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src/share/vm/services/heapDumper.cpp@1d7922586cf6 (annotated)

src/share/vm/services/heapDumper.cpp

Tue, 24 Jul 2012 10:51:00 -0700

author

twisti

date

Tue, 24 Jul 2012 10:51:00 -0700

changeset 3969

1d7922586cf6

parent 3900

d2a62e0f25eb

child 4037

da91efe96a93

permissions

-rw-r--r--

7023639: JSR 292 method handle invocation needs a fast path for compiled code
6984705: JSR 292 method handle creation should not go through JNI
Summary: remove assembly code for JDK 7 chained method handles
Reviewed-by: jrose, twisti, kvn, mhaupt
Contributed-by: John Rose <john.r.rose@oracle.com>, Christian Thalinger <christian.thalinger@oracle.com>, Michael Haupt <michael.haupt@oracle.com>

duke@435	1	/*
brutisso@2532	2	* Copyright (c) 2005, 2011, Oracle and/or its affiliates. All rights reserved.
duke@435	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@435	4	*
duke@435	5	* This code is free software; you can redistribute it and/or modify it
duke@435	6	* under the terms of the GNU General Public License version 2 only, as
duke@435	7	* published by the Free Software Foundation.
duke@435	8	*
duke@435	9	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@435	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@435	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@435	12	* version 2 for more details (a copy is included in the LICENSE file that
duke@435	13	* accompanied this code).
duke@435	14	*
duke@435	15	* You should have received a copy of the GNU General Public License version
duke@435	16	* 2 along with this work; if not, write to the Free Software Foundation,
duke@435	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@435	18	*
trims@1907	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907	20	* or visit www.oracle.com if you need additional information or have any
trims@1907	21	* questions.
duke@435	22	*
duke@435	23	*/
duke@435	24
stefank@2314	25	#include "precompiled.hpp"
stefank@2314	26	#include "classfile/symbolTable.hpp"
stefank@2314	27	#include "classfile/systemDictionary.hpp"
stefank@2314	28	#include "classfile/vmSymbols.hpp"
stefank@2314	29	#include "gc_implementation/shared/vmGCOperations.hpp"
poonam@3272	30	#include "memory/gcLocker.inline.hpp"
stefank@2314	31	#include "memory/genCollectedHeap.hpp"
stefank@2314	32	#include "memory/universe.hpp"
stefank@2314	33	#include "oops/objArrayKlass.hpp"
stefank@2314	34	#include "runtime/javaCalls.hpp"
stefank@2314	35	#include "runtime/jniHandles.hpp"
stefank@2314	36	#include "runtime/reflectionUtils.hpp"
stefank@2314	37	#include "runtime/vframe.hpp"
stefank@2314	38	#include "runtime/vmThread.hpp"
stefank@2314	39	#include "runtime/vm_operations.hpp"
stefank@2314	40	#include "services/heapDumper.hpp"
stefank@2314	41	#include "services/threadService.hpp"
stefank@2314	42	#include "utilities/ostream.hpp"
stefank@2314	43	#ifndef SERIALGC
stefank@2314	44	#include "gc_implementation/parallelScavenge/parallelScavengeHeap.hpp"
stefank@2314	45	#endif
duke@435	46
duke@435	47	/*
duke@435	48	* HPROF binary format - description copied from:
duke@435	49	* src/share/demo/jvmti/hprof/hprof_io.c
duke@435	50	*
duke@435	51	*
duke@435	52	* header "JAVA PROFILE 1.0.1" or "JAVA PROFILE 1.0.2"
duke@435	53	* (0-terminated)
duke@435	54	*
duke@435	55	* u4 size of identifiers. Identifiers are used to represent
duke@435	56	* UTF8 strings, objects, stack traces, etc. They usually
duke@435	57	* have the same size as host pointers. For example, on
duke@435	58	* Solaris and Win32, the size is 4.
duke@435	59	* u4 high word
duke@435	60	* u4 low word number of milliseconds since 0:00 GMT, 1/1/70
duke@435	61	* [record]* a sequence of records.
duke@435	62	*
duke@435	63	*
duke@435	64	* Record format:
duke@435	65	*
duke@435	66	* u1 a TAG denoting the type of the record
duke@435	67	* u4 number of *microseconds* since the time stamp in the
duke@435	68	* header. (wraps around in a little more than an hour)
duke@435	69	* u4 number of bytes *remaining* in the record. Note that
duke@435	70	* this number excludes the tag and the length field itself.
duke@435	71	* [u1]* BODY of the record (a sequence of bytes)
duke@435	72	*
duke@435	73	*
duke@435	74	* The following TAGs are supported:
duke@435	75	*
duke@435	76	* TAG BODY notes
duke@435	77	*----------------------------------------------------------
duke@435	78	* HPROF_UTF8 a UTF8-encoded name
duke@435	79	*
duke@435	80	* id name ID
duke@435	81	* [u1]* UTF8 characters (no trailing zero)
duke@435	82	*
duke@435	83	* HPROF_LOAD_CLASS a newly loaded class
duke@435	84	*
duke@435	85	* u4 class serial number (> 0)
duke@435	86	* id class object ID
duke@435	87	* u4 stack trace serial number
duke@435	88	* id class name ID
duke@435	89	*
duke@435	90	* HPROF_UNLOAD_CLASS an unloading class
duke@435	91	*
duke@435	92	* u4 class serial_number
duke@435	93	*
duke@435	94	* HPROF_FRAME a Java stack frame
duke@435	95	*
duke@435	96	* id stack frame ID
duke@435	97	* id method name ID
duke@435	98	* id method signature ID
duke@435	99	* id source file name ID
duke@435	100	* u4 class serial number
duke@435	101	* i4 line number. >0: normal
duke@435	102	* -1: unknown
duke@435	103	* -2: compiled method
duke@435	104	* -3: native method
duke@435	105	*
duke@435	106	* HPROF_TRACE a Java stack trace
duke@435	107	*
duke@435	108	* u4 stack trace serial number
duke@435	109	* u4 thread serial number
duke@435	110	* u4 number of frames
duke@435	111	* [id]* stack frame IDs
duke@435	112	*
duke@435	113	*
duke@435	114	* HPROF_ALLOC_SITES a set of heap allocation sites, obtained after GC
duke@435	115	*
duke@435	116	* u2 flags 0x0001: incremental vs. complete
duke@435	117	* 0x0002: sorted by allocation vs. live
duke@435	118	* 0x0004: whether to force a GC
duke@435	119	* u4 cutoff ratio
duke@435	120	* u4 total live bytes
duke@435	121	* u4 total live instances
duke@435	122	* u8 total bytes allocated
duke@435	123	* u8 total instances allocated
duke@435	124	* u4 number of sites that follow
duke@435	125	* [u1 is_array: 0: normal object
duke@435	126	* 2: object array
duke@435	127	* 4: boolean array
duke@435	128	* 5: char array
duke@435	129	* 6: float array
duke@435	130	* 7: double array
duke@435	131	* 8: byte array
duke@435	132	* 9: short array
duke@435	133	* 10: int array
duke@435	134	* 11: long array
duke@435	135	* u4 class serial number (may be zero during startup)
duke@435	136	* u4 stack trace serial number
duke@435	137	* u4 number of bytes alive
duke@435	138	* u4 number of instances alive
duke@435	139	* u4 number of bytes allocated
duke@435	140	* u4]* number of instance allocated
duke@435	141	*
duke@435	142	* HPROF_START_THREAD a newly started thread.
duke@435	143	*
duke@435	144	* u4 thread serial number (> 0)
duke@435	145	* id thread object ID
duke@435	146	* u4 stack trace serial number
duke@435	147	* id thread name ID
duke@435	148	* id thread group name ID
duke@435	149	* id thread group parent name ID
duke@435	150	*
duke@435	151	* HPROF_END_THREAD a terminating thread.
duke@435	152	*
duke@435	153	* u4 thread serial number
duke@435	154	*
duke@435	155	* HPROF_HEAP_SUMMARY heap summary
duke@435	156	*
duke@435	157	* u4 total live bytes
duke@435	158	* u4 total live instances
duke@435	159	* u8 total bytes allocated
duke@435	160	* u8 total instances allocated
duke@435	161	*
duke@435	162	* HPROF_HEAP_DUMP denote a heap dump
duke@435	163	*
duke@435	164	* [heap dump sub-records]*
duke@435	165	*
duke@435	166	* There are four kinds of heap dump sub-records:
duke@435	167	*
duke@435	168	* u1 sub-record type
duke@435	169	*
duke@435	170	* HPROF_GC_ROOT_UNKNOWN unknown root
duke@435	171	*
duke@435	172	* id object ID
duke@435	173	*
duke@435	174	* HPROF_GC_ROOT_THREAD_OBJ thread object
duke@435	175	*
duke@435	176	* id thread object ID (may be 0 for a
duke@435	177	* thread newly attached through JNI)
duke@435	178	* u4 thread sequence number
duke@435	179	* u4 stack trace sequence number
duke@435	180	*
duke@435	181	* HPROF_GC_ROOT_JNI_GLOBAL JNI global ref root
duke@435	182	*
duke@435	183	* id object ID
duke@435	184	* id JNI global ref ID
duke@435	185	*
duke@435	186	* HPROF_GC_ROOT_JNI_LOCAL JNI local ref
duke@435	187	*
duke@435	188	* id object ID
duke@435	189	* u4 thread serial number
duke@435	190	* u4 frame # in stack trace (-1 for empty)
duke@435	191	*
duke@435	192	* HPROF_GC_ROOT_JAVA_FRAME Java stack frame
duke@435	193	*
duke@435	194	* id object ID
duke@435	195	* u4 thread serial number
duke@435	196	* u4 frame # in stack trace (-1 for empty)
duke@435	197	*
duke@435	198	* HPROF_GC_ROOT_NATIVE_STACK Native stack
duke@435	199	*
duke@435	200	* id object ID
duke@435	201	* u4 thread serial number
duke@435	202	*
duke@435	203	* HPROF_GC_ROOT_STICKY_CLASS System class
duke@435	204	*
duke@435	205	* id object ID
duke@435	206	*
duke@435	207	* HPROF_GC_ROOT_THREAD_BLOCK Reference from thread block
duke@435	208	*
duke@435	209	* id object ID
duke@435	210	* u4 thread serial number
duke@435	211	*
duke@435	212	* HPROF_GC_ROOT_MONITOR_USED Busy monitor
duke@435	213	*
duke@435	214	* id object ID
duke@435	215	*
duke@435	216	* HPROF_GC_CLASS_DUMP dump of a class object
duke@435	217	*
duke@435	218	* id class object ID
duke@435	219	* u4 stack trace serial number
duke@435	220	* id super class object ID
duke@435	221	* id class loader object ID
duke@435	222	* id signers object ID
duke@435	223	* id protection domain object ID
duke@435	224	* id reserved
duke@435	225	* id reserved
duke@435	226	*
duke@435	227	* u4 instance size (in bytes)
duke@435	228	*
duke@435	229	* u2 size of constant pool
duke@435	230	* [u2, constant pool index,
duke@435	231	* ty, type
duke@435	232	* 2: object
duke@435	233	* 4: boolean
duke@435	234	* 5: char
duke@435	235	* 6: float
duke@435	236	* 7: double
duke@435	237	* 8: byte
duke@435	238	* 9: short
duke@435	239	* 10: int
duke@435	240	* 11: long
duke@435	241	* vl]* and value
duke@435	242	*
duke@435	243	* u2 number of static fields
duke@435	244	* [id, static field name,
duke@435	245	* ty, type,
duke@435	246	* vl]* and value
duke@435	247	*
duke@435	248	* u2 number of inst. fields (not inc. super)
duke@435	249	* [id, instance field name,
duke@435	250	* ty]* type
duke@435	251	*
duke@435	252	* HPROF_GC_INSTANCE_DUMP dump of a normal object
duke@435	253	*
duke@435	254	* id object ID
duke@435	255	* u4 stack trace serial number
duke@435	256	* id class object ID
duke@435	257	* u4 number of bytes that follow
duke@435	258	* [vl]* instance field values (class, followed
duke@435	259	* by super, super's super ...)
duke@435	260	*
duke@435	261	* HPROF_GC_OBJ_ARRAY_DUMP dump of an object array
duke@435	262	*
duke@435	263	* id array object ID
duke@435	264	* u4 stack trace serial number
duke@435	265	* u4 number of elements
duke@435	266	* id array class ID
duke@435	267	* [id]* elements
duke@435	268	*
duke@435	269	* HPROF_GC_PRIM_ARRAY_DUMP dump of a primitive array
duke@435	270	*
duke@435	271	* id array object ID
duke@435	272	* u4 stack trace serial number
duke@435	273	* u4 number of elements
duke@435	274	* u1 element type
duke@435	275	* 4: boolean array
duke@435	276	* 5: char array
duke@435	277	* 6: float array
duke@435	278	* 7: double array
duke@435	279	* 8: byte array
duke@435	280	* 9: short array
duke@435	281	* 10: int array
duke@435	282	* 11: long array
duke@435	283	* [u1]* elements
duke@435	284	*
duke@435	285	* HPROF_CPU_SAMPLES a set of sample traces of running threads
duke@435	286	*
duke@435	287	* u4 total number of samples
duke@435	288	* u4 # of traces
duke@435	289	* [u4 # of samples
duke@435	290	* u4]* stack trace serial number
duke@435	291	*
duke@435	292	* HPROF_CONTROL_SETTINGS the settings of on/off switches
duke@435	293	*
duke@435	294	* u4 0x00000001: alloc traces on/off
duke@435	295	* 0x00000002: cpu sampling on/off
duke@435	296	* u2 stack trace depth
duke@435	297	*
duke@435	298	*
duke@435	299	* When the header is "JAVA PROFILE 1.0.2" a heap dump can optionally
duke@435	300	* be generated as a sequence of heap dump segments. This sequence is
duke@435	301	* terminated by an end record. The additional tags allowed by format
duke@435	302	* "JAVA PROFILE 1.0.2" are:
duke@435	303	*
duke@435	304	* HPROF_HEAP_DUMP_SEGMENT denote a heap dump segment
duke@435	305	*
duke@435	306	* [heap dump sub-records]*
duke@435	307	* The same sub-record types allowed by HPROF_HEAP_DUMP
duke@435	308	*
duke@435	309	* HPROF_HEAP_DUMP_END denotes the end of a heap dump
duke@435	310	*
duke@435	311	*/
duke@435	312
duke@435	313
duke@435	314	// HPROF tags
duke@435	315
duke@435	316	typedef enum {
duke@435	317	// top-level records
duke@435	318	HPROF_UTF8 = 0x01,
duke@435	319	HPROF_LOAD_CLASS = 0x02,
duke@435	320	HPROF_UNLOAD_CLASS = 0x03,
duke@435	321	HPROF_FRAME = 0x04,
duke@435	322	HPROF_TRACE = 0x05,
duke@435	323	HPROF_ALLOC_SITES = 0x06,
duke@435	324	HPROF_HEAP_SUMMARY = 0x07,
duke@435	325	HPROF_START_THREAD = 0x0A,
duke@435	326	HPROF_END_THREAD = 0x0B,
duke@435	327	HPROF_HEAP_DUMP = 0x0C,
duke@435	328	HPROF_CPU_SAMPLES = 0x0D,
duke@435	329	HPROF_CONTROL_SETTINGS = 0x0E,
duke@435	330
duke@435	331	// 1.0.2 record types
duke@435	332	HPROF_HEAP_DUMP_SEGMENT = 0x1C,
duke@435	333	HPROF_HEAP_DUMP_END = 0x2C,
duke@435	334
duke@435	335	// field types
duke@435	336	HPROF_ARRAY_OBJECT = 0x01,
duke@435	337	HPROF_NORMAL_OBJECT = 0x02,
duke@435	338	HPROF_BOOLEAN = 0x04,
duke@435	339	HPROF_CHAR = 0x05,
duke@435	340	HPROF_FLOAT = 0x06,
duke@435	341	HPROF_DOUBLE = 0x07,
duke@435	342	HPROF_BYTE = 0x08,
duke@435	343	HPROF_SHORT = 0x09,
duke@435	344	HPROF_INT = 0x0A,
duke@435	345	HPROF_LONG = 0x0B,
duke@435	346
duke@435	347	// data-dump sub-records
duke@435	348	HPROF_GC_ROOT_UNKNOWN = 0xFF,
duke@435	349	HPROF_GC_ROOT_JNI_GLOBAL = 0x01,
duke@435	350	HPROF_GC_ROOT_JNI_LOCAL = 0x02,
duke@435	351	HPROF_GC_ROOT_JAVA_FRAME = 0x03,
duke@435	352	HPROF_GC_ROOT_NATIVE_STACK = 0x04,
duke@435	353	HPROF_GC_ROOT_STICKY_CLASS = 0x05,
duke@435	354	HPROF_GC_ROOT_THREAD_BLOCK = 0x06,
duke@435	355	HPROF_GC_ROOT_MONITOR_USED = 0x07,
duke@435	356	HPROF_GC_ROOT_THREAD_OBJ = 0x08,
duke@435	357	HPROF_GC_CLASS_DUMP = 0x20,
duke@435	358	HPROF_GC_INSTANCE_DUMP = 0x21,
duke@435	359	HPROF_GC_OBJ_ARRAY_DUMP = 0x22,
duke@435	360	HPROF_GC_PRIM_ARRAY_DUMP = 0x23
duke@435	361	} hprofTag;
duke@435	362
duke@435	363	// Default stack trace ID (used for dummy HPROF_TRACE record)
duke@435	364	enum {
mchung@831	365	STACK_TRACE_ID = 1,
mchung@831	366	INITIAL_CLASS_COUNT = 200
duke@435	367	};
duke@435	368
duke@435	369	// Supports I/O operations on a dump file
duke@435	370
duke@435	371	class DumpWriter : public StackObj {
duke@435	372	private:
duke@435	373	enum {
duke@435	374	io_buffer_size = 8*M
duke@435	375	};
duke@435	376
duke@435	377	int _fd; // file descriptor (-1 if dump file not open)
duke@435	378	jlong _bytes_written; // number of byte written to dump file
duke@435	379
duke@435	380	char* _buffer; // internal buffer
duke@435	381	int _size;
duke@435	382	int _pos;
duke@435	383
duke@435	384	char* _error; // error message when I/O fails
duke@435	385
duke@435	386	void set_file_descriptor(int fd) { _fd = fd; }
duke@435	387	int file_descriptor() const { return _fd; }
duke@435	388
duke@435	389	char* buffer() const { return _buffer; }
duke@435	390	int buffer_size() const { return _size; }
duke@435	391	int position() const { return _pos; }
duke@435	392	void set_position(int pos) { _pos = pos; }
duke@435	393
duke@435	394	void set_error(const char* error) { _error = (char*)os::strdup(error); }
duke@435	395
duke@435	396	// all I/O go through this function
duke@435	397	void write_internal(void* s, int len);
duke@435	398
duke@435	399	public:
duke@435	400	DumpWriter(const char* path);
duke@435	401	~DumpWriter();
duke@435	402
duke@435	403	void close();
duke@435	404	bool is_open() const { return file_descriptor() >= 0; }
duke@435	405	void flush();
duke@435	406
duke@435	407	// total number of bytes written to the disk
duke@435	408	jlong bytes_written() const { return _bytes_written; }
duke@435	409
duke@435	410	// adjust the number of bytes written to disk (used to keep the count
duke@435	411	// of the number of bytes written in case of rewrites)
duke@435	412	void adjust_bytes_written(jlong n) { _bytes_written += n; }
duke@435	413
duke@435	414	// number of (buffered) bytes as yet unwritten to the dump file
duke@435	415	jlong bytes_unwritten() const { return (jlong)position(); }
duke@435	416
duke@435	417	char* error() const { return _error; }
duke@435	418
duke@435	419	jlong current_offset();
duke@435	420	void seek_to_offset(jlong pos);
duke@435	421
duke@435	422	// writer functions
duke@435	423	void write_raw(void* s, int len);
duke@435	424	void write_u1(u1 x) { write_raw((void*)&x, 1); }
duke@435	425	void write_u2(u2 x);
duke@435	426	void write_u4(u4 x);
duke@435	427	void write_u8(u8 x);
duke@435	428	void write_objectID(oop o);
coleenp@2497	429	void write_symbolID(Symbol* o);
duke@435	430	void write_classID(Klass* k);
mchung@831	431	void write_id(u4 x);
duke@435	432	};
duke@435	433
duke@435	434	DumpWriter::DumpWriter(const char* path) {
duke@435	435	// try to allocate an I/O buffer of io_buffer_size. If there isn't
duke@435	436	// sufficient memory then reduce size until we can allocate something.
duke@435	437	_size = io_buffer_size;
duke@435	438	do {
zgu@3900	439	_buffer = (char*)os::malloc(_size, mtInternal);
duke@435	440	if (_buffer == NULL) {
duke@435	441	_size = _size >> 1;
duke@435	442	}
duke@435	443	} while (_buffer == NULL && _size > 0);
duke@435	444	assert((_size > 0 && _buffer != NULL) || (_size == 0 && _buffer == NULL), "sanity check");
duke@435	445	_pos = 0;
duke@435	446	_error = NULL;
duke@435	447	_bytes_written = 0L;
duke@435	448	_fd = os::create_binary_file(path, false); // don't replace existing file
duke@435	449
duke@435	450	// if the open failed we record the error
duke@435	451	if (_fd < 0) {
duke@435	452	_error = (char*)os::strdup(strerror(errno));
duke@435	453	}
duke@435	454	}
duke@435	455
duke@435	456	DumpWriter::~DumpWriter() {
duke@435	457	// flush and close dump file
coleenp@2463	458	if (is_open()) {
duke@435	459	close();
duke@435	460	}
duke@435	461	if (_buffer != NULL) os::free(_buffer);
duke@435	462	if (_error != NULL) os::free(_error);
duke@435	463	}
duke@435	464
duke@435	465	// closes dump file (if open)
duke@435	466	void DumpWriter::close() {
duke@435	467	// flush and close dump file
coleenp@2463	468	if (is_open()) {
duke@435	469	flush();
duke@435	470	::close(file_descriptor());
coleenp@2463	471	set_file_descriptor(-1);
duke@435	472	}
duke@435	473	}
duke@435	474
duke@435	475	// write directly to the file
duke@435	476	void DumpWriter::write_internal(void* s, int len) {
duke@435	477	if (is_open()) {
duke@435	478	int n = ::write(file_descriptor(), s, len);
duke@435	479	if (n > 0) {
duke@435	480	_bytes_written += n;
duke@435	481	}
duke@435	482	if (n != len) {
duke@435	483	if (n < 0) {
duke@435	484	set_error(strerror(errno));
duke@435	485	} else {
duke@435	486	set_error("file size limit");
duke@435	487	}
duke@435	488	::close(file_descriptor());
duke@435	489	set_file_descriptor(-1);
duke@435	490	}
duke@435	491	}
duke@435	492	}
duke@435	493
duke@435	494	// write raw bytes
duke@435	495	void DumpWriter::write_raw(void* s, int len) {
duke@435	496	if (is_open()) {
duke@435	497	// flush buffer to make toom
duke@435	498	if ((position()+ len) >= buffer_size()) {
duke@435	499	flush();
duke@435	500	}
duke@435	501
duke@435	502	// buffer not available or too big to buffer it
duke@435	503	if ((buffer() == NULL) || (len >= buffer_size())) {
duke@435	504	write_internal(s, len);
duke@435	505	} else {
duke@435	506	// Should optimize this for u1/u2/u4/u8 sizes.
duke@435	507	memcpy(buffer() + position(), s, len);
duke@435	508	set_position(position() + len);
duke@435	509	}
duke@435	510	}
duke@435	511	}
duke@435	512
duke@435	513	// flush any buffered bytes to the file
duke@435	514	void DumpWriter::flush() {
duke@435	515	if (is_open() && position() > 0) {
duke@435	516	write_internal(buffer(), position());
duke@435	517	set_position(0);
duke@435	518	}
duke@435	519	}
duke@435	520
duke@435	521
duke@435	522	jlong DumpWriter::current_offset() {
duke@435	523	if (is_open()) {
duke@435	524	// the offset is the file offset plus whatever we have buffered
duke@435	525	jlong offset = os::current_file_offset(file_descriptor());
duke@435	526	assert(offset >= 0, "lseek failed");
duke@435	527	return offset + (jlong)position();
duke@435	528	} else {
duke@435	529	return (jlong)-1;
duke@435	530	}
duke@435	531	}
duke@435	532
duke@435	533	void DumpWriter::seek_to_offset(jlong off) {
duke@435	534	assert(off >= 0, "bad offset");
duke@435	535
duke@435	536	// need to flush before seeking
duke@435	537	flush();
duke@435	538
duke@435	539	// may be closed due to I/O error
duke@435	540	if (is_open()) {
duke@435	541	jlong n = os::seek_to_file_offset(file_descriptor(), off);
duke@435	542	assert(n >= 0, "lseek failed");
duke@435	543	}
duke@435	544	}
duke@435	545
duke@435	546	void DumpWriter::write_u2(u2 x) {
duke@435	547	u2 v;
duke@435	548	Bytes::put_Java_u2((address)&v, x);
duke@435	549	write_raw((void*)&v, 2);
duke@435	550	}
duke@435	551
duke@435	552	void DumpWriter::write_u4(u4 x) {
duke@435	553	u4 v;
duke@435	554	Bytes::put_Java_u4((address)&v, x);
duke@435	555	write_raw((void*)&v, 4);
duke@435	556	}
duke@435	557
duke@435	558	void DumpWriter::write_u8(u8 x) {
duke@435	559	u8 v;
duke@435	560	Bytes::put_Java_u8((address)&v, x);
duke@435	561	write_raw((void*)&v, 8);
duke@435	562	}
duke@435	563
duke@435	564	void DumpWriter::write_objectID(oop o) {
duke@435	565	address a = (address)((uintptr_t)o);
duke@435	566	#ifdef _LP64
duke@435	567	write_u8((u8)a);
duke@435	568	#else
duke@435	569	write_u4((u4)a);
duke@435	570	#endif
duke@435	571	}
duke@435	572
coleenp@2497	573	void DumpWriter::write_symbolID(Symbol* s) {
coleenp@2497	574	address a = (address)((uintptr_t)s);
coleenp@2497	575	#ifdef _LP64
coleenp@2497	576	write_u8((u8)a);
coleenp@2497	577	#else
coleenp@2497	578	write_u4((u4)a);
coleenp@2497	579	#endif
coleenp@2497	580	}
coleenp@2497	581
mchung@831	582	void DumpWriter::write_id(u4 x) {
mchung@831	583	#ifdef _LP64
mchung@831	584	write_u8((u8) x);
mchung@831	585	#else
mchung@831	586	write_u4(x);
mchung@831	587	#endif
mchung@831	588	}
mchung@831	589
duke@435	590	// We use java mirror as the class ID
duke@435	591	void DumpWriter::write_classID(Klass* k) {
duke@435	592	write_objectID(k->java_mirror());
duke@435	593	}
duke@435	594
duke@435	595
duke@435	596
duke@435	597	// Support class with a collection of functions used when dumping the heap
duke@435	598
duke@435	599	class DumperSupport : AllStatic {
duke@435	600	public:
duke@435	601
duke@435	602	// write a header of the given type
duke@435	603	static void write_header(DumpWriter* writer, hprofTag tag, u4 len);
duke@435	604
duke@435	605	// returns hprof tag for the given type signature
coleenp@2497	606	static hprofTag sig2tag(Symbol* sig);
duke@435	607	// returns hprof tag for the given basic type
duke@435	608	static hprofTag type2tag(BasicType type);
duke@435	609
duke@435	610	// returns the size of the instance of the given class
duke@435	611	static u4 instance_size(klassOop k);
duke@435	612
duke@435	613	// dump a jfloat
duke@435	614	static void dump_float(DumpWriter* writer, jfloat f);
duke@435	615	// dump a jdouble
duke@435	616	static void dump_double(DumpWriter* writer, jdouble d);
duke@435	617	// dumps the raw value of the given field
duke@435	618	static void dump_field_value(DumpWriter* writer, char type, address addr);
duke@435	619	// dumps static fields of the given class
duke@435	620	static void dump_static_fields(DumpWriter* writer, klassOop k);
duke@435	621	// dump the raw values of the instance fields of the given object
duke@435	622	static void dump_instance_fields(DumpWriter* writer, oop o);
duke@435	623	// dumps the definition of the instance fields for a given class
duke@435	624	static void dump_instance_field_descriptors(DumpWriter* writer, klassOop k);
duke@435	625	// creates HPROF_GC_INSTANCE_DUMP record for the given object
duke@435	626	static void dump_instance(DumpWriter* writer, oop o);
duke@435	627	// creates HPROF_GC_CLASS_DUMP record for the given class and each of its
duke@435	628	// array classes
duke@435	629	static void dump_class_and_array_classes(DumpWriter* writer, klassOop k);
duke@435	630	// creates HPROF_GC_CLASS_DUMP record for a given primitive array
duke@435	631	// class (and each multi-dimensional array class too)
duke@435	632	static void dump_basic_type_array_class(DumpWriter* writer, klassOop k);
duke@435	633
duke@435	634	// creates HPROF_GC_OBJ_ARRAY_DUMP record for the given object array
duke@435	635	static void dump_object_array(DumpWriter* writer, objArrayOop array);
duke@435	636	// creates HPROF_GC_PRIM_ARRAY_DUMP record for the given type array
duke@435	637	static void dump_prim_array(DumpWriter* writer, typeArrayOop array);
mchung@831	638	// create HPROF_FRAME record for the given method and bci
mchung@831	639	static void dump_stack_frame(DumpWriter* writer, int frame_serial_num, int class_serial_num, methodOop m, int bci);
duke@435	640	};
duke@435	641
duke@435	642	// write a header of the given type
duke@435	643	void DumperSupport:: write_header(DumpWriter* writer, hprofTag tag, u4 len) {
duke@435	644	writer->write_u1((u1)tag);
duke@435	645	writer->write_u4(0); // current ticks
duke@435	646	writer->write_u4(len);
duke@435	647	}
duke@435	648
duke@435	649	// returns hprof tag for the given type signature
coleenp@2497	650	hprofTag DumperSupport::sig2tag(Symbol* sig) {
duke@435	651	switch (sig->byte_at(0)) {
duke@435	652	case JVM_SIGNATURE_CLASS : return HPROF_NORMAL_OBJECT;
duke@435	653	case JVM_SIGNATURE_ARRAY : return HPROF_NORMAL_OBJECT;
duke@435	654	case JVM_SIGNATURE_BYTE : return HPROF_BYTE;
duke@435	655	case JVM_SIGNATURE_CHAR : return HPROF_CHAR;
duke@435	656	case JVM_SIGNATURE_FLOAT : return HPROF_FLOAT;
duke@435	657	case JVM_SIGNATURE_DOUBLE : return HPROF_DOUBLE;
duke@435	658	case JVM_SIGNATURE_INT : return HPROF_INT;
duke@435	659	case JVM_SIGNATURE_LONG : return HPROF_LONG;
duke@435	660	case JVM_SIGNATURE_SHORT : return HPROF_SHORT;
duke@435	661	case JVM_SIGNATURE_BOOLEAN : return HPROF_BOOLEAN;
duke@435	662	default : ShouldNotReachHere(); /* to shut up compiler */ return HPROF_BYTE;
duke@435	663	}
duke@435	664	}
duke@435	665
duke@435	666	hprofTag DumperSupport::type2tag(BasicType type) {
duke@435	667	switch (type) {
duke@435	668	case T_BYTE : return HPROF_BYTE;
duke@435	669	case T_CHAR : return HPROF_CHAR;
duke@435	670	case T_FLOAT : return HPROF_FLOAT;
duke@435	671	case T_DOUBLE : return HPROF_DOUBLE;
duke@435	672	case T_INT : return HPROF_INT;
duke@435	673	case T_LONG : return HPROF_LONG;
duke@435	674	case T_SHORT : return HPROF_SHORT;
duke@435	675	case T_BOOLEAN : return HPROF_BOOLEAN;
duke@435	676	default : ShouldNotReachHere(); /* to shut up compiler */ return HPROF_BYTE;
duke@435	677	}
duke@435	678	}
duke@435	679
duke@435	680	// dump a jfloat
duke@435	681	void DumperSupport::dump_float(DumpWriter* writer, jfloat f) {
duke@435	682	if (g_isnan(f)) {
duke@435	683	writer->write_u4(0x7fc00000); // collapsing NaNs
duke@435	684	} else {
duke@435	685	union {
duke@435	686	int i;
duke@435	687	float f;
duke@435	688	} u;
duke@435	689	u.f = (float)f;
duke@435	690	writer->write_u4((u4)u.i);
duke@435	691	}
duke@435	692	}
duke@435	693
duke@435	694	// dump a jdouble
duke@435	695	void DumperSupport::dump_double(DumpWriter* writer, jdouble d) {
duke@435	696	union {
duke@435	697	jlong l;
duke@435	698	double d;
duke@435	699	} u;
duke@435	700	if (g_isnan(d)) { // collapsing NaNs
duke@435	701	u.l = (jlong)(0x7ff80000);
duke@435	702	u.l = (u.l << 32);
duke@435	703	} else {
duke@435	704	u.d = (double)d;
duke@435	705	}
duke@435	706	writer->write_u8((u8)u.l);
duke@435	707	}
duke@435	708
duke@435	709	// dumps the raw value of the given field
duke@435	710	void DumperSupport::dump_field_value(DumpWriter* writer, char type, address addr) {
duke@435	711	switch (type) {
duke@435	712	case JVM_SIGNATURE_CLASS :
duke@435	713	case JVM_SIGNATURE_ARRAY : {
coleenp@548	714	oop o;
coleenp@548	715	if (UseCompressedOops) {
coleenp@548	716	o = oopDesc::load_decode_heap_oop((narrowOop*)addr);
coleenp@548	717	} else {
coleenp@548	718	o = oopDesc::load_decode_heap_oop((oop*)addr);
coleenp@548	719	}
duke@435	720
duke@435	721	// reflection and sun.misc.Unsafe classes may have a reference to a
duke@435	722	// klassOop so filter it out.
duke@435	723	if (o != NULL && o->is_klass()) {
duke@435	724	o = NULL;
duke@435	725	}
duke@435	726
duke@435	727	// FIXME: When sharing is enabled we don't emit field references to objects
duke@435	728	// in shared spaces. We can remove this once we write records for the classes
duke@435	729	// and strings that are shared.
duke@435	730	if (o != NULL && o->is_shared()) {
duke@435	731	o = NULL;
duke@435	732	}
duke@435	733	writer->write_objectID(o);
duke@435	734	break;
duke@435	735	}
duke@435	736	case JVM_SIGNATURE_BYTE : {
duke@435	737	jbyte* b = (jbyte*)addr;
duke@435	738	writer->write_u1((u1)*b);
duke@435	739	break;
duke@435	740	}
duke@435	741	case JVM_SIGNATURE_CHAR : {
duke@435	742	jchar* c = (jchar*)addr;
duke@435	743	writer->write_u2((u2)*c);
duke@435	744	break;
duke@435	745	}
duke@435	746	case JVM_SIGNATURE_SHORT : {
duke@435	747	jshort* s = (jshort*)addr;
duke@435	748	writer->write_u2((u2)*s);
duke@435	749	break;
duke@435	750	}
duke@435	751	case JVM_SIGNATURE_FLOAT : {
duke@435	752	jfloat* f = (jfloat*)addr;
duke@435	753	dump_float(writer, *f);
duke@435	754	break;
duke@435	755	}
duke@435	756	case JVM_SIGNATURE_DOUBLE : {
duke@435	757	jdouble* f = (jdouble*)addr;
duke@435	758	dump_double(writer, *f);
duke@435	759	break;
duke@435	760	}
duke@435	761	case JVM_SIGNATURE_INT : {
duke@435	762	jint* i = (jint*)addr;
duke@435	763	writer->write_u4((u4)*i);
duke@435	764	break;
duke@435	765	}
duke@435	766	case JVM_SIGNATURE_LONG : {
duke@435	767	jlong* l = (jlong*)addr;
duke@435	768	writer->write_u8((u8)*l);
duke@435	769	break;
duke@435	770	}
duke@435	771	case JVM_SIGNATURE_BOOLEAN : {
duke@435	772	jboolean* b = (jboolean*)addr;
duke@435	773	writer->write_u1((u1)*b);
duke@435	774	break;
duke@435	775	}
duke@435	776	default : ShouldNotReachHere();
duke@435	777	}
duke@435	778	}
duke@435	779
duke@435	780	// returns the size of the instance of the given class
duke@435	781	u4 DumperSupport::instance_size(klassOop k) {
duke@435	782	HandleMark hm;
duke@435	783	instanceKlassHandle ikh = instanceKlassHandle(Thread::current(), k);
duke@435	784
duke@435	785	int size = 0;
duke@435	786
duke@435	787	for (FieldStream fld(ikh, false, false); !fld.eos(); fld.next()) {
duke@435	788	if (!fld.access_flags().is_static()) {
coleenp@2497	789	Symbol* sig = fld.signature();
duke@435	790	switch (sig->byte_at(0)) {
duke@435	791	case JVM_SIGNATURE_CLASS :
duke@435	792	case JVM_SIGNATURE_ARRAY : size += oopSize; break;
duke@435	793
duke@435	794	case JVM_SIGNATURE_BYTE :
duke@435	795	case JVM_SIGNATURE_BOOLEAN : size += 1; break;
duke@435	796
duke@435	797	case JVM_SIGNATURE_CHAR :
duke@435	798	case JVM_SIGNATURE_SHORT : size += 2; break;
duke@435	799
duke@435	800	case JVM_SIGNATURE_INT :
duke@435	801	case JVM_SIGNATURE_FLOAT : size += 4; break;
duke@435	802
duke@435	803	case JVM_SIGNATURE_LONG :
duke@435	804	case JVM_SIGNATURE_DOUBLE : size += 8; break;
duke@435	805
duke@435	806	default : ShouldNotReachHere();
duke@435	807	}
duke@435	808	}
duke@435	809	}
duke@435	810	return (u4)size;
duke@435	811	}
duke@435	812
duke@435	813	// dumps static fields of the given class
duke@435	814	void DumperSupport::dump_static_fields(DumpWriter* writer, klassOop k) {
duke@435	815	HandleMark hm;
duke@435	816	instanceKlassHandle ikh = instanceKlassHandle(Thread::current(), k);
duke@435	817
duke@435	818	// pass 1 - count the static fields
duke@435	819	u2 field_count = 0;
duke@435	820	for (FieldStream fldc(ikh, true, true); !fldc.eos(); fldc.next()) {
duke@435	821	if (fldc.access_flags().is_static()) field_count++;
duke@435	822	}
duke@435	823
duke@435	824	writer->write_u2(field_count);
duke@435	825
duke@435	826	// pass 2 - dump the field descriptors and raw values
duke@435	827	for (FieldStream fld(ikh, true, true); !fld.eos(); fld.next()) {
duke@435	828	if (fld.access_flags().is_static()) {
coleenp@2497	829	Symbol* sig = fld.signature();
duke@435	830
coleenp@2497	831	writer->write_symbolID(fld.name()); // name
duke@435	832	writer->write_u1(sig2tag(sig)); // type
duke@435	833
duke@435	834	// value
duke@435	835	int offset = fld.offset();
never@2659	836	address addr = (address)ikh->java_mirror() + offset;
duke@435	837
duke@435	838	dump_field_value(writer, sig->byte_at(0), addr);
duke@435	839	}
duke@435	840	}
duke@435	841	}
duke@435	842
duke@435	843	// dump the raw values of the instance fields of the given object
duke@435	844	void DumperSupport::dump_instance_fields(DumpWriter* writer, oop o) {
duke@435	845	HandleMark hm;
duke@435	846	instanceKlassHandle ikh = instanceKlassHandle(Thread::current(), o->klass());
duke@435	847
duke@435	848	for (FieldStream fld(ikh, false, false); !fld.eos(); fld.next()) {
duke@435	849	if (!fld.access_flags().is_static()) {
coleenp@2497	850	Symbol* sig = fld.signature();
duke@435	851	address addr = (address)o + fld.offset();
duke@435	852
duke@435	853	dump_field_value(writer, sig->byte_at(0), addr);
duke@435	854	}
duke@435	855	}
duke@435	856	}
duke@435	857
duke@435	858	// dumps the definition of the instance fields for a given class
duke@435	859	void DumperSupport::dump_instance_field_descriptors(DumpWriter* writer, klassOop k) {
duke@435	860	HandleMark hm;
duke@435	861	instanceKlassHandle ikh = instanceKlassHandle(Thread::current(), k);
duke@435	862
duke@435	863	// pass 1 - count the instance fields
duke@435	864	u2 field_count = 0;
duke@435	865	for (FieldStream fldc(ikh, true, true); !fldc.eos(); fldc.next()) {
duke@435	866	if (!fldc.access_flags().is_static()) field_count++;
duke@435	867	}
duke@435	868
duke@435	869	writer->write_u2(field_count);
duke@435	870
duke@435	871	// pass 2 - dump the field descriptors
duke@435	872	for (FieldStream fld(ikh, true, true); !fld.eos(); fld.next()) {
duke@435	873	if (!fld.access_flags().is_static()) {
coleenp@2497	874	Symbol* sig = fld.signature();
duke@435	875
coleenp@2497	876	writer->write_symbolID(fld.name()); // name
duke@435	877	writer->write_u1(sig2tag(sig)); // type
duke@435	878	}
duke@435	879	}
duke@435	880	}
duke@435	881
duke@435	882	// creates HPROF_GC_INSTANCE_DUMP record for the given object
duke@435	883	void DumperSupport::dump_instance(DumpWriter* writer, oop o) {
duke@435	884	klassOop k = o->klass();
duke@435	885
duke@435	886	writer->write_u1(HPROF_GC_INSTANCE_DUMP);
duke@435	887	writer->write_objectID(o);
duke@435	888	writer->write_u4(STACK_TRACE_ID);
duke@435	889
duke@435	890	// class ID
duke@435	891	writer->write_classID(Klass::cast(k));
duke@435	892
duke@435	893	// number of bytes that follow
duke@435	894	writer->write_u4(instance_size(k) );
duke@435	895
duke@435	896	// field values
duke@435	897	dump_instance_fields(writer, o);
duke@435	898	}
duke@435	899
duke@435	900	// creates HPROF_GC_CLASS_DUMP record for the given class and each of
duke@435	901	// its array classes
duke@435	902	void DumperSupport::dump_class_and_array_classes(DumpWriter* writer, klassOop k) {
duke@435	903	Klass* klass = Klass::cast(k);
duke@435	904	assert(klass->oop_is_instance(), "not an instanceKlass");
duke@435	905	instanceKlass* ik = (instanceKlass*)klass;
duke@435	906
duke@435	907	writer->write_u1(HPROF_GC_CLASS_DUMP);
duke@435	908
duke@435	909	// class ID
duke@435	910	writer->write_classID(ik);
duke@435	911	writer->write_u4(STACK_TRACE_ID);
duke@435	912
duke@435	913	// super class ID
duke@435	914	klassOop java_super = ik->java_super();
duke@435	915	if (java_super == NULL) {
duke@435	916	writer->write_objectID(NULL);
duke@435	917	} else {
duke@435	918	writer->write_classID(Klass::cast(java_super));
duke@435	919	}
duke@435	920
duke@435	921	writer->write_objectID(ik->class_loader());
duke@435	922	writer->write_objectID(ik->signers());
duke@435	923	writer->write_objectID(ik->protection_domain());
duke@435	924
duke@435	925	// reserved
duke@435	926	writer->write_objectID(NULL);
duke@435	927	writer->write_objectID(NULL);
duke@435	928
duke@435	929	// instance size
duke@435	930	writer->write_u4(DumperSupport::instance_size(k));
duke@435	931
duke@435	932	// size of constant pool - ignored by HAT 1.1
duke@435	933	writer->write_u2(0);
duke@435	934
duke@435	935	// number of static fields
duke@435	936	dump_static_fields(writer, k);
duke@435	937
duke@435	938	// description of instance fields
duke@435	939	dump_instance_field_descriptors(writer, k);
duke@435	940
duke@435	941	// array classes
duke@435	942	k = klass->array_klass_or_null();
duke@435	943	while (k != NULL) {
duke@435	944	Klass* klass = Klass::cast(k);
duke@435	945	assert(klass->oop_is_objArray(), "not an objArrayKlass");
duke@435	946
duke@435	947	writer->write_u1(HPROF_GC_CLASS_DUMP);
duke@435	948	writer->write_classID(klass);
duke@435	949	writer->write_u4(STACK_TRACE_ID);
duke@435	950
duke@435	951	// super class of array classes is java.lang.Object
duke@435	952	java_super = klass->java_super();
duke@435	953	assert(java_super != NULL, "checking");
duke@435	954	writer->write_classID(Klass::cast(java_super));
duke@435	955
duke@435	956	writer->write_objectID(ik->class_loader());
duke@435	957	writer->write_objectID(ik->signers());
duke@435	958	writer->write_objectID(ik->protection_domain());
duke@435	959
duke@435	960	writer->write_objectID(NULL); // reserved
duke@435	961	writer->write_objectID(NULL);
duke@435	962	writer->write_u4(0); // instance size
duke@435	963	writer->write_u2(0); // constant pool
duke@435	964	writer->write_u2(0); // static fields
duke@435	965	writer->write_u2(0); // instance fields
duke@435	966
duke@435	967	// get the array class for the next rank
duke@435	968	k = klass->array_klass_or_null();
duke@435	969	}
duke@435	970	}
duke@435	971
duke@435	972	// creates HPROF_GC_CLASS_DUMP record for a given primitive array
duke@435	973	// class (and each multi-dimensional array class too)
duke@435	974	void DumperSupport::dump_basic_type_array_class(DumpWriter* writer, klassOop k) {
duke@435	975	// array classes
duke@435	976	while (k != NULL) {
duke@435	977	Klass* klass = Klass::cast(k);
duke@435	978
duke@435	979	writer->write_u1(HPROF_GC_CLASS_DUMP);
duke@435	980	writer->write_classID(klass);
duke@435	981	writer->write_u4(STACK_TRACE_ID);
duke@435	982
duke@435	983	// super class of array classes is java.lang.Object
duke@435	984	klassOop java_super = klass->java_super();
duke@435	985	assert(java_super != NULL, "checking");
duke@435	986	writer->write_classID(Klass::cast(java_super));
duke@435	987
duke@435	988	writer->write_objectID(NULL); // loader
duke@435	989	writer->write_objectID(NULL); // signers
duke@435	990	writer->write_objectID(NULL); // protection domain
duke@435	991
duke@435	992	writer->write_objectID(NULL); // reserved
duke@435	993	writer->write_objectID(NULL);
duke@435	994	writer->write_u4(0); // instance size
duke@435	995	writer->write_u2(0); // constant pool
duke@435	996	writer->write_u2(0); // static fields
duke@435	997	writer->write_u2(0); // instance fields
duke@435	998
duke@435	999	// get the array class for the next rank
duke@435	1000	k = klass->array_klass_or_null();
duke@435	1001	}
duke@435	1002	}
duke@435	1003
duke@435	1004	// creates HPROF_GC_OBJ_ARRAY_DUMP record for the given object array
duke@435	1005	void DumperSupport::dump_object_array(DumpWriter* writer, objArrayOop array) {
duke@435	1006
duke@435	1007	// filter this
duke@435	1008	if (array->klass() == Universe::systemObjArrayKlassObj()) return;
duke@435	1009
duke@435	1010	writer->write_u1(HPROF_GC_OBJ_ARRAY_DUMP);
duke@435	1011	writer->write_objectID(array);
duke@435	1012	writer->write_u4(STACK_TRACE_ID);
duke@435	1013	writer->write_u4((u4)array->length());
duke@435	1014
duke@435	1015	// array class ID
duke@435	1016	writer->write_classID(Klass::cast(array->klass()));
duke@435	1017
duke@435	1018	// [id]* elements
duke@435	1019	for (int index=0; index<array->length(); index++) {
duke@435	1020	oop o = array->obj_at(index);
duke@435	1021	writer->write_objectID(o);
duke@435	1022	}
duke@435	1023	}
duke@435	1024
duke@435	1025	#define WRITE_ARRAY(Array, Type, Size) \
duke@435	1026	for (int i=0; i<Array->length(); i++) { writer->write_##Size((Size)array->Type##_at(i)); }
duke@435	1027
duke@435	1028
duke@435	1029	// creates HPROF_GC_PRIM_ARRAY_DUMP record for the given type array
duke@435	1030	void DumperSupport::dump_prim_array(DumpWriter* writer, typeArrayOop array) {
duke@435	1031	BasicType type = typeArrayKlass::cast(array->klass())->element_type();
duke@435	1032
duke@435	1033	writer->write_u1(HPROF_GC_PRIM_ARRAY_DUMP);
duke@435	1034	writer->write_objectID(array);
duke@435	1035	writer->write_u4(STACK_TRACE_ID);
duke@435	1036	writer->write_u4((u4)array->length());
duke@435	1037	writer->write_u1(type2tag(type));
duke@435	1038
duke@435	1039	// nothing to copy
duke@435	1040	if (array->length() == 0) {
duke@435	1041	return;
duke@435	1042	}
duke@435	1043
duke@435	1044	// If the byte ordering is big endian then we can copy most types directly
kvn@464	1045	int length_in_bytes = array->length() * type2aelembytes(type);
duke@435	1046	assert(length_in_bytes > 0, "nothing to copy");
duke@435	1047
duke@435	1048	switch (type) {
duke@435	1049	case T_INT : {
duke@435	1050	if (Bytes::is_Java_byte_ordering_different()) {
duke@435	1051	WRITE_ARRAY(array, int, u4);
duke@435	1052	} else {
duke@435	1053	writer->write_raw((void*)(array->int_at_addr(0)), length_in_bytes);
duke@435	1054	}
duke@435	1055	break;
duke@435	1056	}
duke@435	1057	case T_BYTE : {
duke@435	1058	writer->write_raw((void*)(array->byte_at_addr(0)), length_in_bytes);
duke@435	1059	break;
duke@435	1060	}
duke@435	1061	case T_CHAR : {
duke@435	1062	if (Bytes::is_Java_byte_ordering_different()) {
duke@435	1063	WRITE_ARRAY(array, char, u2);
duke@435	1064	} else {
duke@435	1065	writer->write_raw((void*)(array->char_at_addr(0)), length_in_bytes);
duke@435	1066	}
duke@435	1067	break;
duke@435	1068	}
duke@435	1069	case T_SHORT : {
duke@435	1070	if (Bytes::is_Java_byte_ordering_different()) {
duke@435	1071	WRITE_ARRAY(array, short, u2);
duke@435	1072	} else {
duke@435	1073	writer->write_raw((void*)(array->short_at_addr(0)), length_in_bytes);
duke@435	1074	}
duke@435	1075	break;
duke@435	1076	}
duke@435	1077	case T_BOOLEAN : {
duke@435	1078	if (Bytes::is_Java_byte_ordering_different()) {
duke@435	1079	WRITE_ARRAY(array, bool, u1);
duke@435	1080	} else {
duke@435	1081	writer->write_raw((void*)(array->bool_at_addr(0)), length_in_bytes);
duke@435	1082	}
duke@435	1083	break;
duke@435	1084	}
duke@435	1085	case T_LONG : {
duke@435	1086	if (Bytes::is_Java_byte_ordering_different()) {
duke@435	1087	WRITE_ARRAY(array, long, u8);
duke@435	1088	} else {
duke@435	1089	writer->write_raw((void*)(array->long_at_addr(0)), length_in_bytes);
duke@435	1090	}
duke@435	1091	break;
duke@435	1092	}
duke@435	1093
duke@435	1094	// handle float/doubles in a special value to ensure than NaNs are
duke@435	1095	// written correctly. TO DO: Check if we can avoid this on processors that
duke@435	1096	// use IEEE 754.
duke@435	1097
duke@435	1098	case T_FLOAT : {
duke@435	1099	for (int i=0; i<array->length(); i++) {
duke@435	1100	dump_float( writer, array->float_at(i) );
duke@435	1101	}
duke@435	1102	break;
duke@435	1103	}
duke@435	1104	case T_DOUBLE : {
duke@435	1105	for (int i=0; i<array->length(); i++) {
duke@435	1106	dump_double( writer, array->double_at(i) );
duke@435	1107	}
duke@435	1108	break;
duke@435	1109	}
duke@435	1110	default : ShouldNotReachHere();
duke@435	1111	}
duke@435	1112	}
duke@435	1113
mchung@831	1114	// create a HPROF_FRAME record of the given methodOop and bci
mchung@831	1115	void DumperSupport::dump_stack_frame(DumpWriter* writer,
mchung@831	1116	int frame_serial_num,
mchung@831	1117	int class_serial_num,
mchung@831	1118	methodOop m,
mchung@831	1119	int bci) {
mchung@831	1120	int line_number;
mchung@831	1121	if (m->is_native()) {
mchung@831	1122	line_number = -3; // native frame
mchung@831	1123	} else {
mchung@831	1124	line_number = m->line_number_from_bci(bci);
mchung@831	1125	}
mchung@831	1126
mchung@831	1127	write_header(writer, HPROF_FRAME, 4*oopSize + 2*sizeof(u4));
mchung@831	1128	writer->write_id(frame_serial_num); // frame serial number
coleenp@2497	1129	writer->write_symbolID(m->name()); // method's name
coleenp@2497	1130	writer->write_symbolID(m->signature()); // method's signature
mchung@831	1131
mchung@831	1132	assert(Klass::cast(m->method_holder())->oop_is_instance(), "not instanceKlass");
coleenp@2497	1133	writer->write_symbolID(instanceKlass::cast(m->method_holder())->source_file_name()); // source file name
mchung@831	1134	writer->write_u4(class_serial_num); // class serial number
mchung@831	1135	writer->write_u4((u4) line_number); // line number
mchung@831	1136	}
duke@435	1137
coleenp@2497	1138
duke@435	1139	// Support class used to generate HPROF_UTF8 records from the entries in the
duke@435	1140	// SymbolTable.
duke@435	1141
coleenp@2497	1142	class SymbolTableDumper : public SymbolClosure {
duke@435	1143	private:
duke@435	1144	DumpWriter* _writer;
duke@435	1145	DumpWriter* writer() const { return _writer; }
duke@435	1146	public:
duke@435	1147	SymbolTableDumper(DumpWriter* writer) { _writer = writer; }
coleenp@2497	1148	void do_symbol(Symbol** p);
duke@435	1149	};
duke@435	1150
coleenp@2497	1151	void SymbolTableDumper::do_symbol(Symbol** p) {
duke@435	1152	ResourceMark rm;
coleenp@2497	1153	Symbol* sym = load_symbol(p);
duke@435	1154	int len = sym->utf8_length();
duke@435	1155	if (len > 0) {
duke@435	1156	char* s = sym->as_utf8();
duke@435	1157	DumperSupport::write_header(writer(), HPROF_UTF8, oopSize + len);
coleenp@2497	1158	writer()->write_symbolID(sym);
duke@435	1159	writer()->write_raw(s, len);
duke@435	1160	}
duke@435	1161	}
duke@435	1162
duke@435	1163	// Support class used to generate HPROF_GC_ROOT_JNI_LOCAL records
duke@435	1164
duke@435	1165	class JNILocalsDumper : public OopClosure {
duke@435	1166	private:
duke@435	1167	DumpWriter* _writer;
duke@435	1168	u4 _thread_serial_num;
mchung@831	1169	int _frame_num;
duke@435	1170	DumpWriter* writer() const { return _writer; }
duke@435	1171	public:
duke@435	1172	JNILocalsDumper(DumpWriter* writer, u4 thread_serial_num) {
duke@435	1173	_writer = writer;
duke@435	1174	_thread_serial_num = thread_serial_num;
mchung@831	1175	_frame_num = -1; // default - empty stack
duke@435	1176	}
mchung@831	1177	void set_frame_number(int n) { _frame_num = n; }
duke@435	1178	void do_oop(oop* obj_p);
coleenp@548	1179	void do_oop(narrowOop* obj_p) { ShouldNotReachHere(); }
duke@435	1180	};
duke@435	1181
duke@435	1182
duke@435	1183	void JNILocalsDumper::do_oop(oop* obj_p) {
duke@435	1184	// ignore null or deleted handles
duke@435	1185	oop o = *obj_p;
duke@435	1186	if (o != NULL && o != JNIHandles::deleted_handle()) {
duke@435	1187	writer()->write_u1(HPROF_GC_ROOT_JNI_LOCAL);
duke@435	1188	writer()->write_objectID(o);
duke@435	1189	writer()->write_u4(_thread_serial_num);
mchung@831	1190	writer()->write_u4((u4)_frame_num);
duke@435	1191	}
duke@435	1192	}
duke@435	1193
duke@435	1194
duke@435	1195	// Support class used to generate HPROF_GC_ROOT_JNI_GLOBAL records
duke@435	1196
duke@435	1197	class JNIGlobalsDumper : public OopClosure {
duke@435	1198	private:
duke@435	1199	DumpWriter* _writer;
duke@435	1200	DumpWriter* writer() const { return _writer; }
duke@435	1201
duke@435	1202	public:
duke@435	1203	JNIGlobalsDumper(DumpWriter* writer) {
duke@435	1204	_writer = writer;
duke@435	1205	}
duke@435	1206	void do_oop(oop* obj_p);
coleenp@548	1207	void do_oop(narrowOop* obj_p) { ShouldNotReachHere(); }
duke@435	1208	};
duke@435	1209
duke@435	1210	void JNIGlobalsDumper::do_oop(oop* obj_p) {
duke@435	1211	oop o = *obj_p;
duke@435	1212
duke@435	1213	// ignore these
duke@435	1214	if (o == NULL || o == JNIHandles::deleted_handle()) return;
duke@435	1215
duke@435	1216	// we ignore global ref to symbols and other internal objects
duke@435	1217	if (o->is_instance() || o->is_objArray() || o->is_typeArray()) {
duke@435	1218	writer()->write_u1(HPROF_GC_ROOT_JNI_GLOBAL);
duke@435	1219	writer()->write_objectID(o);
duke@435	1220	writer()->write_objectID((oopDesc*)obj_p); // global ref ID
duke@435	1221	}
duke@435	1222	};
duke@435	1223
duke@435	1224
duke@435	1225	// Support class used to generate HPROF_GC_ROOT_MONITOR_USED records
duke@435	1226
duke@435	1227	class MonitorUsedDumper : public OopClosure {
duke@435	1228	private:
duke@435	1229	DumpWriter* _writer;
duke@435	1230	DumpWriter* writer() const { return _writer; }
duke@435	1231	public:
duke@435	1232	MonitorUsedDumper(DumpWriter* writer) {
duke@435	1233	_writer = writer;
duke@435	1234	}
duke@435	1235	void do_oop(oop* obj_p) {
duke@435	1236	writer()->write_u1(HPROF_GC_ROOT_MONITOR_USED);
duke@435	1237	writer()->write_objectID(*obj_p);
duke@435	1238	}
coleenp@548	1239	void do_oop(narrowOop* obj_p) { ShouldNotReachHere(); }
duke@435	1240	};
duke@435	1241
duke@435	1242
duke@435	1243	// Support class used to generate HPROF_GC_ROOT_STICKY_CLASS records
duke@435	1244
duke@435	1245	class StickyClassDumper : public OopClosure {
duke@435	1246	private:
duke@435	1247	DumpWriter* _writer;
duke@435	1248	DumpWriter* writer() const { return _writer; }
duke@435	1249	public:
duke@435	1250	StickyClassDumper(DumpWriter* writer) {
duke@435	1251	_writer = writer;
duke@435	1252	}
duke@435	1253	void do_oop(oop* obj_p);
coleenp@548	1254	void do_oop(narrowOop* obj_p) { ShouldNotReachHere(); }
duke@435	1255	};
duke@435	1256
duke@435	1257	void StickyClassDumper::do_oop(oop* obj_p) {
duke@435	1258	if (*obj_p != NULL) {
duke@435	1259	oop o = *obj_p;
duke@435	1260	if (o->is_klass()) {
duke@435	1261	klassOop k = klassOop(o);
duke@435	1262	if (Klass::cast(k)->oop_is_instance()) {
duke@435	1263	instanceKlass* ik = instanceKlass::cast(k);
duke@435	1264	writer()->write_u1(HPROF_GC_ROOT_STICKY_CLASS);
duke@435	1265	writer()->write_classID(ik);
duke@435	1266	}
duke@435	1267	}
duke@435	1268	}
duke@435	1269	}
duke@435	1270
duke@435	1271
duke@435	1272	class VM_HeapDumper;
duke@435	1273
duke@435	1274	// Support class using when iterating over the heap.
duke@435	1275
duke@435	1276	class HeapObjectDumper : public ObjectClosure {
duke@435	1277	private:
duke@435	1278	VM_HeapDumper* _dumper;
duke@435	1279	DumpWriter* _writer;
duke@435	1280
duke@435	1281	VM_HeapDumper* dumper() { return _dumper; }
duke@435	1282	DumpWriter* writer() { return _writer; }
duke@435	1283
duke@435	1284	// used to indicate that a record has been writen
duke@435	1285	void mark_end_of_record();
duke@435	1286
duke@435	1287	public:
duke@435	1288	HeapObjectDumper(VM_HeapDumper* dumper, DumpWriter* writer) {
duke@435	1289	_dumper = dumper;
duke@435	1290	_writer = writer;
duke@435	1291	}
duke@435	1292
duke@435	1293	// called for each object in the heap
duke@435	1294	void do_object(oop o);
duke@435	1295	};
duke@435	1296
duke@435	1297	void HeapObjectDumper::do_object(oop o) {
duke@435	1298	// hide the sentinel for deleted handles
duke@435	1299	if (o == JNIHandles::deleted_handle()) return;
duke@435	1300
duke@435	1301	// ignore KlassKlass objects
duke@435	1302	if (o->is_klass()) return;
duke@435	1303
duke@435	1304	// skip classes as these emitted as HPROF_GC_CLASS_DUMP records
never@1577	1305	if (o->klass() == SystemDictionary::Class_klass()) {
duke@435	1306	if (!java_lang_Class::is_primitive(o)) {
duke@435	1307	return;
duke@435	1308	}
duke@435	1309	}
duke@435	1310
duke@435	1311	// create a HPROF_GC_INSTANCE record for each object
duke@435	1312	if (o->is_instance()) {
duke@435	1313	DumperSupport::dump_instance(writer(), o);
duke@435	1314	mark_end_of_record();
duke@435	1315	} else {
duke@435	1316	// create a HPROF_GC_OBJ_ARRAY_DUMP record for each object array
duke@435	1317	if (o->is_objArray()) {
duke@435	1318	DumperSupport::dump_object_array(writer(), objArrayOop(o));
duke@435	1319	mark_end_of_record();
duke@435	1320	} else {
duke@435	1321	// create a HPROF_GC_PRIM_ARRAY_DUMP record for each type array
duke@435	1322	if (o->is_typeArray()) {
duke@435	1323	DumperSupport::dump_prim_array(writer(), typeArrayOop(o));
duke@435	1324	mark_end_of_record();
duke@435	1325	}
duke@435	1326	}
duke@435	1327	}
duke@435	1328	}
duke@435	1329
duke@435	1330	// The VM operation that performs the heap dump
duke@435	1331	class VM_HeapDumper : public VM_GC_Operation {
duke@435	1332	private:
ysr@1050	1333	static VM_HeapDumper* _global_dumper;
ysr@1050	1334	static DumpWriter* _global_writer;
ysr@1050	1335	DumpWriter* _local_writer;
thurka@2130	1336	JavaThread* _oome_thread;
thurka@2130	1337	methodOop _oome_constructor;
duke@435	1338	bool _gc_before_heap_dump;
duke@435	1339	bool _is_segmented_dump;
duke@435	1340	jlong _dump_start;
mchung@831	1341	GrowableArray<Klass*>* _klass_map;
mchung@831	1342	ThreadStackTrace** _stack_traces;
mchung@831	1343	int _num_threads;
duke@435	1344
ysr@1050	1345	// accessors and setters
ysr@1050	1346	static VM_HeapDumper* dumper() { assert(_global_dumper != NULL, "Error"); return _global_dumper; }
ysr@1050	1347	static DumpWriter* writer() { assert(_global_writer != NULL, "Error"); return _global_writer; }
ysr@1050	1348	void set_global_dumper() {
ysr@1050	1349	assert(_global_dumper == NULL, "Error");
ysr@1050	1350	_global_dumper = this;
ysr@1050	1351	}
ysr@1050	1352	void set_global_writer() {
ysr@1050	1353	assert(_global_writer == NULL, "Error");
ysr@1050	1354	_global_writer = _local_writer;
ysr@1050	1355	}
ysr@1050	1356	void clear_global_dumper() { _global_dumper = NULL; }
ysr@1050	1357	void clear_global_writer() { _global_writer = NULL; }
ysr@1050	1358
duke@435	1359	bool is_segmented_dump() const { return _is_segmented_dump; }
duke@435	1360	void set_segmented_dump() { _is_segmented_dump = true; }
duke@435	1361	jlong dump_start() const { return _dump_start; }
duke@435	1362	void set_dump_start(jlong pos);
duke@435	1363
duke@435	1364	bool skip_operation() const;
duke@435	1365
duke@435	1366	// writes a HPROF_LOAD_CLASS record
duke@435	1367	static void do_load_class(klassOop k);
duke@435	1368
duke@435	1369	// writes a HPROF_GC_CLASS_DUMP record for the given class
duke@435	1370	// (and each array class too)
duke@435	1371	static void do_class_dump(klassOop k);
duke@435	1372
duke@435	1373	// writes a HPROF_GC_CLASS_DUMP records for a given basic type
duke@435	1374	// array (and each multi-dimensional array too)
duke@435	1375	static void do_basic_type_array_class_dump(klassOop k);
duke@435	1376
duke@435	1377	// HPROF_GC_ROOT_THREAD_OBJ records
mchung@831	1378	int do_thread(JavaThread* thread, u4 thread_serial_num);
duke@435	1379	void do_threads();
duke@435	1380
mchung@831	1381	void add_class_serial_number(Klass* k, int serial_num) {
mchung@831	1382	_klass_map->at_put_grow(serial_num, k);
mchung@831	1383	}
mchung@831	1384
mchung@831	1385	// HPROF_TRACE and HPROF_FRAME records
mchung@831	1386	void dump_stack_traces();
mchung@831	1387
duke@435	1388	// writes a HPROF_HEAP_DUMP or HPROF_HEAP_DUMP_SEGMENT record
duke@435	1389	void write_dump_header();
duke@435	1390
duke@435	1391	// fixes up the length of the current dump record
duke@435	1392	void write_current_dump_record_length();
duke@435	1393
duke@435	1394	// fixes up the current dump record )and writes HPROF_HEAP_DUMP_END
duke@435	1395	// record in the case of a segmented heap dump)
duke@435	1396	void end_of_dump();
duke@435	1397
duke@435	1398	public:
thurka@2130	1399	VM_HeapDumper(DumpWriter* writer, bool gc_before_heap_dump, bool oome) :
duke@435	1400	VM_GC_Operation(0 /* total collections, dummy, ignored */,
brutisso@2532	1401	GCCause::_heap_dump /* GC Cause */,
duke@435	1402	0 /* total full collections, dummy, ignored */,
duke@435	1403	gc_before_heap_dump) {
ysr@1050	1404	_local_writer = writer;
duke@435	1405	_gc_before_heap_dump = gc_before_heap_dump;
duke@435	1406	_is_segmented_dump = false;
duke@435	1407	_dump_start = (jlong)-1;
zgu@3900	1408	_klass_map = new (ResourceObj::C_HEAP, mtInternal) GrowableArray<Klass*>(INITIAL_CLASS_COUNT, true);
mchung@831	1409	_stack_traces = NULL;
mchung@831	1410	_num_threads = 0;
thurka@2130	1411	if (oome) {
thurka@2130	1412	assert(!Thread::current()->is_VM_thread(), "Dump from OutOfMemoryError cannot be called by the VMThread");
thurka@2130	1413	// get OutOfMemoryError zero-parameter constructor
thurka@2130	1414	instanceKlass* oome_ik = instanceKlass::cast(SystemDictionary::OutOfMemoryError_klass());
thurka@2130	1415	_oome_constructor = oome_ik->find_method(vmSymbols::object_initializer_name(),
thurka@2130	1416	vmSymbols::void_method_signature());
thurka@2130	1417	// get thread throwing OOME when generating the heap dump at OOME
thurka@2130	1418	_oome_thread = JavaThread::current();
thurka@2130	1419	} else {
thurka@2130	1420	_oome_thread = NULL;
thurka@2130	1421	_oome_constructor = NULL;
thurka@2130	1422	}
mchung@831	1423	}
mchung@831	1424	~VM_HeapDumper() {
mchung@831	1425	if (_stack_traces != NULL) {
mchung@831	1426	for (int i=0; i < _num_threads; i++) {
mchung@831	1427	delete _stack_traces[i];
mchung@831	1428	}
zgu@3900	1429	FREE_C_HEAP_ARRAY(ThreadStackTrace*, _stack_traces, mtInternal);
mchung@831	1430	}
mchung@831	1431	delete _klass_map;
duke@435	1432	}
duke@435	1433
duke@435	1434	VMOp_Type type() const { return VMOp_HeapDumper; }
duke@435	1435	// used to mark sub-record boundary
duke@435	1436	void check_segment_length();
duke@435	1437	void doit();
duke@435	1438	};
duke@435	1439
ysr@1050	1440	VM_HeapDumper* VM_HeapDumper::_global_dumper = NULL;
ysr@1050	1441	DumpWriter* VM_HeapDumper::_global_writer = NULL;
ysr@1050	1442
duke@435	1443	bool VM_HeapDumper::skip_operation() const {
duke@435	1444	return false;
duke@435	1445	}
duke@435	1446
duke@435	1447	// sets the dump starting position
duke@435	1448	void VM_HeapDumper::set_dump_start(jlong pos) {
duke@435	1449	_dump_start = pos;
duke@435	1450	}
duke@435	1451
duke@435	1452	// writes a HPROF_HEAP_DUMP or HPROF_HEAP_DUMP_SEGMENT record
duke@435	1453	void VM_HeapDumper::write_dump_header() {
duke@435	1454	if (writer()->is_open()) {
duke@435	1455	if (is_segmented_dump()) {
duke@435	1456	writer()->write_u1(HPROF_HEAP_DUMP_SEGMENT);
duke@435	1457	} else {
duke@435	1458	writer()->write_u1(HPROF_HEAP_DUMP);
duke@435	1459	}
duke@435	1460	writer()->write_u4(0); // current ticks
duke@435	1461
duke@435	1462	// record the starting position for the dump (its length will be fixed up later)
duke@435	1463	set_dump_start(writer()->current_offset());
duke@435	1464	writer()->write_u4(0);
duke@435	1465	}
duke@435	1466	}
duke@435	1467
duke@435	1468	// fixes up the length of the current dump record
duke@435	1469	void VM_HeapDumper::write_current_dump_record_length() {
duke@435	1470	if (writer()->is_open()) {
duke@435	1471	assert(dump_start() >= 0, "no dump start recorded");
duke@435	1472
duke@435	1473	// calculate the size of the dump record
duke@435	1474	jlong dump_end = writer()->current_offset();
duke@435	1475	jlong dump_len = (dump_end - dump_start() - 4);
duke@435	1476
duke@435	1477	// record length must fit in a u4
duke@435	1478	if (dump_len > (jlong)(4L*(jlong)G)) {
duke@435	1479	warning("record is too large");
duke@435	1480	}
duke@435	1481
duke@435	1482	// seek to the dump start and fix-up the length
duke@435	1483	writer()->seek_to_offset(dump_start());
duke@435	1484	writer()->write_u4((u4)dump_len);
duke@435	1485
duke@435	1486	// adjust the total size written to keep the bytes written correct.
duke@435	1487	writer()->adjust_bytes_written(-((long) sizeof(u4)));
duke@435	1488
duke@435	1489	// seek to dump end so we can continue
duke@435	1490	writer()->seek_to_offset(dump_end);
duke@435	1491
duke@435	1492	// no current dump record
duke@435	1493	set_dump_start((jlong)-1);
duke@435	1494	}
duke@435	1495	}
duke@435	1496
duke@435	1497	// used on a sub-record boundary to check if we need to start a
duke@435	1498	// new segment.
duke@435	1499	void VM_HeapDumper::check_segment_length() {
duke@435	1500	if (writer()->is_open()) {
duke@435	1501	if (is_segmented_dump()) {
duke@435	1502	// don't use current_offset that would be too expensive on a per record basis
duke@435	1503	jlong dump_end = writer()->bytes_written() + writer()->bytes_unwritten();
duke@435	1504	assert(dump_end == writer()->current_offset(), "checking");
duke@435	1505	jlong dump_len = (dump_end - dump_start() - 4);
duke@435	1506	assert(dump_len >= 0 && dump_len <= max_juint, "bad dump length");
duke@435	1507
duke@435	1508	if (dump_len > (jlong)HeapDumpSegmentSize) {
duke@435	1509	write_current_dump_record_length();
duke@435	1510	write_dump_header();
duke@435	1511	}
duke@435	1512	}
duke@435	1513	}
duke@435	1514	}
duke@435	1515
duke@435	1516	// fixes up the current dump record )and writes HPROF_HEAP_DUMP_END
duke@435	1517	// record in the case of a segmented heap dump)
duke@435	1518	void VM_HeapDumper::end_of_dump() {
duke@435	1519	if (writer()->is_open()) {
duke@435	1520	write_current_dump_record_length();
duke@435	1521
duke@435	1522	// for segmented dump we write the end record
duke@435	1523	if (is_segmented_dump()) {
duke@435	1524	writer()->write_u1(HPROF_HEAP_DUMP_END);
duke@435	1525	writer()->write_u4(0);
duke@435	1526	writer()->write_u4(0);
duke@435	1527	}
duke@435	1528	}
duke@435	1529	}
duke@435	1530
duke@435	1531	// marks sub-record boundary
duke@435	1532	void HeapObjectDumper::mark_end_of_record() {
duke@435	1533	dumper()->check_segment_length();
duke@435	1534	}
duke@435	1535
duke@435	1536	// writes a HPROF_LOAD_CLASS record for the class (and each of its
duke@435	1537	// array classes)
duke@435	1538	void VM_HeapDumper::do_load_class(klassOop k) {
duke@435	1539	static u4 class_serial_num = 0;
duke@435	1540
duke@435	1541	// len of HPROF_LOAD_CLASS record
duke@435	1542	u4 remaining = 2*oopSize + 2*sizeof(u4);
duke@435	1543
duke@435	1544	// write a HPROF_LOAD_CLASS for the class and each array class
duke@435	1545	do {
ysr@1050	1546	DumperSupport::write_header(writer(), HPROF_LOAD_CLASS, remaining);
duke@435	1547
duke@435	1548	// class serial number is just a number
ysr@1050	1549	writer()->write_u4(++class_serial_num);
duke@435	1550
duke@435	1551	// class ID
duke@435	1552	Klass* klass = Klass::cast(k);
ysr@1050	1553	writer()->write_classID(klass);
duke@435	1554
mchung@831	1555	// add the klassOop and class serial number pair
ysr@1050	1556	dumper()->add_class_serial_number(klass, class_serial_num);
mchung@831	1557
ysr@1050	1558	writer()->write_u4(STACK_TRACE_ID);
duke@435	1559
duke@435	1560	// class name ID
coleenp@2497	1561	Symbol* name = klass->name();
coleenp@2497	1562	writer()->write_symbolID(name);
duke@435	1563
duke@435	1564	// write a LOAD_CLASS record for the array type (if it exists)
duke@435	1565	k = klass->array_klass_or_null();
duke@435	1566	} while (k != NULL);
duke@435	1567	}
duke@435	1568
duke@435	1569	// writes a HPROF_GC_CLASS_DUMP record for the given class
duke@435	1570	void VM_HeapDumper::do_class_dump(klassOop k) {
ysr@1050	1571	DumperSupport::dump_class_and_array_classes(writer(), k);
duke@435	1572	}
duke@435	1573
duke@435	1574	// writes a HPROF_GC_CLASS_DUMP records for a given basic type
duke@435	1575	// array (and each multi-dimensional array too)
duke@435	1576	void VM_HeapDumper::do_basic_type_array_class_dump(klassOop k) {
ysr@1050	1577	DumperSupport::dump_basic_type_array_class(writer(), k);
duke@435	1578	}
duke@435	1579
duke@435	1580	// Walk the stack of the given thread.
duke@435	1581	// Dumps a HPROF_GC_ROOT_JAVA_FRAME record for each local
duke@435	1582	// Dumps a HPROF_GC_ROOT_JNI_LOCAL record for each JNI local
mchung@831	1583	//
mchung@831	1584	// It returns the number of Java frames in this thread stack
mchung@831	1585	int VM_HeapDumper::do_thread(JavaThread* java_thread, u4 thread_serial_num) {
duke@435	1586	JNILocalsDumper blk(writer(), thread_serial_num);
duke@435	1587
duke@435	1588	oop threadObj = java_thread->threadObj();
duke@435	1589	assert(threadObj != NULL, "sanity check");
duke@435	1590
mchung@831	1591	int stack_depth = 0;
duke@435	1592	if (java_thread->has_last_Java_frame()) {
duke@435	1593
duke@435	1594	// vframes are resource allocated
duke@435	1595	Thread* current_thread = Thread::current();
duke@435	1596	ResourceMark rm(current_thread);
duke@435	1597	HandleMark hm(current_thread);
duke@435	1598
duke@435	1599	RegisterMap reg_map(java_thread);
duke@435	1600	frame f = java_thread->last_frame();
duke@435	1601	vframe* vf = vframe::new_vframe(&f, &reg_map, java_thread);
mchung@831	1602	frame* last_entry_frame = NULL;
thurka@2130	1603	int extra_frames = 0;
duke@435	1604
thurka@2130	1605	if (java_thread == _oome_thread && _oome_constructor != NULL) {
thurka@2130	1606	extra_frames++;
thurka@2130	1607	}
duke@435	1608	while (vf != NULL) {
mchung@831	1609	blk.set_frame_number(stack_depth);
duke@435	1610	if (vf->is_java_frame()) {
duke@435	1611
duke@435	1612	// java frame (interpreted, compiled, ...)
duke@435	1613	javaVFrame *jvf = javaVFrame::cast(vf);
duke@435	1614	if (!(jvf->method()->is_native())) {
duke@435	1615	StackValueCollection* locals = jvf->locals();
duke@435	1616	for (int slot=0; slot<locals->size(); slot++) {
duke@435	1617	if (locals->at(slot)->type() == T_OBJECT) {
duke@435	1618	oop o = locals->obj_at(slot)();
duke@435	1619
duke@435	1620	if (o != NULL) {
duke@435	1621	writer()->write_u1(HPROF_GC_ROOT_JAVA_FRAME);
duke@435	1622	writer()->write_objectID(o);
duke@435	1623	writer()->write_u4(thread_serial_num);
thurka@2130	1624	writer()->write_u4((u4) (stack_depth + extra_frames));
duke@435	1625	}
duke@435	1626	}
duke@435	1627	}
mchung@831	1628	} else {
mchung@831	1629	// native frame
mchung@831	1630	if (stack_depth == 0) {
mchung@831	1631	// JNI locals for the top frame.
mchung@831	1632	java_thread->active_handles()->oops_do(&blk);
mchung@831	1633	} else {
mchung@831	1634	if (last_entry_frame != NULL) {
mchung@831	1635	// JNI locals for the entry frame
mchung@831	1636	assert(last_entry_frame->is_entry_frame(), "checking");
mchung@831	1637	last_entry_frame->entry_frame_call_wrapper()->handles()->oops_do(&blk);
mchung@831	1638	}
mchung@831	1639	}
duke@435	1640	}
mchung@831	1641	// increment only for Java frames
mchung@831	1642	stack_depth++;
mchung@831	1643	last_entry_frame = NULL;
mchung@831	1644
duke@435	1645	} else {
duke@435	1646	// externalVFrame - if it's an entry frame then report any JNI locals
mchung@831	1647	// as roots when we find the corresponding native javaVFrame
duke@435	1648	frame* fr = vf->frame_pointer();
duke@435	1649	assert(fr != NULL, "sanity check");
duke@435	1650	if (fr->is_entry_frame()) {
mchung@831	1651	last_entry_frame = fr;
duke@435	1652	}
duke@435	1653	}
duke@435	1654	vf = vf->sender();
duke@435	1655	}
mchung@831	1656	} else {
mchung@831	1657	// no last java frame but there may be JNI locals
mchung@831	1658	java_thread->active_handles()->oops_do(&blk);
duke@435	1659	}
mchung@831	1660	return stack_depth;
duke@435	1661	}
duke@435	1662
duke@435	1663
duke@435	1664	// write a HPROF_GC_ROOT_THREAD_OBJ record for each java thread. Then walk
duke@435	1665	// the stack so that locals and JNI locals are dumped.
duke@435	1666	void VM_HeapDumper::do_threads() {
mchung@831	1667	for (int i=0; i < _num_threads; i++) {
mchung@831	1668	JavaThread* thread = _stack_traces[i]->thread();
duke@435	1669	oop threadObj = thread->threadObj();
mchung@831	1670	u4 thread_serial_num = i+1;
mchung@831	1671	u4 stack_serial_num = thread_serial_num + STACK_TRACE_ID;
mchung@831	1672	writer()->write_u1(HPROF_GC_ROOT_THREAD_OBJ);
mchung@831	1673	writer()->write_objectID(threadObj);
mchung@831	1674	writer()->write_u4(thread_serial_num); // thread number
mchung@831	1675	writer()->write_u4(stack_serial_num); // stack trace serial number
mchung@831	1676	int num_frames = do_thread(thread, thread_serial_num);
mchung@831	1677	assert(num_frames == _stack_traces[i]->get_stack_depth(),
mchung@831	1678	"total number of Java frames not matched");
duke@435	1679	}
duke@435	1680	}
duke@435	1681
duke@435	1682
duke@435	1683	// The VM operation that dumps the heap. The dump consists of the following
duke@435	1684	// records:
duke@435	1685	//
duke@435	1686	// HPROF_HEADER
duke@435	1687	// [HPROF_UTF8]*
duke@435	1688	// [HPROF_LOAD_CLASS]*
mchung@831	1689	// [[HPROF_FRAME]*|HPROF_TRACE]*
duke@435	1690	// [HPROF_GC_CLASS_DUMP]*
duke@435	1691	// HPROF_HEAP_DUMP
duke@435	1692	//
mchung@831	1693	// The HPROF_TRACE records represent the stack traces where the heap dump
mchung@831	1694	// is generated and a "dummy trace" record which does not include
mchung@831	1695	// any frames. The dummy trace record is used to be referenced as the
mchung@831	1696	// unknown object alloc site.
duke@435	1697	//
duke@435	1698	// The HPROF_HEAP_DUMP record has a length following by sub-records. To allow
duke@435	1699	// the heap dump be generated in a single pass we remember the position of
duke@435	1700	// the dump length and fix it up after all sub-records have been written.
duke@435	1701	// To generate the sub-records we iterate over the heap, writing
duke@435	1702	// HPROF_GC_INSTANCE_DUMP, HPROF_GC_OBJ_ARRAY_DUMP, and HPROF_GC_PRIM_ARRAY_DUMP
duke@435	1703	// records as we go. Once that is done we write records for some of the GC
duke@435	1704	// roots.
duke@435	1705
duke@435	1706	void VM_HeapDumper::doit() {
duke@435	1707
duke@435	1708	HandleMark hm;
duke@435	1709	CollectedHeap* ch = Universe::heap();
poonam@3272	1710
poonam@3272	1711	ch->ensure_parsability(false); // must happen, even if collection does
poonam@3272	1712	// not happen (e.g. due to GC_locker)
poonam@3272	1713
duke@435	1714	if (_gc_before_heap_dump) {
poonam@3272	1715	if (GC_locker::is_active()) {
poonam@3272	1716	warning("GC locker is held; pre-heapdump GC was skipped");
poonam@3272	1717	} else {
poonam@3272	1718	ch->collect_as_vm_thread(GCCause::_heap_dump);
poonam@3272	1719	}
duke@435	1720	}
duke@435	1721
ysr@1050	1722	// At this point we should be the only dumper active, so
ysr@1050	1723	// the following should be safe.
ysr@1050	1724	set_global_dumper();
ysr@1050	1725	set_global_writer();
ysr@1050	1726
duke@435	1727	// Write the file header - use 1.0.2 for large heaps, otherwise 1.0.1
ysr@777	1728	size_t used = ch->used();
duke@435	1729	const char* header;
duke@435	1730	if (used > (size_t)SegmentedHeapDumpThreshold) {
duke@435	1731	set_segmented_dump();
duke@435	1732	header = "JAVA PROFILE 1.0.2";
duke@435	1733	} else {
duke@435	1734	header = "JAVA PROFILE 1.0.1";
duke@435	1735	}
ysr@1050	1736
duke@435	1737	// header is few bytes long - no chance to overflow int
duke@435	1738	writer()->write_raw((void*)header, (int)strlen(header));
duke@435	1739	writer()->write_u1(0); // terminator
duke@435	1740	writer()->write_u4(oopSize);
duke@435	1741	writer()->write_u8(os::javaTimeMillis());
duke@435	1742
duke@435	1743	// HPROF_UTF8 records
duke@435	1744	SymbolTableDumper sym_dumper(writer());
coleenp@2497	1745	SymbolTable::symbols_do(&sym_dumper);
duke@435	1746
duke@435	1747	// write HPROF_LOAD_CLASS records
duke@435	1748	SystemDictionary::classes_do(&do_load_class);
duke@435	1749	Universe::basic_type_classes_do(&do_load_class);
duke@435	1750
mchung@831	1751	// write HPROF_FRAME and HPROF_TRACE records
mchung@831	1752	// this must be called after _klass_map is built when iterating the classes above.
mchung@831	1753	dump_stack_traces();
mchung@831	1754
duke@435	1755	// write HPROF_HEAP_DUMP or HPROF_HEAP_DUMP_SEGMENT
duke@435	1756	write_dump_header();
duke@435	1757
duke@435	1758	// Writes HPROF_GC_CLASS_DUMP records
duke@435	1759	SystemDictionary::classes_do(&do_class_dump);
duke@435	1760	Universe::basic_type_classes_do(&do_basic_type_array_class_dump);
duke@435	1761	check_segment_length();
duke@435	1762
duke@435	1763	// writes HPROF_GC_INSTANCE_DUMP records.
duke@435	1764	// After each sub-record is written check_segment_length will be invoked. When
duke@435	1765	// generated a segmented heap dump this allows us to check if the current
duke@435	1766	// segment exceeds a threshold and if so, then a new segment is started.
duke@435	1767	// The HPROF_GC_CLASS_DUMP and HPROF_GC_INSTANCE_DUMP are the vast bulk
duke@435	1768	// of the heap dump.
duke@435	1769	HeapObjectDumper obj_dumper(this, writer());
jmasa@952	1770	Universe::heap()->safe_object_iterate(&obj_dumper);
duke@435	1771
duke@435	1772	// HPROF_GC_ROOT_THREAD_OBJ + frames + jni locals
duke@435	1773	do_threads();
duke@435	1774	check_segment_length();
duke@435	1775
duke@435	1776	// HPROF_GC_ROOT_MONITOR_USED
duke@435	1777	MonitorUsedDumper mon_dumper(writer());
duke@435	1778	ObjectSynchronizer::oops_do(&mon_dumper);
duke@435	1779	check_segment_length();
duke@435	1780
duke@435	1781	// HPROF_GC_ROOT_JNI_GLOBAL
duke@435	1782	JNIGlobalsDumper jni_dumper(writer());
duke@435	1783	JNIHandles::oops_do(&jni_dumper);
duke@435	1784	check_segment_length();
duke@435	1785
duke@435	1786	// HPROF_GC_ROOT_STICKY_CLASS
duke@435	1787	StickyClassDumper class_dumper(writer());
duke@435	1788	SystemDictionary::always_strong_oops_do(&class_dumper);
duke@435	1789
duke@435	1790	// fixes up the length of the dump record. In the case of a segmented
duke@435	1791	// heap then the HPROF_HEAP_DUMP_END record is also written.
duke@435	1792	end_of_dump();
ysr@1050	1793
ysr@1050	1794	// Now we clear the global variables, so that a future dumper might run.
ysr@1050	1795	clear_global_dumper();
ysr@1050	1796	clear_global_writer();
duke@435	1797	}
duke@435	1798
mchung@831	1799	void VM_HeapDumper::dump_stack_traces() {
mchung@831	1800	// write a HPROF_TRACE record without any frames to be referenced as object alloc sites
mchung@831	1801	DumperSupport::write_header(writer(), HPROF_TRACE, 3*sizeof(u4));
mchung@831	1802	writer()->write_u4((u4) STACK_TRACE_ID);
mchung@831	1803	writer()->write_u4(0); // thread number
mchung@831	1804	writer()->write_u4(0); // frame count
mchung@831	1805
zgu@3900	1806	_stack_traces = NEW_C_HEAP_ARRAY(ThreadStackTrace*, Threads::number_of_threads(), mtInternal);
mchung@831	1807	int frame_serial_num = 0;
mchung@831	1808	for (JavaThread* thread = Threads::first(); thread != NULL ; thread = thread->next()) {
mchung@831	1809	oop threadObj = thread->threadObj();
mchung@831	1810	if (threadObj != NULL && !thread->is_exiting() && !thread->is_hidden_from_external_view()) {
mchung@831	1811	// dump thread stack trace
mchung@831	1812	ThreadStackTrace* stack_trace = new ThreadStackTrace(thread, false);
mchung@831	1813	stack_trace->dump_stack_at_safepoint(-1);
mchung@831	1814	_stack_traces[_num_threads++] = stack_trace;
mchung@831	1815
mchung@831	1816	// write HPROF_FRAME records for this thread's stack trace
mchung@831	1817	int depth = stack_trace->get_stack_depth();
mchung@831	1818	int thread_frame_start = frame_serial_num;
thurka@2130	1819	int extra_frames = 0;
thurka@2130	1820	// write fake frame that makes it look like the thread, which caused OOME,
thurka@2130	1821	// is in the OutOfMemoryError zero-parameter constructor
thurka@2130	1822	if (thread == _oome_thread && _oome_constructor != NULL) {
thurka@2130	1823	int oome_serial_num = _klass_map->find(Klass::cast(_oome_constructor->method_holder()));
thurka@2130	1824	// the class serial number starts from 1
thurka@2130	1825	assert(oome_serial_num > 0, "OutOfMemoryError class not found");
thurka@2130	1826	DumperSupport::dump_stack_frame(writer(), ++frame_serial_num, oome_serial_num,
thurka@2130	1827	_oome_constructor, 0);
thurka@2130	1828	extra_frames++;
thurka@2130	1829	}
mchung@831	1830	for (int j=0; j < depth; j++) {
mchung@831	1831	StackFrameInfo* frame = stack_trace->stack_frame_at(j);
mchung@831	1832	methodOop m = frame->method();
mchung@831	1833	int class_serial_num = _klass_map->find(Klass::cast(m->method_holder()));
mchung@831	1834	// the class serial number starts from 1
mchung@831	1835	assert(class_serial_num > 0, "class not found");
mchung@831	1836	DumperSupport::dump_stack_frame(writer(), ++frame_serial_num, class_serial_num, m, frame->bci());
mchung@831	1837	}
thurka@2130	1838	depth += extra_frames;
mchung@831	1839
mchung@831	1840	// write HPROF_TRACE record for one thread
mchung@831	1841	DumperSupport::write_header(writer(), HPROF_TRACE, 3*sizeof(u4) + depth*oopSize);
mchung@831	1842	int stack_serial_num = _num_threads + STACK_TRACE_ID;
mchung@831	1843	writer()->write_u4(stack_serial_num); // stack trace serial number
mchung@831	1844	writer()->write_u4((u4) _num_threads); // thread serial number
mchung@831	1845	writer()->write_u4(depth); // frame count
mchung@831	1846	for (int j=1; j <= depth; j++) {
mchung@831	1847	writer()->write_id(thread_frame_start + j);
mchung@831	1848	}
mchung@831	1849	}
mchung@831	1850	}
mchung@831	1851	}
duke@435	1852
duke@435	1853	// dump the heap to given path.
duke@435	1854	int HeapDumper::dump(const char* path) {
duke@435	1855	assert(path != NULL && strlen(path) > 0, "path missing");
duke@435	1856
duke@435	1857	// print message in interactive case
duke@435	1858	if (print_to_tty()) {
duke@435	1859	tty->print_cr("Dumping heap to %s ...", path);
duke@435	1860	timer()->start();
duke@435	1861	}
duke@435	1862
duke@435	1863	// create the dump writer. If the file can be opened then bail
duke@435	1864	DumpWriter writer(path);
duke@435	1865	if (!writer.is_open()) {
duke@435	1866	set_error(writer.error());
duke@435	1867	if (print_to_tty()) {
duke@435	1868	tty->print_cr("Unable to create %s: %s", path,
duke@435	1869	(error() != NULL) ? error() : "reason unknown");
duke@435	1870	}
duke@435	1871	return -1;
duke@435	1872	}
duke@435	1873
duke@435	1874	// generate the dump
thurka@2130	1875	VM_HeapDumper dumper(&writer, _gc_before_heap_dump, _oome);
ysr@1050	1876	if (Thread::current()->is_VM_thread()) {
ysr@1050	1877	assert(SafepointSynchronize::is_at_safepoint(), "Expected to be called at a safepoint");
ysr@1050	1878	dumper.doit();
ysr@1050	1879	} else {
ysr@1050	1880	VMThread::execute(&dumper);
ysr@1050	1881	}
duke@435	1882
duke@435	1883	// close dump file and record any error that the writer may have encountered
duke@435	1884	writer.close();
duke@435	1885	set_error(writer.error());
duke@435	1886
duke@435	1887	// print message in interactive case
duke@435	1888	if (print_to_tty()) {
duke@435	1889	timer()->stop();
duke@435	1890	if (error() == NULL) {
duke@435	1891	char msg[256];
duke@435	1892	sprintf(msg, "Heap dump file created [%s bytes in %3.3f secs]",
duke@435	1893	os::jlong_format_specifier(), timer()->seconds());
duke@435	1894	tty->print_cr(msg, writer.bytes_written());
duke@435	1895	} else {
duke@435	1896	tty->print_cr("Dump file is incomplete: %s", writer.error());
duke@435	1897	}
duke@435	1898	}
duke@435	1899
duke@435	1900	return (writer.error() == NULL) ? 0 : -1;
duke@435	1901	}
duke@435	1902
duke@435	1903	// stop timer (if still active), and free any error string we might be holding
duke@435	1904	HeapDumper::~HeapDumper() {
duke@435	1905	if (timer()->is_active()) {
duke@435	1906	timer()->stop();
duke@435	1907	}
duke@435	1908	set_error(NULL);
duke@435	1909	}
duke@435	1910
duke@435	1911
duke@435	1912	// returns the error string (resource allocated), or NULL
duke@435	1913	char* HeapDumper::error_as_C_string() const {
duke@435	1914	if (error() != NULL) {
duke@435	1915	char* str = NEW_RESOURCE_ARRAY(char, strlen(error())+1);
duke@435	1916	strcpy(str, error());
duke@435	1917	return str;
duke@435	1918	} else {
duke@435	1919	return NULL;
duke@435	1920	}
duke@435	1921	}
duke@435	1922
duke@435	1923	// set the error string
duke@435	1924	void HeapDumper::set_error(char* error) {
duke@435	1925	if (_error != NULL) {
duke@435	1926	os::free(_error);
duke@435	1927	}
duke@435	1928	if (error == NULL) {
duke@435	1929	_error = NULL;
duke@435	1930	} else {
duke@435	1931	_error = os::strdup(error);
duke@435	1932	assert(_error != NULL, "allocation failure");
duke@435	1933	}
duke@435	1934	}
duke@435	1935
thurka@2130	1936	// Called by out-of-memory error reporting by a single Java thread
thurka@2130	1937	// outside of a JVM safepoint
thurka@2130	1938	void HeapDumper::dump_heap_from_oome() {
thurka@2130	1939	HeapDumper::dump_heap(true);
thurka@2130	1940	}
thurka@2130	1941
ysr@1050	1942	// Called by error reporting by a single Java thread outside of a JVM safepoint,
ysr@1050	1943	// or by heap dumping by the VM thread during a (GC) safepoint. Thus, these various
ysr@1050	1944	// callers are strictly serialized and guaranteed not to interfere below. For more
ysr@1050	1945	// general use, however, this method will need modification to prevent
ysr@1050	1946	// inteference when updating the static variables base_path and dump_file_seq below.
duke@435	1947	void HeapDumper::dump_heap() {
thurka@2130	1948	HeapDumper::dump_heap(false);
thurka@2130	1949	}
thurka@2130	1950
thurka@2130	1951	void HeapDumper::dump_heap(bool oome) {
ysr@1050	1952	static char base_path[JVM_MAXPATHLEN] = {'\0'};
ysr@1050	1953	static uint dump_file_seq = 0;
coleenp@2463	1954	char* my_path;
coleenp@2463	1955	const int max_digit_chars = 20;
coleenp@2463	1956
coleenp@2463	1957	const char* dump_file_name = "java_pid";
coleenp@2463	1958	const char* dump_file_ext = ".hprof";
duke@435	1959
duke@435	1960	// The dump file defaults to java_pid<pid>.hprof in the current working
duke@435	1961	// directory. HeapDumpPath=<file> can be used to specify an alternative
duke@435	1962	// dump file name or a directory where dump file is created.
ysr@1050	1963	if (dump_file_seq == 0) { // first time in, we initialize base_path
coleenp@2463	1964	// Calculate potentially longest base path and check if we have enough
coleenp@2463	1965	// allocated statically.
coleenp@2463	1966	const size_t total_length =
coleenp@2463	1967	(HeapDumpPath == NULL ? 0 : strlen(HeapDumpPath)) +
coleenp@2463	1968	strlen(os::file_separator()) + max_digit_chars +
coleenp@2463	1969	strlen(dump_file_name) + strlen(dump_file_ext) + 1;
coleenp@2463	1970	if (total_length > sizeof(base_path)) {
coleenp@2463	1971	warning("Cannot create heap dump file. HeapDumpPath is too long.");
coleenp@2463	1972	return;
coleenp@2463	1973	}
coleenp@2463	1974
ysr@1050	1975	bool use_default_filename = true;
ysr@1050	1976	if (HeapDumpPath == NULL || HeapDumpPath[0] == '\0') {
ysr@1050	1977	// HeapDumpPath=<file> not specified
duke@435	1978	} else {
coleenp@2463	1979	strncpy(base_path, HeapDumpPath, sizeof(base_path));
ysr@1050	1980	// check if the path is a directory (must exist)
ysr@1050	1981	DIR* dir = os::opendir(base_path);
ysr@1050	1982	if (dir == NULL) {
ysr@1050	1983	use_default_filename = false;
ysr@1050	1984	} else {
ysr@1050	1985	// HeapDumpPath specified a directory. We append a file separator
ysr@1050	1986	// (if needed).
ysr@1050	1987	os::closedir(dir);
ysr@1050	1988	size_t fs_len = strlen(os::file_separator());
ysr@1050	1989	if (strlen(base_path) >= fs_len) {
ysr@1050	1990	char* end = base_path;
ysr@1050	1991	end += (strlen(base_path) - fs_len);
ysr@1050	1992	if (strcmp(end, os::file_separator()) != 0) {
ysr@1050	1993	strcat(base_path, os::file_separator());
ysr@1050	1994	}
duke@435	1995	}
duke@435	1996	}
duke@435	1997	}
ysr@1050	1998	// If HeapDumpPath wasn't a file name then we append the default name
ysr@1050	1999	if (use_default_filename) {
coleenp@2463	2000	const size_t dlen = strlen(base_path); // if heap dump dir specified
coleenp@2463	2001	jio_snprintf(&base_path[dlen], sizeof(base_path)-dlen, "%s%d%s",
coleenp@2463	2002	dump_file_name, os::current_process_id(), dump_file_ext);
ysr@1050	2003	}
coleenp@2463	2004	const size_t len = strlen(base_path) + 1;
zgu@3900	2005	my_path = (char*)os::malloc(len, mtInternal);
coleenp@2463	2006	if (my_path == NULL) {
coleenp@2463	2007	warning("Cannot create heap dump file. Out of system memory.");
coleenp@2463	2008	return;
coleenp@2463	2009	}
coleenp@2463	2010	strncpy(my_path, base_path, len);
ysr@1050	2011	} else {
ysr@1050	2012	// Append a sequence number id for dumps following the first
coleenp@2463	2013	const size_t len = strlen(base_path) + max_digit_chars + 2; // for '.' and \0
zgu@3900	2014	my_path = (char*)os::malloc(len, mtInternal);
coleenp@2463	2015	if (my_path == NULL) {
coleenp@2463	2016	warning("Cannot create heap dump file. Out of system memory.");
coleenp@2463	2017	return;
coleenp@2463	2018	}
coleenp@2463	2019	jio_snprintf(my_path, len, "%s.%d", base_path, dump_file_seq);
duke@435	2020	}
ysr@1050	2021	dump_file_seq++; // increment seq number for next time we dump
duke@435	2022
duke@435	2023	HeapDumper dumper(false /* no GC before heap dump */,
thurka@2130	2024	true /* send to tty */,
thurka@2130	2025	oome /* pass along out-of-memory-error flag */);
ysr@1050	2026	dumper.dump(my_path);
coleenp@2463	2027	os::free(my_path);
duke@435	2028	}