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src/share/vm/services/heapDumper.cpp@167b70ff3abc (annotated)

src/share/vm/services/heapDumper.cpp

Fri, 06 May 2011 16:33:13 -0700

author
never
date
Fri, 06 May 2011 16:33:13 -0700
changeset 2895
167b70ff3abc
parent 2659
57552dca1708
child 3272
2ceafe3ceb65
permissions
-rw-r--r--

6939861: JVM should handle more conversion operations
Reviewed-by: twisti, jrose

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"
stefank@2314 30 #include "memory/genCollectedHeap.hpp"
stefank@2314 31 #include "memory/universe.hpp"
stefank@2314 32 #include "oops/objArrayKlass.hpp"
stefank@2314 33 #include "runtime/javaCalls.hpp"
stefank@2314 34 #include "runtime/jniHandles.hpp"
stefank@2314 35 #include "runtime/reflectionUtils.hpp"
stefank@2314 36 #include "runtime/vframe.hpp"
stefank@2314 37 #include "runtime/vmThread.hpp"
stefank@2314 38 #include "runtime/vm_operations.hpp"
stefank@2314 39 #include "services/heapDumper.hpp"
stefank@2314 40 #include "services/threadService.hpp"
stefank@2314 41 #include "utilities/ostream.hpp"
stefank@2314 42 #ifndef SERIALGC
stefank@2314 43 #include "gc_implementation/parallelScavenge/parallelScavengeHeap.hpp"
stefank@2314 44 #endif
duke@435 45
duke@435 46 /*
duke@435 47 * HPROF binary format - description copied from:
duke@435 48 * src/share/demo/jvmti/hprof/hprof_io.c
duke@435 49 *
duke@435 50 *
duke@435 51 * header "JAVA PROFILE 1.0.1" or "JAVA PROFILE 1.0.2"
duke@435 52 * (0-terminated)
duke@435 53 *
duke@435 54 * u4 size of identifiers. Identifiers are used to represent
duke@435 55 * UTF8 strings, objects, stack traces, etc. They usually
duke@435 56 * have the same size as host pointers. For example, on
duke@435 57 * Solaris and Win32, the size is 4.
duke@435 58 * u4 high word
duke@435 59 * u4 low word number of milliseconds since 0:00 GMT, 1/1/70
duke@435 60 * [record]* a sequence of records.
duke@435 61 *
duke@435 62 *
duke@435 63 * Record format:
duke@435 64 *
duke@435 65 * u1 a TAG denoting the type of the record
duke@435 66 * u4 number of *microseconds* since the time stamp in the
duke@435 67 * header. (wraps around in a little more than an hour)
duke@435 68 * u4 number of bytes *remaining* in the record. Note that
duke@435 69 * this number excludes the tag and the length field itself.
duke@435 70 * [u1]* BODY of the record (a sequence of bytes)
duke@435 71 *
duke@435 72 *
duke@435 73 * The following TAGs are supported:
duke@435 74 *
duke@435 75 * TAG BODY notes
duke@435 76 *----------------------------------------------------------
duke@435 77 * HPROF_UTF8 a UTF8-encoded name
duke@435 78 *
duke@435 79 * id name ID
duke@435 80 * [u1]* UTF8 characters (no trailing zero)
duke@435 81 *
duke@435 82 * HPROF_LOAD_CLASS a newly loaded class
duke@435 83 *
duke@435 84 * u4 class serial number (> 0)
duke@435 85 * id class object ID
duke@435 86 * u4 stack trace serial number
duke@435 87 * id class name ID
duke@435 88 *
duke@435 89 * HPROF_UNLOAD_CLASS an unloading class
duke@435 90 *
duke@435 91 * u4 class serial_number
duke@435 92 *
duke@435 93 * HPROF_FRAME a Java stack frame
duke@435 94 *
duke@435 95 * id stack frame ID
duke@435 96 * id method name ID
duke@435 97 * id method signature ID
duke@435 98 * id source file name ID
duke@435 99 * u4 class serial number
duke@435 100 * i4 line number. >0: normal
duke@435 101 * -1: unknown
duke@435 102 * -2: compiled method
duke@435 103 * -3: native method
duke@435 104 *
duke@435 105 * HPROF_TRACE a Java stack trace
duke@435 106 *
duke@435 107 * u4 stack trace serial number
duke@435 108 * u4 thread serial number
duke@435 109 * u4 number of frames
duke@435 110 * [id]* stack frame IDs
duke@435 111 *
duke@435 112 *
duke@435 113 * HPROF_ALLOC_SITES a set of heap allocation sites, obtained after GC
duke@435 114 *
duke@435 115 * u2 flags 0x0001: incremental vs. complete
duke@435 116 * 0x0002: sorted by allocation vs. live
duke@435 117 * 0x0004: whether to force a GC
duke@435 118 * u4 cutoff ratio
duke@435 119 * u4 total live bytes
duke@435 120 * u4 total live instances
duke@435 121 * u8 total bytes allocated
duke@435 122 * u8 total instances allocated
duke@435 123 * u4 number of sites that follow
duke@435 124 * [u1 is_array: 0: normal object
duke@435 125 * 2: object array
duke@435 126 * 4: boolean array
duke@435 127 * 5: char array
duke@435 128 * 6: float array
duke@435 129 * 7: double array
duke@435 130 * 8: byte array
duke@435 131 * 9: short array
duke@435 132 * 10: int array
duke@435 133 * 11: long array
duke@435 134 * u4 class serial number (may be zero during startup)
duke@435 135 * u4 stack trace serial number
duke@435 136 * u4 number of bytes alive
duke@435 137 * u4 number of instances alive
duke@435 138 * u4 number of bytes allocated
duke@435 139 * u4]* number of instance allocated
duke@435 140 *
duke@435 141 * HPROF_START_THREAD a newly started thread.
duke@435 142 *
duke@435 143 * u4 thread serial number (> 0)
duke@435 144 * id thread object ID
duke@435 145 * u4 stack trace serial number
duke@435 146 * id thread name ID
duke@435 147 * id thread group name ID
duke@435 148 * id thread group parent name ID
duke@435 149 *
duke@435 150 * HPROF_END_THREAD a terminating thread.
duke@435 151 *
duke@435 152 * u4 thread serial number
duke@435 153 *
duke@435 154 * HPROF_HEAP_SUMMARY heap summary
duke@435 155 *
duke@435 156 * u4 total live bytes
duke@435 157 * u4 total live instances
duke@435 158 * u8 total bytes allocated
duke@435 159 * u8 total instances allocated
duke@435 160 *
duke@435 161 * HPROF_HEAP_DUMP denote a heap dump
duke@435 162 *
duke@435 163 * [heap dump sub-records]*
duke@435 164 *
duke@435 165 * There are four kinds of heap dump sub-records:
duke@435 166 *
duke@435 167 * u1 sub-record type
duke@435 168 *
duke@435 169 * HPROF_GC_ROOT_UNKNOWN unknown root
duke@435 170 *
duke@435 171 * id object ID
duke@435 172 *
duke@435 173 * HPROF_GC_ROOT_THREAD_OBJ thread object
duke@435 174 *
duke@435 175 * id thread object ID (may be 0 for a
duke@435 176 * thread newly attached through JNI)
duke@435 177 * u4 thread sequence number
duke@435 178 * u4 stack trace sequence number
duke@435 179 *
duke@435 180 * HPROF_GC_ROOT_JNI_GLOBAL JNI global ref root
duke@435 181 *
duke@435 182 * id object ID
duke@435 183 * id JNI global ref ID
duke@435 184 *
duke@435 185 * HPROF_GC_ROOT_JNI_LOCAL JNI local ref
duke@435 186 *
duke@435 187 * id object ID
duke@435 188 * u4 thread serial number
duke@435 189 * u4 frame # in stack trace (-1 for empty)
duke@435 190 *
duke@435 191 * HPROF_GC_ROOT_JAVA_FRAME Java stack frame
duke@435 192 *
duke@435 193 * id object ID
duke@435 194 * u4 thread serial number
duke@435 195 * u4 frame # in stack trace (-1 for empty)
duke@435 196 *
duke@435 197 * HPROF_GC_ROOT_NATIVE_STACK Native stack
duke@435 198 *
duke@435 199 * id object ID
duke@435 200 * u4 thread serial number
duke@435 201 *
duke@435 202 * HPROF_GC_ROOT_STICKY_CLASS System class
duke@435 203 *
duke@435 204 * id object ID
duke@435 205 *
duke@435 206 * HPROF_GC_ROOT_THREAD_BLOCK Reference from thread block
duke@435 207 *
duke@435 208 * id object ID
duke@435 209 * u4 thread serial number
duke@435 210 *
duke@435 211 * HPROF_GC_ROOT_MONITOR_USED Busy monitor
duke@435 212 *
duke@435 213 * id object ID
duke@435 214 *
duke@435 215 * HPROF_GC_CLASS_DUMP dump of a class object
duke@435 216 *
duke@435 217 * id class object ID
duke@435 218 * u4 stack trace serial number
duke@435 219 * id super class object ID
duke@435 220 * id class loader object ID
duke@435 221 * id signers object ID
duke@435 222 * id protection domain object ID
duke@435 223 * id reserved
duke@435 224 * id reserved
duke@435 225 *
duke@435 226 * u4 instance size (in bytes)
duke@435 227 *
duke@435 228 * u2 size of constant pool
duke@435 229 * [u2, constant pool index,
duke@435 230 * ty, type
duke@435 231 * 2: object
duke@435 232 * 4: boolean
duke@435 233 * 5: char
duke@435 234 * 6: float
duke@435 235 * 7: double
duke@435 236 * 8: byte
duke@435 237 * 9: short
duke@435 238 * 10: int
duke@435 239 * 11: long
duke@435 240 * vl]* and value
duke@435 241 *
duke@435 242 * u2 number of static fields
duke@435 243 * [id, static field name,
duke@435 244 * ty, type,
duke@435 245 * vl]* and value
duke@435 246 *
duke@435 247 * u2 number of inst. fields (not inc. super)
duke@435 248 * [id, instance field name,
duke@435 249 * ty]* type
duke@435 250 *
duke@435 251 * HPROF_GC_INSTANCE_DUMP dump of a normal object
duke@435 252 *
duke@435 253 * id object ID
duke@435 254 * u4 stack trace serial number
duke@435 255 * id class object ID
duke@435 256 * u4 number of bytes that follow
duke@435 257 * [vl]* instance field values (class, followed
duke@435 258 * by super, super's super ...)
duke@435 259 *
duke@435 260 * HPROF_GC_OBJ_ARRAY_DUMP dump of an object array
duke@435 261 *
duke@435 262 * id array object ID
duke@435 263 * u4 stack trace serial number
duke@435 264 * u4 number of elements
duke@435 265 * id array class ID
duke@435 266 * [id]* elements
duke@435 267 *
duke@435 268 * HPROF_GC_PRIM_ARRAY_DUMP dump of a primitive array
duke@435 269 *
duke@435 270 * id array object ID
duke@435 271 * u4 stack trace serial number
duke@435 272 * u4 number of elements
duke@435 273 * u1 element type
duke@435 274 * 4: boolean array
duke@435 275 * 5: char array
duke@435 276 * 6: float array
duke@435 277 * 7: double array
duke@435 278 * 8: byte array
duke@435 279 * 9: short array
duke@435 280 * 10: int array
duke@435 281 * 11: long array
duke@435 282 * [u1]* elements
duke@435 283 *
duke@435 284 * HPROF_CPU_SAMPLES a set of sample traces of running threads
duke@435 285 *
duke@435 286 * u4 total number of samples
duke@435 287 * u4 # of traces
duke@435 288 * [u4 # of samples
duke@435 289 * u4]* stack trace serial number
duke@435 290 *
duke@435 291 * HPROF_CONTROL_SETTINGS the settings of on/off switches
duke@435 292 *
duke@435 293 * u4 0x00000001: alloc traces on/off
duke@435 294 * 0x00000002: cpu sampling on/off
duke@435 295 * u2 stack trace depth
duke@435 296 *
duke@435 297 *
duke@435 298 * When the header is "JAVA PROFILE 1.0.2" a heap dump can optionally
duke@435 299 * be generated as a sequence of heap dump segments. This sequence is
duke@435 300 * terminated by an end record. The additional tags allowed by format
duke@435 301 * "JAVA PROFILE 1.0.2" are:
duke@435 302 *
duke@435 303 * HPROF_HEAP_DUMP_SEGMENT denote a heap dump segment
duke@435 304 *
duke@435 305 * [heap dump sub-records]*
duke@435 306 * The same sub-record types allowed by HPROF_HEAP_DUMP
duke@435 307 *
duke@435 308 * HPROF_HEAP_DUMP_END denotes the end of a heap dump
duke@435 309 *
duke@435 310 */
duke@435 311
duke@435 312
duke@435 313 // HPROF tags
duke@435 314
duke@435 315 typedef enum {
duke@435 316 // top-level records
duke@435 317 HPROF_UTF8 = 0x01,
duke@435 318 HPROF_LOAD_CLASS = 0x02,
duke@435 319 HPROF_UNLOAD_CLASS = 0x03,
duke@435 320 HPROF_FRAME = 0x04,
duke@435 321 HPROF_TRACE = 0x05,
duke@435 322 HPROF_ALLOC_SITES = 0x06,
duke@435 323 HPROF_HEAP_SUMMARY = 0x07,
duke@435 324 HPROF_START_THREAD = 0x0A,
duke@435 325 HPROF_END_THREAD = 0x0B,
duke@435 326 HPROF_HEAP_DUMP = 0x0C,
duke@435 327 HPROF_CPU_SAMPLES = 0x0D,
duke@435 328 HPROF_CONTROL_SETTINGS = 0x0E,
duke@435 329
duke@435 330 // 1.0.2 record types
duke@435 331 HPROF_HEAP_DUMP_SEGMENT = 0x1C,
duke@435 332 HPROF_HEAP_DUMP_END = 0x2C,
duke@435 333
duke@435 334 // field types
duke@435 335 HPROF_ARRAY_OBJECT = 0x01,
duke@435 336 HPROF_NORMAL_OBJECT = 0x02,
duke@435 337 HPROF_BOOLEAN = 0x04,
duke@435 338 HPROF_CHAR = 0x05,
duke@435 339 HPROF_FLOAT = 0x06,
duke@435 340 HPROF_DOUBLE = 0x07,
duke@435 341 HPROF_BYTE = 0x08,
duke@435 342 HPROF_SHORT = 0x09,
duke@435 343 HPROF_INT = 0x0A,
duke@435 344 HPROF_LONG = 0x0B,
duke@435 345
duke@435 346 // data-dump sub-records
duke@435 347 HPROF_GC_ROOT_UNKNOWN = 0xFF,
duke@435 348 HPROF_GC_ROOT_JNI_GLOBAL = 0x01,
duke@435 349 HPROF_GC_ROOT_JNI_LOCAL = 0x02,
duke@435 350 HPROF_GC_ROOT_JAVA_FRAME = 0x03,
duke@435 351 HPROF_GC_ROOT_NATIVE_STACK = 0x04,
duke@435 352 HPROF_GC_ROOT_STICKY_CLASS = 0x05,
duke@435 353 HPROF_GC_ROOT_THREAD_BLOCK = 0x06,
duke@435 354 HPROF_GC_ROOT_MONITOR_USED = 0x07,
duke@435 355 HPROF_GC_ROOT_THREAD_OBJ = 0x08,
duke@435 356 HPROF_GC_CLASS_DUMP = 0x20,
duke@435 357 HPROF_GC_INSTANCE_DUMP = 0x21,
duke@435 358 HPROF_GC_OBJ_ARRAY_DUMP = 0x22,
duke@435 359 HPROF_GC_PRIM_ARRAY_DUMP = 0x23
duke@435 360 } hprofTag;
duke@435 361
duke@435 362 // Default stack trace ID (used for dummy HPROF_TRACE record)
duke@435 363 enum {
mchung@831 364 STACK_TRACE_ID = 1,
mchung@831 365 INITIAL_CLASS_COUNT = 200
duke@435 366 };
duke@435 367
duke@435 368 // Supports I/O operations on a dump file
duke@435 369
duke@435 370 class DumpWriter : public StackObj {
duke@435 371 private:
duke@435 372 enum {
duke@435 373 io_buffer_size = 8*M
duke@435 374 };
duke@435 375
duke@435 376 int _fd; // file descriptor (-1 if dump file not open)
duke@435 377 jlong _bytes_written; // number of byte written to dump file
duke@435 378
duke@435 379 char* _buffer; // internal buffer
duke@435 380 int _size;
duke@435 381 int _pos;
duke@435 382
duke@435 383 char* _error; // error message when I/O fails
duke@435 384
duke@435 385 void set_file_descriptor(int fd) { _fd = fd; }
duke@435 386 int file_descriptor() const { return _fd; }
duke@435 387
duke@435 388 char* buffer() const { return _buffer; }
duke@435 389 int buffer_size() const { return _size; }
duke@435 390 int position() const { return _pos; }
duke@435 391 void set_position(int pos) { _pos = pos; }
duke@435 392
duke@435 393 void set_error(const char* error) { _error = (char*)os::strdup(error); }
duke@435 394
duke@435 395 // all I/O go through this function
duke@435 396 void write_internal(void* s, int len);
duke@435 397
duke@435 398 public:
duke@435 399 DumpWriter(const char* path);
duke@435 400 ~DumpWriter();
duke@435 401
duke@435 402 void close();
duke@435 403 bool is_open() const { return file_descriptor() >= 0; }
duke@435 404 void flush();
duke@435 405
duke@435 406 // total number of bytes written to the disk
duke@435 407 jlong bytes_written() const { return _bytes_written; }
duke@435 408
duke@435 409 // adjust the number of bytes written to disk (used to keep the count
duke@435 410 // of the number of bytes written in case of rewrites)
duke@435 411 void adjust_bytes_written(jlong n) { _bytes_written += n; }
duke@435 412
duke@435 413 // number of (buffered) bytes as yet unwritten to the dump file
duke@435 414 jlong bytes_unwritten() const { return (jlong)position(); }
duke@435 415
duke@435 416 char* error() const { return _error; }
duke@435 417
duke@435 418 jlong current_offset();
duke@435 419 void seek_to_offset(jlong pos);
duke@435 420
duke@435 421 // writer functions
duke@435 422 void write_raw(void* s, int len);
duke@435 423 void write_u1(u1 x) { write_raw((void*)&x, 1); }
duke@435 424 void write_u2(u2 x);
duke@435 425 void write_u4(u4 x);
duke@435 426 void write_u8(u8 x);
duke@435 427 void write_objectID(oop o);
coleenp@2497 428 void write_symbolID(Symbol* o);
duke@435 429 void write_classID(Klass* k);
mchung@831 430 void write_id(u4 x);
duke@435 431 };
duke@435 432
duke@435 433 DumpWriter::DumpWriter(const char* path) {
duke@435 434 // try to allocate an I/O buffer of io_buffer_size. If there isn't
duke@435 435 // sufficient memory then reduce size until we can allocate something.
duke@435 436 _size = io_buffer_size;
duke@435 437 do {
duke@435 438 _buffer = (char*)os::malloc(_size);
duke@435 439 if (_buffer == NULL) {
duke@435 440 _size = _size >> 1;
duke@435 441 }
duke@435 442 } while (_buffer == NULL && _size > 0);
duke@435 443 assert((_size > 0 && _buffer != NULL) || (_size == 0 && _buffer == NULL), "sanity check");
duke@435 444 _pos = 0;
duke@435 445 _error = NULL;
duke@435 446 _bytes_written = 0L;
duke@435 447 _fd = os::create_binary_file(path, false); // don't replace existing file
duke@435 448
duke@435 449 // if the open failed we record the error
duke@435 450 if (_fd < 0) {
duke@435 451 _error = (char*)os::strdup(strerror(errno));
duke@435 452 }
duke@435 453 }
duke@435 454
duke@435 455 DumpWriter::~DumpWriter() {
duke@435 456 // flush and close dump file
coleenp@2463 457 if (is_open()) {
duke@435 458 close();
duke@435 459 }
duke@435 460 if (_buffer != NULL) os::free(_buffer);
duke@435 461 if (_error != NULL) os::free(_error);
duke@435 462 }
duke@435 463
duke@435 464 // closes dump file (if open)
duke@435 465 void DumpWriter::close() {
duke@435 466 // flush and close dump file
coleenp@2463 467 if (is_open()) {
duke@435 468 flush();
duke@435 469 ::close(file_descriptor());
coleenp@2463 470 set_file_descriptor(-1);
duke@435 471 }
duke@435 472 }
duke@435 473
duke@435 474 // write directly to the file
duke@435 475 void DumpWriter::write_internal(void* s, int len) {
duke@435 476 if (is_open()) {
duke@435 477 int n = ::write(file_descriptor(), s, len);
duke@435 478 if (n > 0) {
duke@435 479 _bytes_written += n;
duke@435 480 }
duke@435 481 if (n != len) {
duke@435 482 if (n < 0) {
duke@435 483 set_error(strerror(errno));
duke@435 484 } else {
duke@435 485 set_error("file size limit");
duke@435 486 }
duke@435 487 ::close(file_descriptor());
duke@435 488 set_file_descriptor(-1);
duke@435 489 }
duke@435 490 }
duke@435 491 }
duke@435 492
duke@435 493 // write raw bytes
duke@435 494 void DumpWriter::write_raw(void* s, int len) {
duke@435 495 if (is_open()) {
duke@435 496 // flush buffer to make toom
duke@435 497 if ((position()+ len) >= buffer_size()) {
duke@435 498 flush();
duke@435 499 }
duke@435 500
duke@435 501 // buffer not available or too big to buffer it
duke@435 502 if ((buffer() == NULL) || (len >= buffer_size())) {
duke@435 503 write_internal(s, len);
duke@435 504 } else {
duke@435 505 // Should optimize this for u1/u2/u4/u8 sizes.
duke@435 506 memcpy(buffer() + position(), s, len);
duke@435 507 set_position(position() + len);
duke@435 508 }
duke@435 509 }
duke@435 510 }
duke@435 511
duke@435 512 // flush any buffered bytes to the file
duke@435 513 void DumpWriter::flush() {
duke@435 514 if (is_open() && position() > 0) {
duke@435 515 write_internal(buffer(), position());
duke@435 516 set_position(0);
duke@435 517 }
duke@435 518 }
duke@435 519
duke@435 520
duke@435 521 jlong DumpWriter::current_offset() {
duke@435 522 if (is_open()) {
duke@435 523 // the offset is the file offset plus whatever we have buffered
duke@435 524 jlong offset = os::current_file_offset(file_descriptor());
duke@435 525 assert(offset >= 0, "lseek failed");
duke@435 526 return offset + (jlong)position();
duke@435 527 } else {
duke@435 528 return (jlong)-1;
duke@435 529 }
duke@435 530 }
duke@435 531
duke@435 532 void DumpWriter::seek_to_offset(jlong off) {
duke@435 533 assert(off >= 0, "bad offset");
duke@435 534
duke@435 535 // need to flush before seeking
duke@435 536 flush();
duke@435 537
duke@435 538 // may be closed due to I/O error
duke@435 539 if (is_open()) {
duke@435 540 jlong n = os::seek_to_file_offset(file_descriptor(), off);
duke@435 541 assert(n >= 0, "lseek failed");
duke@435 542 }
duke@435 543 }
duke@435 544
duke@435 545 void DumpWriter::write_u2(u2 x) {
duke@435 546 u2 v;
duke@435 547 Bytes::put_Java_u2((address)&v, x);
duke@435 548 write_raw((void*)&v, 2);
duke@435 549 }
duke@435 550
duke@435 551 void DumpWriter::write_u4(u4 x) {
duke@435 552 u4 v;
duke@435 553 Bytes::put_Java_u4((address)&v, x);
duke@435 554 write_raw((void*)&v, 4);
duke@435 555 }
duke@435 556
duke@435 557 void DumpWriter::write_u8(u8 x) {
duke@435 558 u8 v;
duke@435 559 Bytes::put_Java_u8((address)&v, x);
duke@435 560 write_raw((void*)&v, 8);
duke@435 561 }
duke@435 562
duke@435 563 void DumpWriter::write_objectID(oop o) {
duke@435 564 address a = (address)((uintptr_t)o);
duke@435 565 #ifdef _LP64
duke@435 566 write_u8((u8)a);
duke@435 567 #else
duke@435 568 write_u4((u4)a);
duke@435 569 #endif
duke@435 570 }
duke@435 571
coleenp@2497 572 void DumpWriter::write_symbolID(Symbol* s) {
coleenp@2497 573 address a = (address)((uintptr_t)s);
coleenp@2497 574 #ifdef _LP64
coleenp@2497 575 write_u8((u8)a);
coleenp@2497 576 #else
coleenp@2497 577 write_u4((u4)a);
coleenp@2497 578 #endif
coleenp@2497 579 }
coleenp@2497 580
mchung@831 581 void DumpWriter::write_id(u4 x) {
mchung@831 582 #ifdef _LP64
mchung@831 583 write_u8((u8) x);
mchung@831 584 #else
mchung@831 585 write_u4(x);
mchung@831 586 #endif
mchung@831 587 }
mchung@831 588
duke@435 589 // We use java mirror as the class ID
duke@435 590 void DumpWriter::write_classID(Klass* k) {
duke@435 591 write_objectID(k->java_mirror());
duke@435 592 }
duke@435 593
duke@435 594
duke@435 595
duke@435 596 // Support class with a collection of functions used when dumping the heap
duke@435 597
duke@435 598 class DumperSupport : AllStatic {
duke@435 599 public:
duke@435 600
duke@435 601 // write a header of the given type
duke@435 602 static void write_header(DumpWriter* writer, hprofTag tag, u4 len);
duke@435 603
duke@435 604 // returns hprof tag for the given type signature
coleenp@2497 605 static hprofTag sig2tag(Symbol* sig);
duke@435 606 // returns hprof tag for the given basic type
duke@435 607 static hprofTag type2tag(BasicType type);
duke@435 608
duke@435 609 // returns the size of the instance of the given class
duke@435 610 static u4 instance_size(klassOop k);
duke@435 611
duke@435 612 // dump a jfloat
duke@435 613 static void dump_float(DumpWriter* writer, jfloat f);
duke@435 614 // dump a jdouble
duke@435 615 static void dump_double(DumpWriter* writer, jdouble d);
duke@435 616 // dumps the raw value of the given field
duke@435 617 static void dump_field_value(DumpWriter* writer, char type, address addr);
duke@435 618 // dumps static fields of the given class
duke@435 619 static void dump_static_fields(DumpWriter* writer, klassOop k);
duke@435 620 // dump the raw values of the instance fields of the given object
duke@435 621 static void dump_instance_fields(DumpWriter* writer, oop o);
duke@435 622 // dumps the definition of the instance fields for a given class
duke@435 623 static void dump_instance_field_descriptors(DumpWriter* writer, klassOop k);
duke@435 624 // creates HPROF_GC_INSTANCE_DUMP record for the given object
duke@435 625 static void dump_instance(DumpWriter* writer, oop o);
duke@435 626 // creates HPROF_GC_CLASS_DUMP record for the given class and each of its
duke@435 627 // array classes
duke@435 628 static void dump_class_and_array_classes(DumpWriter* writer, klassOop k);
duke@435 629 // creates HPROF_GC_CLASS_DUMP record for a given primitive array
duke@435 630 // class (and each multi-dimensional array class too)
duke@435 631 static void dump_basic_type_array_class(DumpWriter* writer, klassOop k);
duke@435 632
duke@435 633 // creates HPROF_GC_OBJ_ARRAY_DUMP record for the given object array
duke@435 634 static void dump_object_array(DumpWriter* writer, objArrayOop array);
duke@435 635 // creates HPROF_GC_PRIM_ARRAY_DUMP record for the given type array
duke@435 636 static void dump_prim_array(DumpWriter* writer, typeArrayOop array);
mchung@831 637 // create HPROF_FRAME record for the given method and bci
mchung@831 638 static void dump_stack_frame(DumpWriter* writer, int frame_serial_num, int class_serial_num, methodOop m, int bci);
duke@435 639 };
duke@435 640
duke@435 641 // write a header of the given type
duke@435 642 void DumperSupport:: write_header(DumpWriter* writer, hprofTag tag, u4 len) {
duke@435 643 writer->write_u1((u1)tag);
duke@435 644 writer->write_u4(0); // current ticks
duke@435 645 writer->write_u4(len);
duke@435 646 }
duke@435 647
duke@435 648 // returns hprof tag for the given type signature
coleenp@2497 649 hprofTag DumperSupport::sig2tag(Symbol* sig) {
duke@435 650 switch (sig->byte_at(0)) {
duke@435 651 case JVM_SIGNATURE_CLASS : return HPROF_NORMAL_OBJECT;
duke@435 652 case JVM_SIGNATURE_ARRAY : return HPROF_NORMAL_OBJECT;
duke@435 653 case JVM_SIGNATURE_BYTE : return HPROF_BYTE;
duke@435 654 case JVM_SIGNATURE_CHAR : return HPROF_CHAR;
duke@435 655 case JVM_SIGNATURE_FLOAT : return HPROF_FLOAT;
duke@435 656 case JVM_SIGNATURE_DOUBLE : return HPROF_DOUBLE;
duke@435 657 case JVM_SIGNATURE_INT : return HPROF_INT;
duke@435 658 case JVM_SIGNATURE_LONG : return HPROF_LONG;
duke@435 659 case JVM_SIGNATURE_SHORT : return HPROF_SHORT;
duke@435 660 case JVM_SIGNATURE_BOOLEAN : return HPROF_BOOLEAN;
duke@435 661 default : ShouldNotReachHere(); /* to shut up compiler */ return HPROF_BYTE;
duke@435 662 }
duke@435 663 }
duke@435 664
duke@435 665 hprofTag DumperSupport::type2tag(BasicType type) {
duke@435 666 switch (type) {
duke@435 667 case T_BYTE : return HPROF_BYTE;
duke@435 668 case T_CHAR : return HPROF_CHAR;
duke@435 669 case T_FLOAT : return HPROF_FLOAT;
duke@435 670 case T_DOUBLE : return HPROF_DOUBLE;
duke@435 671 case T_INT : return HPROF_INT;
duke@435 672 case T_LONG : return HPROF_LONG;
duke@435 673 case T_SHORT : return HPROF_SHORT;
duke@435 674 case T_BOOLEAN : return HPROF_BOOLEAN;
duke@435 675 default : ShouldNotReachHere(); /* to shut up compiler */ return HPROF_BYTE;
duke@435 676 }
duke@435 677 }
duke@435 678
duke@435 679 // dump a jfloat
duke@435 680 void DumperSupport::dump_float(DumpWriter* writer, jfloat f) {
duke@435 681 if (g_isnan(f)) {
duke@435 682 writer->write_u4(0x7fc00000); // collapsing NaNs
duke@435 683 } else {
duke@435 684 union {
duke@435 685 int i;
duke@435 686 float f;
duke@435 687 } u;
duke@435 688 u.f = (float)f;
duke@435 689 writer->write_u4((u4)u.i);
duke@435 690 }
duke@435 691 }
duke@435 692
duke@435 693 // dump a jdouble
duke@435 694 void DumperSupport::dump_double(DumpWriter* writer, jdouble d) {
duke@435 695 union {
duke@435 696 jlong l;
duke@435 697 double d;
duke@435 698 } u;
duke@435 699 if (g_isnan(d)) { // collapsing NaNs
duke@435 700 u.l = (jlong)(0x7ff80000);
duke@435 701 u.l = (u.l << 32);
duke@435 702 } else {
duke@435 703 u.d = (double)d;
duke@435 704 }
duke@435 705 writer->write_u8((u8)u.l);
duke@435 706 }
duke@435 707
duke@435 708 // dumps the raw value of the given field
duke@435 709 void DumperSupport::dump_field_value(DumpWriter* writer, char type, address addr) {
duke@435 710 switch (type) {
duke@435 711 case JVM_SIGNATURE_CLASS :
duke@435 712 case JVM_SIGNATURE_ARRAY : {
coleenp@548 713 oop o;
coleenp@548 714 if (UseCompressedOops) {
coleenp@548 715 o = oopDesc::load_decode_heap_oop((narrowOop*)addr);
coleenp@548 716 } else {
coleenp@548 717 o = oopDesc::load_decode_heap_oop((oop*)addr);
coleenp@548 718 }
duke@435 719
duke@435 720 // reflection and sun.misc.Unsafe classes may have a reference to a
duke@435 721 // klassOop so filter it out.
duke@435 722 if (o != NULL && o->is_klass()) {
duke@435 723 o = NULL;
duke@435 724 }
duke@435 725
duke@435 726 // FIXME: When sharing is enabled we don't emit field references to objects
duke@435 727 // in shared spaces. We can remove this once we write records for the classes
duke@435 728 // and strings that are shared.
duke@435 729 if (o != NULL && o->is_shared()) {
duke@435 730 o = NULL;
duke@435 731 }
duke@435 732 writer->write_objectID(o);
duke@435 733 break;
duke@435 734 }
duke@435 735 case JVM_SIGNATURE_BYTE : {
duke@435 736 jbyte* b = (jbyte*)addr;
duke@435 737 writer->write_u1((u1)*b);
duke@435 738 break;
duke@435 739 }
duke@435 740 case JVM_SIGNATURE_CHAR : {
duke@435 741 jchar* c = (jchar*)addr;
duke@435 742 writer->write_u2((u2)*c);
duke@435 743 break;
duke@435 744 }
duke@435 745 case JVM_SIGNATURE_SHORT : {
duke@435 746 jshort* s = (jshort*)addr;
duke@435 747 writer->write_u2((u2)*s);
duke@435 748 break;
duke@435 749 }
duke@435 750 case JVM_SIGNATURE_FLOAT : {
duke@435 751 jfloat* f = (jfloat*)addr;
duke@435 752 dump_float(writer, *f);
duke@435 753 break;
duke@435 754 }
duke@435 755 case JVM_SIGNATURE_DOUBLE : {
duke@435 756 jdouble* f = (jdouble*)addr;
duke@435 757 dump_double(writer, *f);
duke@435 758 break;
duke@435 759 }
duke@435 760 case JVM_SIGNATURE_INT : {
duke@435 761 jint* i = (jint*)addr;
duke@435 762 writer->write_u4((u4)*i);
duke@435 763 break;
duke@435 764 }
duke@435 765 case JVM_SIGNATURE_LONG : {
duke@435 766 jlong* l = (jlong*)addr;
duke@435 767 writer->write_u8((u8)*l);
duke@435 768 break;
duke@435 769 }
duke@435 770 case JVM_SIGNATURE_BOOLEAN : {
duke@435 771 jboolean* b = (jboolean*)addr;
duke@435 772 writer->write_u1((u1)*b);
duke@435 773 break;
duke@435 774 }
duke@435 775 default : ShouldNotReachHere();
duke@435 776 }
duke@435 777 }
duke@435 778
duke@435 779 // returns the size of the instance of the given class
duke@435 780 u4 DumperSupport::instance_size(klassOop k) {
duke@435 781 HandleMark hm;
duke@435 782 instanceKlassHandle ikh = instanceKlassHandle(Thread::current(), k);
duke@435 783
duke@435 784 int size = 0;
duke@435 785
duke@435 786 for (FieldStream fld(ikh, false, false); !fld.eos(); fld.next()) {
duke@435 787 if (!fld.access_flags().is_static()) {
coleenp@2497 788 Symbol* sig = fld.signature();
duke@435 789 switch (sig->byte_at(0)) {
duke@435 790 case JVM_SIGNATURE_CLASS :
duke@435 791 case JVM_SIGNATURE_ARRAY : size += oopSize; break;
duke@435 792
duke@435 793 case JVM_SIGNATURE_BYTE :
duke@435 794 case JVM_SIGNATURE_BOOLEAN : size += 1; break;
duke@435 795
duke@435 796 case JVM_SIGNATURE_CHAR :
duke@435 797 case JVM_SIGNATURE_SHORT : size += 2; break;
duke@435 798
duke@435 799 case JVM_SIGNATURE_INT :
duke@435 800 case JVM_SIGNATURE_FLOAT : size += 4; break;
duke@435 801
duke@435 802 case JVM_SIGNATURE_LONG :
duke@435 803 case JVM_SIGNATURE_DOUBLE : size += 8; break;
duke@435 804
duke@435 805 default : ShouldNotReachHere();
duke@435 806 }
duke@435 807 }
duke@435 808 }
duke@435 809 return (u4)size;
duke@435 810 }
duke@435 811
duke@435 812 // dumps static fields of the given class
duke@435 813 void DumperSupport::dump_static_fields(DumpWriter* writer, klassOop k) {
duke@435 814 HandleMark hm;
duke@435 815 instanceKlassHandle ikh = instanceKlassHandle(Thread::current(), k);
duke@435 816
duke@435 817 // pass 1 - count the static fields
duke@435 818 u2 field_count = 0;
duke@435 819 for (FieldStream fldc(ikh, true, true); !fldc.eos(); fldc.next()) {
duke@435 820 if (fldc.access_flags().is_static()) field_count++;
duke@435 821 }
duke@435 822
duke@435 823 writer->write_u2(field_count);
duke@435 824
duke@435 825 // pass 2 - dump the field descriptors and raw values
duke@435 826 for (FieldStream fld(ikh, true, true); !fld.eos(); fld.next()) {
duke@435 827 if (fld.access_flags().is_static()) {
coleenp@2497 828 Symbol* sig = fld.signature();
duke@435 829
coleenp@2497 830 writer->write_symbolID(fld.name()); // name
duke@435 831 writer->write_u1(sig2tag(sig)); // type
duke@435 832
duke@435 833 // value
duke@435 834 int offset = fld.offset();
never@2659 835 address addr = (address)ikh->java_mirror() + offset;
duke@435 836
duke@435 837 dump_field_value(writer, sig->byte_at(0), addr);
duke@435 838 }
duke@435 839 }
duke@435 840 }
duke@435 841
duke@435 842 // dump the raw values of the instance fields of the given object
duke@435 843 void DumperSupport::dump_instance_fields(DumpWriter* writer, oop o) {
duke@435 844 HandleMark hm;
duke@435 845 instanceKlassHandle ikh = instanceKlassHandle(Thread::current(), o->klass());
duke@435 846
duke@435 847 for (FieldStream fld(ikh, false, false); !fld.eos(); fld.next()) {
duke@435 848 if (!fld.access_flags().is_static()) {
coleenp@2497 849 Symbol* sig = fld.signature();
duke@435 850 address addr = (address)o + fld.offset();
duke@435 851
duke@435 852 dump_field_value(writer, sig->byte_at(0), addr);
duke@435 853 }
duke@435 854 }
duke@435 855 }
duke@435 856
duke@435 857 // dumps the definition of the instance fields for a given class
duke@435 858 void DumperSupport::dump_instance_field_descriptors(DumpWriter* writer, klassOop k) {
duke@435 859 HandleMark hm;
duke@435 860 instanceKlassHandle ikh = instanceKlassHandle(Thread::current(), k);
duke@435 861
duke@435 862 // pass 1 - count the instance fields
duke@435 863 u2 field_count = 0;
duke@435 864 for (FieldStream fldc(ikh, true, true); !fldc.eos(); fldc.next()) {
duke@435 865 if (!fldc.access_flags().is_static()) field_count++;
duke@435 866 }
duke@435 867
duke@435 868 writer->write_u2(field_count);
duke@435 869
duke@435 870 // pass 2 - dump the field descriptors
duke@435 871 for (FieldStream fld(ikh, true, true); !fld.eos(); fld.next()) {
duke@435 872 if (!fld.access_flags().is_static()) {
coleenp@2497 873 Symbol* sig = fld.signature();
duke@435 874
coleenp@2497 875 writer->write_symbolID(fld.name()); // name
duke@435 876 writer->write_u1(sig2tag(sig)); // type
duke@435 877 }
duke@435 878 }
duke@435 879 }
duke@435 880
duke@435 881 // creates HPROF_GC_INSTANCE_DUMP record for the given object
duke@435 882 void DumperSupport::dump_instance(DumpWriter* writer, oop o) {
duke@435 883 klassOop k = o->klass();
duke@435 884
duke@435 885 writer->write_u1(HPROF_GC_INSTANCE_DUMP);
duke@435 886 writer->write_objectID(o);
duke@435 887 writer->write_u4(STACK_TRACE_ID);
duke@435 888
duke@435 889 // class ID
duke@435 890 writer->write_classID(Klass::cast(k));
duke@435 891
duke@435 892 // number of bytes that follow
duke@435 893 writer->write_u4(instance_size(k) );
duke@435 894
duke@435 895 // field values
duke@435 896 dump_instance_fields(writer, o);
duke@435 897 }
duke@435 898
duke@435 899 // creates HPROF_GC_CLASS_DUMP record for the given class and each of
duke@435 900 // its array classes
duke@435 901 void DumperSupport::dump_class_and_array_classes(DumpWriter* writer, klassOop k) {
duke@435 902 Klass* klass = Klass::cast(k);
duke@435 903 assert(klass->oop_is_instance(), "not an instanceKlass");
duke@435 904 instanceKlass* ik = (instanceKlass*)klass;
duke@435 905
duke@435 906 writer->write_u1(HPROF_GC_CLASS_DUMP);
duke@435 907
duke@435 908 // class ID
duke@435 909 writer->write_classID(ik);
duke@435 910 writer->write_u4(STACK_TRACE_ID);
duke@435 911
duke@435 912 // super class ID
duke@435 913 klassOop java_super = ik->java_super();
duke@435 914 if (java_super == NULL) {
duke@435 915 writer->write_objectID(NULL);
duke@435 916 } else {
duke@435 917 writer->write_classID(Klass::cast(java_super));
duke@435 918 }
duke@435 919
duke@435 920 writer->write_objectID(ik->class_loader());
duke@435 921 writer->write_objectID(ik->signers());
duke@435 922 writer->write_objectID(ik->protection_domain());
duke@435 923
duke@435 924 // reserved
duke@435 925 writer->write_objectID(NULL);
duke@435 926 writer->write_objectID(NULL);
duke@435 927
duke@435 928 // instance size
duke@435 929 writer->write_u4(DumperSupport::instance_size(k));
duke@435 930
duke@435 931 // size of constant pool - ignored by HAT 1.1
duke@435 932 writer->write_u2(0);
duke@435 933
duke@435 934 // number of static fields
duke@435 935 dump_static_fields(writer, k);
duke@435 936
duke@435 937 // description of instance fields
duke@435 938 dump_instance_field_descriptors(writer, k);
duke@435 939
duke@435 940 // array classes
duke@435 941 k = klass->array_klass_or_null();
duke@435 942 while (k != NULL) {
duke@435 943 Klass* klass = Klass::cast(k);
duke@435 944 assert(klass->oop_is_objArray(), "not an objArrayKlass");
duke@435 945
duke@435 946 writer->write_u1(HPROF_GC_CLASS_DUMP);
duke@435 947 writer->write_classID(klass);
duke@435 948 writer->write_u4(STACK_TRACE_ID);
duke@435 949
duke@435 950 // super class of array classes is java.lang.Object
duke@435 951 java_super = klass->java_super();
duke@435 952 assert(java_super != NULL, "checking");
duke@435 953 writer->write_classID(Klass::cast(java_super));
duke@435 954
duke@435 955 writer->write_objectID(ik->class_loader());
duke@435 956 writer->write_objectID(ik->signers());
duke@435 957 writer->write_objectID(ik->protection_domain());
duke@435 958
duke@435 959 writer->write_objectID(NULL); // reserved
duke@435 960 writer->write_objectID(NULL);
duke@435 961 writer->write_u4(0); // instance size
duke@435 962 writer->write_u2(0); // constant pool
duke@435 963 writer->write_u2(0); // static fields
duke@435 964 writer->write_u2(0); // instance fields
duke@435 965
duke@435 966 // get the array class for the next rank
duke@435 967 k = klass->array_klass_or_null();
duke@435 968 }
duke@435 969 }
duke@435 970
duke@435 971 // creates HPROF_GC_CLASS_DUMP record for a given primitive array
duke@435 972 // class (and each multi-dimensional array class too)
duke@435 973 void DumperSupport::dump_basic_type_array_class(DumpWriter* writer, klassOop k) {
duke@435 974 // array classes
duke@435 975 while (k != NULL) {
duke@435 976 Klass* klass = Klass::cast(k);
duke@435 977
duke@435 978 writer->write_u1(HPROF_GC_CLASS_DUMP);
duke@435 979 writer->write_classID(klass);
duke@435 980 writer->write_u4(STACK_TRACE_ID);
duke@435 981
duke@435 982 // super class of array classes is java.lang.Object
duke@435 983 klassOop java_super = klass->java_super();
duke@435 984 assert(java_super != NULL, "checking");
duke@435 985 writer->write_classID(Klass::cast(java_super));
duke@435 986
duke@435 987 writer->write_objectID(NULL); // loader
duke@435 988 writer->write_objectID(NULL); // signers
duke@435 989 writer->write_objectID(NULL); // protection domain
duke@435 990
duke@435 991 writer->write_objectID(NULL); // reserved
duke@435 992 writer->write_objectID(NULL);
duke@435 993 writer->write_u4(0); // instance size
duke@435 994 writer->write_u2(0); // constant pool
duke@435 995 writer->write_u2(0); // static fields
duke@435 996 writer->write_u2(0); // instance fields
duke@435 997
duke@435 998 // get the array class for the next rank
duke@435 999 k = klass->array_klass_or_null();
duke@435 1000 }
duke@435 1001 }
duke@435 1002
duke@435 1003 // creates HPROF_GC_OBJ_ARRAY_DUMP record for the given object array
duke@435 1004 void DumperSupport::dump_object_array(DumpWriter* writer, objArrayOop array) {
duke@435 1005
duke@435 1006 // filter this
duke@435 1007 if (array->klass() == Universe::systemObjArrayKlassObj()) return;
duke@435 1008
duke@435 1009 writer->write_u1(HPROF_GC_OBJ_ARRAY_DUMP);
duke@435 1010 writer->write_objectID(array);
duke@435 1011 writer->write_u4(STACK_TRACE_ID);
duke@435 1012 writer->write_u4((u4)array->length());
duke@435 1013
duke@435 1014 // array class ID
duke@435 1015 writer->write_classID(Klass::cast(array->klass()));
duke@435 1016
duke@435 1017 // [id]* elements
duke@435 1018 for (int index=0; index<array->length(); index++) {
duke@435 1019 oop o = array->obj_at(index);
duke@435 1020 writer->write_objectID(o);
duke@435 1021 }
duke@435 1022 }
duke@435 1023
duke@435 1024 #define WRITE_ARRAY(Array, Type, Size) \
duke@435 1025 for (int i=0; i<Array->length(); i++) { writer->write_##Size((Size)array->Type##_at(i)); }
duke@435 1026
duke@435 1027
duke@435 1028 // creates HPROF_GC_PRIM_ARRAY_DUMP record for the given type array
duke@435 1029 void DumperSupport::dump_prim_array(DumpWriter* writer, typeArrayOop array) {
duke@435 1030 BasicType type = typeArrayKlass::cast(array->klass())->element_type();
duke@435 1031
duke@435 1032 writer->write_u1(HPROF_GC_PRIM_ARRAY_DUMP);
duke@435 1033 writer->write_objectID(array);
duke@435 1034 writer->write_u4(STACK_TRACE_ID);
duke@435 1035 writer->write_u4((u4)array->length());
duke@435 1036 writer->write_u1(type2tag(type));
duke@435 1037
duke@435 1038 // nothing to copy
duke@435 1039 if (array->length() == 0) {
duke@435 1040 return;
duke@435 1041 }
duke@435 1042
duke@435 1043 // If the byte ordering is big endian then we can copy most types directly
kvn@464 1044 int length_in_bytes = array->length() * type2aelembytes(type);
duke@435 1045 assert(length_in_bytes > 0, "nothing to copy");
duke@435 1046
duke@435 1047 switch (type) {
duke@435 1048 case T_INT : {
duke@435 1049 if (Bytes::is_Java_byte_ordering_different()) {
duke@435 1050 WRITE_ARRAY(array, int, u4);
duke@435 1051 } else {
duke@435 1052 writer->write_raw((void*)(array->int_at_addr(0)), length_in_bytes);
duke@435 1053 }
duke@435 1054 break;
duke@435 1055 }
duke@435 1056 case T_BYTE : {
duke@435 1057 writer->write_raw((void*)(array->byte_at_addr(0)), length_in_bytes);
duke@435 1058 break;
duke@435 1059 }
duke@435 1060 case T_CHAR : {
duke@435 1061 if (Bytes::is_Java_byte_ordering_different()) {
duke@435 1062 WRITE_ARRAY(array, char, u2);
duke@435 1063 } else {
duke@435 1064 writer->write_raw((void*)(array->char_at_addr(0)), length_in_bytes);
duke@435 1065 }
duke@435 1066 break;
duke@435 1067 }
duke@435 1068 case T_SHORT : {
duke@435 1069 if (Bytes::is_Java_byte_ordering_different()) {
duke@435 1070 WRITE_ARRAY(array, short, u2);
duke@435 1071 } else {
duke@435 1072 writer->write_raw((void*)(array->short_at_addr(0)), length_in_bytes);
duke@435 1073 }
duke@435 1074 break;
duke@435 1075 }
duke@435 1076 case T_BOOLEAN : {
duke@435 1077 if (Bytes::is_Java_byte_ordering_different()) {
duke@435 1078 WRITE_ARRAY(array, bool, u1);
duke@435 1079 } else {
duke@435 1080 writer->write_raw((void*)(array->bool_at_addr(0)), length_in_bytes);
duke@435 1081 }
duke@435 1082 break;
duke@435 1083 }
duke@435 1084 case T_LONG : {
duke@435 1085 if (Bytes::is_Java_byte_ordering_different()) {
duke@435 1086 WRITE_ARRAY(array, long, u8);
duke@435 1087 } else {
duke@435 1088 writer->write_raw((void*)(array->long_at_addr(0)), length_in_bytes);
duke@435 1089 }
duke@435 1090 break;
duke@435 1091 }
duke@435 1092
duke@435 1093 // handle float/doubles in a special value to ensure than NaNs are
duke@435 1094 // written correctly. TO DO: Check if we can avoid this on processors that
duke@435 1095 // use IEEE 754.
duke@435 1096
duke@435 1097 case T_FLOAT : {
duke@435 1098 for (int i=0; i<array->length(); i++) {
duke@435 1099 dump_float( writer, array->float_at(i) );
duke@435 1100 }
duke@435 1101 break;
duke@435 1102 }
duke@435 1103 case T_DOUBLE : {
duke@435 1104 for (int i=0; i<array->length(); i++) {
duke@435 1105 dump_double( writer, array->double_at(i) );
duke@435 1106 }
duke@435 1107 break;
duke@435 1108 }
duke@435 1109 default : ShouldNotReachHere();
duke@435 1110 }
duke@435 1111 }
duke@435 1112
mchung@831 1113 // create a HPROF_FRAME record of the given methodOop and bci
mchung@831 1114 void DumperSupport::dump_stack_frame(DumpWriter* writer,
mchung@831 1115 int frame_serial_num,
mchung@831 1116 int class_serial_num,
mchung@831 1117 methodOop m,
mchung@831 1118 int bci) {
mchung@831 1119 int line_number;
mchung@831 1120 if (m->is_native()) {
mchung@831 1121 line_number = -3; // native frame
mchung@831 1122 } else {
mchung@831 1123 line_number = m->line_number_from_bci(bci);
mchung@831 1124 }
mchung@831 1125
mchung@831 1126 write_header(writer, HPROF_FRAME, 4*oopSize + 2*sizeof(u4));
mchung@831 1127 writer->write_id(frame_serial_num); // frame serial number
coleenp@2497 1128 writer->write_symbolID(m->name()); // method's name
coleenp@2497 1129 writer->write_symbolID(m->signature()); // method's signature
mchung@831 1130
mchung@831 1131 assert(Klass::cast(m->method_holder())->oop_is_instance(), "not instanceKlass");
coleenp@2497 1132 writer->write_symbolID(instanceKlass::cast(m->method_holder())->source_file_name()); // source file name
mchung@831 1133 writer->write_u4(class_serial_num); // class serial number
mchung@831 1134 writer->write_u4((u4) line_number); // line number
mchung@831 1135 }
duke@435 1136
coleenp@2497 1137
duke@435 1138 // Support class used to generate HPROF_UTF8 records from the entries in the
duke@435 1139 // SymbolTable.
duke@435 1140
coleenp@2497 1141 class SymbolTableDumper : public SymbolClosure {
duke@435 1142 private:
duke@435 1143 DumpWriter* _writer;
duke@435 1144 DumpWriter* writer() const { return _writer; }
duke@435 1145 public:
duke@435 1146 SymbolTableDumper(DumpWriter* writer) { _writer = writer; }
coleenp@2497 1147 void do_symbol(Symbol** p);
duke@435 1148 };
duke@435 1149
coleenp@2497 1150 void SymbolTableDumper::do_symbol(Symbol** p) {
duke@435 1151 ResourceMark rm;
coleenp@2497 1152 Symbol* sym = load_symbol(p);
duke@435 1153 int len = sym->utf8_length();
duke@435 1154 if (len > 0) {
duke@435 1155 char* s = sym->as_utf8();
duke@435 1156 DumperSupport::write_header(writer(), HPROF_UTF8, oopSize + len);
coleenp@2497 1157 writer()->write_symbolID(sym);
duke@435 1158 writer()->write_raw(s, len);
duke@435 1159 }
duke@435 1160 }
duke@435 1161
duke@435 1162 // Support class used to generate HPROF_GC_ROOT_JNI_LOCAL records
duke@435 1163
duke@435 1164 class JNILocalsDumper : public OopClosure {
duke@435 1165 private:
duke@435 1166 DumpWriter* _writer;
duke@435 1167 u4 _thread_serial_num;
mchung@831 1168 int _frame_num;
duke@435 1169 DumpWriter* writer() const { return _writer; }
duke@435 1170 public:
duke@435 1171 JNILocalsDumper(DumpWriter* writer, u4 thread_serial_num) {
duke@435 1172 _writer = writer;
duke@435 1173 _thread_serial_num = thread_serial_num;
mchung@831 1174 _frame_num = -1; // default - empty stack
duke@435 1175 }
mchung@831 1176 void set_frame_number(int n) { _frame_num = n; }
duke@435 1177 void do_oop(oop* obj_p);
coleenp@548 1178 void do_oop(narrowOop* obj_p) { ShouldNotReachHere(); }
duke@435 1179 };
duke@435 1180
duke@435 1181
duke@435 1182 void JNILocalsDumper::do_oop(oop* obj_p) {
duke@435 1183 // ignore null or deleted handles
duke@435 1184 oop o = *obj_p;
duke@435 1185 if (o != NULL && o != JNIHandles::deleted_handle()) {
duke@435 1186 writer()->write_u1(HPROF_GC_ROOT_JNI_LOCAL);
duke@435 1187 writer()->write_objectID(o);
duke@435 1188 writer()->write_u4(_thread_serial_num);
mchung@831 1189 writer()->write_u4((u4)_frame_num);
duke@435 1190 }
duke@435 1191 }
duke@435 1192
duke@435 1193
duke@435 1194 // Support class used to generate HPROF_GC_ROOT_JNI_GLOBAL records
duke@435 1195
duke@435 1196 class JNIGlobalsDumper : public OopClosure {
duke@435 1197 private:
duke@435 1198 DumpWriter* _writer;
duke@435 1199 DumpWriter* writer() const { return _writer; }
duke@435 1200
duke@435 1201 public:
duke@435 1202 JNIGlobalsDumper(DumpWriter* writer) {
duke@435 1203 _writer = writer;
duke@435 1204 }
duke@435 1205 void do_oop(oop* obj_p);
coleenp@548 1206 void do_oop(narrowOop* obj_p) { ShouldNotReachHere(); }
duke@435 1207 };
duke@435 1208
duke@435 1209 void JNIGlobalsDumper::do_oop(oop* obj_p) {
duke@435 1210 oop o = *obj_p;
duke@435 1211
duke@435 1212 // ignore these
duke@435 1213 if (o == NULL || o == JNIHandles::deleted_handle()) return;
duke@435 1214
duke@435 1215 // we ignore global ref to symbols and other internal objects
duke@435 1216 if (o->is_instance() || o->is_objArray() || o->is_typeArray()) {
duke@435 1217 writer()->write_u1(HPROF_GC_ROOT_JNI_GLOBAL);
duke@435 1218 writer()->write_objectID(o);
duke@435 1219 writer()->write_objectID((oopDesc*)obj_p); // global ref ID
duke@435 1220 }
duke@435 1221 };
duke@435 1222
duke@435 1223
duke@435 1224 // Support class used to generate HPROF_GC_ROOT_MONITOR_USED records
duke@435 1225
duke@435 1226 class MonitorUsedDumper : public OopClosure {
duke@435 1227 private:
duke@435 1228 DumpWriter* _writer;
duke@435 1229 DumpWriter* writer() const { return _writer; }
duke@435 1230 public:
duke@435 1231 MonitorUsedDumper(DumpWriter* writer) {
duke@435 1232 _writer = writer;
duke@435 1233 }
duke@435 1234 void do_oop(oop* obj_p) {
duke@435 1235 writer()->write_u1(HPROF_GC_ROOT_MONITOR_USED);
duke@435 1236 writer()->write_objectID(*obj_p);
duke@435 1237 }
coleenp@548 1238 void do_oop(narrowOop* obj_p) { ShouldNotReachHere(); }
duke@435 1239 };
duke@435 1240
duke@435 1241
duke@435 1242 // Support class used to generate HPROF_GC_ROOT_STICKY_CLASS records
duke@435 1243
duke@435 1244 class StickyClassDumper : public OopClosure {
duke@435 1245 private:
duke@435 1246 DumpWriter* _writer;
duke@435 1247 DumpWriter* writer() const { return _writer; }
duke@435 1248 public:
duke@435 1249 StickyClassDumper(DumpWriter* writer) {
duke@435 1250 _writer = writer;
duke@435 1251 }
duke@435 1252 void do_oop(oop* obj_p);
coleenp@548 1253 void do_oop(narrowOop* obj_p) { ShouldNotReachHere(); }
duke@435 1254 };
duke@435 1255
duke@435 1256 void StickyClassDumper::do_oop(oop* obj_p) {
duke@435 1257 if (*obj_p != NULL) {
duke@435 1258 oop o = *obj_p;
duke@435 1259 if (o->is_klass()) {
duke@435 1260 klassOop k = klassOop(o);
duke@435 1261 if (Klass::cast(k)->oop_is_instance()) {
duke@435 1262 instanceKlass* ik = instanceKlass::cast(k);
duke@435 1263 writer()->write_u1(HPROF_GC_ROOT_STICKY_CLASS);
duke@435 1264 writer()->write_classID(ik);
duke@435 1265 }
duke@435 1266 }
duke@435 1267 }
duke@435 1268 }
duke@435 1269
duke@435 1270
duke@435 1271 class VM_HeapDumper;
duke@435 1272
duke@435 1273 // Support class using when iterating over the heap.
duke@435 1274
duke@435 1275 class HeapObjectDumper : public ObjectClosure {
duke@435 1276 private:
duke@435 1277 VM_HeapDumper* _dumper;
duke@435 1278 DumpWriter* _writer;
duke@435 1279
duke@435 1280 VM_HeapDumper* dumper() { return _dumper; }
duke@435 1281 DumpWriter* writer() { return _writer; }
duke@435 1282
duke@435 1283 // used to indicate that a record has been writen
duke@435 1284 void mark_end_of_record();
duke@435 1285
duke@435 1286 public:
duke@435 1287 HeapObjectDumper(VM_HeapDumper* dumper, DumpWriter* writer) {
duke@435 1288 _dumper = dumper;
duke@435 1289 _writer = writer;
duke@435 1290 }
duke@435 1291
duke@435 1292 // called for each object in the heap
duke@435 1293 void do_object(oop o);
duke@435 1294 };
duke@435 1295
duke@435 1296 void HeapObjectDumper::do_object(oop o) {
duke@435 1297 // hide the sentinel for deleted handles
duke@435 1298 if (o == JNIHandles::deleted_handle()) return;
duke@435 1299
duke@435 1300 // ignore KlassKlass objects
duke@435 1301 if (o->is_klass()) return;
duke@435 1302
duke@435 1303 // skip classes as these emitted as HPROF_GC_CLASS_DUMP records
never@1577 1304 if (o->klass() == SystemDictionary::Class_klass()) {
duke@435 1305 if (!java_lang_Class::is_primitive(o)) {
duke@435 1306 return;
duke@435 1307 }
duke@435 1308 }
duke@435 1309
duke@435 1310 // create a HPROF_GC_INSTANCE record for each object
duke@435 1311 if (o->is_instance()) {
duke@435 1312 DumperSupport::dump_instance(writer(), o);
duke@435 1313 mark_end_of_record();
duke@435 1314 } else {
duke@435 1315 // create a HPROF_GC_OBJ_ARRAY_DUMP record for each object array
duke@435 1316 if (o->is_objArray()) {
duke@435 1317 DumperSupport::dump_object_array(writer(), objArrayOop(o));
duke@435 1318 mark_end_of_record();
duke@435 1319 } else {
duke@435 1320 // create a HPROF_GC_PRIM_ARRAY_DUMP record for each type array
duke@435 1321 if (o->is_typeArray()) {
duke@435 1322 DumperSupport::dump_prim_array(writer(), typeArrayOop(o));
duke@435 1323 mark_end_of_record();
duke@435 1324 }
duke@435 1325 }
duke@435 1326 }
duke@435 1327 }
duke@435 1328
duke@435 1329 // The VM operation that performs the heap dump
duke@435 1330 class VM_HeapDumper : public VM_GC_Operation {
duke@435 1331 private:
ysr@1050 1332 static VM_HeapDumper* _global_dumper;
ysr@1050 1333 static DumpWriter* _global_writer;
ysr@1050 1334 DumpWriter* _local_writer;
thurka@2130 1335 JavaThread* _oome_thread;
thurka@2130 1336 methodOop _oome_constructor;
duke@435 1337 bool _gc_before_heap_dump;
duke@435 1338 bool _is_segmented_dump;
duke@435 1339 jlong _dump_start;
mchung@831 1340 GrowableArray<Klass*>* _klass_map;
mchung@831 1341 ThreadStackTrace** _stack_traces;
mchung@831 1342 int _num_threads;
duke@435 1343
ysr@1050 1344 // accessors and setters
ysr@1050 1345 static VM_HeapDumper* dumper() { assert(_global_dumper != NULL, "Error"); return _global_dumper; }
ysr@1050 1346 static DumpWriter* writer() { assert(_global_writer != NULL, "Error"); return _global_writer; }
ysr@1050 1347 void set_global_dumper() {
ysr@1050 1348 assert(_global_dumper == NULL, "Error");
ysr@1050 1349 _global_dumper = this;
ysr@1050 1350 }
ysr@1050 1351 void set_global_writer() {
ysr@1050 1352 assert(_global_writer == NULL, "Error");
ysr@1050 1353 _global_writer = _local_writer;
ysr@1050 1354 }
ysr@1050 1355 void clear_global_dumper() { _global_dumper = NULL; }
ysr@1050 1356 void clear_global_writer() { _global_writer = NULL; }
ysr@1050 1357
duke@435 1358 bool is_segmented_dump() const { return _is_segmented_dump; }
duke@435 1359 void set_segmented_dump() { _is_segmented_dump = true; }
duke@435 1360 jlong dump_start() const { return _dump_start; }
duke@435 1361 void set_dump_start(jlong pos);
duke@435 1362
duke@435 1363 bool skip_operation() const;
duke@435 1364
duke@435 1365 // writes a HPROF_LOAD_CLASS record
duke@435 1366 static void do_load_class(klassOop k);
duke@435 1367
duke@435 1368 // writes a HPROF_GC_CLASS_DUMP record for the given class
duke@435 1369 // (and each array class too)
duke@435 1370 static void do_class_dump(klassOop k);
duke@435 1371
duke@435 1372 // writes a HPROF_GC_CLASS_DUMP records for a given basic type
duke@435 1373 // array (and each multi-dimensional array too)
duke@435 1374 static void do_basic_type_array_class_dump(klassOop k);
duke@435 1375
duke@435 1376 // HPROF_GC_ROOT_THREAD_OBJ records
mchung@831 1377 int do_thread(JavaThread* thread, u4 thread_serial_num);
duke@435 1378 void do_threads();
duke@435 1379
mchung@831 1380 void add_class_serial_number(Klass* k, int serial_num) {
mchung@831 1381 _klass_map->at_put_grow(serial_num, k);
mchung@831 1382 }
mchung@831 1383
mchung@831 1384 // HPROF_TRACE and HPROF_FRAME records
mchung@831 1385 void dump_stack_traces();
mchung@831 1386
duke@435 1387 // writes a HPROF_HEAP_DUMP or HPROF_HEAP_DUMP_SEGMENT record
duke@435 1388 void write_dump_header();
duke@435 1389
duke@435 1390 // fixes up the length of the current dump record
duke@435 1391 void write_current_dump_record_length();
duke@435 1392
duke@435 1393 // fixes up the current dump record )and writes HPROF_HEAP_DUMP_END
duke@435 1394 // record in the case of a segmented heap dump)
duke@435 1395 void end_of_dump();
duke@435 1396
duke@435 1397 public:
thurka@2130 1398 VM_HeapDumper(DumpWriter* writer, bool gc_before_heap_dump, bool oome) :
duke@435 1399 VM_GC_Operation(0 /* total collections, dummy, ignored */,
brutisso@2532 1400 GCCause::_heap_dump /* GC Cause */,
duke@435 1401 0 /* total full collections, dummy, ignored */,
duke@435 1402 gc_before_heap_dump) {
ysr@1050 1403 _local_writer = writer;
duke@435 1404 _gc_before_heap_dump = gc_before_heap_dump;
duke@435 1405 _is_segmented_dump = false;
duke@435 1406 _dump_start = (jlong)-1;
mchung@831 1407 _klass_map = new (ResourceObj::C_HEAP) GrowableArray<Klass*>(INITIAL_CLASS_COUNT, true);
mchung@831 1408 _stack_traces = NULL;
mchung@831 1409 _num_threads = 0;
thurka@2130 1410 if (oome) {
thurka@2130 1411 assert(!Thread::current()->is_VM_thread(), "Dump from OutOfMemoryError cannot be called by the VMThread");
thurka@2130 1412 // get OutOfMemoryError zero-parameter constructor
thurka@2130 1413 instanceKlass* oome_ik = instanceKlass::cast(SystemDictionary::OutOfMemoryError_klass());
thurka@2130 1414 _oome_constructor = oome_ik->find_method(vmSymbols::object_initializer_name(),
thurka@2130 1415 vmSymbols::void_method_signature());
thurka@2130 1416 // get thread throwing OOME when generating the heap dump at OOME
thurka@2130 1417 _oome_thread = JavaThread::current();
thurka@2130 1418 } else {
thurka@2130 1419 _oome_thread = NULL;
thurka@2130 1420 _oome_constructor = NULL;
thurka@2130 1421 }
mchung@831 1422 }
mchung@831 1423 ~VM_HeapDumper() {
mchung@831 1424 if (_stack_traces != NULL) {
mchung@831 1425 for (int i=0; i < _num_threads; i++) {
mchung@831 1426 delete _stack_traces[i];
mchung@831 1427 }
mchung@831 1428 FREE_C_HEAP_ARRAY(ThreadStackTrace*, _stack_traces);
mchung@831 1429 }
mchung@831 1430 delete _klass_map;
duke@435 1431 }
duke@435 1432
duke@435 1433 VMOp_Type type() const { return VMOp_HeapDumper; }
duke@435 1434 // used to mark sub-record boundary
duke@435 1435 void check_segment_length();
duke@435 1436 void doit();
duke@435 1437 };
duke@435 1438
ysr@1050 1439 VM_HeapDumper* VM_HeapDumper::_global_dumper = NULL;
ysr@1050 1440 DumpWriter* VM_HeapDumper::_global_writer = NULL;
ysr@1050 1441
duke@435 1442 bool VM_HeapDumper::skip_operation() const {
duke@435 1443 return false;
duke@435 1444 }
duke@435 1445
duke@435 1446 // sets the dump starting position
duke@435 1447 void VM_HeapDumper::set_dump_start(jlong pos) {
duke@435 1448 _dump_start = pos;
duke@435 1449 }
duke@435 1450
duke@435 1451 // writes a HPROF_HEAP_DUMP or HPROF_HEAP_DUMP_SEGMENT record
duke@435 1452 void VM_HeapDumper::write_dump_header() {
duke@435 1453 if (writer()->is_open()) {
duke@435 1454 if (is_segmented_dump()) {
duke@435 1455 writer()->write_u1(HPROF_HEAP_DUMP_SEGMENT);
duke@435 1456 } else {
duke@435 1457 writer()->write_u1(HPROF_HEAP_DUMP);
duke@435 1458 }
duke@435 1459 writer()->write_u4(0); // current ticks
duke@435 1460
duke@435 1461 // record the starting position for the dump (its length will be fixed up later)
duke@435 1462 set_dump_start(writer()->current_offset());
duke@435 1463 writer()->write_u4(0);
duke@435 1464 }
duke@435 1465 }
duke@435 1466
duke@435 1467 // fixes up the length of the current dump record
duke@435 1468 void VM_HeapDumper::write_current_dump_record_length() {
duke@435 1469 if (writer()->is_open()) {
duke@435 1470 assert(dump_start() >= 0, "no dump start recorded");
duke@435 1471
duke@435 1472 // calculate the size of the dump record
duke@435 1473 jlong dump_end = writer()->current_offset();
duke@435 1474 jlong dump_len = (dump_end - dump_start() - 4);
duke@435 1475
duke@435 1476 // record length must fit in a u4
duke@435 1477 if (dump_len > (jlong)(4L*(jlong)G)) {
duke@435 1478 warning("record is too large");
duke@435 1479 }
duke@435 1480
duke@435 1481 // seek to the dump start and fix-up the length
duke@435 1482 writer()->seek_to_offset(dump_start());
duke@435 1483 writer()->write_u4((u4)dump_len);
duke@435 1484
duke@435 1485 // adjust the total size written to keep the bytes written correct.
duke@435 1486 writer()->adjust_bytes_written(-((long) sizeof(u4)));
duke@435 1487
duke@435 1488 // seek to dump end so we can continue
duke@435 1489 writer()->seek_to_offset(dump_end);
duke@435 1490
duke@435 1491 // no current dump record
duke@435 1492 set_dump_start((jlong)-1);
duke@435 1493 }
duke@435 1494 }
duke@435 1495
duke@435 1496 // used on a sub-record boundary to check if we need to start a
duke@435 1497 // new segment.
duke@435 1498 void VM_HeapDumper::check_segment_length() {
duke@435 1499 if (writer()->is_open()) {
duke@435 1500 if (is_segmented_dump()) {
duke@435 1501 // don't use current_offset that would be too expensive on a per record basis
duke@435 1502 jlong dump_end = writer()->bytes_written() + writer()->bytes_unwritten();
duke@435 1503 assert(dump_end == writer()->current_offset(), "checking");
duke@435 1504 jlong dump_len = (dump_end - dump_start() - 4);
duke@435 1505 assert(dump_len >= 0 && dump_len <= max_juint, "bad dump length");
duke@435 1506
duke@435 1507 if (dump_len > (jlong)HeapDumpSegmentSize) {
duke@435 1508 write_current_dump_record_length();
duke@435 1509 write_dump_header();
duke@435 1510 }
duke@435 1511 }
duke@435 1512 }
duke@435 1513 }
duke@435 1514
duke@435 1515 // fixes up the current dump record )and writes HPROF_HEAP_DUMP_END
duke@435 1516 // record in the case of a segmented heap dump)
duke@435 1517 void VM_HeapDumper::end_of_dump() {
duke@435 1518 if (writer()->is_open()) {
duke@435 1519 write_current_dump_record_length();
duke@435 1520
duke@435 1521 // for segmented dump we write the end record
duke@435 1522 if (is_segmented_dump()) {
duke@435 1523 writer()->write_u1(HPROF_HEAP_DUMP_END);
duke@435 1524 writer()->write_u4(0);
duke@435 1525 writer()->write_u4(0);
duke@435 1526 }
duke@435 1527 }
duke@435 1528 }
duke@435 1529
duke@435 1530 // marks sub-record boundary
duke@435 1531 void HeapObjectDumper::mark_end_of_record() {
duke@435 1532 dumper()->check_segment_length();
duke@435 1533 }
duke@435 1534
duke@435 1535 // writes a HPROF_LOAD_CLASS record for the class (and each of its
duke@435 1536 // array classes)
duke@435 1537 void VM_HeapDumper::do_load_class(klassOop k) {
duke@435 1538 static u4 class_serial_num = 0;
duke@435 1539
duke@435 1540 // len of HPROF_LOAD_CLASS record
duke@435 1541 u4 remaining = 2*oopSize + 2*sizeof(u4);
duke@435 1542
duke@435 1543 // write a HPROF_LOAD_CLASS for the class and each array class
duke@435 1544 do {
ysr@1050 1545 DumperSupport::write_header(writer(), HPROF_LOAD_CLASS, remaining);
duke@435 1546
duke@435 1547 // class serial number is just a number
ysr@1050 1548 writer()->write_u4(++class_serial_num);
duke@435 1549
duke@435 1550 // class ID
duke@435 1551 Klass* klass = Klass::cast(k);
ysr@1050 1552 writer()->write_classID(klass);
duke@435 1553
mchung@831 1554 // add the klassOop and class serial number pair
ysr@1050 1555 dumper()->add_class_serial_number(klass, class_serial_num);
mchung@831 1556
ysr@1050 1557 writer()->write_u4(STACK_TRACE_ID);
duke@435 1558
duke@435 1559 // class name ID
coleenp@2497 1560 Symbol* name = klass->name();
coleenp@2497 1561 writer()->write_symbolID(name);
duke@435 1562
duke@435 1563 // write a LOAD_CLASS record for the array type (if it exists)
duke@435 1564 k = klass->array_klass_or_null();
duke@435 1565 } while (k != NULL);
duke@435 1566 }
duke@435 1567
duke@435 1568 // writes a HPROF_GC_CLASS_DUMP record for the given class
duke@435 1569 void VM_HeapDumper::do_class_dump(klassOop k) {
ysr@1050 1570 DumperSupport::dump_class_and_array_classes(writer(), k);
duke@435 1571 }
duke@435 1572
duke@435 1573 // writes a HPROF_GC_CLASS_DUMP records for a given basic type
duke@435 1574 // array (and each multi-dimensional array too)
duke@435 1575 void VM_HeapDumper::do_basic_type_array_class_dump(klassOop k) {
ysr@1050 1576 DumperSupport::dump_basic_type_array_class(writer(), k);
duke@435 1577 }
duke@435 1578
duke@435 1579 // Walk the stack of the given thread.
duke@435 1580 // Dumps a HPROF_GC_ROOT_JAVA_FRAME record for each local
duke@435 1581 // Dumps a HPROF_GC_ROOT_JNI_LOCAL record for each JNI local
mchung@831 1582 //
mchung@831 1583 // It returns the number of Java frames in this thread stack
mchung@831 1584 int VM_HeapDumper::do_thread(JavaThread* java_thread, u4 thread_serial_num) {
duke@435 1585 JNILocalsDumper blk(writer(), thread_serial_num);
duke@435 1586
duke@435 1587 oop threadObj = java_thread->threadObj();
duke@435 1588 assert(threadObj != NULL, "sanity check");
duke@435 1589
mchung@831 1590 int stack_depth = 0;
duke@435 1591 if (java_thread->has_last_Java_frame()) {
duke@435 1592
duke@435 1593 // vframes are resource allocated
duke@435 1594 Thread* current_thread = Thread::current();
duke@435 1595 ResourceMark rm(current_thread);
duke@435 1596 HandleMark hm(current_thread);
duke@435 1597
duke@435 1598 RegisterMap reg_map(java_thread);
duke@435 1599 frame f = java_thread->last_frame();
duke@435 1600 vframe* vf = vframe::new_vframe(&f, &reg_map, java_thread);
mchung@831 1601 frame* last_entry_frame = NULL;
thurka@2130 1602 int extra_frames = 0;
duke@435 1603
thurka@2130 1604 if (java_thread == _oome_thread && _oome_constructor != NULL) {
thurka@2130 1605 extra_frames++;
thurka@2130 1606 }
duke@435 1607 while (vf != NULL) {
mchung@831 1608 blk.set_frame_number(stack_depth);
duke@435 1609 if (vf->is_java_frame()) {
duke@435 1610
duke@435 1611 // java frame (interpreted, compiled, ...)
duke@435 1612 javaVFrame *jvf = javaVFrame::cast(vf);
duke@435 1613 if (!(jvf->method()->is_native())) {
duke@435 1614 StackValueCollection* locals = jvf->locals();
duke@435 1615 for (int slot=0; slot<locals->size(); slot++) {
duke@435 1616 if (locals->at(slot)->type() == T_OBJECT) {
duke@435 1617 oop o = locals->obj_at(slot)();
duke@435 1618
duke@435 1619 if (o != NULL) {
duke@435 1620 writer()->write_u1(HPROF_GC_ROOT_JAVA_FRAME);
duke@435 1621 writer()->write_objectID(o);
duke@435 1622 writer()->write_u4(thread_serial_num);
thurka@2130 1623 writer()->write_u4((u4) (stack_depth + extra_frames));
duke@435 1624 }
duke@435 1625 }
duke@435 1626 }
mchung@831 1627 } else {
mchung@831 1628 // native frame
mchung@831 1629 if (stack_depth == 0) {
mchung@831 1630 // JNI locals for the top frame.
mchung@831 1631 java_thread->active_handles()->oops_do(&blk);
mchung@831 1632 } else {
mchung@831 1633 if (last_entry_frame != NULL) {
mchung@831 1634 // JNI locals for the entry frame
mchung@831 1635 assert(last_entry_frame->is_entry_frame(), "checking");
mchung@831 1636 last_entry_frame->entry_frame_call_wrapper()->handles()->oops_do(&blk);
mchung@831 1637 }
mchung@831 1638 }
duke@435 1639 }
mchung@831 1640 // increment only for Java frames
mchung@831 1641 stack_depth++;
mchung@831 1642 last_entry_frame = NULL;
mchung@831 1643
duke@435 1644 } else {
duke@435 1645 // externalVFrame - if it's an entry frame then report any JNI locals
mchung@831 1646 // as roots when we find the corresponding native javaVFrame
duke@435 1647 frame* fr = vf->frame_pointer();
duke@435 1648 assert(fr != NULL, "sanity check");
duke@435 1649 if (fr->is_entry_frame()) {
mchung@831 1650 last_entry_frame = fr;
duke@435 1651 }
never@2895 1652 if (fr->is_ricochet_frame()) {
never@2895 1653 fr->oops_ricochet_do(&blk, vf->register_map());
never@2895 1654 }
duke@435 1655 }
duke@435 1656 vf = vf->sender();
duke@435 1657 }
mchung@831 1658 } else {
mchung@831 1659 // no last java frame but there may be JNI locals
mchung@831 1660 java_thread->active_handles()->oops_do(&blk);
duke@435 1661 }
mchung@831 1662 return stack_depth;
duke@435 1663 }
duke@435 1664
duke@435 1665
duke@435 1666 // write a HPROF_GC_ROOT_THREAD_OBJ record for each java thread. Then walk
duke@435 1667 // the stack so that locals and JNI locals are dumped.
duke@435 1668 void VM_HeapDumper::do_threads() {
mchung@831 1669 for (int i=0; i < _num_threads; i++) {
mchung@831 1670 JavaThread* thread = _stack_traces[i]->thread();
duke@435 1671 oop threadObj = thread->threadObj();
mchung@831 1672 u4 thread_serial_num = i+1;
mchung@831 1673 u4 stack_serial_num = thread_serial_num + STACK_TRACE_ID;
mchung@831 1674 writer()->write_u1(HPROF_GC_ROOT_THREAD_OBJ);
mchung@831 1675 writer()->write_objectID(threadObj);
mchung@831 1676 writer()->write_u4(thread_serial_num); // thread number
mchung@831 1677 writer()->write_u4(stack_serial_num); // stack trace serial number
mchung@831 1678 int num_frames = do_thread(thread, thread_serial_num);
mchung@831 1679 assert(num_frames == _stack_traces[i]->get_stack_depth(),
mchung@831 1680 "total number of Java frames not matched");
duke@435 1681 }
duke@435 1682 }
duke@435 1683
duke@435 1684
duke@435 1685 // The VM operation that dumps the heap. The dump consists of the following
duke@435 1686 // records:
duke@435 1687 //
duke@435 1688 // HPROF_HEADER
duke@435 1689 // [HPROF_UTF8]*
duke@435 1690 // [HPROF_LOAD_CLASS]*
mchung@831 1691 // [[HPROF_FRAME]*|HPROF_TRACE]*
duke@435 1692 // [HPROF_GC_CLASS_DUMP]*
duke@435 1693 // HPROF_HEAP_DUMP
duke@435 1694 //
mchung@831 1695 // The HPROF_TRACE records represent the stack traces where the heap dump
mchung@831 1696 // is generated and a "dummy trace" record which does not include
mchung@831 1697 // any frames. The dummy trace record is used to be referenced as the
mchung@831 1698 // unknown object alloc site.
duke@435 1699 //
duke@435 1700 // The HPROF_HEAP_DUMP record has a length following by sub-records. To allow
duke@435 1701 // the heap dump be generated in a single pass we remember the position of
duke@435 1702 // the dump length and fix it up after all sub-records have been written.
duke@435 1703 // To generate the sub-records we iterate over the heap, writing
duke@435 1704 // HPROF_GC_INSTANCE_DUMP, HPROF_GC_OBJ_ARRAY_DUMP, and HPROF_GC_PRIM_ARRAY_DUMP
duke@435 1705 // records as we go. Once that is done we write records for some of the GC
duke@435 1706 // roots.
duke@435 1707
duke@435 1708 void VM_HeapDumper::doit() {
duke@435 1709
duke@435 1710 HandleMark hm;
duke@435 1711 CollectedHeap* ch = Universe::heap();
duke@435 1712 if (_gc_before_heap_dump) {
duke@435 1713 ch->collect_as_vm_thread(GCCause::_heap_dump);
duke@435 1714 } else {
duke@435 1715 // make the heap parsable (no need to retire TLABs)
duke@435 1716 ch->ensure_parsability(false);
duke@435 1717 }
duke@435 1718
ysr@1050 1719 // At this point we should be the only dumper active, so
ysr@1050 1720 // the following should be safe.
ysr@1050 1721 set_global_dumper();
ysr@1050 1722 set_global_writer();
ysr@1050 1723
duke@435 1724 // Write the file header - use 1.0.2 for large heaps, otherwise 1.0.1
ysr@777 1725 size_t used = ch->used();
duke@435 1726 const char* header;
duke@435 1727 if (used > (size_t)SegmentedHeapDumpThreshold) {
duke@435 1728 set_segmented_dump();
duke@435 1729 header = "JAVA PROFILE 1.0.2";
duke@435 1730 } else {
duke@435 1731 header = "JAVA PROFILE 1.0.1";
duke@435 1732 }
ysr@1050 1733
duke@435 1734 // header is few bytes long - no chance to overflow int
duke@435 1735 writer()->write_raw((void*)header, (int)strlen(header));
duke@435 1736 writer()->write_u1(0); // terminator
duke@435 1737 writer()->write_u4(oopSize);
duke@435 1738 writer()->write_u8(os::javaTimeMillis());
duke@435 1739
duke@435 1740 // HPROF_UTF8 records
duke@435 1741 SymbolTableDumper sym_dumper(writer());
coleenp@2497 1742 SymbolTable::symbols_do(&sym_dumper);
duke@435 1743
duke@435 1744 // write HPROF_LOAD_CLASS records
duke@435 1745 SystemDictionary::classes_do(&do_load_class);
duke@435 1746 Universe::basic_type_classes_do(&do_load_class);
duke@435 1747
mchung@831 1748 // write HPROF_FRAME and HPROF_TRACE records
mchung@831 1749 // this must be called after _klass_map is built when iterating the classes above.
mchung@831 1750 dump_stack_traces();
mchung@831 1751
duke@435 1752 // write HPROF_HEAP_DUMP or HPROF_HEAP_DUMP_SEGMENT
duke@435 1753 write_dump_header();
duke@435 1754
duke@435 1755 // Writes HPROF_GC_CLASS_DUMP records
duke@435 1756 SystemDictionary::classes_do(&do_class_dump);
duke@435 1757 Universe::basic_type_classes_do(&do_basic_type_array_class_dump);
duke@435 1758 check_segment_length();
duke@435 1759
duke@435 1760 // writes HPROF_GC_INSTANCE_DUMP records.
duke@435 1761 // After each sub-record is written check_segment_length will be invoked. When
duke@435 1762 // generated a segmented heap dump this allows us to check if the current
duke@435 1763 // segment exceeds a threshold and if so, then a new segment is started.
duke@435 1764 // The HPROF_GC_CLASS_DUMP and HPROF_GC_INSTANCE_DUMP are the vast bulk
duke@435 1765 // of the heap dump.
duke@435 1766 HeapObjectDumper obj_dumper(this, writer());
jmasa@952 1767 Universe::heap()->safe_object_iterate(&obj_dumper);
duke@435 1768
duke@435 1769 // HPROF_GC_ROOT_THREAD_OBJ + frames + jni locals
duke@435 1770 do_threads();
duke@435 1771 check_segment_length();
duke@435 1772
duke@435 1773 // HPROF_GC_ROOT_MONITOR_USED
duke@435 1774 MonitorUsedDumper mon_dumper(writer());
duke@435 1775 ObjectSynchronizer::oops_do(&mon_dumper);
duke@435 1776 check_segment_length();
duke@435 1777
duke@435 1778 // HPROF_GC_ROOT_JNI_GLOBAL
duke@435 1779 JNIGlobalsDumper jni_dumper(writer());
duke@435 1780 JNIHandles::oops_do(&jni_dumper);
duke@435 1781 check_segment_length();
duke@435 1782
duke@435 1783 // HPROF_GC_ROOT_STICKY_CLASS
duke@435 1784 StickyClassDumper class_dumper(writer());
duke@435 1785 SystemDictionary::always_strong_oops_do(&class_dumper);
duke@435 1786
duke@435 1787 // fixes up the length of the dump record. In the case of a segmented
duke@435 1788 // heap then the HPROF_HEAP_DUMP_END record is also written.
duke@435 1789 end_of_dump();
ysr@1050 1790
ysr@1050 1791 // Now we clear the global variables, so that a future dumper might run.
ysr@1050 1792 clear_global_dumper();
ysr@1050 1793 clear_global_writer();
duke@435 1794 }
duke@435 1795
mchung@831 1796 void VM_HeapDumper::dump_stack_traces() {
mchung@831 1797 // write a HPROF_TRACE record without any frames to be referenced as object alloc sites
mchung@831 1798 DumperSupport::write_header(writer(), HPROF_TRACE, 3*sizeof(u4));
mchung@831 1799 writer()->write_u4((u4) STACK_TRACE_ID);
mchung@831 1800 writer()->write_u4(0); // thread number
mchung@831 1801 writer()->write_u4(0); // frame count
mchung@831 1802
mchung@831 1803 _stack_traces = NEW_C_HEAP_ARRAY(ThreadStackTrace*, Threads::number_of_threads());
mchung@831 1804 int frame_serial_num = 0;
mchung@831 1805 for (JavaThread* thread = Threads::first(); thread != NULL ; thread = thread->next()) {
mchung@831 1806 oop threadObj = thread->threadObj();
mchung@831 1807 if (threadObj != NULL && !thread->is_exiting() && !thread->is_hidden_from_external_view()) {
mchung@831 1808 // dump thread stack trace
mchung@831 1809 ThreadStackTrace* stack_trace = new ThreadStackTrace(thread, false);
mchung@831 1810 stack_trace->dump_stack_at_safepoint(-1);
mchung@831 1811 _stack_traces[_num_threads++] = stack_trace;
mchung@831 1812
mchung@831 1813 // write HPROF_FRAME records for this thread's stack trace
mchung@831 1814 int depth = stack_trace->get_stack_depth();
mchung@831 1815 int thread_frame_start = frame_serial_num;
thurka@2130 1816 int extra_frames = 0;
thurka@2130 1817 // write fake frame that makes it look like the thread, which caused OOME,
thurka@2130 1818 // is in the OutOfMemoryError zero-parameter constructor
thurka@2130 1819 if (thread == _oome_thread && _oome_constructor != NULL) {
thurka@2130 1820 int oome_serial_num = _klass_map->find(Klass::cast(_oome_constructor->method_holder()));
thurka@2130 1821 // the class serial number starts from 1
thurka@2130 1822 assert(oome_serial_num > 0, "OutOfMemoryError class not found");
thurka@2130 1823 DumperSupport::dump_stack_frame(writer(), ++frame_serial_num, oome_serial_num,
thurka@2130 1824 _oome_constructor, 0);
thurka@2130 1825 extra_frames++;
thurka@2130 1826 }
mchung@831 1827 for (int j=0; j < depth; j++) {
mchung@831 1828 StackFrameInfo* frame = stack_trace->stack_frame_at(j);
mchung@831 1829 methodOop m = frame->method();
mchung@831 1830 int class_serial_num = _klass_map->find(Klass::cast(m->method_holder()));
mchung@831 1831 // the class serial number starts from 1
mchung@831 1832 assert(class_serial_num > 0, "class not found");
mchung@831 1833 DumperSupport::dump_stack_frame(writer(), ++frame_serial_num, class_serial_num, m, frame->bci());
mchung@831 1834 }
thurka@2130 1835 depth += extra_frames;
mchung@831 1836
mchung@831 1837 // write HPROF_TRACE record for one thread
mchung@831 1838 DumperSupport::write_header(writer(), HPROF_TRACE, 3*sizeof(u4) + depth*oopSize);
mchung@831 1839 int stack_serial_num = _num_threads + STACK_TRACE_ID;
mchung@831 1840 writer()->write_u4(stack_serial_num); // stack trace serial number
mchung@831 1841 writer()->write_u4((u4) _num_threads); // thread serial number
mchung@831 1842 writer()->write_u4(depth); // frame count
mchung@831 1843 for (int j=1; j <= depth; j++) {
mchung@831 1844 writer()->write_id(thread_frame_start + j);
mchung@831 1845 }
mchung@831 1846 }
mchung@831 1847 }
mchung@831 1848 }
duke@435 1849
duke@435 1850 // dump the heap to given path.
duke@435 1851 int HeapDumper::dump(const char* path) {
duke@435 1852 assert(path != NULL && strlen(path) > 0, "path missing");
duke@435 1853
duke@435 1854 // print message in interactive case
duke@435 1855 if (print_to_tty()) {
duke@435 1856 tty->print_cr("Dumping heap to %s ...", path);
duke@435 1857 timer()->start();
duke@435 1858 }
duke@435 1859
duke@435 1860 // create the dump writer. If the file can be opened then bail
duke@435 1861 DumpWriter writer(path);
duke@435 1862 if (!writer.is_open()) {
duke@435 1863 set_error(writer.error());
duke@435 1864 if (print_to_tty()) {
duke@435 1865 tty->print_cr("Unable to create %s: %s", path,
duke@435 1866 (error() != NULL) ? error() : "reason unknown");
duke@435 1867 }
duke@435 1868 return -1;
duke@435 1869 }
duke@435 1870
duke@435 1871 // generate the dump
thurka@2130 1872 VM_HeapDumper dumper(&writer, _gc_before_heap_dump, _oome);
ysr@1050 1873 if (Thread::current()->is_VM_thread()) {
ysr@1050 1874 assert(SafepointSynchronize::is_at_safepoint(), "Expected to be called at a safepoint");
ysr@1050 1875 dumper.doit();
ysr@1050 1876 } else {
ysr@1050 1877 VMThread::execute(&dumper);
ysr@1050 1878 }
duke@435 1879
duke@435 1880 // close dump file and record any error that the writer may have encountered
duke@435 1881 writer.close();
duke@435 1882 set_error(writer.error());
duke@435 1883
duke@435 1884 // print message in interactive case
duke@435 1885 if (print_to_tty()) {
duke@435 1886 timer()->stop();
duke@435 1887 if (error() == NULL) {
duke@435 1888 char msg[256];
duke@435 1889 sprintf(msg, "Heap dump file created [%s bytes in %3.3f secs]",
duke@435 1890 os::jlong_format_specifier(), timer()->seconds());
duke@435 1891 tty->print_cr(msg, writer.bytes_written());
duke@435 1892 } else {
duke@435 1893 tty->print_cr("Dump file is incomplete: %s", writer.error());
duke@435 1894 }
duke@435 1895 }
duke@435 1896
duke@435 1897 return (writer.error() == NULL) ? 0 : -1;
duke@435 1898 }
duke@435 1899
duke@435 1900 // stop timer (if still active), and free any error string we might be holding
duke@435 1901 HeapDumper::~HeapDumper() {
duke@435 1902 if (timer()->is_active()) {
duke@435 1903 timer()->stop();
duke@435 1904 }
duke@435 1905 set_error(NULL);
duke@435 1906 }
duke@435 1907
duke@435 1908
duke@435 1909 // returns the error string (resource allocated), or NULL
duke@435 1910 char* HeapDumper::error_as_C_string() const {
duke@435 1911 if (error() != NULL) {
duke@435 1912 char* str = NEW_RESOURCE_ARRAY(char, strlen(error())+1);
duke@435 1913 strcpy(str, error());
duke@435 1914 return str;
duke@435 1915 } else {
duke@435 1916 return NULL;
duke@435 1917 }
duke@435 1918 }
duke@435 1919
duke@435 1920 // set the error string
duke@435 1921 void HeapDumper::set_error(char* error) {
duke@435 1922 if (_error != NULL) {
duke@435 1923 os::free(_error);
duke@435 1924 }
duke@435 1925 if (error == NULL) {
duke@435 1926 _error = NULL;
duke@435 1927 } else {
duke@435 1928 _error = os::strdup(error);
duke@435 1929 assert(_error != NULL, "allocation failure");
duke@435 1930 }
duke@435 1931 }
duke@435 1932
thurka@2130 1933 // Called by out-of-memory error reporting by a single Java thread
thurka@2130 1934 // outside of a JVM safepoint
thurka@2130 1935 void HeapDumper::dump_heap_from_oome() {
thurka@2130 1936 HeapDumper::dump_heap(true);
thurka@2130 1937 }
thurka@2130 1938
ysr@1050 1939 // Called by error reporting by a single Java thread outside of a JVM safepoint,
ysr@1050 1940 // or by heap dumping by the VM thread during a (GC) safepoint. Thus, these various
ysr@1050 1941 // callers are strictly serialized and guaranteed not to interfere below. For more
ysr@1050 1942 // general use, however, this method will need modification to prevent
ysr@1050 1943 // inteference when updating the static variables base_path and dump_file_seq below.
duke@435 1944 void HeapDumper::dump_heap() {
thurka@2130 1945 HeapDumper::dump_heap(false);
thurka@2130 1946 }
thurka@2130 1947
thurka@2130 1948 void HeapDumper::dump_heap(bool oome) {
ysr@1050 1949 static char base_path[JVM_MAXPATHLEN] = {'\0'};
ysr@1050 1950 static uint dump_file_seq = 0;
coleenp@2463 1951 char* my_path;
coleenp@2463 1952 const int max_digit_chars = 20;
coleenp@2463 1953
coleenp@2463 1954 const char* dump_file_name = "java_pid";
coleenp@2463 1955 const char* dump_file_ext = ".hprof";
duke@435 1956
duke@435 1957 // The dump file defaults to java_pid<pid>.hprof in the current working
duke@435 1958 // directory. HeapDumpPath=<file> can be used to specify an alternative
duke@435 1959 // dump file name or a directory where dump file is created.
ysr@1050 1960 if (dump_file_seq == 0) { // first time in, we initialize base_path
coleenp@2463 1961 // Calculate potentially longest base path and check if we have enough
coleenp@2463 1962 // allocated statically.
coleenp@2463 1963 const size_t total_length =
coleenp@2463 1964 (HeapDumpPath == NULL ? 0 : strlen(HeapDumpPath)) +
coleenp@2463 1965 strlen(os::file_separator()) + max_digit_chars +
coleenp@2463 1966 strlen(dump_file_name) + strlen(dump_file_ext) + 1;
coleenp@2463 1967 if (total_length > sizeof(base_path)) {
coleenp@2463 1968 warning("Cannot create heap dump file. HeapDumpPath is too long.");
coleenp@2463 1969 return;
coleenp@2463 1970 }
coleenp@2463 1971
ysr@1050 1972 bool use_default_filename = true;
ysr@1050 1973 if (HeapDumpPath == NULL || HeapDumpPath[0] == '\0') {
ysr@1050 1974 // HeapDumpPath=<file> not specified
duke@435 1975 } else {
coleenp@2463 1976 strncpy(base_path, HeapDumpPath, sizeof(base_path));
ysr@1050 1977 // check if the path is a directory (must exist)
ysr@1050 1978 DIR* dir = os::opendir(base_path);
ysr@1050 1979 if (dir == NULL) {
ysr@1050 1980 use_default_filename = false;
ysr@1050 1981 } else {
ysr@1050 1982 // HeapDumpPath specified a directory. We append a file separator
ysr@1050 1983 // (if needed).
ysr@1050 1984 os::closedir(dir);
ysr@1050 1985 size_t fs_len = strlen(os::file_separator());
ysr@1050 1986 if (strlen(base_path) >= fs_len) {
ysr@1050 1987 char* end = base_path;
ysr@1050 1988 end += (strlen(base_path) - fs_len);
ysr@1050 1989 if (strcmp(end, os::file_separator()) != 0) {
ysr@1050 1990 strcat(base_path, os::file_separator());
ysr@1050 1991 }
duke@435 1992 }
duke@435 1993 }
duke@435 1994 }
ysr@1050 1995 // If HeapDumpPath wasn't a file name then we append the default name
ysr@1050 1996 if (use_default_filename) {
coleenp@2463 1997 const size_t dlen = strlen(base_path); // if heap dump dir specified
coleenp@2463 1998 jio_snprintf(&base_path[dlen], sizeof(base_path)-dlen, "%s%d%s",
coleenp@2463 1999 dump_file_name, os::current_process_id(), dump_file_ext);
ysr@1050 2000 }
coleenp@2463 2001 const size_t len = strlen(base_path) + 1;
coleenp@2463 2002 my_path = (char*)os::malloc(len);
coleenp@2463 2003 if (my_path == NULL) {
coleenp@2463 2004 warning("Cannot create heap dump file. Out of system memory.");
coleenp@2463 2005 return;
coleenp@2463 2006 }
coleenp@2463 2007 strncpy(my_path, base_path, len);
ysr@1050 2008 } else {
ysr@1050 2009 // Append a sequence number id for dumps following the first
coleenp@2463 2010 const size_t len = strlen(base_path) + max_digit_chars + 2; // for '.' and \0
coleenp@2463 2011 my_path = (char*)os::malloc(len);
coleenp@2463 2012 if (my_path == NULL) {
coleenp@2463 2013 warning("Cannot create heap dump file. Out of system memory.");
coleenp@2463 2014 return;
coleenp@2463 2015 }
coleenp@2463 2016 jio_snprintf(my_path, len, "%s.%d", base_path, dump_file_seq);
duke@435 2017 }
ysr@1050 2018 dump_file_seq++; // increment seq number for next time we dump
duke@435 2019
duke@435 2020 HeapDumper dumper(false /* no GC before heap dump */,
thurka@2130 2021 true /* send to tty */,
thurka@2130 2022 oome /* pass along out-of-memory-error flag */);
ysr@1050 2023 dumper.dump(my_path);
coleenp@2463 2024 os::free(my_path);
duke@435 2025 }

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