1 /*
2 * Copyright (c) 2003, 2019, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
9 * This code is distributed in the hope that it will be useful, but WITHOUT
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
12 * version 2 for more details (a copy is included in the LICENSE file that
13 * accompanied this code).
14 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
24
25 #include "precompiled.hpp"
26 #include "classfile/classLoaderDataGraph.hpp"
27 #include "classfile/moduleEntry.hpp"
28 #include "classfile/systemDictionary.hpp"
29 #include "jvmtifiles/jvmtiEnv.hpp"
30 #include "memory/iterator.hpp"
31 #include "memory/resourceArea.hpp"
32 #include "oops/objArrayKlass.hpp"
33 #include "oops/objArrayOop.hpp"
34 #include "oops/oop.inline.hpp"
35 #include "oops/oopHandle.inline.hpp"
36 #include "prims/jvmtiEnvBase.hpp"
37 #include "prims/jvmtiEventController.inline.hpp"
38 #include "prims/jvmtiExtensions.hpp"
39 #include "prims/jvmtiImpl.hpp"
40 #include "prims/jvmtiManageCapabilities.hpp"
41 #include "prims/jvmtiTagMap.hpp"
42 #include "prims/jvmtiThreadState.inline.hpp"
43 #include "runtime/biasedLocking.hpp"
44 #include "runtime/deoptimization.hpp"
45 #include "runtime/frame.inline.hpp"
46 #include "runtime/handles.inline.hpp"
47 #include "runtime/interfaceSupport.inline.hpp"
48 #include "runtime/jfieldIDWorkaround.hpp"
49 #include "runtime/jniHandles.inline.hpp"
50 #include "runtime/objectMonitor.hpp"
51 #include "runtime/objectMonitor.inline.hpp"
52 #include "runtime/signature.hpp"
53 #include "runtime/thread.inline.hpp"
54 #include "runtime/threadSMR.hpp"
55 #include "runtime/vframe.hpp"
56 #include "runtime/vframe_hp.hpp"
57 #include "runtime/vmThread.hpp"
58 #include "runtime/vmOperations.hpp"
59
60 ///////////////////////////////////////////////////////////////
61 //
62 // JvmtiEnvBase
63 //
64
65 JvmtiEnvBase* JvmtiEnvBase::_head_environment = NULL;
66
67 bool JvmtiEnvBase::_globally_initialized = false;
68 volatile bool JvmtiEnvBase::_needs_clean_up = false;
69
70 jvmtiPhase JvmtiEnvBase::_phase = JVMTI_PHASE_PRIMORDIAL;
71
72 volatile int JvmtiEnvBase::_dying_thread_env_iteration_count = 0;
73
74 extern jvmtiInterface_1_ jvmti_Interface;
75 extern jvmtiInterface_1_ jvmtiTrace_Interface;
76
77
78 // perform initializations that must occur before any JVMTI environments
79 // are released but which should only be initialized once (no matter
80 // how many environments are created).
81 void
globally_initialize()82 JvmtiEnvBase::globally_initialize() {
83 assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");
84 assert(_globally_initialized == false, "bad call");
85
86 JvmtiManageCapabilities::initialize();
87
88 // register extension functions and events
89 JvmtiExtensions::register_extensions();
90
91 #ifdef JVMTI_TRACE
92 JvmtiTrace::initialize();
93 #endif
94
95 _globally_initialized = true;
96 }
97
98
99 void
initialize()100 JvmtiEnvBase::initialize() {
101 assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");
102
103 // Add this environment to the end of the environment list (order is important)
104 {
105 // This block of code must not contain any safepoints, as list deallocation
106 // (which occurs at a safepoint) cannot occur simultaneously with this list
107 // addition. Note: NoSafepointVerifier cannot, currently, be used before
108 // threads exist.
109 JvmtiEnvIterator it;
110 JvmtiEnvBase *previous_env = NULL;
111 for (JvmtiEnvBase* env = it.first(); env != NULL; env = it.next(env)) {
112 previous_env = env;
113 }
114 if (previous_env == NULL) {
115 _head_environment = this;
116 } else {
117 previous_env->set_next_environment(this);
118 }
119 }
120
121 if (_globally_initialized == false) {
122 globally_initialize();
123 }
124 }
125
126 jvmtiPhase
phase()127 JvmtiEnvBase::phase() {
128 // For the JVMTI environments possessed the can_generate_early_vmstart:
129 // replace JVMTI_PHASE_PRIMORDIAL with JVMTI_PHASE_START
130 if (_phase == JVMTI_PHASE_PRIMORDIAL &&
131 JvmtiExport::early_vmstart_recorded() &&
132 early_vmstart_env()) {
133 return JVMTI_PHASE_START;
134 }
135 return _phase; // Normal case
136 }
137
138 bool
is_valid()139 JvmtiEnvBase::is_valid() {
140 jint value = 0;
141
142 // This object might not be a JvmtiEnvBase so we can't assume
143 // the _magic field is properly aligned. Get the value in a safe
144 // way and then check against JVMTI_MAGIC.
145
146 switch (sizeof(_magic)) {
147 case 2:
148 value = Bytes::get_native_u2((address)&_magic);
149 break;
150
151 case 4:
152 value = Bytes::get_native_u4((address)&_magic);
153 break;
154
155 case 8:
156 value = Bytes::get_native_u8((address)&_magic);
157 break;
158
159 default:
160 guarantee(false, "_magic field is an unexpected size");
161 }
162
163 return value == JVMTI_MAGIC;
164 }
165
166
167 bool
use_version_1_0_semantics()168 JvmtiEnvBase::use_version_1_0_semantics() {
169 int major, minor, micro;
170
171 JvmtiExport::decode_version_values(_version, &major, &minor, µ);
172 return major == 1 && minor == 0; // micro version doesn't matter here
173 }
174
175
176 bool
use_version_1_1_semantics()177 JvmtiEnvBase::use_version_1_1_semantics() {
178 int major, minor, micro;
179
180 JvmtiExport::decode_version_values(_version, &major, &minor, µ);
181 return major == 1 && minor == 1; // micro version doesn't matter here
182 }
183
184 bool
use_version_1_2_semantics()185 JvmtiEnvBase::use_version_1_2_semantics() {
186 int major, minor, micro;
187
188 JvmtiExport::decode_version_values(_version, &major, &minor, µ);
189 return major == 1 && minor == 2; // micro version doesn't matter here
190 }
191
192
JvmtiEnvBase(jint version)193 JvmtiEnvBase::JvmtiEnvBase(jint version) : _env_event_enable() {
194 _version = version;
195 _env_local_storage = NULL;
196 _tag_map = NULL;
197 _native_method_prefix_count = 0;
198 _native_method_prefixes = NULL;
199 _next = NULL;
200 _class_file_load_hook_ever_enabled = false;
201
202 // Moot since ClassFileLoadHook not yet enabled.
203 // But "true" will give a more predictable ClassFileLoadHook behavior
204 // for environment creation during ClassFileLoadHook.
205 _is_retransformable = true;
206
207 // all callbacks initially NULL
208 memset(&_event_callbacks,0,sizeof(jvmtiEventCallbacks));
209
210 // all capabilities initially off
211 memset(&_current_capabilities, 0, sizeof(_current_capabilities));
212
213 // all prohibited capabilities initially off
214 memset(&_prohibited_capabilities, 0, sizeof(_prohibited_capabilities));
215
216 _magic = JVMTI_MAGIC;
217
218 JvmtiEventController::env_initialize((JvmtiEnv*)this);
219
220 #ifdef JVMTI_TRACE
221 _jvmti_external.functions = TraceJVMTI != NULL ? &jvmtiTrace_Interface : &jvmti_Interface;
222 #else
223 _jvmti_external.functions = &jvmti_Interface;
224 #endif
225 }
226
227
228 void
dispose()229 JvmtiEnvBase::dispose() {
230
231 #ifdef JVMTI_TRACE
232 JvmtiTrace::shutdown();
233 #endif
234
235 // Dispose of event info and let the event controller call us back
236 // in a locked state (env_dispose, below)
237 JvmtiEventController::env_dispose(this);
238 }
239
240 void
env_dispose()241 JvmtiEnvBase::env_dispose() {
242 assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");
243
244 // We have been entered with all events disabled on this environment.
245 // A race to re-enable events (by setting callbacks) is prevented by
246 // checking for a valid environment when setting callbacks (while
247 // holding the JvmtiThreadState_lock).
248
249 // Mark as invalid.
250 _magic = DISPOSED_MAGIC;
251
252 // Relinquish all capabilities.
253 jvmtiCapabilities *caps = get_capabilities();
254 JvmtiManageCapabilities::relinquish_capabilities(caps, caps, caps);
255
256 // Same situation as with events (see above)
257 set_native_method_prefixes(0, NULL);
258
259 JvmtiTagMap* tag_map_to_deallocate = _tag_map;
260 set_tag_map(NULL);
261 // A tag map can be big, deallocate it now
262 if (tag_map_to_deallocate != NULL) {
263 delete tag_map_to_deallocate;
264 }
265
266 _needs_clean_up = true;
267 }
268
269
~JvmtiEnvBase()270 JvmtiEnvBase::~JvmtiEnvBase() {
271 assert(SafepointSynchronize::is_at_safepoint(), "sanity check");
272
273 // There is a small window of time during which the tag map of a
274 // disposed environment could have been reallocated.
275 // Make sure it is gone.
276 JvmtiTagMap* tag_map_to_deallocate = _tag_map;
277 set_tag_map(NULL);
278 // A tag map can be big, deallocate it now
279 if (tag_map_to_deallocate != NULL) {
280 delete tag_map_to_deallocate;
281 }
282
283 _magic = BAD_MAGIC;
284 }
285
286
287 void
periodic_clean_up()288 JvmtiEnvBase::periodic_clean_up() {
289 assert(SafepointSynchronize::is_at_safepoint(), "sanity check");
290
291 // JvmtiEnvBase reference is saved in JvmtiEnvThreadState. So
292 // clean up JvmtiThreadState before deleting JvmtiEnv pointer.
293 JvmtiThreadState::periodic_clean_up();
294
295 // Unlink all invalid environments from the list of environments
296 // and deallocate them
297 JvmtiEnvIterator it;
298 JvmtiEnvBase* previous_env = NULL;
299 JvmtiEnvBase* env = it.first();
300 while (env != NULL) {
301 if (env->is_valid()) {
302 previous_env = env;
303 env = it.next(env);
304 } else {
305 // This one isn't valid, remove it from the list and deallocate it
306 JvmtiEnvBase* defunct_env = env;
307 env = it.next(env);
308 if (previous_env == NULL) {
309 _head_environment = env;
310 } else {
311 previous_env->set_next_environment(env);
312 }
313 delete defunct_env;
314 }
315 }
316
317 }
318
319
320 void
check_for_periodic_clean_up()321 JvmtiEnvBase::check_for_periodic_clean_up() {
322 assert(SafepointSynchronize::is_at_safepoint(), "sanity check");
323
324 class ThreadInsideIterationClosure: public ThreadClosure {
325 private:
326 bool _inside;
327 public:
328 ThreadInsideIterationClosure() : _inside(false) {};
329
330 void do_thread(Thread* thread) {
331 _inside |= thread->is_inside_jvmti_env_iteration();
332 }
333
334 bool is_inside_jvmti_env_iteration() {
335 return _inside;
336 }
337 };
338
339 if (_needs_clean_up) {
340 // Check if we are currently iterating environment,
341 // deallocation should not occur if we are
342 ThreadInsideIterationClosure tiic;
343 Threads::threads_do(&tiic);
344 if (!tiic.is_inside_jvmti_env_iteration() &&
345 !is_inside_dying_thread_env_iteration()) {
346 _needs_clean_up = false;
347 JvmtiEnvBase::periodic_clean_up();
348 }
349 }
350 }
351
352
353 void
record_first_time_class_file_load_hook_enabled()354 JvmtiEnvBase::record_first_time_class_file_load_hook_enabled() {
355 assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(),
356 "sanity check");
357
358 if (!_class_file_load_hook_ever_enabled) {
359 _class_file_load_hook_ever_enabled = true;
360
361 if (get_capabilities()->can_retransform_classes) {
362 _is_retransformable = true;
363 } else {
364 _is_retransformable = false;
365
366 // cannot add retransform capability after ClassFileLoadHook has been enabled
367 get_prohibited_capabilities()->can_retransform_classes = 1;
368 }
369 }
370 }
371
372
373 void
record_class_file_load_hook_enabled()374 JvmtiEnvBase::record_class_file_load_hook_enabled() {
375 if (!_class_file_load_hook_ever_enabled) {
376 if (Threads::number_of_threads() == 0) {
377 record_first_time_class_file_load_hook_enabled();
378 } else {
379 MutexLocker mu(JvmtiThreadState_lock);
380 record_first_time_class_file_load_hook_enabled();
381 }
382 }
383 }
384
385
386 jvmtiError
set_native_method_prefixes(jint prefix_count,char ** prefixes)387 JvmtiEnvBase::set_native_method_prefixes(jint prefix_count, char** prefixes) {
388 assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(),
389 "sanity check");
390
391 int old_prefix_count = get_native_method_prefix_count();
392 char **old_prefixes = get_native_method_prefixes();
393
394 // allocate and install the new prefixex
395 if (prefix_count == 0 || !is_valid()) {
396 _native_method_prefix_count = 0;
397 _native_method_prefixes = NULL;
398 } else {
399 // there are prefixes, allocate an array to hold them, and fill it
400 char** new_prefixes = (char**)os::malloc((prefix_count) * sizeof(char*), mtInternal);
401 if (new_prefixes == NULL) {
402 return JVMTI_ERROR_OUT_OF_MEMORY;
403 }
404 for (int i = 0; i < prefix_count; i++) {
405 char* prefix = prefixes[i];
406 if (prefix == NULL) {
407 for (int j = 0; j < (i-1); j++) {
408 os::free(new_prefixes[j]);
409 }
410 os::free(new_prefixes);
411 return JVMTI_ERROR_NULL_POINTER;
412 }
413 prefix = os::strdup(prefixes[i]);
414 if (prefix == NULL) {
415 for (int j = 0; j < (i-1); j++) {
416 os::free(new_prefixes[j]);
417 }
418 os::free(new_prefixes);
419 return JVMTI_ERROR_OUT_OF_MEMORY;
420 }
421 new_prefixes[i] = prefix;
422 }
423 _native_method_prefix_count = prefix_count;
424 _native_method_prefixes = new_prefixes;
425 }
426
427 // now that we know the new prefixes have been successfully installed we can
428 // safely remove the old ones
429 if (old_prefix_count != 0) {
430 for (int i = 0; i < old_prefix_count; i++) {
431 os::free(old_prefixes[i]);
432 }
433 os::free(old_prefixes);
434 }
435
436 return JVMTI_ERROR_NONE;
437 }
438
439
440 // Collect all the prefixes which have been set in any JVM TI environments
441 // by the SetNativeMethodPrefix(es) functions. Be sure to maintain the
442 // order of environments and the order of prefixes within each environment.
443 // Return in a resource allocated array.
444 char**
get_all_native_method_prefixes(int * count_ptr)445 JvmtiEnvBase::get_all_native_method_prefixes(int* count_ptr) {
446 assert(Threads::number_of_threads() == 0 ||
447 SafepointSynchronize::is_at_safepoint() ||
448 JvmtiThreadState_lock->is_locked(),
449 "sanity check");
450
451 int total_count = 0;
452 GrowableArray<char*>* prefix_array =new GrowableArray<char*>(5);
453
454 JvmtiEnvIterator it;
455 for (JvmtiEnvBase* env = it.first(); env != NULL; env = it.next(env)) {
456 int prefix_count = env->get_native_method_prefix_count();
457 char** prefixes = env->get_native_method_prefixes();
458 for (int j = 0; j < prefix_count; j++) {
459 // retrieve a prefix and so that it is safe against asynchronous changes
460 // copy it into the resource area
461 char* prefix = prefixes[j];
462 char* prefix_copy = NEW_RESOURCE_ARRAY(char, strlen(prefix)+1);
463 strcpy(prefix_copy, prefix);
464 prefix_array->at_put_grow(total_count++, prefix_copy);
465 }
466 }
467
468 char** all_prefixes = NEW_RESOURCE_ARRAY(char*, total_count);
469 char** p = all_prefixes;
470 for (int i = 0; i < total_count; ++i) {
471 *p++ = prefix_array->at(i);
472 }
473 *count_ptr = total_count;
474 return all_prefixes;
475 }
476
477 void
set_event_callbacks(const jvmtiEventCallbacks * callbacks,jint size_of_callbacks)478 JvmtiEnvBase::set_event_callbacks(const jvmtiEventCallbacks* callbacks,
479 jint size_of_callbacks) {
480 assert(Threads::number_of_threads() == 0 || JvmtiThreadState_lock->is_locked(), "sanity check");
481
482 size_t byte_cnt = sizeof(jvmtiEventCallbacks);
483
484 // clear in either case to be sure we got any gap between sizes
485 memset(&_event_callbacks, 0, byte_cnt);
486
487 // Now that JvmtiThreadState_lock is held, prevent a possible race condition where events
488 // are re-enabled by a call to set event callbacks where the DisposeEnvironment
489 // occurs after the boiler-plate environment check and before the lock is acquired.
490 if (callbacks != NULL && is_valid()) {
491 if (size_of_callbacks < (jint)byte_cnt) {
492 byte_cnt = size_of_callbacks;
493 }
494 memcpy(&_event_callbacks, callbacks, byte_cnt);
495 }
496 }
497
498
499 // In the fullness of time, all users of the method should instead
500 // directly use allocate, besides being cleaner and faster, this will
501 // mean much better out of memory handling
502 unsigned char *
jvmtiMalloc(jlong size)503 JvmtiEnvBase::jvmtiMalloc(jlong size) {
504 unsigned char* mem = NULL;
505 jvmtiError result = allocate(size, &mem);
506 assert(result == JVMTI_ERROR_NONE, "Allocate failed");
507 return mem;
508 }
509
510
511 // Handle management
512
jni_reference(Handle hndl)513 jobject JvmtiEnvBase::jni_reference(Handle hndl) {
514 return JNIHandles::make_local(hndl());
515 }
516
jni_reference(JavaThread * thread,Handle hndl)517 jobject JvmtiEnvBase::jni_reference(JavaThread *thread, Handle hndl) {
518 return JNIHandles::make_local(thread, hndl());
519 }
520
destroy_jni_reference(jobject jobj)521 void JvmtiEnvBase::destroy_jni_reference(jobject jobj) {
522 JNIHandles::destroy_local(jobj);
523 }
524
destroy_jni_reference(JavaThread * thread,jobject jobj)525 void JvmtiEnvBase::destroy_jni_reference(JavaThread *thread, jobject jobj) {
526 JNIHandles::destroy_local(jobj); // thread is unused.
527 }
528
529 //
530 // Threads
531 //
532
533 jobject *
new_jobjectArray(int length,Handle * handles)534 JvmtiEnvBase::new_jobjectArray(int length, Handle *handles) {
535 if (length == 0) {
536 return NULL;
537 }
538
539 jobject *objArray = (jobject *) jvmtiMalloc(sizeof(jobject) * length);
540 NULL_CHECK(objArray, NULL);
541
542 for (int i=0; i<length; i++) {
543 objArray[i] = jni_reference(handles[i]);
544 }
545 return objArray;
546 }
547
548 jthread *
new_jthreadArray(int length,Handle * handles)549 JvmtiEnvBase::new_jthreadArray(int length, Handle *handles) {
550 return (jthread *) new_jobjectArray(length,handles);
551 }
552
553 jthreadGroup *
new_jthreadGroupArray(int length,Handle * handles)554 JvmtiEnvBase::new_jthreadGroupArray(int length, Handle *handles) {
555 return (jthreadGroup *) new_jobjectArray(length,handles);
556 }
557
558 // return the vframe on the specified thread and depth, NULL if no such frame
559 vframe*
vframeFor(JavaThread * java_thread,jint depth)560 JvmtiEnvBase::vframeFor(JavaThread* java_thread, jint depth) {
561 if (!java_thread->has_last_Java_frame()) {
562 return NULL;
563 }
564 RegisterMap reg_map(java_thread);
565 vframe *vf = java_thread->last_java_vframe(®_map);
566 int d = 0;
567 while ((vf != NULL) && (d < depth)) {
568 vf = vf->java_sender();
569 d++;
570 }
571 return vf;
572 }
573
574
575 //
576 // utilities: JNI objects
577 //
578
579
580 jclass
get_jni_class_non_null(Klass * k)581 JvmtiEnvBase::get_jni_class_non_null(Klass* k) {
582 assert(k != NULL, "k != NULL");
583 Thread *thread = Thread::current();
584 return (jclass)jni_reference(Handle(thread, k->java_mirror()));
585 }
586
587 //
588 // Field Information
589 //
590
591 bool
get_field_descriptor(Klass * k,jfieldID field,fieldDescriptor * fd)592 JvmtiEnvBase::get_field_descriptor(Klass* k, jfieldID field, fieldDescriptor* fd) {
593 if (!jfieldIDWorkaround::is_valid_jfieldID(k, field)) {
594 return false;
595 }
596 bool found = false;
597 if (jfieldIDWorkaround::is_static_jfieldID(field)) {
598 JNIid* id = jfieldIDWorkaround::from_static_jfieldID(field);
599 found = id->find_local_field(fd);
600 } else {
601 // Non-static field. The fieldID is really the offset of the field within the object.
602 int offset = jfieldIDWorkaround::from_instance_jfieldID(k, field);
603 found = InstanceKlass::cast(k)->find_field_from_offset(offset, false, fd);
604 }
605 return found;
606 }
607
608 //
609 // Object Monitor Information
610 //
611
612 //
613 // Count the number of objects for a lightweight monitor. The hobj
614 // parameter is object that owns the monitor so this routine will
615 // count the number of times the same object was locked by frames
616 // in java_thread.
617 //
618 jint
count_locked_objects(JavaThread * java_thread,Handle hobj)619 JvmtiEnvBase::count_locked_objects(JavaThread *java_thread, Handle hobj) {
620 jint ret = 0;
621 if (!java_thread->has_last_Java_frame()) {
622 return ret; // no Java frames so no monitors
623 }
624
625 ResourceMark rm;
626 HandleMark hm;
627 RegisterMap reg_map(java_thread);
628
629 for(javaVFrame *jvf=java_thread->last_java_vframe(®_map); jvf != NULL;
630 jvf = jvf->java_sender()) {
631 GrowableArray<MonitorInfo*>* mons = jvf->monitors();
632 if (!mons->is_empty()) {
633 for (int i = 0; i < mons->length(); i++) {
634 MonitorInfo *mi = mons->at(i);
635 if (mi->owner_is_scalar_replaced()) continue;
636
637 // see if owner of the monitor is our object
638 if (mi->owner() != NULL && mi->owner() == hobj()) {
639 ret++;
640 }
641 }
642 }
643 }
644 return ret;
645 }
646
647
648
649 jvmtiError
get_current_contended_monitor(JavaThread * calling_thread,JavaThread * java_thread,jobject * monitor_ptr)650 JvmtiEnvBase::get_current_contended_monitor(JavaThread *calling_thread, JavaThread *java_thread, jobject *monitor_ptr) {
651 #ifdef ASSERT
652 uint32_t debug_bits = 0;
653 #endif
654 assert((SafepointSynchronize::is_at_safepoint() ||
655 java_thread->is_thread_fully_suspended(false, &debug_bits)),
656 "at safepoint or target thread is suspended");
657 oop obj = NULL;
658 ObjectMonitor *mon = java_thread->current_waiting_monitor();
659 if (mon == NULL) {
660 // thread is not doing an Object.wait() call
661 mon = java_thread->current_pending_monitor();
662 if (mon != NULL) {
663 // The thread is trying to enter() an ObjectMonitor.
664 obj = (oop)mon->object();
665 assert(obj != NULL, "ObjectMonitor should have a valid object!");
666 }
667 // implied else: no contended ObjectMonitor
668 } else {
669 // thread is doing an Object.wait() call
670 obj = (oop)mon->object();
671 assert(obj != NULL, "Object.wait() should have an object");
672 }
673
674 if (obj == NULL) {
675 *monitor_ptr = NULL;
676 } else {
677 HandleMark hm;
678 Handle hobj(Thread::current(), obj);
679 *monitor_ptr = jni_reference(calling_thread, hobj);
680 }
681 return JVMTI_ERROR_NONE;
682 }
683
684
685 jvmtiError
get_owned_monitors(JavaThread * calling_thread,JavaThread * java_thread,GrowableArray<jvmtiMonitorStackDepthInfo * > * owned_monitors_list)686 JvmtiEnvBase::get_owned_monitors(JavaThread *calling_thread, JavaThread* java_thread,
687 GrowableArray<jvmtiMonitorStackDepthInfo*> *owned_monitors_list) {
688 jvmtiError err = JVMTI_ERROR_NONE;
689 #ifdef ASSERT
690 uint32_t debug_bits = 0;
691 #endif
692 assert((SafepointSynchronize::is_at_safepoint() ||
693 java_thread->is_thread_fully_suspended(false, &debug_bits)),
694 "at safepoint or target thread is suspended");
695
696 if (java_thread->has_last_Java_frame()) {
697 ResourceMark rm;
698 HandleMark hm;
699 RegisterMap reg_map(java_thread);
700
701 int depth = 0;
702 for (javaVFrame *jvf = java_thread->last_java_vframe(®_map); jvf != NULL;
703 jvf = jvf->java_sender()) {
704 if (MaxJavaStackTraceDepth == 0 || depth++ < MaxJavaStackTraceDepth) { // check for stack too deep
705 // add locked objects for this frame into list
706 err = get_locked_objects_in_frame(calling_thread, java_thread, jvf, owned_monitors_list, depth-1);
707 if (err != JVMTI_ERROR_NONE) {
708 return err;
709 }
710 }
711 }
712 }
713
714 // Get off stack monitors. (e.g. acquired via jni MonitorEnter).
715 JvmtiMonitorClosure jmc(java_thread, calling_thread, owned_monitors_list, this);
716 ObjectSynchronizer::monitors_iterate(&jmc);
717 err = jmc.error();
718
719 return err;
720 }
721
722 // Save JNI local handles for any objects that this frame owns.
723 jvmtiError
get_locked_objects_in_frame(JavaThread * calling_thread,JavaThread * java_thread,javaVFrame * jvf,GrowableArray<jvmtiMonitorStackDepthInfo * > * owned_monitors_list,jint stack_depth)724 JvmtiEnvBase::get_locked_objects_in_frame(JavaThread* calling_thread, JavaThread* java_thread,
725 javaVFrame *jvf, GrowableArray<jvmtiMonitorStackDepthInfo*>* owned_monitors_list, jint stack_depth) {
726 jvmtiError err = JVMTI_ERROR_NONE;
727 ResourceMark rm;
728
729 GrowableArray<MonitorInfo*>* mons = jvf->monitors();
730 if (mons->is_empty()) {
731 return err; // this javaVFrame holds no monitors
732 }
733
734 HandleMark hm;
735 oop wait_obj = NULL;
736 {
737 // save object of current wait() call (if any) for later comparison
738 ObjectMonitor *mon = java_thread->current_waiting_monitor();
739 if (mon != NULL) {
740 wait_obj = (oop)mon->object();
741 }
742 }
743 oop pending_obj = NULL;
744 {
745 // save object of current enter() call (if any) for later comparison
746 ObjectMonitor *mon = java_thread->current_pending_monitor();
747 if (mon != NULL) {
748 pending_obj = (oop)mon->object();
749 }
750 }
751
752 for (int i = 0; i < mons->length(); i++) {
753 MonitorInfo *mi = mons->at(i);
754
755 if (mi->owner_is_scalar_replaced()) continue;
756
757 oop obj = mi->owner();
758 if (obj == NULL) {
759 // this monitor doesn't have an owning object so skip it
760 continue;
761 }
762
763 if (wait_obj == obj) {
764 // the thread is waiting on this monitor so it isn't really owned
765 continue;
766 }
767
768 if (pending_obj == obj) {
769 // the thread is pending on this monitor so it isn't really owned
770 continue;
771 }
772
773 if (owned_monitors_list->length() > 0) {
774 // Our list has at least one object on it so we have to check
775 // for recursive object locking
776 bool found = false;
777 for (int j = 0; j < owned_monitors_list->length(); j++) {
778 jobject jobj = ((jvmtiMonitorStackDepthInfo*)owned_monitors_list->at(j))->monitor;
779 oop check = JNIHandles::resolve(jobj);
780 if (check == obj) {
781 found = true; // we found the object
782 break;
783 }
784 }
785
786 if (found) {
787 // already have this object so don't include it
788 continue;
789 }
790 }
791
792 // add the owning object to our list
793 jvmtiMonitorStackDepthInfo *jmsdi;
794 err = allocate(sizeof(jvmtiMonitorStackDepthInfo), (unsigned char **)&jmsdi);
795 if (err != JVMTI_ERROR_NONE) {
796 return err;
797 }
798 Handle hobj(Thread::current(), obj);
799 jmsdi->monitor = jni_reference(calling_thread, hobj);
800 jmsdi->stack_depth = stack_depth;
801 owned_monitors_list->append(jmsdi);
802 }
803
804 return err;
805 }
806
807 jvmtiError
get_stack_trace(JavaThread * java_thread,jint start_depth,jint max_count,jvmtiFrameInfo * frame_buffer,jint * count_ptr)808 JvmtiEnvBase::get_stack_trace(JavaThread *java_thread,
809 jint start_depth, jint max_count,
810 jvmtiFrameInfo* frame_buffer, jint* count_ptr) {
811 #ifdef ASSERT
812 uint32_t debug_bits = 0;
813 #endif
814 assert((SafepointSynchronize::is_at_safepoint() ||
815 java_thread->is_thread_fully_suspended(false, &debug_bits)),
816 "at safepoint or target thread is suspended");
817 int count = 0;
818 if (java_thread->has_last_Java_frame()) {
819 RegisterMap reg_map(java_thread);
820 Thread* current_thread = Thread::current();
821 ResourceMark rm(current_thread);
822 javaVFrame *jvf = java_thread->last_java_vframe(®_map);
823 HandleMark hm(current_thread);
824 if (start_depth != 0) {
825 if (start_depth > 0) {
826 for (int j = 0; j < start_depth && jvf != NULL; j++) {
827 jvf = jvf->java_sender();
828 }
829 if (jvf == NULL) {
830 // start_depth is deeper than the stack depth
831 return JVMTI_ERROR_ILLEGAL_ARGUMENT;
832 }
833 } else { // start_depth < 0
834 // we are referencing the starting depth based on the oldest
835 // part of the stack.
836 // optimize to limit the number of times that java_sender() is called
837 javaVFrame *jvf_cursor = jvf;
838 javaVFrame *jvf_prev = NULL;
839 javaVFrame *jvf_prev_prev = NULL;
840 int j = 0;
841 while (jvf_cursor != NULL) {
842 jvf_prev_prev = jvf_prev;
843 jvf_prev = jvf_cursor;
844 for (j = 0; j > start_depth && jvf_cursor != NULL; j--) {
845 jvf_cursor = jvf_cursor->java_sender();
846 }
847 }
848 if (j == start_depth) {
849 // previous pointer is exactly where we want to start
850 jvf = jvf_prev;
851 } else {
852 // we need to back up further to get to the right place
853 if (jvf_prev_prev == NULL) {
854 // the -start_depth is greater than the stack depth
855 return JVMTI_ERROR_ILLEGAL_ARGUMENT;
856 }
857 // j now is the number of frames on the stack starting with
858 // jvf_prev, we start from jvf_prev_prev and move older on
859 // the stack that many, the result is -start_depth frames
860 // remaining.
861 jvf = jvf_prev_prev;
862 for (; j < 0; j++) {
863 jvf = jvf->java_sender();
864 }
865 }
866 }
867 }
868 for (; count < max_count && jvf != NULL; count++) {
869 frame_buffer[count].method = jvf->method()->jmethod_id();
870 frame_buffer[count].location = (jvf->method()->is_native() ? -1 : jvf->bci());
871 jvf = jvf->java_sender();
872 }
873 } else {
874 if (start_depth != 0) {
875 // no frames and there is a starting depth
876 return JVMTI_ERROR_ILLEGAL_ARGUMENT;
877 }
878 }
879 *count_ptr = count;
880 return JVMTI_ERROR_NONE;
881 }
882
883 jvmtiError
get_frame_count(JvmtiThreadState * state,jint * count_ptr)884 JvmtiEnvBase::get_frame_count(JvmtiThreadState *state, jint *count_ptr) {
885 assert((state != NULL),
886 "JavaThread should create JvmtiThreadState before calling this method");
887 *count_ptr = state->count_frames();
888 return JVMTI_ERROR_NONE;
889 }
890
891 jvmtiError
get_frame_location(JavaThread * java_thread,jint depth,jmethodID * method_ptr,jlocation * location_ptr)892 JvmtiEnvBase::get_frame_location(JavaThread *java_thread, jint depth,
893 jmethodID* method_ptr, jlocation* location_ptr) {
894 #ifdef ASSERT
895 uint32_t debug_bits = 0;
896 #endif
897 assert((SafepointSynchronize::is_at_safepoint() ||
898 java_thread->is_thread_fully_suspended(false, &debug_bits)),
899 "at safepoint or target thread is suspended");
900 Thread* current_thread = Thread::current();
901 ResourceMark rm(current_thread);
902
903 vframe *vf = vframeFor(java_thread, depth);
904 if (vf == NULL) {
905 return JVMTI_ERROR_NO_MORE_FRAMES;
906 }
907
908 // vframeFor should return a java frame. If it doesn't
909 // it means we've got an internal error and we return the
910 // error in product mode. In debug mode we will instead
911 // attempt to cast the vframe to a javaVFrame and will
912 // cause an assertion/crash to allow further diagnosis.
913 #ifdef PRODUCT
914 if (!vf->is_java_frame()) {
915 return JVMTI_ERROR_INTERNAL;
916 }
917 #endif
918
919 HandleMark hm(current_thread);
920 javaVFrame *jvf = javaVFrame::cast(vf);
921 Method* method = jvf->method();
922 if (method->is_native()) {
923 *location_ptr = -1;
924 } else {
925 *location_ptr = jvf->bci();
926 }
927 *method_ptr = method->jmethod_id();
928
929 return JVMTI_ERROR_NONE;
930 }
931
932
933 jvmtiError
get_object_monitor_usage(JavaThread * calling_thread,jobject object,jvmtiMonitorUsage * info_ptr)934 JvmtiEnvBase::get_object_monitor_usage(JavaThread* calling_thread, jobject object, jvmtiMonitorUsage* info_ptr) {
935 HandleMark hm;
936 Handle hobj;
937
938 Thread* current_thread = Thread::current();
939 bool at_safepoint = SafepointSynchronize::is_at_safepoint();
940
941 // Check arguments
942 {
943 oop mirror = JNIHandles::resolve_external_guard(object);
944 NULL_CHECK(mirror, JVMTI_ERROR_INVALID_OBJECT);
945 NULL_CHECK(info_ptr, JVMTI_ERROR_NULL_POINTER);
946
947 hobj = Handle(current_thread, mirror);
948 }
949
950 JavaThread *owning_thread = NULL;
951 ObjectMonitor *mon = NULL;
952 jvmtiMonitorUsage ret = {
953 NULL, 0, 0, NULL, 0, NULL
954 };
955
956 uint32_t debug_bits = 0;
957 // first derive the object's owner and entry_count (if any)
958 {
959 // Revoke any biases before querying the mark word
960 if (at_safepoint) {
961 BiasedLocking::revoke_at_safepoint(hobj);
962 } else {
963 BiasedLocking::revoke(hobj, calling_thread);
964 }
965
966 address owner = NULL;
967 {
968 markWord mark = hobj()->mark();
969
970 if (!mark.has_monitor()) {
971 // this object has a lightweight monitor
972
973 if (mark.has_locker()) {
974 owner = (address)mark.locker(); // save the address of the Lock word
975 }
976 // implied else: no owner
977 } else {
978 // this object has a heavyweight monitor
979 mon = mark.monitor();
980
981 // The owner field of a heavyweight monitor may be NULL for no
982 // owner, a JavaThread * or it may still be the address of the
983 // Lock word in a JavaThread's stack. A monitor can be inflated
984 // by a non-owning JavaThread, but only the owning JavaThread
985 // can change the owner field from the Lock word to the
986 // JavaThread * and it may not have done that yet.
987 owner = (address)mon->owner();
988 }
989 }
990
991 if (owner != NULL) {
992 // Use current thread since function can be called from a
993 // JavaThread or the VMThread.
994 ThreadsListHandle tlh;
995 // This monitor is owned so we have to find the owning JavaThread.
996 owning_thread = Threads::owning_thread_from_monitor_owner(tlh.list(), owner);
997 // Cannot assume (owning_thread != NULL) here because this function
998 // may not have been called at a safepoint and the owning_thread
999 // might not be suspended.
1000 if (owning_thread != NULL) {
1001 // The monitor's owner either has to be the current thread, at safepoint
1002 // or it has to be suspended. Any of these conditions will prevent both
1003 // contending and waiting threads from modifying the state of
1004 // the monitor.
1005 if (!at_safepoint && !owning_thread->is_thread_fully_suspended(true, &debug_bits)) {
1006 // Don't worry! This return of JVMTI_ERROR_THREAD_NOT_SUSPENDED
1007 // will not make it back to the JVM/TI agent. The error code will
1008 // get intercepted in JvmtiEnv::GetObjectMonitorUsage() which
1009 // will retry the call via a VM_GetObjectMonitorUsage VM op.
1010 return JVMTI_ERROR_THREAD_NOT_SUSPENDED;
1011 }
1012 HandleMark hm;
1013 Handle th(current_thread, owning_thread->threadObj());
1014 ret.owner = (jthread)jni_reference(calling_thread, th);
1015 }
1016 // implied else: no owner
1017 } // ThreadsListHandle is destroyed here.
1018
1019 if (owning_thread != NULL) { // monitor is owned
1020 // The recursions field of a monitor does not reflect recursions
1021 // as lightweight locks before inflating the monitor are not included.
1022 // We have to count the number of recursive monitor entries the hard way.
1023 // We pass a handle to survive any GCs along the way.
1024 ResourceMark rm;
1025 ret.entry_count = count_locked_objects(owning_thread, hobj);
1026 }
1027 // implied else: entry_count == 0
1028 }
1029
1030 jint nWant = 0, nWait = 0;
1031 if (mon != NULL) {
1032 // this object has a heavyweight monitor
1033 nWant = mon->contentions(); // # of threads contending for monitor
1034 nWait = mon->waiters(); // # of threads in Object.wait()
1035 ret.waiter_count = nWant + nWait;
1036 ret.notify_waiter_count = nWait;
1037 } else {
1038 // this object has a lightweight monitor
1039 ret.waiter_count = 0;
1040 ret.notify_waiter_count = 0;
1041 }
1042
1043 // Allocate memory for heavyweight and lightweight monitor.
1044 jvmtiError err;
1045 err = allocate(ret.waiter_count * sizeof(jthread *), (unsigned char**)&ret.waiters);
1046 if (err != JVMTI_ERROR_NONE) {
1047 return err;
1048 }
1049 err = allocate(ret.notify_waiter_count * sizeof(jthread *),
1050 (unsigned char**)&ret.notify_waiters);
1051 if (err != JVMTI_ERROR_NONE) {
1052 deallocate((unsigned char*)ret.waiters);
1053 return err;
1054 }
1055
1056 // now derive the rest of the fields
1057 if (mon != NULL) {
1058 // this object has a heavyweight monitor
1059
1060 // Number of waiters may actually be less than the waiter count.
1061 // So NULL out memory so that unused memory will be NULL.
1062 memset(ret.waiters, 0, ret.waiter_count * sizeof(jthread *));
1063 memset(ret.notify_waiters, 0, ret.notify_waiter_count * sizeof(jthread *));
1064
1065 if (ret.waiter_count > 0) {
1066 // we have contending and/or waiting threads
1067 HandleMark hm;
1068 // Use current thread since function can be called from a
1069 // JavaThread or the VMThread.
1070 ThreadsListHandle tlh;
1071 if (nWant > 0) {
1072 // we have contending threads
1073 ResourceMark rm;
1074 // get_pending_threads returns only java thread so we do not need to
1075 // check for non java threads.
1076 GrowableArray<JavaThread*>* wantList = Threads::get_pending_threads(tlh.list(), nWant, (address)mon);
1077 if (wantList->length() < nWant) {
1078 // robustness: the pending list has gotten smaller
1079 nWant = wantList->length();
1080 }
1081 for (int i = 0; i < nWant; i++) {
1082 JavaThread *pending_thread = wantList->at(i);
1083 // If the monitor has no owner, then a non-suspended contending
1084 // thread could potentially change the state of the monitor by
1085 // entering it. The JVM/TI spec doesn't allow this.
1086 if (owning_thread == NULL && !at_safepoint &&
1087 !pending_thread->is_thread_fully_suspended(true, &debug_bits)) {
1088 if (ret.owner != NULL) {
1089 destroy_jni_reference(calling_thread, ret.owner);
1090 }
1091 for (int j = 0; j < i; j++) {
1092 destroy_jni_reference(calling_thread, ret.waiters[j]);
1093 }
1094 deallocate((unsigned char*)ret.waiters);
1095 deallocate((unsigned char*)ret.notify_waiters);
1096 return JVMTI_ERROR_THREAD_NOT_SUSPENDED;
1097 }
1098 Handle th(current_thread, pending_thread->threadObj());
1099 ret.waiters[i] = (jthread)jni_reference(calling_thread, th);
1100 }
1101 }
1102 if (nWait > 0) {
1103 // we have threads in Object.wait()
1104 int offset = nWant; // add after any contending threads
1105 ObjectWaiter *waiter = mon->first_waiter();
1106 for (int i = 0, j = 0; i < nWait; i++) {
1107 if (waiter == NULL) {
1108 // robustness: the waiting list has gotten smaller
1109 nWait = j;
1110 break;
1111 }
1112 Thread *t = mon->thread_of_waiter(waiter);
1113 if (t != NULL && t->is_Java_thread()) {
1114 JavaThread *wjava_thread = (JavaThread *)t;
1115 // If the thread was found on the ObjectWaiter list, then
1116 // it has not been notified. This thread can't change the
1117 // state of the monitor so it doesn't need to be suspended.
1118 Handle th(current_thread, wjava_thread->threadObj());
1119 ret.waiters[offset + j] = (jthread)jni_reference(calling_thread, th);
1120 ret.notify_waiters[j++] = (jthread)jni_reference(calling_thread, th);
1121 }
1122 waiter = mon->next_waiter(waiter);
1123 }
1124 }
1125 } // ThreadsListHandle is destroyed here.
1126
1127 // Adjust count. nWant and nWait count values may be less than original.
1128 ret.waiter_count = nWant + nWait;
1129 ret.notify_waiter_count = nWait;
1130 } else {
1131 // this object has a lightweight monitor and we have nothing more
1132 // to do here because the defaults are just fine.
1133 }
1134
1135 // we don't update return parameter unless everything worked
1136 *info_ptr = ret;
1137
1138 return JVMTI_ERROR_NONE;
1139 }
1140
ResourceTracker(JvmtiEnv * env)1141 ResourceTracker::ResourceTracker(JvmtiEnv* env) {
1142 _env = env;
1143 _allocations = new (ResourceObj::C_HEAP, mtInternal) GrowableArray<unsigned char*>(20, true);
1144 _failed = false;
1145 }
~ResourceTracker()1146 ResourceTracker::~ResourceTracker() {
1147 if (_failed) {
1148 for (int i=0; i<_allocations->length(); i++) {
1149 _env->deallocate(_allocations->at(i));
1150 }
1151 }
1152 delete _allocations;
1153 }
1154
allocate(jlong size,unsigned char ** mem_ptr)1155 jvmtiError ResourceTracker::allocate(jlong size, unsigned char** mem_ptr) {
1156 unsigned char *ptr;
1157 jvmtiError err = _env->allocate(size, &ptr);
1158 if (err == JVMTI_ERROR_NONE) {
1159 _allocations->append(ptr);
1160 *mem_ptr = ptr;
1161 } else {
1162 *mem_ptr = NULL;
1163 _failed = true;
1164 }
1165 return err;
1166 }
1167
allocate(jlong size)1168 unsigned char* ResourceTracker::allocate(jlong size) {
1169 unsigned char* ptr;
1170 allocate(size, &ptr);
1171 return ptr;
1172 }
1173
strdup(const char * str)1174 char* ResourceTracker::strdup(const char* str) {
1175 char *dup_str = (char*)allocate(strlen(str)+1);
1176 if (dup_str != NULL) {
1177 strcpy(dup_str, str);
1178 }
1179 return dup_str;
1180 }
1181
1182 struct StackInfoNode {
1183 struct StackInfoNode *next;
1184 jvmtiStackInfo info;
1185 };
1186
1187 // Create a jvmtiStackInfo inside a linked list node and create a
1188 // buffer for the frame information, both allocated as resource objects.
1189 // Fill in both the jvmtiStackInfo and the jvmtiFrameInfo.
1190 // Note that either or both of thr and thread_oop
1191 // may be null if the thread is new or has exited.
1192 void
fill_frames(jthread jt,JavaThread * thr,oop thread_oop)1193 VM_GetMultipleStackTraces::fill_frames(jthread jt, JavaThread *thr, oop thread_oop) {
1194 assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint");
1195
1196 jint state = 0;
1197 struct StackInfoNode *node = NEW_RESOURCE_OBJ(struct StackInfoNode);
1198 jvmtiStackInfo *infop = &(node->info);
1199 node->next = head();
1200 set_head(node);
1201 infop->frame_count = 0;
1202 infop->thread = jt;
1203
1204 if (thread_oop != NULL) {
1205 // get most state bits
1206 state = (jint)java_lang_Thread::get_thread_status(thread_oop);
1207 }
1208
1209 if (thr != NULL) { // add more state bits if there is a JavaThead to query
1210 // same as is_being_ext_suspended() but without locking
1211 if (thr->is_ext_suspended() || thr->is_external_suspend()) {
1212 state |= JVMTI_THREAD_STATE_SUSPENDED;
1213 }
1214 JavaThreadState jts = thr->thread_state();
1215 if (jts == _thread_in_native) {
1216 state |= JVMTI_THREAD_STATE_IN_NATIVE;
1217 }
1218 if (thr->is_interrupted(false)) {
1219 state |= JVMTI_THREAD_STATE_INTERRUPTED;
1220 }
1221 }
1222 infop->state = state;
1223
1224 if (thr != NULL && (state & JVMTI_THREAD_STATE_ALIVE) != 0) {
1225 infop->frame_buffer = NEW_RESOURCE_ARRAY(jvmtiFrameInfo, max_frame_count());
1226 env()->get_stack_trace(thr, 0, max_frame_count(),
1227 infop->frame_buffer, &(infop->frame_count));
1228 } else {
1229 infop->frame_buffer = NULL;
1230 infop->frame_count = 0;
1231 }
1232 _frame_count_total += infop->frame_count;
1233 }
1234
1235 // Based on the stack information in the linked list, allocate memory
1236 // block to return and fill it from the info in the linked list.
1237 void
allocate_and_fill_stacks(jint thread_count)1238 VM_GetMultipleStackTraces::allocate_and_fill_stacks(jint thread_count) {
1239 // do I need to worry about alignment issues?
1240 jlong alloc_size = thread_count * sizeof(jvmtiStackInfo)
1241 + _frame_count_total * sizeof(jvmtiFrameInfo);
1242 env()->allocate(alloc_size, (unsigned char **)&_stack_info);
1243
1244 // pointers to move through the newly allocated space as it is filled in
1245 jvmtiStackInfo *si = _stack_info + thread_count; // bottom of stack info
1246 jvmtiFrameInfo *fi = (jvmtiFrameInfo *)si; // is the top of frame info
1247
1248 // copy information in resource area into allocated buffer
1249 // insert stack info backwards since linked list is backwards
1250 // insert frame info forwards
1251 // walk the StackInfoNodes
1252 for (struct StackInfoNode *sin = head(); sin != NULL; sin = sin->next) {
1253 jint frame_count = sin->info.frame_count;
1254 size_t frames_size = frame_count * sizeof(jvmtiFrameInfo);
1255 --si;
1256 memcpy(si, &(sin->info), sizeof(jvmtiStackInfo));
1257 if (frames_size == 0) {
1258 si->frame_buffer = NULL;
1259 } else {
1260 memcpy(fi, sin->info.frame_buffer, frames_size);
1261 si->frame_buffer = fi; // point to the new allocated copy of the frames
1262 fi += frame_count;
1263 }
1264 }
1265 assert(si == _stack_info, "the last copied stack info must be the first record");
1266 assert((unsigned char *)fi == ((unsigned char *)_stack_info) + alloc_size,
1267 "the last copied frame info must be the last record");
1268 }
1269
1270
1271 void
doit()1272 VM_GetThreadListStackTraces::doit() {
1273 assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint");
1274
1275 ResourceMark rm;
1276 ThreadsListHandle tlh;
1277 for (int i = 0; i < _thread_count; ++i) {
1278 jthread jt = _thread_list[i];
1279 JavaThread* java_thread = NULL;
1280 oop thread_oop = NULL;
1281 jvmtiError err = JvmtiExport::cv_external_thread_to_JavaThread(tlh.list(), jt, &java_thread, &thread_oop);
1282 if (err != JVMTI_ERROR_NONE) {
1283 // We got an error code so we don't have a JavaThread *, but
1284 // only return an error from here if we didn't get a valid
1285 // thread_oop.
1286 if (thread_oop == NULL) {
1287 set_result(err);
1288 return;
1289 }
1290 // We have a valid thread_oop.
1291 }
1292 fill_frames(jt, java_thread, thread_oop);
1293 }
1294 allocate_and_fill_stacks(_thread_count);
1295 }
1296
1297 void
doit()1298 VM_GetAllStackTraces::doit() {
1299 assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint");
1300
1301 ResourceMark rm;
1302 _final_thread_count = 0;
1303 for (JavaThreadIteratorWithHandle jtiwh; JavaThread *jt = jtiwh.next(); ) {
1304 oop thread_oop = jt->threadObj();
1305 if (thread_oop != NULL &&
1306 !jt->is_exiting() &&
1307 java_lang_Thread::is_alive(thread_oop) &&
1308 !jt->is_hidden_from_external_view()) {
1309 ++_final_thread_count;
1310 // Handle block of the calling thread is used to create local refs.
1311 fill_frames((jthread)JNIHandles::make_local(_calling_thread, thread_oop),
1312 jt, thread_oop);
1313 }
1314 }
1315 allocate_and_fill_stacks(_final_thread_count);
1316 }
1317
1318 // Verifies that the top frame is a java frame in an expected state.
1319 // Deoptimizes frame if needed.
1320 // Checks that the frame method signature matches the return type (tos).
1321 // HandleMark must be defined in the caller only.
1322 // It is to keep a ret_ob_h handle alive after return to the caller.
1323 jvmtiError
check_top_frame(JavaThread * current_thread,JavaThread * java_thread,jvalue value,TosState tos,Handle * ret_ob_h)1324 JvmtiEnvBase::check_top_frame(JavaThread* current_thread, JavaThread* java_thread,
1325 jvalue value, TosState tos, Handle* ret_ob_h) {
1326 ResourceMark rm(current_thread);
1327
1328 vframe *vf = vframeFor(java_thread, 0);
1329 NULL_CHECK(vf, JVMTI_ERROR_NO_MORE_FRAMES);
1330
1331 javaVFrame *jvf = (javaVFrame*) vf;
1332 if (!vf->is_java_frame() || jvf->method()->is_native()) {
1333 return JVMTI_ERROR_OPAQUE_FRAME;
1334 }
1335
1336 // If the frame is a compiled one, need to deoptimize it.
1337 if (vf->is_compiled_frame()) {
1338 if (!vf->fr().can_be_deoptimized()) {
1339 return JVMTI_ERROR_OPAQUE_FRAME;
1340 }
1341 Deoptimization::deoptimize_frame(java_thread, jvf->fr().id());
1342 }
1343
1344 // Get information about method return type
1345 Symbol* signature = jvf->method()->signature();
1346
1347 ResultTypeFinder rtf(signature);
1348 TosState fr_tos = as_TosState(rtf.type());
1349 if (fr_tos != tos) {
1350 if (tos != itos || (fr_tos != btos && fr_tos != ztos && fr_tos != ctos && fr_tos != stos)) {
1351 return JVMTI_ERROR_TYPE_MISMATCH;
1352 }
1353 }
1354
1355 // Check that the jobject class matches the return type signature.
1356 jobject jobj = value.l;
1357 if (tos == atos && jobj != NULL) { // NULL reference is allowed
1358 Handle ob_h(current_thread, JNIHandles::resolve_external_guard(jobj));
1359 NULL_CHECK(ob_h, JVMTI_ERROR_INVALID_OBJECT);
1360 Klass* ob_k = ob_h()->klass();
1361 NULL_CHECK(ob_k, JVMTI_ERROR_INVALID_OBJECT);
1362
1363 // Method return type signature.
1364 char* ty_sign = 1 + strchr(signature->as_C_string(), JVM_SIGNATURE_ENDFUNC);
1365
1366 if (!VM_GetOrSetLocal::is_assignable(ty_sign, ob_k, current_thread)) {
1367 return JVMTI_ERROR_TYPE_MISMATCH;
1368 }
1369 *ret_ob_h = ob_h;
1370 }
1371 return JVMTI_ERROR_NONE;
1372 } /* end check_top_frame */
1373
1374
1375 // ForceEarlyReturn<type> follows the PopFrame approach in many aspects.
1376 // Main difference is on the last stage in the interpreter.
1377 // The PopFrame stops method execution to continue execution
1378 // from the same method call instruction.
1379 // The ForceEarlyReturn forces return from method so the execution
1380 // continues at the bytecode following the method call.
1381
1382 // Threads_lock NOT held, java_thread not protected by lock
1383 // java_thread - pre-checked
1384
1385 jvmtiError
force_early_return(JavaThread * java_thread,jvalue value,TosState tos)1386 JvmtiEnvBase::force_early_return(JavaThread* java_thread, jvalue value, TosState tos) {
1387 JavaThread* current_thread = JavaThread::current();
1388 HandleMark hm(current_thread);
1389 uint32_t debug_bits = 0;
1390
1391 // retrieve or create the state
1392 JvmtiThreadState* state = JvmtiThreadState::state_for(java_thread);
1393 if (state == NULL) {
1394 return JVMTI_ERROR_THREAD_NOT_ALIVE;
1395 }
1396
1397 // Check if java_thread is fully suspended
1398 if (!java_thread->is_thread_fully_suspended(true /* wait for suspend completion */, &debug_bits)) {
1399 return JVMTI_ERROR_THREAD_NOT_SUSPENDED;
1400 }
1401
1402 // Check to see if a ForceEarlyReturn was already in progress
1403 if (state->is_earlyret_pending()) {
1404 // Probably possible for JVMTI clients to trigger this, but the
1405 // JPDA backend shouldn't allow this to happen
1406 return JVMTI_ERROR_INTERNAL;
1407 }
1408 {
1409 // The same as for PopFrame. Workaround bug:
1410 // 4812902: popFrame hangs if the method is waiting at a synchronize
1411 // Catch this condition and return an error to avoid hanging.
1412 // Now JVMTI spec allows an implementation to bail out with an opaque
1413 // frame error.
1414 OSThread* osThread = java_thread->osthread();
1415 if (osThread->get_state() == MONITOR_WAIT) {
1416 return JVMTI_ERROR_OPAQUE_FRAME;
1417 }
1418 }
1419 Handle ret_ob_h;
1420 jvmtiError err = check_top_frame(current_thread, java_thread, value, tos, &ret_ob_h);
1421 if (err != JVMTI_ERROR_NONE) {
1422 return err;
1423 }
1424 assert(tos != atos || value.l == NULL || ret_ob_h() != NULL,
1425 "return object oop must not be NULL if jobject is not NULL");
1426
1427 // Update the thread state to reflect that the top frame must be
1428 // forced to return.
1429 // The current frame will be returned later when the suspended
1430 // thread is resumed and right before returning from VM to Java.
1431 // (see call_VM_base() in assembler_<cpu>.cpp).
1432
1433 state->set_earlyret_pending();
1434 state->set_earlyret_oop(ret_ob_h());
1435 state->set_earlyret_value(value, tos);
1436
1437 // Set pending step flag for this early return.
1438 // It is cleared when next step event is posted.
1439 state->set_pending_step_for_earlyret();
1440
1441 return JVMTI_ERROR_NONE;
1442 } /* end force_early_return */
1443
1444 void
do_monitor(ObjectMonitor * mon)1445 JvmtiMonitorClosure::do_monitor(ObjectMonitor* mon) {
1446 if ( _error != JVMTI_ERROR_NONE) {
1447 // Error occurred in previous iteration so no need to add
1448 // to the list.
1449 return;
1450 }
1451 if (mon->owner() == _java_thread ) {
1452 // Filter out on stack monitors collected during stack walk.
1453 oop obj = (oop)mon->object();
1454 bool found = false;
1455 for (int j = 0; j < _owned_monitors_list->length(); j++) {
1456 jobject jobj = ((jvmtiMonitorStackDepthInfo*)_owned_monitors_list->at(j))->monitor;
1457 oop check = JNIHandles::resolve(jobj);
1458 if (check == obj) {
1459 // On stack monitor already collected during the stack walk.
1460 found = true;
1461 break;
1462 }
1463 }
1464 if (found == false) {
1465 // This is off stack monitor (e.g. acquired via jni MonitorEnter).
1466 jvmtiError err;
1467 jvmtiMonitorStackDepthInfo *jmsdi;
1468 err = _env->allocate(sizeof(jvmtiMonitorStackDepthInfo), (unsigned char **)&jmsdi);
1469 if (err != JVMTI_ERROR_NONE) {
1470 _error = err;
1471 return;
1472 }
1473 Handle hobj(Thread::current(), obj);
1474 jmsdi->monitor = _env->jni_reference(_calling_thread, hobj);
1475 // stack depth is unknown for this monitor.
1476 jmsdi->stack_depth = -1;
1477 _owned_monitors_list->append(jmsdi);
1478 }
1479 }
1480 }
1481
1482 GrowableArray<OopHandle>* JvmtiModuleClosure::_tbl = NULL;
1483
do_module(ModuleEntry * entry)1484 void JvmtiModuleClosure::do_module(ModuleEntry* entry) {
1485 assert_locked_or_safepoint(Module_lock);
1486 OopHandle module = entry->module_handle();
1487 guarantee(module.resolve() != NULL, "module object is NULL");
1488 _tbl->push(module);
1489 }
1490
1491 jvmtiError
get_all_modules(JvmtiEnv * env,jint * module_count_ptr,jobject ** modules_ptr)1492 JvmtiModuleClosure::get_all_modules(JvmtiEnv* env, jint* module_count_ptr, jobject** modules_ptr) {
1493 ResourceMark rm;
1494 MutexLocker mcld(ClassLoaderDataGraph_lock);
1495 MutexLocker ml(Module_lock);
1496
1497 _tbl = new GrowableArray<OopHandle>(77);
1498 if (_tbl == NULL) {
1499 return JVMTI_ERROR_OUT_OF_MEMORY;
1500 }
1501
1502 // Iterate over all the modules loaded to the system.
1503 ClassLoaderDataGraph::modules_do(&do_module);
1504
1505 jint len = _tbl->length();
1506 guarantee(len > 0, "at least one module must be present");
1507
1508 jobject* array = (jobject*)env->jvmtiMalloc((jlong)(len * sizeof(jobject)));
1509 if (array == NULL) {
1510 return JVMTI_ERROR_OUT_OF_MEMORY;
1511 }
1512 for (jint idx = 0; idx < len; idx++) {
1513 array[idx] = JNIHandles::make_local(Thread::current(), _tbl->at(idx).resolve());
1514 }
1515 _tbl = NULL;
1516 *modules_ptr = array;
1517 *module_count_ptr = len;
1518 return JVMTI_ERROR_NONE;
1519 }
1520
1521 void
doit()1522 VM_UpdateForPopTopFrame::doit() {
1523 JavaThread* jt = _state->get_thread();
1524 ThreadsListHandle tlh;
1525 if (jt != NULL && tlh.includes(jt) && !jt->is_exiting() && jt->threadObj() != NULL) {
1526 _state->update_for_pop_top_frame();
1527 } else {
1528 _result = JVMTI_ERROR_THREAD_NOT_ALIVE;
1529 }
1530 }
1531
1532 void
doit()1533 VM_SetFramePop::doit() {
1534 JavaThread* jt = _state->get_thread();
1535 ThreadsListHandle tlh;
1536 if (jt != NULL && tlh.includes(jt) && !jt->is_exiting() && jt->threadObj() != NULL) {
1537 int frame_number = _state->count_frames() - _depth;
1538 _state->env_thread_state((JvmtiEnvBase*)_env)->set_frame_pop(frame_number);
1539 } else {
1540 _result = JVMTI_ERROR_THREAD_NOT_ALIVE;
1541 }
1542 }
1543
1544 void
doit()1545 VM_GetOwnedMonitorInfo::doit() {
1546 _result = JVMTI_ERROR_THREAD_NOT_ALIVE;
1547 ThreadsListHandle tlh;
1548 if (_java_thread != NULL && tlh.includes(_java_thread)
1549 && !_java_thread->is_exiting() && _java_thread->threadObj() != NULL) {
1550 _result = ((JvmtiEnvBase *)_env)->get_owned_monitors(_calling_thread, _java_thread,
1551 _owned_monitors_list);
1552 }
1553 }
1554
1555 void
doit()1556 VM_GetCurrentContendedMonitor::doit() {
1557 _result = JVMTI_ERROR_THREAD_NOT_ALIVE;
1558 ThreadsListHandle tlh;
1559 if (_java_thread != NULL && tlh.includes(_java_thread)
1560 && !_java_thread->is_exiting() && _java_thread->threadObj() != NULL) {
1561 _result = ((JvmtiEnvBase *)_env)->get_current_contended_monitor(_calling_thread,_java_thread,_owned_monitor_ptr);
1562 }
1563 }
1564
1565 void
doit()1566 VM_GetStackTrace::doit() {
1567 _result = JVMTI_ERROR_THREAD_NOT_ALIVE;
1568 ThreadsListHandle tlh;
1569 if (_java_thread != NULL && tlh.includes(_java_thread)
1570 && !_java_thread->is_exiting() && _java_thread->threadObj() != NULL) {
1571 _result = ((JvmtiEnvBase *)_env)->get_stack_trace(_java_thread,
1572 _start_depth, _max_count,
1573 _frame_buffer, _count_ptr);
1574 }
1575 }
1576
1577 void
doit()1578 VM_GetFrameCount::doit() {
1579 _result = JVMTI_ERROR_THREAD_NOT_ALIVE;
1580 JavaThread* jt = _state->get_thread();
1581 ThreadsListHandle tlh;
1582 if (jt != NULL && tlh.includes(jt) && !jt->is_exiting() && jt->threadObj() != NULL) {
1583 _result = ((JvmtiEnvBase*)_env)->get_frame_count(_state, _count_ptr);
1584 }
1585 }
1586
1587 void
doit()1588 VM_GetFrameLocation::doit() {
1589 _result = JVMTI_ERROR_THREAD_NOT_ALIVE;
1590 ThreadsListHandle tlh;
1591 if (_java_thread != NULL && tlh.includes(_java_thread)
1592 && !_java_thread->is_exiting() && _java_thread->threadObj() != NULL) {
1593 _result = ((JvmtiEnvBase*)_env)->get_frame_location(_java_thread, _depth,
1594 _method_ptr, _location_ptr);
1595 }
1596 }
1597