);
833 out.writeInt(length);
834 writeObjectID(array.getKlass().getJavaMirror());
835 for (int index = 0; index < length; index++) {
836 OopHandle handle = array.getOopHandleAt(index);
837 writeObjectID(getAddressValue(handle));
838 }
839 }
840
841 protected void writePrimitiveArray(TypeArray array) throws IOException {
842 int headerSize = getArrayHeaderSize(false);
843 TypeArrayKlass tak = (TypeArrayKlass) array.getKlass();
844 final int type = (int) tak.getElementType();
845 final String typeName = tak.getElementTypeName();
846 final long typeSize = getSizeForType(type);
847 final int length = calculateArrayMaxLength(array.getLength(),
848 headerSize,
849 typeSize,
850 typeName);
851 out.writeByte((byte) HPROF_GC_PRIM_ARRAY_DUMP);
852 writeObjectID(array);
853 out.writeInt(DUMMY_STACK_TRACE_ID);
854 out.writeInt(length);
855 out.writeByte((byte) type);
856 switch (type) {
857 case TypeArrayKlass.T_BOOLEAN:
858 writeBooleanArray(array, length);
859 break;
860 case TypeArrayKlass.T_CHAR:
861 writeCharArray(array, length);
862 break;
863 case TypeArrayKlass.T_FLOAT:
864 writeFloatArray(array, length);
865 break;
866 case TypeArrayKlass.T_DOUBLE:
867 writeDoubleArray(array, length);
868 break;
869 case TypeArrayKlass.T_BYTE:
870 writeByteArray(array, length);
871 break;
872 case TypeArrayKlass.T_SHORT:
873 writeShortArray(array, length);
874 break;
875 case TypeArrayKlass.T_INT:
876 writeIntArray(array, length);
877 break;
878 case TypeArrayKlass.T_LONG:
879 writeLongArray(array, length);
880 break;
881 default:
882 throw new RuntimeException(
883 "Should not reach here: Unknown type: " + type);
884 }
885 }
886
887 private void writeBooleanArray(TypeArray array, int length) throws IOException {
888 for (int index = 0; index < length; index++) {
889 long offset = BOOLEAN_BASE_OFFSET + index * BOOLEAN_SIZE;
890 out.writeBoolean(array.getHandle().getJBooleanAt(offset));
891 }
892 }
893
894 private void writeByteArray(TypeArray array, int length) throws IOException {
895 for (int index = 0; index < length; index++) {
896 long offset = BYTE_BASE_OFFSET + index * BYTE_SIZE;
897 out.writeByte(array.getHandle().getJByteAt(offset));
898 }
899 }
900
901 private void writeShortArray(TypeArray array, int length) throws IOException {
902 for (int index = 0; index < length; index++) {
903 long offset = SHORT_BASE_OFFSET + index * SHORT_SIZE;
904 out.writeShort(array.getHandle().getJShortAt(offset));
905 }
906 }
907
908 private void writeIntArray(TypeArray array, int length) throws IOException {
909 for (int index = 0; index < length; index++) {
910 long offset = INT_BASE_OFFSET + index * INT_SIZE;
911 out.writeInt(array.getHandle().getJIntAt(offset));
912 }
913 }
914
915 private void writeLongArray(TypeArray array, int length) throws IOException {
916 for (int index = 0; index < length; index++) {
917 long offset = LONG_BASE_OFFSET + index * LONG_SIZE;
918 out.writeLong(array.getHandle().getJLongAt(offset));
919 }
920 }
921
922 private void writeCharArray(TypeArray array, int length) throws IOException {
923 for (int index = 0; index < length; index++) {
924 long offset = CHAR_BASE_OFFSET + index * CHAR_SIZE;
925 out.writeChar(array.getHandle().getJCharAt(offset));
926 }
927 }
928
929 private void writeFloatArray(TypeArray array, int length) throws IOException {
930 for (int index = 0; index < length; index++) {
931 long offset = FLOAT_BASE_OFFSET + index * FLOAT_SIZE;
932 out.writeFloat(array.getHandle().getJFloatAt(offset));
933 }
934 }
935
936 private void writeDoubleArray(TypeArray array, int length) throws IOException {
937 for (int index = 0; index < length; index++) {
938 long offset = DOUBLE_BASE_OFFSET + index * DOUBLE_SIZE;
939 out.writeDouble(array.getHandle().getJDoubleAt(offset));
940 }
941 }
942
943 protected void writeInstance(Instance instance) throws IOException {
944 out.writeByte((byte) HPROF_GC_INSTANCE_DUMP);
945 writeObjectID(instance);
946 out.writeInt(DUMMY_STACK_TRACE_ID);
947 Klass klass = instance.getKlass();
948 writeObjectID(klass.getJavaMirror());
949
950 ClassData cd = (ClassData) classDataCache.get(klass);
951
952 if (Assert.ASSERTS_ENABLED) {
953 Assert.that(cd != null, "can not get class data for " + klass.getName().asString() + klass.getAddress());
954 }
955 List fields = cd.fields;
956 int size = cd.instSize;
957 out.writeInt(size);
958 for (Iterator itr = fields.iterator(); itr.hasNext();) {
959 writeField((Field) itr.next(), instance);
960 }
961 }
962
963 //-- Internals only below this point
964
965 private void writeFieldDescriptors(List fields, InstanceKlass ik)
966 throws IOException {
967 // ik == null for instance fields.
968 out.writeShort((short) fields.size());
969 for (Iterator itr = fields.iterator(); itr.hasNext();) {
970 Field field = (Field) itr.next();
971 Symbol name = field.getName();
972 writeSymbolID(name);
973 char typeCode = (char) field.getSignature().getByteAt(0);
974 int kind = signatureToHprofKind(typeCode);
975 out.writeByte((byte)kind);
976 if (ik != null) {
977 // static field
978 writeField(field, ik.getJavaMirror());
979 }
980 }
981 }
982
983 public static int signatureToHprofKind(char ch) {
984 switch (ch) {
985 case JVM_SIGNATURE_CLASS:
986 case JVM_SIGNATURE_ARRAY:
987 return HPROF_NORMAL_OBJECT;
988 case JVM_SIGNATURE_BOOLEAN:
989 return HPROF_BOOLEAN;
990 case JVM_SIGNATURE_CHAR:
991 return HPROF_CHAR;
992 case JVM_SIGNATURE_FLOAT:
993 return HPROF_FLOAT;
994 case JVM_SIGNATURE_DOUBLE:
995 return HPROF_DOUBLE;
996 case JVM_SIGNATURE_BYTE:
997 return HPROF_BYTE;
998 case JVM_SIGNATURE_SHORT:
999 return HPROF_SHORT;
1000 case JVM_SIGNATURE_INT:
1001 return HPROF_INT;
1002 case JVM_SIGNATURE_LONG:
1003 return HPROF_LONG;
1004 default:
1005 throw new RuntimeException("should not reach here");
1006 }
1007 }
1008
1009 private void writeField(Field field, Oop oop) throws IOException {
1010 char typeCode = (char) field.getSignature().getByteAt(0);
1011 switch (typeCode) {
1012 case JVM_SIGNATURE_BOOLEAN:
1013 out.writeBoolean(((BooleanField)field).getValue(oop));
1014 break;
1015 case JVM_SIGNATURE_CHAR:
1016 out.writeChar(((CharField)field).getValue(oop));
1017 break;
1018 case JVM_SIGNATURE_BYTE:
1019 out.writeByte(((ByteField)field).getValue(oop));
1020 break;
1021 case JVM_SIGNATURE_SHORT:
1022 out.writeShort(((ShortField)field).getValue(oop));
1023 break;
1024 case JVM_SIGNATURE_INT:
1025 out.writeInt(((IntField)field).getValue(oop));
1026 break;
1027 case JVM_SIGNATURE_LONG:
1028 out.writeLong(((LongField)field).getValue(oop));
1029 break;
1030 case JVM_SIGNATURE_FLOAT:
1031 out.writeFloat(((FloatField)field).getValue(oop));
1032 break;
1033 case JVM_SIGNATURE_DOUBLE:
1034 out.writeDouble(((DoubleField)field).getValue(oop));
1035 break;
1036 case JVM_SIGNATURE_CLASS:
1037 case JVM_SIGNATURE_ARRAY: {
1038 if (VM.getVM().isCompressedOopsEnabled()) {
1039 OopHandle handle = ((NarrowOopField)field).getValueAsOopHandle(oop);
1040 writeObjectID(getAddressValue(handle));
1041 } else {
1042 OopHandle handle = ((OopField)field).getValueAsOopHandle(oop);
1043 writeObjectID(getAddressValue(handle));
1044 }
1045 break;
1046 }
1047 default:
1048 throw new RuntimeException("should not reach here");
1049 }
1050 }
1051
1052 private void writeHeader(int tag, int len) throws IOException {
1053 out.writeByte((byte)tag);
1054 out.writeInt(0); // current ticks
1055 out.writeInt(len);
1056 }
1057
1058 private void writeDummyTrace() throws IOException {
1059 writeHeader(HPROF_TRACE, 3 * 4);
1060 out.writeInt(DUMMY_STACK_TRACE_ID);
1061 out.writeInt(0);
1062 out.writeInt(0);
1063 }
1064
1065 private void writeClassSymbols(Klass k) throws IOException {
1066 writeSymbol(k.getName());
1067 if (k instanceof InstanceKlass) {
1068 InstanceKlass ik = (InstanceKlass) k;
1069 List declaredFields = ik.getImmediateFields();
1070 for (Iterator itr = declaredFields.iterator(); itr.hasNext();) {
1071 Field field = (Field) itr.next();
1072 writeSymbol(field.getName());
1073 }
1074 }
1075 }
1076
1077 private void writeSymbols() throws IOException {
1078 // Write all the symbols that are used by the classes
1079 ClassLoaderDataGraph cldGraph = VM.getVM().getClassLoaderDataGraph();
1080 try {
1081 cldGraph.classesDo(new ClassLoaderDataGraph.ClassVisitor() {
1082 public void visit(Klass k) {
1083 try {
1084 writeClassSymbols(k);
1085 } catch (IOException e) {
1086 throw new RuntimeException(e);
1087 }
1088 }
1089 });
1090 } catch (RuntimeException re) {
1091 handleRuntimeException(re);
1092 }
1093 }
1094
1095 private void writeSymbol(Symbol sym) throws IOException {
1096 // If name is already written don't write it again.
1097 if (names.add(sym)) {
1098 byte[] buf = sym.asString().getBytes("UTF-8");
1099 writeHeader(HPROF_UTF8, buf.length + OBJ_ID_SIZE);
1100 writeSymbolID(sym);
1101 out.write(buf);
1102 }
1103 }
1104
1105 private void writeClasses() throws IOException {
1106 // write class list (id, name) association
1107 ClassLoaderDataGraph cldGraph = VM.getVM().getClassLoaderDataGraph();
1108 try {
1109 cldGraph.classesDo(new ClassLoaderDataGraph.ClassVisitor() {
1110 public void visit(Klass k) {
1111 try {
1112 Instance clazz = k.getJavaMirror();
1113 writeHeader(HPROF_LOAD_CLASS, 2 * (OBJ_ID_SIZE + 4));
1114 out.writeInt(serialNum);
1115 writeObjectID(clazz);
1116 KlassMap.add(serialNum - 1, k);
1117 out.writeInt(DUMMY_STACK_TRACE_ID);
1118 writeSymbolID(k.getName());
1119 serialNum++;
1120 } catch (IOException exp) {
1121 throw new RuntimeException(exp);
1122 }
1123 }
1124 });
1125 } catch (RuntimeException re) {
1126 handleRuntimeException(re);
1127 }
1128 }
1129
1130 // writes hprof binary file header
1131 private void writeFileHeader() throws IOException {
1132 // version string
1133 out.writeBytes(HPROF_HEADER_1_0_2);
1134 out.writeByte((byte)'\0');
1135
1136 // write identifier size. we use pointers as identifiers.
1137 out.writeInt(OBJ_ID_SIZE);
1138
1139 // timestamp -- file creation time.
1140 out.writeLong(System.currentTimeMillis());
1141 }
1142
1143 // writes unique ID for an object
1144 private void writeObjectID(Oop oop) throws IOException {
1145 OopHandle handle = (oop != null)? oop.getHandle() : null;
1146 long address = getAddressValue(handle);
1147 writeObjectID(address);
1148 }
1149
1150 private void writeSymbolID(Symbol sym) throws IOException {
1151 assert names.contains(sym);
1152 writeObjectID(getAddressValue(sym.getAddress()));
1153 }
1154
1155 private void writeObjectID(long address) throws IOException {
1156 if (OBJ_ID_SIZE == 4) {
1157 out.writeInt((int) address);
1158 } else {
1159 out.writeLong(address);
1160 }
1161 }
1162
1163 private long getAddressValue(Address addr) {
1164 return (addr == null)? 0L : dbg.getAddressValue(addr);
1165 }
1166
1167 // get all declared as well as inherited (directly/indirectly) fields
1168 private static List/*<Field>*/ getInstanceFields(InstanceKlass ik) {
1169 InstanceKlass klass = ik;
1170 List res = new ArrayList();
1171 while (klass != null) {
1172 List curFields = klass.getImmediateFields();
1173 for (Iterator itr = curFields.iterator(); itr.hasNext();) {
1174 Field f = (Field) itr.next();
1175 if (! f.isStatic()) {
1176 res.add(f);
1177 }
1178 }
1179 klass = (InstanceKlass) klass.getSuper();
1180 }
1181 return res;
1182 }
1183
1184 // get size in bytes (in stream) required for given fields. Note
1185 // that this is not the same as object size in heap. The size in
1186 // heap will include size of padding/alignment bytes as well.
1187 private int getSizeForFields(List fields) {
1188 int size = 0;
1189 for (Iterator itr = fields.iterator(); itr.hasNext();) {
1190 Field field = (Field) itr.next();
1191 char typeCode = (char) field.getSignature().getByteAt(0);
1192 switch (typeCode) {
1193 case JVM_SIGNATURE_BOOLEAN:
1194 case JVM_SIGNATURE_BYTE:
1195 size++;
1196 break;
1197 case JVM_SIGNATURE_CHAR:
1198 case JVM_SIGNATURE_SHORT:
1199 size += 2;
1200 break;
1201 case JVM_SIGNATURE_INT:
1202 case JVM_SIGNATURE_FLOAT:
1203 size += 4;
1204 break;
1205 case JVM_SIGNATURE_CLASS:
1206 case JVM_SIGNATURE_ARRAY:
1207 size += OBJ_ID_SIZE;
1208 break;
1209 case JVM_SIGNATURE_LONG:
1210 case JVM_SIGNATURE_DOUBLE:
1211 size += 8;
1212 break;
1213 default:
1214 throw new RuntimeException("should not reach here");
1215 }
1216 }
1217 return size;
1218 }
1219
1220 // We don't have allocation site info. We write a dummy
1221 // stack trace with this id.
1222 private static final int DUMMY_STACK_TRACE_ID = 1;
1223 private static final int EMPTY_FRAME_DEPTH = -1;
1224
1225 private DataOutputStream out;
1226 private FileOutputStream fos;
1227 private Debugger dbg;
1228 private ObjectHeap objectHeap;
1229 private ArrayList<Klass> KlassMap;
1230
1231 // oopSize of the debuggee
1232 private int OBJ_ID_SIZE;
1233
1234 // Added for hprof file format 1.0.2 support
1235 private boolean useSegmentedHeapDump;
1236 private long currentSegmentStart;
1237
1238 private long BOOLEAN_BASE_OFFSET;
1239 private long BYTE_BASE_OFFSET;
1240 private long CHAR_BASE_OFFSET;
1241 private long SHORT_BASE_OFFSET;
1242 private long INT_BASE_OFFSET;
1243 private long LONG_BASE_OFFSET;
1244 private long FLOAT_BASE_OFFSET;
1245 private long DOUBLE_BASE_OFFSET;
1246 private long OBJECT_BASE_OFFSET;
1247
1248 private long BOOLEAN_SIZE;
1249 private long BYTE_SIZE;
1250 private long CHAR_SIZE;
1251 private long SHORT_SIZE;
1252 private long INT_SIZE;
1253 private long LONG_SIZE;
1254 private long FLOAT_SIZE;
1255 private long DOUBLE_SIZE;
1256
1257 private static class ClassData {
1258 int instSize;
1259 List fields;
1260
1261 ClassData(int instSize, List fields) {
1262 this.instSize = instSize;
1263 this.fields = fields;
1264 }
1265 }
1266
1267 private Map classDataCache = new HashMap(); // <InstanceKlass, ClassData>
1268 }
--- EOF ---