Tue, 15 Mar 2011 06:35:10 -0700
7024234: 2/3 jvmti tests fail assert(!_oops_are_stale) failed: oops are stale on Win-AMD64
Summary: Move initialization of the '_instance' field to avoid race with ServiceThread start.
Reviewed-by: dholmes, kamg, never, dsamersoff, ysr, coleenp, acorn
1 /*
2 * Copyright (c) 1997, 2010, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
9 * This code is distributed in the hope that it will be useful, but WITHOUT
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
12 * version 2 for more details (a copy is included in the LICENSE file that
13 * accompanied this code).
14 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
25 #include "precompiled.hpp"
26 #include "classfile/classLoader.hpp"
27 #include "code/vtableStubs.hpp"
28 #include "gc_interface/collectedHeap.inline.hpp"
29 #include "interpreter/interpreter.hpp"
30 #include "memory/allocation.inline.hpp"
31 #include "memory/universe.inline.hpp"
32 #include "oops/oop.inline.hpp"
33 #include "oops/oop.inline2.hpp"
34 #include "oops/symbol.hpp"
35 #include "runtime/deoptimization.hpp"
36 #include "runtime/fprofiler.hpp"
37 #include "runtime/mutexLocker.hpp"
38 #include "runtime/stubCodeGenerator.hpp"
39 #include "runtime/stubRoutines.hpp"
40 #include "runtime/task.hpp"
41 #include "runtime/vframe.hpp"
42 #include "utilities/macros.hpp"
44 // Static fields of FlatProfiler
45 int FlatProfiler::received_gc_ticks = 0;
46 int FlatProfiler::vm_operation_ticks = 0;
47 int FlatProfiler::threads_lock_ticks = 0;
48 int FlatProfiler::class_loader_ticks = 0;
49 int FlatProfiler::extra_ticks = 0;
50 int FlatProfiler::blocked_ticks = 0;
51 int FlatProfiler::deopt_ticks = 0;
52 int FlatProfiler::unknown_ticks = 0;
53 int FlatProfiler::interpreter_ticks = 0;
54 int FlatProfiler::compiler_ticks = 0;
55 int FlatProfiler::received_ticks = 0;
56 int FlatProfiler::delivered_ticks = 0;
57 int* FlatProfiler::bytecode_ticks = NULL;
58 int* FlatProfiler::bytecode_ticks_stub = NULL;
59 int FlatProfiler::all_int_ticks = 0;
60 int FlatProfiler::all_comp_ticks = 0;
61 int FlatProfiler::all_ticks = 0;
62 bool FlatProfiler::full_profile_flag = false;
63 ThreadProfiler* FlatProfiler::thread_profiler = NULL;
64 ThreadProfiler* FlatProfiler::vm_thread_profiler = NULL;
65 FlatProfilerTask* FlatProfiler::task = NULL;
66 elapsedTimer FlatProfiler::timer;
67 int FlatProfiler::interval_ticks_previous = 0;
68 IntervalData* FlatProfiler::interval_data = NULL;
70 ThreadProfiler::ThreadProfiler() {
71 // Space for the ProfilerNodes
72 const int area_size = 1 * ProfilerNodeSize * 1024;
73 area_bottom = AllocateHeap(area_size, "fprofiler");
74 area_top = area_bottom;
75 area_limit = area_bottom + area_size;
77 // ProfilerNode pointer table
78 table = NEW_C_HEAP_ARRAY(ProfilerNode*, table_size);
79 initialize();
80 engaged = false;
81 }
83 ThreadProfiler::~ThreadProfiler() {
84 FreeHeap(area_bottom);
85 area_bottom = NULL;
86 area_top = NULL;
87 area_limit = NULL;
88 FreeHeap(table);
89 table = NULL;
90 }
92 // Statics for ThreadProfiler
93 int ThreadProfiler::table_size = 1024;
95 int ThreadProfiler::entry(int value) {
96 value = (value > 0) ? value : -value;
97 return value % table_size;
98 }
100 ThreadProfilerMark::ThreadProfilerMark(ThreadProfilerMark::Region r) {
101 _r = r;
102 _pp = NULL;
103 assert(((r > ThreadProfilerMark::noRegion) && (r < ThreadProfilerMark::maxRegion)), "ThreadProfilerMark::Region out of bounds");
104 Thread* tp = Thread::current();
105 if (tp != NULL && tp->is_Java_thread()) {
106 JavaThread* jtp = (JavaThread*) tp;
107 ThreadProfiler* pp = jtp->get_thread_profiler();
108 _pp = pp;
109 if (pp != NULL) {
110 pp->region_flag[r] = true;
111 }
112 }
113 }
115 ThreadProfilerMark::~ThreadProfilerMark() {
116 if (_pp != NULL) {
117 _pp->region_flag[_r] = false;
118 }
119 _pp = NULL;
120 }
122 // Random other statics
123 static const int col1 = 2; // position of output column 1
124 static const int col2 = 11; // position of output column 2
125 static const int col3 = 25; // position of output column 3
126 static const int col4 = 55; // position of output column 4
129 // Used for detailed profiling of nmethods.
130 class PCRecorder : AllStatic {
131 private:
132 static int* counters;
133 static address base;
134 enum {
135 bucket_size = 16
136 };
137 static int index_for(address pc) { return (pc - base)/bucket_size; }
138 static address pc_for(int index) { return base + (index * bucket_size); }
139 static int size() {
140 return ((int)CodeCache::max_capacity())/bucket_size * BytesPerWord;
141 }
142 public:
143 static address bucket_start_for(address pc) {
144 if (counters == NULL) return NULL;
145 return pc_for(index_for(pc));
146 }
147 static int bucket_count_for(address pc) { return counters[index_for(pc)]; }
148 static void init();
149 static void record(address pc);
150 static void print();
151 static void print_blobs(CodeBlob* cb);
152 };
154 int* PCRecorder::counters = NULL;
155 address PCRecorder::base = NULL;
157 void PCRecorder::init() {
158 MutexLockerEx lm(CodeCache_lock, Mutex::_no_safepoint_check_flag);
159 int s = size();
160 counters = NEW_C_HEAP_ARRAY(int, s);
161 for (int index = 0; index < s; index++) {
162 counters[index] = 0;
163 }
164 base = CodeCache::first_address();
165 }
167 void PCRecorder::record(address pc) {
168 if (counters == NULL) return;
169 assert(CodeCache::contains(pc), "must be in CodeCache");
170 counters[index_for(pc)]++;
171 }
174 address FlatProfiler::bucket_start_for(address pc) {
175 return PCRecorder::bucket_start_for(pc);
176 }
178 int FlatProfiler::bucket_count_for(address pc) {
179 return PCRecorder::bucket_count_for(pc);
180 }
182 void PCRecorder::print() {
183 if (counters == NULL) return;
185 tty->cr();
186 tty->print_cr("Printing compiled methods with PC buckets having more than %d ticks", ProfilerPCTickThreshold);
187 tty->print_cr("===================================================================");
188 tty->cr();
190 GrowableArray<CodeBlob*>* candidates = new GrowableArray<CodeBlob*>(20);
193 int s;
194 {
195 MutexLockerEx lm(CodeCache_lock, Mutex::_no_safepoint_check_flag);
196 s = size();
197 }
199 for (int index = 0; index < s; index++) {
200 int count = counters[index];
201 if (count > ProfilerPCTickThreshold) {
202 address pc = pc_for(index);
203 CodeBlob* cb = CodeCache::find_blob_unsafe(pc);
204 if (cb != NULL && candidates->find(cb) < 0) {
205 candidates->push(cb);
206 }
207 }
208 }
209 for (int i = 0; i < candidates->length(); i++) {
210 print_blobs(candidates->at(i));
211 }
212 }
214 void PCRecorder::print_blobs(CodeBlob* cb) {
215 if (cb != NULL) {
216 cb->print();
217 if (cb->is_nmethod()) {
218 ((nmethod*)cb)->print_code();
219 }
220 tty->cr();
221 } else {
222 tty->print_cr("stub code");
223 }
224 }
226 class tick_counter { // holds tick info for one node
227 public:
228 int ticks_in_code;
229 int ticks_in_native;
231 tick_counter() { ticks_in_code = ticks_in_native = 0; }
232 tick_counter(int code, int native) { ticks_in_code = code; ticks_in_native = native; }
234 int total() const {
235 return (ticks_in_code + ticks_in_native);
236 }
238 void add(tick_counter* a) {
239 ticks_in_code += a->ticks_in_code;
240 ticks_in_native += a->ticks_in_native;
241 }
243 void update(TickPosition where) {
244 switch(where) {
245 case tp_code: ticks_in_code++; break;
246 case tp_native: ticks_in_native++; break;
247 }
248 }
250 void print_code(outputStream* st, int total_ticks) {
251 st->print("%5.1f%% %5d ", total() * 100.0 / total_ticks, ticks_in_code);
252 }
254 void print_native(outputStream* st) {
255 st->print(" + %5d ", ticks_in_native);
256 }
257 };
259 class ProfilerNode {
260 private:
261 ProfilerNode* _next;
262 public:
263 tick_counter ticks;
265 public:
267 void* operator new(size_t size, ThreadProfiler* tp);
268 void operator delete(void* p);
270 ProfilerNode() {
271 _next = NULL;
272 }
274 virtual ~ProfilerNode() {
275 if (_next)
276 delete _next;
277 }
279 void set_next(ProfilerNode* n) { _next = n; }
280 ProfilerNode* next() { return _next; }
282 void update(TickPosition where) { ticks.update(where);}
283 int total_ticks() { return ticks.total(); }
285 virtual bool is_interpreted() const { return false; }
286 virtual bool is_compiled() const { return false; }
287 virtual bool is_stub() const { return false; }
288 virtual bool is_runtime_stub() const{ return false; }
289 virtual void oops_do(OopClosure* f) = 0;
291 virtual bool interpreted_match(methodOop m) const { return false; }
292 virtual bool compiled_match(methodOop m ) const { return false; }
293 virtual bool stub_match(methodOop m, const char* name) const { return false; }
294 virtual bool adapter_match() const { return false; }
295 virtual bool runtimeStub_match(const CodeBlob* stub, const char* name) const { return false; }
296 virtual bool unknown_compiled_match(const CodeBlob* cb) const { return false; }
298 static void print_title(outputStream* st) {
299 st->print(" + native");
300 st->fill_to(col3);
301 st->print("Method");
302 st->fill_to(col4);
303 st->cr();
304 }
306 static void print_total(outputStream* st, tick_counter* t, int total, const char* msg) {
307 t->print_code(st, total);
308 st->fill_to(col2);
309 t->print_native(st);
310 st->fill_to(col3);
311 st->print(msg);
312 st->cr();
313 }
315 virtual methodOop method() = 0;
317 virtual void print_method_on(outputStream* st) {
318 int limit;
319 int i;
320 methodOop m = method();
321 Symbol* k = m->klass_name();
322 // Print the class name with dots instead of slashes
323 limit = k->utf8_length();
324 for (i = 0 ; i < limit ; i += 1) {
325 char c = (char) k->byte_at(i);
326 if (c == '/') {
327 c = '.';
328 }
329 st->print("%c", c);
330 }
331 if (limit > 0) {
332 st->print(".");
333 }
334 Symbol* n = m->name();
335 limit = n->utf8_length();
336 for (i = 0 ; i < limit ; i += 1) {
337 char c = (char) n->byte_at(i);
338 st->print("%c", c);
339 }
340 if( Verbose ) {
341 // Disambiguate overloaded methods
342 Symbol* sig = m->signature();
343 sig->print_symbol_on(st);
344 }
345 }
347 virtual void print(outputStream* st, int total_ticks) {
348 ticks.print_code(st, total_ticks);
349 st->fill_to(col2);
350 ticks.print_native(st);
351 st->fill_to(col3);
352 print_method_on(st);
353 st->cr();
354 }
356 // for hashing into the table
357 static int hash(methodOop method) {
358 // The point here is to try to make something fairly unique
359 // out of the fields we can read without grabbing any locks
360 // since the method may be locked when we need the hash.
361 return (
362 method->code_size() ^
363 method->max_stack() ^
364 method->max_locals() ^
365 method->size_of_parameters());
366 }
368 // for sorting
369 static int compare(ProfilerNode** a, ProfilerNode** b) {
370 return (*b)->total_ticks() - (*a)->total_ticks();
371 }
372 };
374 void* ProfilerNode::operator new(size_t size, ThreadProfiler* tp){
375 void* result = (void*) tp->area_top;
376 tp->area_top += size;
378 if (tp->area_top > tp->area_limit) {
379 fatal("flat profiler buffer overflow");
380 }
381 return result;
382 }
384 void ProfilerNode::operator delete(void* p){
385 }
387 class interpretedNode : public ProfilerNode {
388 private:
389 methodOop _method;
390 public:
391 interpretedNode(methodOop method, TickPosition where) : ProfilerNode() {
392 _method = method;
393 update(where);
394 }
396 bool is_interpreted() const { return true; }
398 bool interpreted_match(methodOop m) const {
399 return _method == m;
400 }
402 void oops_do(OopClosure* f) {
403 f->do_oop((oop*)&_method);
404 }
406 methodOop method() { return _method; }
408 static void print_title(outputStream* st) {
409 st->fill_to(col1);
410 st->print("%11s", "Interpreted");
411 ProfilerNode::print_title(st);
412 }
414 void print(outputStream* st, int total_ticks) {
415 ProfilerNode::print(st, total_ticks);
416 }
418 void print_method_on(outputStream* st) {
419 ProfilerNode::print_method_on(st);
420 if (Verbose) method()->invocation_counter()->print_short();
421 }
422 };
424 class compiledNode : public ProfilerNode {
425 private:
426 methodOop _method;
427 public:
428 compiledNode(methodOop method, TickPosition where) : ProfilerNode() {
429 _method = method;
430 update(where);
431 }
432 bool is_compiled() const { return true; }
434 bool compiled_match(methodOop m) const {
435 return _method == m;
436 }
438 methodOop method() { return _method; }
440 void oops_do(OopClosure* f) {
441 f->do_oop((oop*)&_method);
442 }
444 static void print_title(outputStream* st) {
445 st->fill_to(col1);
446 st->print("%11s", "Compiled");
447 ProfilerNode::print_title(st);
448 }
450 void print(outputStream* st, int total_ticks) {
451 ProfilerNode::print(st, total_ticks);
452 }
454 void print_method_on(outputStream* st) {
455 ProfilerNode::print_method_on(st);
456 }
457 };
459 class stubNode : public ProfilerNode {
460 private:
461 methodOop _method;
462 const char* _symbol; // The name of the nearest VM symbol (for +ProfileVM). Points to a unique string
463 public:
464 stubNode(methodOop method, const char* name, TickPosition where) : ProfilerNode() {
465 _method = method;
466 _symbol = name;
467 update(where);
468 }
470 bool is_stub() const { return true; }
472 bool stub_match(methodOop m, const char* name) const {
473 return (_method == m) && (_symbol == name);
474 }
476 void oops_do(OopClosure* f) {
477 f->do_oop((oop*)&_method);
478 }
480 methodOop method() { return _method; }
482 static void print_title(outputStream* st) {
483 st->fill_to(col1);
484 st->print("%11s", "Stub");
485 ProfilerNode::print_title(st);
486 }
488 void print(outputStream* st, int total_ticks) {
489 ProfilerNode::print(st, total_ticks);
490 }
492 void print_method_on(outputStream* st) {
493 ProfilerNode::print_method_on(st);
494 print_symbol_on(st);
495 }
497 void print_symbol_on(outputStream* st) {
498 if(_symbol) {
499 st->print(" (%s)", _symbol);
500 }
501 }
502 };
504 class adapterNode : public ProfilerNode {
505 public:
506 adapterNode(TickPosition where) : ProfilerNode() {
507 update(where);
508 }
509 bool is_compiled() const { return true; }
511 bool adapter_match() const { return true; }
513 methodOop method() { return NULL; }
515 void oops_do(OopClosure* f) {
516 ;
517 }
519 void print(outputStream* st, int total_ticks) {
520 ProfilerNode::print(st, total_ticks);
521 }
523 void print_method_on(outputStream* st) {
524 st->print("%s", "adapters");
525 }
526 };
528 class runtimeStubNode : public ProfilerNode {
529 private:
530 const CodeBlob* _stub;
531 const char* _symbol; // The name of the nearest VM symbol when ProfileVM is on. Points to a unique string.
532 public:
533 runtimeStubNode(const CodeBlob* stub, const char* name, TickPosition where) : ProfilerNode(), _stub(stub), _symbol(name) {
534 assert(stub->is_runtime_stub(), "wrong code blob");
535 update(where);
536 }
538 bool is_runtime_stub() const { return true; }
540 bool runtimeStub_match(const CodeBlob* stub, const char* name) const {
541 assert(stub->is_runtime_stub(), "wrong code blob");
542 return ((RuntimeStub*)_stub)->entry_point() == ((RuntimeStub*)stub)->entry_point() &&
543 (_symbol == name);
544 }
546 methodOop method() { return NULL; }
548 static void print_title(outputStream* st) {
549 st->fill_to(col1);
550 st->print("%11s", "Runtime stub");
551 ProfilerNode::print_title(st);
552 }
554 void oops_do(OopClosure* f) {
555 ;
556 }
558 void print(outputStream* st, int total_ticks) {
559 ProfilerNode::print(st, total_ticks);
560 }
562 void print_method_on(outputStream* st) {
563 st->print("%s", ((RuntimeStub*)_stub)->name());
564 print_symbol_on(st);
565 }
567 void print_symbol_on(outputStream* st) {
568 if(_symbol) {
569 st->print(" (%s)", _symbol);
570 }
571 }
572 };
575 class unknown_compiledNode : public ProfilerNode {
576 const char *_name;
577 public:
578 unknown_compiledNode(const CodeBlob* cb, TickPosition where) : ProfilerNode() {
579 if ( cb->is_buffer_blob() )
580 _name = ((BufferBlob*)cb)->name();
581 else
582 _name = ((SingletonBlob*)cb)->name();
583 update(where);
584 }
585 bool is_compiled() const { return true; }
587 bool unknown_compiled_match(const CodeBlob* cb) const {
588 if ( cb->is_buffer_blob() )
589 return !strcmp(((BufferBlob*)cb)->name(), _name);
590 else
591 return !strcmp(((SingletonBlob*)cb)->name(), _name);
592 }
594 methodOop method() { return NULL; }
596 void oops_do(OopClosure* f) {
597 ;
598 }
600 void print(outputStream* st, int total_ticks) {
601 ProfilerNode::print(st, total_ticks);
602 }
604 void print_method_on(outputStream* st) {
605 st->print("%s", _name);
606 }
607 };
609 class vmNode : public ProfilerNode {
610 private:
611 const char* _name; // "optional" name obtained by os means such as dll lookup
612 public:
613 vmNode(const TickPosition where) : ProfilerNode() {
614 _name = NULL;
615 update(where);
616 }
618 vmNode(const char* name, const TickPosition where) : ProfilerNode() {
619 _name = name;
620 update(where);
621 }
623 const char *name() const { return _name; }
624 bool is_compiled() const { return true; }
626 bool vm_match(const char* name) const { return strcmp(name, _name) == 0; }
628 methodOop method() { return NULL; }
630 static int hash(const char* name){
631 // Compute a simple hash
632 const char* cp = name;
633 int h = 0;
635 if(name != NULL){
636 while(*cp != '\0'){
637 h = (h << 1) ^ *cp;
638 cp++;
639 }
640 }
641 return h;
642 }
644 void oops_do(OopClosure* f) {
645 ;
646 }
648 void print(outputStream* st, int total_ticks) {
649 ProfilerNode::print(st, total_ticks);
650 }
652 void print_method_on(outputStream* st) {
653 if(_name==NULL){
654 st->print("%s", "unknown code");
655 }
656 else {
657 st->print("%s", _name);
658 }
659 }
660 };
662 void ThreadProfiler::interpreted_update(methodOop method, TickPosition where) {
663 int index = entry(ProfilerNode::hash(method));
664 if (!table[index]) {
665 table[index] = new (this) interpretedNode(method, where);
666 } else {
667 ProfilerNode* prev = table[index];
668 for(ProfilerNode* node = prev; node; node = node->next()) {
669 if (node->interpreted_match(method)) {
670 node->update(where);
671 return;
672 }
673 prev = node;
674 }
675 prev->set_next(new (this) interpretedNode(method, where));
676 }
677 }
679 void ThreadProfiler::compiled_update(methodOop method, TickPosition where) {
680 int index = entry(ProfilerNode::hash(method));
681 if (!table[index]) {
682 table[index] = new (this) compiledNode(method, where);
683 } else {
684 ProfilerNode* prev = table[index];
685 for(ProfilerNode* node = prev; node; node = node->next()) {
686 if (node->compiled_match(method)) {
687 node->update(where);
688 return;
689 }
690 prev = node;
691 }
692 prev->set_next(new (this) compiledNode(method, where));
693 }
694 }
696 void ThreadProfiler::stub_update(methodOop method, const char* name, TickPosition where) {
697 int index = entry(ProfilerNode::hash(method));
698 if (!table[index]) {
699 table[index] = new (this) stubNode(method, name, where);
700 } else {
701 ProfilerNode* prev = table[index];
702 for(ProfilerNode* node = prev; node; node = node->next()) {
703 if (node->stub_match(method, name)) {
704 node->update(where);
705 return;
706 }
707 prev = node;
708 }
709 prev->set_next(new (this) stubNode(method, name, where));
710 }
711 }
713 void ThreadProfiler::adapter_update(TickPosition where) {
714 int index = 0;
715 if (!table[index]) {
716 table[index] = new (this) adapterNode(where);
717 } else {
718 ProfilerNode* prev = table[index];
719 for(ProfilerNode* node = prev; node; node = node->next()) {
720 if (node->adapter_match()) {
721 node->update(where);
722 return;
723 }
724 prev = node;
725 }
726 prev->set_next(new (this) adapterNode(where));
727 }
728 }
730 void ThreadProfiler::runtime_stub_update(const CodeBlob* stub, const char* name, TickPosition where) {
731 int index = 0;
732 if (!table[index]) {
733 table[index] = new (this) runtimeStubNode(stub, name, where);
734 } else {
735 ProfilerNode* prev = table[index];
736 for(ProfilerNode* node = prev; node; node = node->next()) {
737 if (node->runtimeStub_match(stub, name)) {
738 node->update(where);
739 return;
740 }
741 prev = node;
742 }
743 prev->set_next(new (this) runtimeStubNode(stub, name, where));
744 }
745 }
748 void ThreadProfiler::unknown_compiled_update(const CodeBlob* cb, TickPosition where) {
749 int index = 0;
750 if (!table[index]) {
751 table[index] = new (this) unknown_compiledNode(cb, where);
752 } else {
753 ProfilerNode* prev = table[index];
754 for(ProfilerNode* node = prev; node; node = node->next()) {
755 if (node->unknown_compiled_match(cb)) {
756 node->update(where);
757 return;
758 }
759 prev = node;
760 }
761 prev->set_next(new (this) unknown_compiledNode(cb, where));
762 }
763 }
765 void ThreadProfiler::vm_update(TickPosition where) {
766 vm_update(NULL, where);
767 }
769 void ThreadProfiler::vm_update(const char* name, TickPosition where) {
770 int index = entry(vmNode::hash(name));
771 assert(index >= 0, "Must be positive");
772 // Note that we call strdup below since the symbol may be resource allocated
773 if (!table[index]) {
774 table[index] = new (this) vmNode(os::strdup(name), where);
775 } else {
776 ProfilerNode* prev = table[index];
777 for(ProfilerNode* node = prev; node; node = node->next()) {
778 if (((vmNode *)node)->vm_match(name)) {
779 node->update(where);
780 return;
781 }
782 prev = node;
783 }
784 prev->set_next(new (this) vmNode(os::strdup(name), where));
785 }
786 }
789 class FlatProfilerTask : public PeriodicTask {
790 public:
791 FlatProfilerTask(int interval_time) : PeriodicTask(interval_time) {}
792 void task();
793 };
795 void FlatProfiler::record_vm_operation() {
796 if (Universe::heap()->is_gc_active()) {
797 FlatProfiler::received_gc_ticks += 1;
798 return;
799 }
801 if (DeoptimizationMarker::is_active()) {
802 FlatProfiler::deopt_ticks += 1;
803 return;
804 }
806 FlatProfiler::vm_operation_ticks += 1;
807 }
809 void FlatProfiler::record_vm_tick() {
810 // Profile the VM Thread itself if needed
811 // This is done without getting the Threads_lock and we can go deep
812 // inside Safepoint, etc.
813 if( ProfileVM ) {
814 ResourceMark rm;
815 ExtendedPC epc;
816 const char *name = NULL;
817 char buf[256];
818 buf[0] = '\0';
820 vm_thread_profiler->inc_thread_ticks();
822 // Get a snapshot of a current VMThread pc (and leave it running!)
823 // The call may fail if, for instance the VM thread is interrupted while
824 // holding the Interrupt_lock or for other reasons.
825 epc = os::get_thread_pc(VMThread::vm_thread());
826 if(epc.pc() != NULL) {
827 if (os::dll_address_to_function_name(epc.pc(), buf, sizeof(buf), NULL)) {
828 name = buf;
829 }
830 }
831 if (name != NULL) {
832 vm_thread_profiler->vm_update(name, tp_native);
833 }
834 }
835 }
837 void FlatProfiler::record_thread_ticks() {
839 int maxthreads, suspendedthreadcount;
840 JavaThread** threadsList;
841 bool interval_expired = false;
843 if (ProfileIntervals &&
844 (FlatProfiler::received_ticks >= interval_ticks_previous + ProfileIntervalsTicks)) {
845 interval_expired = true;
846 interval_ticks_previous = FlatProfiler::received_ticks;
847 }
849 // Try not to wait for the Threads_lock
850 if (Threads_lock->try_lock()) {
851 { // Threads_lock scope
852 maxthreads = Threads::number_of_threads();
853 threadsList = NEW_C_HEAP_ARRAY(JavaThread *, maxthreads);
854 suspendedthreadcount = 0;
855 for (JavaThread* tp = Threads::first(); tp != NULL; tp = tp->next()) {
856 if (tp->is_Compiler_thread()) {
857 // Only record ticks for active compiler threads
858 CompilerThread* cthread = (CompilerThread*)tp;
859 if (cthread->task() != NULL) {
860 // The compiler is active. If we need to access any of the fields
861 // of the compiler task we should suspend the CompilerThread first.
862 FlatProfiler::compiler_ticks += 1;
863 continue;
864 }
865 }
867 // First externally suspend all threads by marking each for
868 // external suspension - so it will stop at its next transition
869 // Then do a safepoint
870 ThreadProfiler* pp = tp->get_thread_profiler();
871 if (pp != NULL && pp->engaged) {
872 MutexLockerEx ml(tp->SR_lock(), Mutex::_no_safepoint_check_flag);
873 if (!tp->is_external_suspend() && !tp->is_exiting()) {
874 tp->set_external_suspend();
875 threadsList[suspendedthreadcount++] = tp;
876 }
877 }
878 }
879 Threads_lock->unlock();
880 }
881 // Suspend each thread. This call should just return
882 // for any threads that have already self-suspended
883 // Net result should be one safepoint
884 for (int j = 0; j < suspendedthreadcount; j++) {
885 JavaThread *tp = threadsList[j];
886 if (tp) {
887 tp->java_suspend();
888 }
889 }
891 // We are responsible for resuming any thread on this list
892 for (int i = 0; i < suspendedthreadcount; i++) {
893 JavaThread *tp = threadsList[i];
894 if (tp) {
895 ThreadProfiler* pp = tp->get_thread_profiler();
896 if (pp != NULL && pp->engaged) {
897 HandleMark hm;
898 FlatProfiler::delivered_ticks += 1;
899 if (interval_expired) {
900 FlatProfiler::interval_record_thread(pp);
901 }
902 // This is the place where we check to see if a user thread is
903 // blocked waiting for compilation.
904 if (tp->blocked_on_compilation()) {
905 pp->compiler_ticks += 1;
906 pp->interval_data_ref()->inc_compiling();
907 } else {
908 pp->record_tick(tp);
909 }
910 }
911 MutexLocker ml(Threads_lock);
912 tp->java_resume();
913 }
914 }
915 if (interval_expired) {
916 FlatProfiler::interval_print();
917 FlatProfiler::interval_reset();
918 }
919 } else {
920 // Couldn't get the threads lock, just record that rather than blocking
921 FlatProfiler::threads_lock_ticks += 1;
922 }
924 }
926 void FlatProfilerTask::task() {
927 FlatProfiler::received_ticks += 1;
929 if (ProfileVM) {
930 FlatProfiler::record_vm_tick();
931 }
933 VM_Operation* op = VMThread::vm_operation();
934 if (op != NULL) {
935 FlatProfiler::record_vm_operation();
936 if (SafepointSynchronize::is_at_safepoint()) {
937 return;
938 }
939 }
940 FlatProfiler::record_thread_ticks();
941 }
943 void ThreadProfiler::record_interpreted_tick(JavaThread* thread, frame fr, TickPosition where, int* ticks) {
944 FlatProfiler::all_int_ticks++;
945 if (!FlatProfiler::full_profile()) {
946 return;
947 }
949 if (!fr.is_interpreted_frame_valid(thread)) {
950 // tick came at a bad time
951 interpreter_ticks += 1;
952 FlatProfiler::interpreter_ticks += 1;
953 return;
954 }
956 // The frame has been fully validated so we can trust the method and bci
958 methodOop method = *fr.interpreter_frame_method_addr();
960 interpreted_update(method, where);
962 // update byte code table
963 InterpreterCodelet* desc = Interpreter::codelet_containing(fr.pc());
964 if (desc != NULL && desc->bytecode() >= 0) {
965 ticks[desc->bytecode()]++;
966 }
967 }
969 void ThreadProfiler::record_compiled_tick(JavaThread* thread, frame fr, TickPosition where) {
970 const char *name = NULL;
971 TickPosition localwhere = where;
973 FlatProfiler::all_comp_ticks++;
974 if (!FlatProfiler::full_profile()) return;
976 CodeBlob* cb = fr.cb();
978 // For runtime stubs, record as native rather than as compiled
979 if (cb->is_runtime_stub()) {
980 RegisterMap map(thread, false);
981 fr = fr.sender(&map);
982 cb = fr.cb();
983 localwhere = tp_native;
984 }
985 methodOop method = (cb->is_nmethod()) ? ((nmethod *)cb)->method() :
986 (methodOop)NULL;
988 if (method == NULL) {
989 if (cb->is_runtime_stub())
990 runtime_stub_update(cb, name, localwhere);
991 else
992 unknown_compiled_update(cb, localwhere);
993 }
994 else {
995 if (method->is_native()) {
996 stub_update(method, name, localwhere);
997 } else {
998 compiled_update(method, localwhere);
999 }
1000 }
1001 }
1003 extern "C" void find(int x);
1006 void ThreadProfiler::record_tick_for_running_frame(JavaThread* thread, frame fr) {
1007 // The tick happened in real code -> non VM code
1008 if (fr.is_interpreted_frame()) {
1009 interval_data_ref()->inc_interpreted();
1010 record_interpreted_tick(thread, fr, tp_code, FlatProfiler::bytecode_ticks);
1011 return;
1012 }
1014 if (CodeCache::contains(fr.pc())) {
1015 interval_data_ref()->inc_compiled();
1016 PCRecorder::record(fr.pc());
1017 record_compiled_tick(thread, fr, tp_code);
1018 return;
1019 }
1021 if (VtableStubs::stub_containing(fr.pc()) != NULL) {
1022 unknown_ticks_array[ut_vtable_stubs] += 1;
1023 return;
1024 }
1026 frame caller = fr.profile_find_Java_sender_frame(thread);
1028 if (caller.sp() != NULL && caller.pc() != NULL) {
1029 record_tick_for_calling_frame(thread, caller);
1030 return;
1031 }
1033 unknown_ticks_array[ut_running_frame] += 1;
1034 FlatProfiler::unknown_ticks += 1;
1035 }
1037 void ThreadProfiler::record_tick_for_calling_frame(JavaThread* thread, frame fr) {
1038 // The tick happened in VM code
1039 interval_data_ref()->inc_native();
1040 if (fr.is_interpreted_frame()) {
1041 record_interpreted_tick(thread, fr, tp_native, FlatProfiler::bytecode_ticks_stub);
1042 return;
1043 }
1044 if (CodeCache::contains(fr.pc())) {
1045 record_compiled_tick(thread, fr, tp_native);
1046 return;
1047 }
1049 frame caller = fr.profile_find_Java_sender_frame(thread);
1051 if (caller.sp() != NULL && caller.pc() != NULL) {
1052 record_tick_for_calling_frame(thread, caller);
1053 return;
1054 }
1056 unknown_ticks_array[ut_calling_frame] += 1;
1057 FlatProfiler::unknown_ticks += 1;
1058 }
1060 void ThreadProfiler::record_tick(JavaThread* thread) {
1061 FlatProfiler::all_ticks++;
1062 thread_ticks += 1;
1064 // Here's another way to track global state changes.
1065 // When the class loader starts it marks the ThreadProfiler to tell it it is in the class loader
1066 // and we check that here.
1067 // This is more direct, and more than one thread can be in the class loader at a time,
1068 // but it does mean the class loader has to know about the profiler.
1069 if (region_flag[ThreadProfilerMark::classLoaderRegion]) {
1070 class_loader_ticks += 1;
1071 FlatProfiler::class_loader_ticks += 1;
1072 return;
1073 } else if (region_flag[ThreadProfilerMark::extraRegion]) {
1074 extra_ticks += 1;
1075 FlatProfiler::extra_ticks += 1;
1076 return;
1077 }
1078 // Note that the WatcherThread can now stop for safepoints
1079 uint32_t debug_bits = 0;
1080 if (!thread->wait_for_ext_suspend_completion(SuspendRetryCount,
1081 SuspendRetryDelay, &debug_bits)) {
1082 unknown_ticks_array[ut_unknown_thread_state] += 1;
1083 FlatProfiler::unknown_ticks += 1;
1084 return;
1085 }
1087 frame fr;
1089 switch (thread->thread_state()) {
1090 case _thread_in_native:
1091 case _thread_in_native_trans:
1092 case _thread_in_vm:
1093 case _thread_in_vm_trans:
1094 if (thread->profile_last_Java_frame(&fr)) {
1095 if (fr.is_runtime_frame()) {
1096 RegisterMap map(thread, false);
1097 fr = fr.sender(&map);
1098 }
1099 record_tick_for_calling_frame(thread, fr);
1100 } else {
1101 unknown_ticks_array[ut_no_last_Java_frame] += 1;
1102 FlatProfiler::unknown_ticks += 1;
1103 }
1104 break;
1105 // handle_special_runtime_exit_condition self-suspends threads in Java
1106 case _thread_in_Java:
1107 case _thread_in_Java_trans:
1108 if (thread->profile_last_Java_frame(&fr)) {
1109 if (fr.is_safepoint_blob_frame()) {
1110 RegisterMap map(thread, false);
1111 fr = fr.sender(&map);
1112 }
1113 record_tick_for_running_frame(thread, fr);
1114 } else {
1115 unknown_ticks_array[ut_no_last_Java_frame] += 1;
1116 FlatProfiler::unknown_ticks += 1;
1117 }
1118 break;
1119 case _thread_blocked:
1120 case _thread_blocked_trans:
1121 if (thread->osthread() && thread->osthread()->get_state() == RUNNABLE) {
1122 if (thread->profile_last_Java_frame(&fr)) {
1123 if (fr.is_safepoint_blob_frame()) {
1124 RegisterMap map(thread, false);
1125 fr = fr.sender(&map);
1126 record_tick_for_running_frame(thread, fr);
1127 } else {
1128 record_tick_for_calling_frame(thread, fr);
1129 }
1130 } else {
1131 unknown_ticks_array[ut_no_last_Java_frame] += 1;
1132 FlatProfiler::unknown_ticks += 1;
1133 }
1134 } else {
1135 blocked_ticks += 1;
1136 FlatProfiler::blocked_ticks += 1;
1137 }
1138 break;
1139 case _thread_uninitialized:
1140 case _thread_new:
1141 // not used, included for completeness
1142 case _thread_new_trans:
1143 unknown_ticks_array[ut_no_last_Java_frame] += 1;
1144 FlatProfiler::unknown_ticks += 1;
1145 break;
1146 default:
1147 unknown_ticks_array[ut_unknown_thread_state] += 1;
1148 FlatProfiler::unknown_ticks += 1;
1149 break;
1150 }
1151 return;
1152 }
1154 void ThreadProfiler::engage() {
1155 engaged = true;
1156 timer.start();
1157 }
1159 void ThreadProfiler::disengage() {
1160 engaged = false;
1161 timer.stop();
1162 }
1164 void ThreadProfiler::initialize() {
1165 for (int index = 0; index < table_size; index++) {
1166 table[index] = NULL;
1167 }
1168 thread_ticks = 0;
1169 blocked_ticks = 0;
1170 compiler_ticks = 0;
1171 interpreter_ticks = 0;
1172 for (int ut = 0; ut < ut_end; ut += 1) {
1173 unknown_ticks_array[ut] = 0;
1174 }
1175 region_flag[ThreadProfilerMark::classLoaderRegion] = false;
1176 class_loader_ticks = 0;
1177 region_flag[ThreadProfilerMark::extraRegion] = false;
1178 extra_ticks = 0;
1179 timer.start();
1180 interval_data_ref()->reset();
1181 }
1183 void ThreadProfiler::reset() {
1184 timer.stop();
1185 if (table != NULL) {
1186 for (int index = 0; index < table_size; index++) {
1187 ProfilerNode* n = table[index];
1188 if (n != NULL) {
1189 delete n;
1190 }
1191 }
1192 }
1193 initialize();
1194 }
1196 void FlatProfiler::allocate_table() {
1197 { // Bytecode table
1198 bytecode_ticks = NEW_C_HEAP_ARRAY(int, Bytecodes::number_of_codes);
1199 bytecode_ticks_stub = NEW_C_HEAP_ARRAY(int, Bytecodes::number_of_codes);
1200 for(int index = 0; index < Bytecodes::number_of_codes; index++) {
1201 bytecode_ticks[index] = 0;
1202 bytecode_ticks_stub[index] = 0;
1203 }
1204 }
1206 if (ProfilerRecordPC) PCRecorder::init();
1208 interval_data = NEW_C_HEAP_ARRAY(IntervalData, interval_print_size);
1209 FlatProfiler::interval_reset();
1210 }
1212 void FlatProfiler::engage(JavaThread* mainThread, bool fullProfile) {
1213 full_profile_flag = fullProfile;
1214 if (bytecode_ticks == NULL) {
1215 allocate_table();
1216 }
1217 if(ProfileVM && (vm_thread_profiler == NULL)){
1218 vm_thread_profiler = new ThreadProfiler();
1219 }
1220 if (task == NULL) {
1221 task = new FlatProfilerTask(WatcherThread::delay_interval);
1222 task->enroll();
1223 }
1224 timer.start();
1225 if (mainThread != NULL) {
1226 // When mainThread was created, it might not have a ThreadProfiler
1227 ThreadProfiler* pp = mainThread->get_thread_profiler();
1228 if (pp == NULL) {
1229 mainThread->set_thread_profiler(new ThreadProfiler());
1230 } else {
1231 pp->reset();
1232 }
1233 mainThread->get_thread_profiler()->engage();
1234 }
1235 // This is where we would assign thread_profiler
1236 // if we wanted only one thread_profiler for all threads.
1237 thread_profiler = NULL;
1238 }
1240 void FlatProfiler::disengage() {
1241 if (!task) {
1242 return;
1243 }
1244 timer.stop();
1245 task->disenroll();
1246 delete task;
1247 task = NULL;
1248 if (thread_profiler != NULL) {
1249 thread_profiler->disengage();
1250 } else {
1251 MutexLocker tl(Threads_lock);
1252 for (JavaThread* tp = Threads::first(); tp != NULL; tp = tp->next()) {
1253 ThreadProfiler* pp = tp->get_thread_profiler();
1254 if (pp != NULL) {
1255 pp->disengage();
1256 }
1257 }
1258 }
1259 }
1261 void FlatProfiler::reset() {
1262 if (task) {
1263 disengage();
1264 }
1266 class_loader_ticks = 0;
1267 extra_ticks = 0;
1268 received_gc_ticks = 0;
1269 vm_operation_ticks = 0;
1270 compiler_ticks = 0;
1271 deopt_ticks = 0;
1272 interpreter_ticks = 0;
1273 blocked_ticks = 0;
1274 unknown_ticks = 0;
1275 received_ticks = 0;
1276 delivered_ticks = 0;
1277 timer.stop();
1278 }
1280 bool FlatProfiler::is_active() {
1281 return task != NULL;
1282 }
1284 void FlatProfiler::print_byte_code_statistics() {
1285 GrowableArray <ProfilerNode*>* array = new GrowableArray<ProfilerNode*>(200);
1287 tty->print_cr(" Bytecode ticks:");
1288 for (int index = 0; index < Bytecodes::number_of_codes; index++) {
1289 if (FlatProfiler::bytecode_ticks[index] > 0 || FlatProfiler::bytecode_ticks_stub[index] > 0) {
1290 tty->print_cr(" %4d %4d = %s",
1291 FlatProfiler::bytecode_ticks[index],
1292 FlatProfiler::bytecode_ticks_stub[index],
1293 Bytecodes::name( (Bytecodes::Code) index));
1294 }
1295 }
1296 tty->cr();
1297 }
1299 void print_ticks(const char* title, int ticks, int total) {
1300 if (ticks > 0) {
1301 tty->print("%5.1f%% %5d", ticks * 100.0 / total, ticks);
1302 tty->fill_to(col3);
1303 tty->print("%s", title);
1304 tty->cr();
1305 }
1306 }
1308 void ThreadProfiler::print(const char* thread_name) {
1309 ResourceMark rm;
1310 MutexLocker ppl(ProfilePrint_lock);
1311 int index = 0; // Declared outside for loops for portability
1313 if (table == NULL) {
1314 return;
1315 }
1317 if (thread_ticks <= 0) {
1318 return;
1319 }
1321 const char* title = "too soon to tell";
1322 double secs = timer.seconds();
1324 GrowableArray <ProfilerNode*>* array = new GrowableArray<ProfilerNode*>(200);
1325 for(index = 0; index < table_size; index++) {
1326 for(ProfilerNode* node = table[index]; node; node = node->next())
1327 array->append(node);
1328 }
1330 array->sort(&ProfilerNode::compare);
1332 // compute total (sanity check)
1333 int active =
1334 class_loader_ticks +
1335 compiler_ticks +
1336 interpreter_ticks +
1337 unknown_ticks();
1338 for (index = 0; index < array->length(); index++) {
1339 active += array->at(index)->ticks.total();
1340 }
1341 int total = active + blocked_ticks;
1343 tty->cr();
1344 tty->print_cr("Flat profile of %3.2f secs (%d total ticks): %s", secs, total, thread_name);
1345 if (total != thread_ticks) {
1346 print_ticks("Lost ticks", thread_ticks-total, thread_ticks);
1347 }
1348 tty->cr();
1350 // print interpreted methods
1351 tick_counter interpreted_ticks;
1352 bool has_interpreted_ticks = false;
1353 int print_count = 0;
1354 for (index = 0; index < array->length(); index++) {
1355 ProfilerNode* n = array->at(index);
1356 if (n->is_interpreted()) {
1357 interpreted_ticks.add(&n->ticks);
1358 if (!has_interpreted_ticks) {
1359 interpretedNode::print_title(tty);
1360 has_interpreted_ticks = true;
1361 }
1362 if (print_count++ < ProfilerNumberOfInterpretedMethods) {
1363 n->print(tty, active);
1364 }
1365 }
1366 }
1367 if (has_interpreted_ticks) {
1368 if (print_count <= ProfilerNumberOfInterpretedMethods) {
1369 title = "Total interpreted";
1370 } else {
1371 title = "Total interpreted (including elided)";
1372 }
1373 interpretedNode::print_total(tty, &interpreted_ticks, active, title);
1374 tty->cr();
1375 }
1377 // print compiled methods
1378 tick_counter compiled_ticks;
1379 bool has_compiled_ticks = false;
1380 print_count = 0;
1381 for (index = 0; index < array->length(); index++) {
1382 ProfilerNode* n = array->at(index);
1383 if (n->is_compiled()) {
1384 compiled_ticks.add(&n->ticks);
1385 if (!has_compiled_ticks) {
1386 compiledNode::print_title(tty);
1387 has_compiled_ticks = true;
1388 }
1389 if (print_count++ < ProfilerNumberOfCompiledMethods) {
1390 n->print(tty, active);
1391 }
1392 }
1393 }
1394 if (has_compiled_ticks) {
1395 if (print_count <= ProfilerNumberOfCompiledMethods) {
1396 title = "Total compiled";
1397 } else {
1398 title = "Total compiled (including elided)";
1399 }
1400 compiledNode::print_total(tty, &compiled_ticks, active, title);
1401 tty->cr();
1402 }
1404 // print stub methods
1405 tick_counter stub_ticks;
1406 bool has_stub_ticks = false;
1407 print_count = 0;
1408 for (index = 0; index < array->length(); index++) {
1409 ProfilerNode* n = array->at(index);
1410 if (n->is_stub()) {
1411 stub_ticks.add(&n->ticks);
1412 if (!has_stub_ticks) {
1413 stubNode::print_title(tty);
1414 has_stub_ticks = true;
1415 }
1416 if (print_count++ < ProfilerNumberOfStubMethods) {
1417 n->print(tty, active);
1418 }
1419 }
1420 }
1421 if (has_stub_ticks) {
1422 if (print_count <= ProfilerNumberOfStubMethods) {
1423 title = "Total stub";
1424 } else {
1425 title = "Total stub (including elided)";
1426 }
1427 stubNode::print_total(tty, &stub_ticks, active, title);
1428 tty->cr();
1429 }
1431 // print runtime stubs
1432 tick_counter runtime_stub_ticks;
1433 bool has_runtime_stub_ticks = false;
1434 print_count = 0;
1435 for (index = 0; index < array->length(); index++) {
1436 ProfilerNode* n = array->at(index);
1437 if (n->is_runtime_stub()) {
1438 runtime_stub_ticks.add(&n->ticks);
1439 if (!has_runtime_stub_ticks) {
1440 runtimeStubNode::print_title(tty);
1441 has_runtime_stub_ticks = true;
1442 }
1443 if (print_count++ < ProfilerNumberOfRuntimeStubNodes) {
1444 n->print(tty, active);
1445 }
1446 }
1447 }
1448 if (has_runtime_stub_ticks) {
1449 if (print_count <= ProfilerNumberOfRuntimeStubNodes) {
1450 title = "Total runtime stubs";
1451 } else {
1452 title = "Total runtime stubs (including elided)";
1453 }
1454 runtimeStubNode::print_total(tty, &runtime_stub_ticks, active, title);
1455 tty->cr();
1456 }
1458 if (blocked_ticks + class_loader_ticks + interpreter_ticks + compiler_ticks + unknown_ticks() != 0) {
1459 tty->fill_to(col1);
1460 tty->print_cr("Thread-local ticks:");
1461 print_ticks("Blocked (of total)", blocked_ticks, total);
1462 print_ticks("Class loader", class_loader_ticks, active);
1463 print_ticks("Extra", extra_ticks, active);
1464 print_ticks("Interpreter", interpreter_ticks, active);
1465 print_ticks("Compilation", compiler_ticks, active);
1466 print_ticks("Unknown: vtable stubs", unknown_ticks_array[ut_vtable_stubs], active);
1467 print_ticks("Unknown: null method", unknown_ticks_array[ut_null_method], active);
1468 print_ticks("Unknown: running frame", unknown_ticks_array[ut_running_frame], active);
1469 print_ticks("Unknown: calling frame", unknown_ticks_array[ut_calling_frame], active);
1470 print_ticks("Unknown: no pc", unknown_ticks_array[ut_no_pc], active);
1471 print_ticks("Unknown: no last frame", unknown_ticks_array[ut_no_last_Java_frame], active);
1472 print_ticks("Unknown: thread_state", unknown_ticks_array[ut_unknown_thread_state], active);
1473 tty->cr();
1474 }
1476 if (WizardMode) {
1477 tty->print_cr("Node area used: %dKb", (area_top - area_bottom) / 1024);
1478 }
1479 reset();
1480 }
1482 /*
1483 ThreadProfiler::print_unknown(){
1484 if (table == NULL) {
1485 return;
1486 }
1488 if (thread_ticks <= 0) {
1489 return;
1490 }
1491 } */
1493 void FlatProfiler::print(int unused) {
1494 ResourceMark rm;
1495 if (thread_profiler != NULL) {
1496 thread_profiler->print("All threads");
1497 } else {
1498 MutexLocker tl(Threads_lock);
1499 for (JavaThread* tp = Threads::first(); tp != NULL; tp = tp->next()) {
1500 ThreadProfiler* pp = tp->get_thread_profiler();
1501 if (pp != NULL) {
1502 pp->print(tp->get_thread_name());
1503 }
1504 }
1505 }
1507 if (ProfilerPrintByteCodeStatistics) {
1508 print_byte_code_statistics();
1509 }
1511 if (non_method_ticks() > 0) {
1512 tty->cr();
1513 tty->print_cr("Global summary of %3.2f seconds:", timer.seconds());
1514 print_ticks("Received ticks", received_ticks, received_ticks);
1515 print_ticks("Received GC ticks", received_gc_ticks, received_ticks);
1516 print_ticks("Compilation", compiler_ticks, received_ticks);
1517 print_ticks("Deoptimization", deopt_ticks, received_ticks);
1518 print_ticks("Other VM operations", vm_operation_ticks, received_ticks);
1519 #ifndef PRODUCT
1520 print_ticks("Blocked ticks", blocked_ticks, received_ticks);
1521 print_ticks("Threads_lock blocks", threads_lock_ticks, received_ticks);
1522 print_ticks("Delivered ticks", delivered_ticks, received_ticks);
1523 print_ticks("All ticks", all_ticks, received_ticks);
1524 #endif
1525 print_ticks("Class loader", class_loader_ticks, received_ticks);
1526 print_ticks("Extra ", extra_ticks, received_ticks);
1527 print_ticks("Interpreter", interpreter_ticks, received_ticks);
1528 print_ticks("Unknown code", unknown_ticks, received_ticks);
1529 }
1531 PCRecorder::print();
1533 if(ProfileVM){
1534 tty->cr();
1535 vm_thread_profiler->print("VM Thread");
1536 }
1537 }
1539 void IntervalData::print_header(outputStream* st) {
1540 st->print("i/c/n/g");
1541 }
1543 void IntervalData::print_data(outputStream* st) {
1544 st->print("%d/%d/%d/%d", interpreted(), compiled(), native(), compiling());
1545 }
1547 void FlatProfiler::interval_record_thread(ThreadProfiler* tp) {
1548 IntervalData id = tp->interval_data();
1549 int total = id.total();
1550 tp->interval_data_ref()->reset();
1552 // Insertion sort the data, if it's relevant.
1553 for (int i = 0; i < interval_print_size; i += 1) {
1554 if (total > interval_data[i].total()) {
1555 for (int j = interval_print_size - 1; j > i; j -= 1) {
1556 interval_data[j] = interval_data[j-1];
1557 }
1558 interval_data[i] = id;
1559 break;
1560 }
1561 }
1562 }
1564 void FlatProfiler::interval_print() {
1565 if ((interval_data[0].total() > 0)) {
1566 tty->stamp();
1567 tty->print("\t");
1568 IntervalData::print_header(tty);
1569 for (int i = 0; i < interval_print_size; i += 1) {
1570 if (interval_data[i].total() > 0) {
1571 tty->print("\t");
1572 interval_data[i].print_data(tty);
1573 }
1574 }
1575 tty->cr();
1576 }
1577 }
1579 void FlatProfiler::interval_reset() {
1580 for (int i = 0; i < interval_print_size; i += 1) {
1581 interval_data[i].reset();
1582 }
1583 }
1585 void ThreadProfiler::oops_do(OopClosure* f) {
1586 if (table == NULL) return;
1588 for(int index = 0; index < table_size; index++) {
1589 for(ProfilerNode* node = table[index]; node; node = node->next())
1590 node->oops_do(f);
1591 }
1592 }
1594 void FlatProfiler::oops_do(OopClosure* f) {
1595 if (thread_profiler != NULL) {
1596 thread_profiler->oops_do(f);
1597 } else {
1598 for (JavaThread* tp = Threads::first(); tp != NULL; tp = tp->next()) {
1599 ThreadProfiler* pp = tp->get_thread_profiler();
1600 if (pp != NULL) {
1601 pp->oops_do(f);
1602 }
1603 }
1604 }
1605 }