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src/share/vm/prims/jvmtiImpl.cpp@8b46b0196eb0 (annotated)

src/share/vm/prims/jvmtiImpl.cpp

Fri, 25 Jan 2013 10:04:08 -0500

author

zgu

date

Fri, 25 Jan 2013 10:04:08 -0500

changeset 4492

8b46b0196eb0

parent 4299

f34d701e952e

child 4721

47bc9800972c

permissions

-rw-r--r--

8000692: Remove old KERNEL code
Summary: Removed depreciated kernel VM source code from hotspot VM
Reviewed-by: dholmes, acorn

duke@435	1	/*
zgu@4492	2	* Copyright (c) 2003, 2013, Oracle and/or its affiliates. All rights reserved.
duke@435	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@435	4	*
duke@435	5	* This code is free software; you can redistribute it and/or modify it
duke@435	6	* under the terms of the GNU General Public License version 2 only, as
duke@435	7	* published by the Free Software Foundation.
duke@435	8	*
duke@435	9	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@435	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@435	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@435	12	* version 2 for more details (a copy is included in the LICENSE file that
duke@435	13	* accompanied this code).
duke@435	14	*
duke@435	15	* You should have received a copy of the GNU General Public License version
duke@435	16	* 2 along with this work; if not, write to the Free Software Foundation,
duke@435	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@435	18	*
trims@1907	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907	20	* or visit www.oracle.com if you need additional information or have any
trims@1907	21	* questions.
duke@435	22	*
duke@435	23	*/
duke@435	24
stefank@2314	25	#include "precompiled.hpp"
stefank@2314	26	#include "classfile/systemDictionary.hpp"
stefank@2314	27	#include "interpreter/interpreter.hpp"
stefank@2314	28	#include "jvmtifiles/jvmtiEnv.hpp"
stefank@2314	29	#include "memory/resourceArea.hpp"
stefank@2314	30	#include "oops/instanceKlass.hpp"
stefank@2314	31	#include "prims/jvmtiAgentThread.hpp"
stefank@2314	32	#include "prims/jvmtiEventController.inline.hpp"
stefank@2314	33	#include "prims/jvmtiImpl.hpp"
stefank@2314	34	#include "prims/jvmtiRedefineClasses.hpp"
kamg@2511	35	#include "runtime/atomic.hpp"
stefank@2314	36	#include "runtime/deoptimization.hpp"
stefank@2314	37	#include "runtime/handles.hpp"
stefank@2314	38	#include "runtime/handles.inline.hpp"
stefank@2314	39	#include "runtime/interfaceSupport.hpp"
stefank@2314	40	#include "runtime/javaCalls.hpp"
dcubed@2836	41	#include "runtime/os.hpp"
kamg@2511	42	#include "runtime/serviceThread.hpp"
stefank@2314	43	#include "runtime/signature.hpp"
stefank@4299	44	#include "runtime/thread.inline.hpp"
stefank@2314	45	#include "runtime/vframe.hpp"
stefank@2314	46	#include "runtime/vframe_hp.hpp"
stefank@2314	47	#include "runtime/vm_operations.hpp"
stefank@2314	48	#include "utilities/exceptions.hpp"
duke@435	49
duke@435	50	//
duke@435	51	// class JvmtiAgentThread
duke@435	52	//
duke@435	53	// JavaThread used to wrap a thread started by an agent
duke@435	54	// using the JVMTI method RunAgentThread.
duke@435	55	//
duke@435	56
duke@435	57	JvmtiAgentThread::JvmtiAgentThread(JvmtiEnv* env, jvmtiStartFunction start_fn, const void *start_arg)
duke@435	58	: JavaThread(start_function_wrapper) {
duke@435	59	_env = env;
duke@435	60	_start_fn = start_fn;
duke@435	61	_start_arg = start_arg;
duke@435	62	}
duke@435	63
duke@435	64	void
duke@435	65	JvmtiAgentThread::start_function_wrapper(JavaThread *thread, TRAPS) {
duke@435	66	// It is expected that any Agent threads will be created as
duke@435	67	// Java Threads. If this is the case, notification of the creation
duke@435	68	// of the thread is given in JavaThread::thread_main().
duke@435	69	assert(thread->is_Java_thread(), "debugger thread should be a Java Thread");
duke@435	70	assert(thread == JavaThread::current(), "sanity check");
duke@435	71
duke@435	72	JvmtiAgentThread *dthread = (JvmtiAgentThread *)thread;
duke@435	73	dthread->call_start_function();
duke@435	74	}
duke@435	75
duke@435	76	void
duke@435	77	JvmtiAgentThread::call_start_function() {
duke@435	78	ThreadToNativeFromVM transition(this);
duke@435	79	_start_fn(_env->jvmti_external(), jni_environment(), (void*)_start_arg);
duke@435	80	}
duke@435	81
duke@435	82
duke@435	83	//
duke@435	84	// class GrowableCache - private methods
duke@435	85	//
duke@435	86
duke@435	87	void GrowableCache::recache() {
duke@435	88	int len = _elements->length();
duke@435	89
zgu@3900	90	FREE_C_HEAP_ARRAY(address, _cache, mtInternal);
zgu@3900	91	_cache = NEW_C_HEAP_ARRAY(address,len+1, mtInternal);
duke@435	92
duke@435	93	for (int i=0; i<len; i++) {
duke@435	94	_cache[i] = _elements->at(i)->getCacheValue();
duke@435	95	//
duke@435	96	// The cache entry has gone bad. Without a valid frame pointer
duke@435	97	// value, the entry is useless so we simply delete it in product
duke@435	98	// mode. The call to remove() will rebuild the cache again
duke@435	99	// without the bad entry.
duke@435	100	//
duke@435	101	if (_cache[i] == NULL) {
duke@435	102	assert(false, "cannot recache NULL elements");
duke@435	103	remove(i);
duke@435	104	return;
duke@435	105	}
duke@435	106	}
duke@435	107	_cache[len] = NULL;
duke@435	108
duke@435	109	_listener_fun(_this_obj,_cache);
duke@435	110	}
duke@435	111
duke@435	112	bool GrowableCache::equals(void* v, GrowableElement *e2) {
duke@435	113	GrowableElement *e1 = (GrowableElement *) v;
duke@435	114	assert(e1 != NULL, "e1 != NULL");
duke@435	115	assert(e2 != NULL, "e2 != NULL");
duke@435	116
duke@435	117	return e1->equals(e2);
duke@435	118	}
duke@435	119
duke@435	120	//
duke@435	121	// class GrowableCache - public methods
duke@435	122	//
duke@435	123
duke@435	124	GrowableCache::GrowableCache() {
duke@435	125	_this_obj = NULL;
duke@435	126	_listener_fun = NULL;
duke@435	127	_elements = NULL;
duke@435	128	_cache = NULL;
duke@435	129	}
duke@435	130
duke@435	131	GrowableCache::~GrowableCache() {
duke@435	132	clear();
duke@435	133	delete _elements;
zgu@3900	134	FREE_C_HEAP_ARRAY(address, _cache, mtInternal);
duke@435	135	}
duke@435	136
duke@435	137	void GrowableCache::initialize(void *this_obj, void listener_fun(void *, address*) ) {
duke@435	138	_this_obj = this_obj;
duke@435	139	_listener_fun = listener_fun;
zgu@3900	140	_elements = new (ResourceObj::C_HEAP, mtInternal) GrowableArray<GrowableElement*>(5,true);
duke@435	141	recache();
duke@435	142	}
duke@435	143
duke@435	144	// number of elements in the collection
duke@435	145	int GrowableCache::length() {
duke@435	146	return _elements->length();
duke@435	147	}
duke@435	148
duke@435	149	// get the value of the index element in the collection
duke@435	150	GrowableElement* GrowableCache::at(int index) {
duke@435	151	GrowableElement *e = (GrowableElement *) _elements->at(index);
duke@435	152	assert(e != NULL, "e != NULL");
duke@435	153	return e;
duke@435	154	}
duke@435	155
duke@435	156	int GrowableCache::find(GrowableElement* e) {
duke@435	157	return _elements->find(e, GrowableCache::equals);
duke@435	158	}
duke@435	159
duke@435	160	// append a copy of the element to the end of the collection
duke@435	161	void GrowableCache::append(GrowableElement* e) {
duke@435	162	GrowableElement *new_e = e->clone();
duke@435	163	_elements->append(new_e);
duke@435	164	recache();
duke@435	165	}
duke@435	166
duke@435	167	// insert a copy of the element using lessthan()
duke@435	168	void GrowableCache::insert(GrowableElement* e) {
duke@435	169	GrowableElement *new_e = e->clone();
duke@435	170	_elements->append(new_e);
duke@435	171
duke@435	172	int n = length()-2;
duke@435	173	for (int i=n; i>=0; i--) {
duke@435	174	GrowableElement *e1 = _elements->at(i);
duke@435	175	GrowableElement *e2 = _elements->at(i+1);
duke@435	176	if (e2->lessThan(e1)) {
duke@435	177	_elements->at_put(i+1, e1);
duke@435	178	_elements->at_put(i, e2);
duke@435	179	}
duke@435	180	}
duke@435	181
duke@435	182	recache();
duke@435	183	}
duke@435	184
duke@435	185	// remove the element at index
duke@435	186	void GrowableCache::remove (int index) {
duke@435	187	GrowableElement *e = _elements->at(index);
duke@435	188	assert(e != NULL, "e != NULL");
duke@435	189	_elements->remove(e);
duke@435	190	delete e;
duke@435	191	recache();
duke@435	192	}
duke@435	193
duke@435	194	// clear out all elements, release all heap space and
duke@435	195	// let our listener know that things have changed.
duke@435	196	void GrowableCache::clear() {
duke@435	197	int len = _elements->length();
duke@435	198	for (int i=0; i<len; i++) {
duke@435	199	delete _elements->at(i);
duke@435	200	}
duke@435	201	_elements->clear();
duke@435	202	recache();
duke@435	203	}
duke@435	204
duke@435	205	void GrowableCache::oops_do(OopClosure* f) {
duke@435	206	int len = _elements->length();
duke@435	207	for (int i=0; i<len; i++) {
duke@435	208	GrowableElement *e = _elements->at(i);
duke@435	209	e->oops_do(f);
kamg@2467	210	}
kamg@2467	211	}
kamg@2467	212
kamg@2467	213	void GrowableCache::gc_epilogue() {
kamg@2467	214	int len = _elements->length();
kamg@2467	215	for (int i=0; i<len; i++) {
kamg@2467	216	_cache[i] = _elements->at(i)->getCacheValue();
duke@435	217	}
duke@435	218	}
duke@435	219
duke@435	220	//
duke@435	221	// class JvmtiBreakpoint
duke@435	222	//
duke@435	223
duke@435	224	JvmtiBreakpoint::JvmtiBreakpoint() {
duke@435	225	_method = NULL;
duke@435	226	_bci = 0;
coleenp@4037	227	_class_loader = NULL;
duke@435	228	#ifdef CHECK_UNHANDLED_OOPS
duke@435	229	// This one is always allocated with new, but check it just in case.
duke@435	230	Thread *thread = Thread::current();
duke@435	231	if (thread->is_in_stack((address)&_method)) {
duke@435	232	thread->allow_unhandled_oop((oop*)&_method);
duke@435	233	}
duke@435	234	#endif // CHECK_UNHANDLED_OOPS
duke@435	235	}
duke@435	236
coleenp@4037	237	JvmtiBreakpoint::JvmtiBreakpoint(Method* m_method, jlocation location) {
duke@435	238	_method = m_method;
coleenp@4037	239	_class_loader = _method->method_holder()->class_loader_data()->class_loader();
duke@435	240	assert(_method != NULL, "_method != NULL");
duke@435	241	_bci = (int) location;
duke@435	242	assert(_bci >= 0, "_bci >= 0");
duke@435	243	}
duke@435	244
duke@435	245	void JvmtiBreakpoint::copy(JvmtiBreakpoint& bp) {
duke@435	246	_method = bp._method;
duke@435	247	_bci = bp._bci;
coleenp@4037	248	_class_loader = bp._class_loader;
duke@435	249	}
duke@435	250
duke@435	251	bool JvmtiBreakpoint::lessThan(JvmtiBreakpoint& bp) {
duke@435	252	Unimplemented();
duke@435	253	return false;
duke@435	254	}
duke@435	255
duke@435	256	bool JvmtiBreakpoint::equals(JvmtiBreakpoint& bp) {
duke@435	257	return _method == bp._method
duke@435	258	&& _bci == bp._bci;
duke@435	259	}
duke@435	260
duke@435	261	bool JvmtiBreakpoint::is_valid() {
coleenp@4037	262	// class loader can be NULL
duke@435	263	return _method != NULL &&
duke@435	264	_bci >= 0;
duke@435	265	}
duke@435	266
duke@435	267	address JvmtiBreakpoint::getBcp() {
duke@435	268	return _method->bcp_from(_bci);
duke@435	269	}
duke@435	270
duke@435	271	void JvmtiBreakpoint::each_method_version_do(method_action meth_act) {
coleenp@4037	272	((Method*)_method->*meth_act)(_bci);
duke@435	273
duke@435	274	// add/remove breakpoint to/from versions of the method that
duke@435	275	// are EMCP. Directly or transitively obsolete methods are
duke@435	276	// not saved in the PreviousVersionInfo.
duke@435	277	Thread *thread = Thread::current();
duke@435	278	instanceKlassHandle ikh = instanceKlassHandle(thread, _method->method_holder());
coleenp@2497	279	Symbol* m_name = _method->name();
coleenp@2497	280	Symbol* m_signature = _method->signature();
duke@435	281
duke@435	282	{
duke@435	283	ResourceMark rm(thread);
duke@435	284	// PreviousVersionInfo objects returned via PreviousVersionWalker
duke@435	285	// contain a GrowableArray of handles. We have to clean up the
duke@435	286	// GrowableArray _after_ the PreviousVersionWalker destructor
duke@435	287	// has destroyed the handles.
duke@435	288	{
duke@435	289	// search previous versions if they exist
coleenp@4037	290	PreviousVersionWalker pvw((InstanceKlass *)ikh());
duke@435	291	for (PreviousVersionInfo * pv_info = pvw.next_previous_version();
duke@435	292	pv_info != NULL; pv_info = pvw.next_previous_version()) {
duke@435	293	GrowableArray<methodHandle>* methods =
duke@435	294	pv_info->prev_EMCP_method_handles();
duke@435	295
duke@435	296	if (methods == NULL) {
duke@435	297	// We have run into a PreviousVersion generation where
duke@435	298	// all methods were made obsolete during that generation's
duke@435	299	// RedefineClasses() operation. At the time of that
duke@435	300	// operation, all EMCP methods were flushed so we don't
duke@435	301	// have to go back any further.
duke@435	302	//
duke@435	303	// A NULL methods array is different than an empty methods
duke@435	304	// array. We cannot infer any optimizations about older
duke@435	305	// generations from an empty methods array for the current
duke@435	306	// generation.
duke@435	307	break;
duke@435	308	}
duke@435	309
duke@435	310	for (int i = methods->length() - 1; i >= 0; i--) {
duke@435	311	methodHandle method = methods->at(i);
coleenp@4037	312	// obsolete methods that are running are not deleted from
coleenp@4037	313	// previous version array, but they are skipped here.
coleenp@4037	314	if (!method->is_obsolete() &&
coleenp@4037	315	method->name() == m_name &&
coleenp@4037	316	method->signature() == m_signature) {
duke@435	317	RC_TRACE(0x00000800, ("%sing breakpoint in %s(%s)",
coleenp@4037	318	meth_act == &Method::set_breakpoint ? "sett" : "clear",
duke@435	319	method->name()->as_C_string(),
duke@435	320	method->signature()->as_C_string()));
duke@435	321
coleenp@4037	322	((Method*)method()->*meth_act)(_bci);
duke@435	323	break;
duke@435	324	}
duke@435	325	}
duke@435	326	}
duke@435	327	} // pvw is cleaned up
duke@435	328	} // rm is cleaned up
duke@435	329	}
duke@435	330
duke@435	331	void JvmtiBreakpoint::set() {
coleenp@4037	332	each_method_version_do(&Method::set_breakpoint);
duke@435	333	}
duke@435	334
duke@435	335	void JvmtiBreakpoint::clear() {
coleenp@4037	336	each_method_version_do(&Method::clear_breakpoint);
duke@435	337	}
duke@435	338
duke@435	339	void JvmtiBreakpoint::print() {
duke@435	340	#ifndef PRODUCT
duke@435	341	const char *class_name = (_method == NULL) ? "NULL" : _method->klass_name()->as_C_string();
duke@435	342	const char *method_name = (_method == NULL) ? "NULL" : _method->name()->as_C_string();
duke@435	343
duke@435	344	tty->print("Breakpoint(%s,%s,%d,%p)",class_name, method_name, _bci, getBcp());
duke@435	345	#endif
duke@435	346	}
duke@435	347
duke@435	348
duke@435	349	//
duke@435	350	// class VM_ChangeBreakpoints
duke@435	351	//
duke@435	352	// Modify the Breakpoints data structure at a safepoint
duke@435	353	//
duke@435	354
duke@435	355	void VM_ChangeBreakpoints::doit() {
duke@435	356	switch (_operation) {
duke@435	357	case SET_BREAKPOINT:
duke@435	358	_breakpoints->set_at_safepoint(*_bp);
duke@435	359	break;
duke@435	360	case CLEAR_BREAKPOINT:
duke@435	361	_breakpoints->clear_at_safepoint(*_bp);
duke@435	362	break;
duke@435	363	case CLEAR_ALL_BREAKPOINT:
duke@435	364	_breakpoints->clearall_at_safepoint();
duke@435	365	break;
duke@435	366	default:
duke@435	367	assert(false, "Unknown operation");
duke@435	368	}
duke@435	369	}
duke@435	370
duke@435	371	void VM_ChangeBreakpoints::oops_do(OopClosure* f) {
duke@435	372	// This operation keeps breakpoints alive
duke@435	373	if (_breakpoints != NULL) {
duke@435	374	_breakpoints->oops_do(f);
duke@435	375	}
duke@435	376	if (_bp != NULL) {
duke@435	377	_bp->oops_do(f);
duke@435	378	}
duke@435	379	}
duke@435	380
duke@435	381	//
duke@435	382	// class JvmtiBreakpoints
duke@435	383	//
duke@435	384	// a JVMTI internal collection of JvmtiBreakpoint
duke@435	385	//
duke@435	386
duke@435	387	JvmtiBreakpoints::JvmtiBreakpoints(void listener_fun(void *,address *)) {
duke@435	388	_bps.initialize(this,listener_fun);
duke@435	389	}
duke@435	390
duke@435	391	JvmtiBreakpoints:: ~JvmtiBreakpoints() {}
duke@435	392
duke@435	393	void JvmtiBreakpoints::oops_do(OopClosure* f) {
duke@435	394	_bps.oops_do(f);
duke@435	395	}
duke@435	396
kamg@2467	397	void JvmtiBreakpoints::gc_epilogue() {
kamg@2467	398	_bps.gc_epilogue();
kamg@2467	399	}
kamg@2467	400
duke@435	401	void JvmtiBreakpoints::print() {
duke@435	402	#ifndef PRODUCT
duke@435	403	ResourceMark rm;
duke@435	404
duke@435	405	int n = _bps.length();
duke@435	406	for (int i=0; i<n; i++) {
duke@435	407	JvmtiBreakpoint& bp = _bps.at(i);
duke@435	408	tty->print("%d: ", i);
duke@435	409	bp.print();
duke@435	410	tty->print_cr("");
duke@435	411	}
duke@435	412	#endif
duke@435	413	}
duke@435	414
duke@435	415
duke@435	416	void JvmtiBreakpoints::set_at_safepoint(JvmtiBreakpoint& bp) {
duke@435	417	assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint");
duke@435	418
duke@435	419	int i = _bps.find(bp);
duke@435	420	if (i == -1) {
duke@435	421	_bps.append(bp);
duke@435	422	bp.set();
duke@435	423	}
duke@435	424	}
duke@435	425
duke@435	426	void JvmtiBreakpoints::clear_at_safepoint(JvmtiBreakpoint& bp) {
duke@435	427	assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint");
duke@435	428
duke@435	429	int i = _bps.find(bp);
duke@435	430	if (i != -1) {
duke@435	431	_bps.remove(i);
duke@435	432	bp.clear();
duke@435	433	}
duke@435	434	}
duke@435	435
duke@435	436	void JvmtiBreakpoints::clearall_at_safepoint() {
duke@435	437	assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint");
duke@435	438
duke@435	439	int len = _bps.length();
duke@435	440	for (int i=0; i<len; i++) {
duke@435	441	_bps.at(i).clear();
duke@435	442	}
duke@435	443	_bps.clear();
duke@435	444	}
duke@435	445
duke@435	446	int JvmtiBreakpoints::length() { return _bps.length(); }
duke@435	447
duke@435	448	int JvmtiBreakpoints::set(JvmtiBreakpoint& bp) {
duke@435	449	if ( _bps.find(bp) != -1) {
duke@435	450	return JVMTI_ERROR_DUPLICATE;
duke@435	451	}
duke@435	452	VM_ChangeBreakpoints set_breakpoint(this,VM_ChangeBreakpoints::SET_BREAKPOINT, &bp);
duke@435	453	VMThread::execute(&set_breakpoint);
duke@435	454	return JVMTI_ERROR_NONE;
duke@435	455	}
duke@435	456
duke@435	457	int JvmtiBreakpoints::clear(JvmtiBreakpoint& bp) {
duke@435	458	if ( _bps.find(bp) == -1) {
duke@435	459	return JVMTI_ERROR_NOT_FOUND;
duke@435	460	}
duke@435	461
duke@435	462	VM_ChangeBreakpoints clear_breakpoint(this,VM_ChangeBreakpoints::CLEAR_BREAKPOINT, &bp);
duke@435	463	VMThread::execute(&clear_breakpoint);
duke@435	464	return JVMTI_ERROR_NONE;
duke@435	465	}
duke@435	466
coleenp@4037	467	void JvmtiBreakpoints::clearall_in_class_at_safepoint(Klass* klass) {
duke@435	468	bool changed = true;
duke@435	469	// We are going to run thru the list of bkpts
duke@435	470	// and delete some. This deletion probably alters
duke@435	471	// the list in some implementation defined way such
duke@435	472	// that when we delete entry i, the next entry might
duke@435	473	// no longer be at i+1. To be safe, each time we delete
duke@435	474	// an entry, we'll just start again from the beginning.
duke@435	475	// We'll stop when we make a pass thru the whole list without
duke@435	476	// deleting anything.
duke@435	477	while (changed) {
duke@435	478	int len = _bps.length();
duke@435	479	changed = false;
duke@435	480	for (int i = 0; i < len; i++) {
duke@435	481	JvmtiBreakpoint& bp = _bps.at(i);
duke@435	482	if (bp.method()->method_holder() == klass) {
duke@435	483	bp.clear();
duke@435	484	_bps.remove(i);
duke@435	485	// This changed 'i' so we have to start over.
duke@435	486	changed = true;
duke@435	487	break;
duke@435	488	}
duke@435	489	}
duke@435	490	}
duke@435	491	}
duke@435	492
duke@435	493	void JvmtiBreakpoints::clearall() {
duke@435	494	VM_ChangeBreakpoints clearall_breakpoint(this,VM_ChangeBreakpoints::CLEAR_ALL_BREAKPOINT);
duke@435	495	VMThread::execute(&clearall_breakpoint);
duke@435	496	}
duke@435	497
duke@435	498	//
duke@435	499	// class JvmtiCurrentBreakpoints
duke@435	500	//
duke@435	501
duke@435	502	JvmtiBreakpoints *JvmtiCurrentBreakpoints::_jvmti_breakpoints = NULL;
duke@435	503	address * JvmtiCurrentBreakpoints::_breakpoint_list = NULL;
duke@435	504
duke@435	505
duke@435	506	JvmtiBreakpoints& JvmtiCurrentBreakpoints::get_jvmti_breakpoints() {
duke@435	507	if (_jvmti_breakpoints != NULL) return (*_jvmti_breakpoints);
duke@435	508	_jvmti_breakpoints = new JvmtiBreakpoints(listener_fun);
duke@435	509	assert(_jvmti_breakpoints != NULL, "_jvmti_breakpoints != NULL");
duke@435	510	return (*_jvmti_breakpoints);
duke@435	511	}
duke@435	512
duke@435	513	void JvmtiCurrentBreakpoints::listener_fun(void *this_obj, address *cache) {
duke@435	514	JvmtiBreakpoints *this_jvmti = (JvmtiBreakpoints *) this_obj;
duke@435	515	assert(this_jvmti != NULL, "this_jvmti != NULL");
duke@435	516
duke@435	517	debug_only(int n = this_jvmti->length(););
duke@435	518	assert(cache[n] == NULL, "cache must be NULL terminated");
duke@435	519
duke@435	520	set_breakpoint_list(cache);
duke@435	521	}
duke@435	522
duke@435	523
duke@435	524	void JvmtiCurrentBreakpoints::oops_do(OopClosure* f) {
duke@435	525	if (_jvmti_breakpoints != NULL) {
duke@435	526	_jvmti_breakpoints->oops_do(f);
duke@435	527	}
duke@435	528	}
duke@435	529
kamg@2467	530	void JvmtiCurrentBreakpoints::gc_epilogue() {
kamg@2467	531	if (_jvmti_breakpoints != NULL) {
kamg@2467	532	_jvmti_breakpoints->gc_epilogue();
kamg@2467	533	}
kamg@2467	534	}
kamg@2467	535
duke@435	536	///////////////////////////////////////////////////////////////
duke@435	537	//
duke@435	538	// class VM_GetOrSetLocal
duke@435	539	//
duke@435	540
duke@435	541	// Constructor for non-object getter
duke@435	542	VM_GetOrSetLocal::VM_GetOrSetLocal(JavaThread* thread, jint depth, int index, BasicType type)
duke@435	543	: _thread(thread)
duke@435	544	, _calling_thread(NULL)
duke@435	545	, _depth(depth)
duke@435	546	, _index(index)
duke@435	547	, _type(type)
duke@435	548	, _set(false)
duke@435	549	, _jvf(NULL)
duke@435	550	, _result(JVMTI_ERROR_NONE)
duke@435	551	{
duke@435	552	}
duke@435	553
duke@435	554	// Constructor for object or non-object setter
duke@435	555	VM_GetOrSetLocal::VM_GetOrSetLocal(JavaThread* thread, jint depth, int index, BasicType type, jvalue value)
duke@435	556	: _thread(thread)
duke@435	557	, _calling_thread(NULL)
duke@435	558	, _depth(depth)
duke@435	559	, _index(index)
duke@435	560	, _type(type)
duke@435	561	, _value(value)
duke@435	562	, _set(true)
duke@435	563	, _jvf(NULL)
duke@435	564	, _result(JVMTI_ERROR_NONE)
duke@435	565	{
duke@435	566	}
duke@435	567
duke@435	568	// Constructor for object getter
duke@435	569	VM_GetOrSetLocal::VM_GetOrSetLocal(JavaThread* thread, JavaThread* calling_thread, jint depth, int index)
duke@435	570	: _thread(thread)
duke@435	571	, _calling_thread(calling_thread)
duke@435	572	, _depth(depth)
duke@435	573	, _index(index)
duke@435	574	, _type(T_OBJECT)
duke@435	575	, _set(false)
duke@435	576	, _jvf(NULL)
duke@435	577	, _result(JVMTI_ERROR_NONE)
duke@435	578	{
duke@435	579	}
duke@435	580
duke@435	581	vframe *VM_GetOrSetLocal::get_vframe() {
duke@435	582	if (!_thread->has_last_Java_frame()) {
duke@435	583	return NULL;
duke@435	584	}
duke@435	585	RegisterMap reg_map(_thread);
duke@435	586	vframe *vf = _thread->last_java_vframe(&reg_map);
duke@435	587	int d = 0;
duke@435	588	while ((vf != NULL) && (d < _depth)) {
duke@435	589	vf = vf->java_sender();
duke@435	590	d++;
duke@435	591	}
duke@435	592	return vf;
duke@435	593	}
duke@435	594
duke@435	595	javaVFrame *VM_GetOrSetLocal::get_java_vframe() {
duke@435	596	vframe* vf = get_vframe();
duke@435	597	if (vf == NULL) {
duke@435	598	_result = JVMTI_ERROR_NO_MORE_FRAMES;
duke@435	599	return NULL;
duke@435	600	}
duke@435	601	javaVFrame *jvf = (javaVFrame*)vf;
duke@435	602
kamg@2361	603	if (!vf->is_java_frame()) {
duke@435	604	_result = JVMTI_ERROR_OPAQUE_FRAME;
duke@435	605	return NULL;
duke@435	606	}
duke@435	607	return jvf;
duke@435	608	}
duke@435	609
duke@435	610	// Check that the klass is assignable to a type with the given signature.
duke@435	611	// Another solution could be to use the function Klass::is_subtype_of(type).
duke@435	612	// But the type class can be forced to load/initialize eagerly in such a case.
duke@435	613	// This may cause unexpected consequences like CFLH or class-init JVMTI events.
duke@435	614	// It is better to avoid such a behavior.
duke@435	615	bool VM_GetOrSetLocal::is_assignable(const char* ty_sign, Klass* klass, Thread* thread) {
duke@435	616	assert(ty_sign != NULL, "type signature must not be NULL");
duke@435	617	assert(thread != NULL, "thread must not be NULL");
duke@435	618	assert(klass != NULL, "klass must not be NULL");
duke@435	619
duke@435	620	int len = (int) strlen(ty_sign);
duke@435	621	if (ty_sign[0] == 'L' && ty_sign[len-1] == ';') { // Need pure class/interface name
duke@435	622	ty_sign++;
duke@435	623	len -= 2;
duke@435	624	}
coleenp@2497	625	TempNewSymbol ty_sym = SymbolTable::new_symbol(ty_sign, len, thread);
coleenp@2497	626	if (klass->name() == ty_sym) {
duke@435	627	return true;
duke@435	628	}
duke@435	629	// Compare primary supers
duke@435	630	int super_depth = klass->super_depth();
duke@435	631	int idx;
duke@435	632	for (idx = 0; idx < super_depth; idx++) {
hseigel@4278	633	if (klass->primary_super_of_depth(idx)->name() == ty_sym) {
duke@435	634	return true;
duke@435	635	}
duke@435	636	}
duke@435	637	// Compare secondary supers
coleenp@4037	638	Array<Klass*>* sec_supers = klass->secondary_supers();
duke@435	639	for (idx = 0; idx < sec_supers->length(); idx++) {
hseigel@4278	640	if (((Klass*) sec_supers->at(idx))->name() == ty_sym) {
duke@435	641	return true;
duke@435	642	}
duke@435	643	}
duke@435	644	return false;
duke@435	645	}
duke@435	646
duke@435	647	// Checks error conditions:
duke@435	648	// JVMTI_ERROR_INVALID_SLOT
duke@435	649	// JVMTI_ERROR_TYPE_MISMATCH
duke@435	650	// Returns: 'true' - everything is Ok, 'false' - error code
duke@435	651
duke@435	652	bool VM_GetOrSetLocal::check_slot_type(javaVFrame* jvf) {
coleenp@4037	653	Method* method_oop = jvf->method();
duke@435	654	if (!method_oop->has_localvariable_table()) {
duke@435	655	// Just to check index boundaries
duke@435	656	jint extra_slot = (_type == T_LONG || _type == T_DOUBLE) ? 1 : 0;
duke@435	657	if (_index < 0 || _index + extra_slot >= method_oop->max_locals()) {
duke@435	658	_result = JVMTI_ERROR_INVALID_SLOT;
duke@435	659	return false;
duke@435	660	}
duke@435	661	return true;
duke@435	662	}
duke@435	663
duke@435	664	jint num_entries = method_oop->localvariable_table_length();
duke@435	665	if (num_entries == 0) {
duke@435	666	_result = JVMTI_ERROR_INVALID_SLOT;
duke@435	667	return false; // There are no slots
duke@435	668	}
duke@435	669	int signature_idx = -1;
duke@435	670	int vf_bci = jvf->bci();
duke@435	671	LocalVariableTableElement* table = method_oop->localvariable_table_start();
duke@435	672	for (int i = 0; i < num_entries; i++) {
duke@435	673	int start_bci = table[i].start_bci;
duke@435	674	int end_bci = start_bci + table[i].length;
duke@435	675
duke@435	676	// Here we assume that locations of LVT entries
duke@435	677	// with the same slot number cannot be overlapped
duke@435	678	if (_index == (jint) table[i].slot && start_bci <= vf_bci && vf_bci <= end_bci) {
duke@435	679	signature_idx = (int) table[i].descriptor_cp_index;
duke@435	680	break;
duke@435	681	}
duke@435	682	}
duke@435	683	if (signature_idx == -1) {
duke@435	684	_result = JVMTI_ERROR_INVALID_SLOT;
duke@435	685	return false; // Incorrect slot index
duke@435	686	}
coleenp@2497	687	Symbol* sign_sym = method_oop->constants()->symbol_at(signature_idx);
duke@435	688	const char* signature = (const char *) sign_sym->as_utf8();
duke@435	689	BasicType slot_type = char2type(signature[0]);
duke@435	690
duke@435	691	switch (slot_type) {
duke@435	692	case T_BYTE:
duke@435	693	case T_SHORT:
duke@435	694	case T_CHAR:
duke@435	695	case T_BOOLEAN:
duke@435	696	slot_type = T_INT;
duke@435	697	break;
duke@435	698	case T_ARRAY:
duke@435	699	slot_type = T_OBJECT;
duke@435	700	break;
duke@435	701	};
duke@435	702	if (_type != slot_type) {
duke@435	703	_result = JVMTI_ERROR_TYPE_MISMATCH;
duke@435	704	return false;
duke@435	705	}
duke@435	706
duke@435	707	jobject jobj = _value.l;
duke@435	708	if (_set && slot_type == T_OBJECT && jobj != NULL) { // NULL reference is allowed
duke@435	709	// Check that the jobject class matches the return type signature.
duke@435	710	JavaThread* cur_thread = JavaThread::current();
duke@435	711	HandleMark hm(cur_thread);
duke@435	712
duke@435	713	Handle obj = Handle(cur_thread, JNIHandles::resolve_external_guard(jobj));
duke@435	714	NULL_CHECK(obj, (_result = JVMTI_ERROR_INVALID_OBJECT, false));
duke@435	715	KlassHandle ob_kh = KlassHandle(cur_thread, obj->klass());
duke@435	716	NULL_CHECK(ob_kh, (_result = JVMTI_ERROR_INVALID_OBJECT, false));
duke@435	717
hseigel@4278	718	if (!is_assignable(signature, ob_kh(), cur_thread)) {
duke@435	719	_result = JVMTI_ERROR_TYPE_MISMATCH;
duke@435	720	return false;
duke@435	721	}
duke@435	722	}
duke@435	723	return true;
duke@435	724	}
duke@435	725
duke@435	726	static bool can_be_deoptimized(vframe* vf) {
duke@435	727	return (vf->is_compiled_frame() && vf->fr().can_be_deoptimized());
duke@435	728	}
duke@435	729
duke@435	730	bool VM_GetOrSetLocal::doit_prologue() {
duke@435	731	_jvf = get_java_vframe();
duke@435	732	NULL_CHECK(_jvf, false);
duke@435	733
kamg@2361	734	if (_jvf->method()->is_native()) {
kamg@2361	735	if (getting_receiver() && !_jvf->method()->is_static()) {
kamg@2361	736	return true;
kamg@2361	737	} else {
kamg@2361	738	_result = JVMTI_ERROR_OPAQUE_FRAME;
kamg@2361	739	return false;
kamg@2361	740	}
kamg@2361	741	}
kamg@2361	742
duke@435	743	if (!check_slot_type(_jvf)) {
duke@435	744	return false;
duke@435	745	}
duke@435	746	return true;
duke@435	747	}
duke@435	748
duke@435	749	void VM_GetOrSetLocal::doit() {
duke@435	750	if (_set) {
duke@435	751	// Force deoptimization of frame if compiled because it's
duke@435	752	// possible the compiler emitted some locals as constant values,
duke@435	753	// meaning they are not mutable.
duke@435	754	if (can_be_deoptimized(_jvf)) {
duke@435	755
duke@435	756	// Schedule deoptimization so that eventually the local
duke@435	757	// update will be written to an interpreter frame.
never@2260	758	Deoptimization::deoptimize_frame(_jvf->thread(), _jvf->fr().id());
duke@435	759
duke@435	760	// Now store a new value for the local which will be applied
duke@435	761	// once deoptimization occurs. Note however that while this
duke@435	762	// write is deferred until deoptimization actually happens
duke@435	763	// can vframe created after this point will have its locals
duke@435	764	// reflecting this update so as far as anyone can see the
duke@435	765	// write has already taken place.
duke@435	766
duke@435	767	// If we are updating an oop then get the oop from the handle
duke@435	768	// since the handle will be long gone by the time the deopt
duke@435	769	// happens. The oop stored in the deferred local will be
duke@435	770	// gc'd on its own.
duke@435	771	if (_type == T_OBJECT) {
duke@435	772	_value.l = (jobject) (JNIHandles::resolve_external_guard(_value.l));
duke@435	773	}
duke@435	774	// Re-read the vframe so we can see that it is deoptimized
duke@435	775	// [ Only need because of assert in update_local() ]
duke@435	776	_jvf = get_java_vframe();
duke@435	777	((compiledVFrame*)_jvf)->update_local(_type, _index, _value);
duke@435	778	return;
duke@435	779	}
duke@435	780	StackValueCollection *locals = _jvf->locals();
duke@435	781	HandleMark hm;
duke@435	782
duke@435	783	switch (_type) {
kamg@2361	784	case T_INT: locals->set_int_at (_index, _value.i); break;
kamg@2361	785	case T_LONG: locals->set_long_at (_index, _value.j); break;
kamg@2361	786	case T_FLOAT: locals->set_float_at (_index, _value.f); break;
kamg@2361	787	case T_DOUBLE: locals->set_double_at(_index, _value.d); break;
kamg@2361	788	case T_OBJECT: {
kamg@2361	789	Handle ob_h(JNIHandles::resolve_external_guard(_value.l));
kamg@2361	790	locals->set_obj_at (_index, ob_h);
kamg@2361	791	break;
kamg@2361	792	}
kamg@2361	793	default: ShouldNotReachHere();
duke@435	794	}
duke@435	795	_jvf->set_locals(locals);
duke@435	796	} else {
kamg@2361	797	if (_jvf->method()->is_native() && _jvf->is_compiled_frame()) {
kamg@2361	798	assert(getting_receiver(), "Can only get here when getting receiver");
kamg@2361	799	oop receiver = _jvf->fr().get_native_receiver();
kamg@2361	800	_value.l = JNIHandles::make_local(_calling_thread, receiver);
kamg@2361	801	} else {
kamg@2361	802	StackValueCollection *locals = _jvf->locals();
duke@435	803
kamg@2361	804	if (locals->at(_index)->type() == T_CONFLICT) {
kamg@2361	805	memset(&_value, 0, sizeof(_value));
kamg@2361	806	_value.l = NULL;
kamg@2361	807	return;
kamg@2361	808	}
duke@435	809
kamg@2361	810	switch (_type) {
kamg@2361	811	case T_INT: _value.i = locals->int_at (_index); break;
kamg@2361	812	case T_LONG: _value.j = locals->long_at (_index); break;
kamg@2361	813	case T_FLOAT: _value.f = locals->float_at (_index); break;
kamg@2361	814	case T_DOUBLE: _value.d = locals->double_at(_index); break;
kamg@2361	815	case T_OBJECT: {
kamg@2361	816	// Wrap the oop to be returned in a local JNI handle since
kamg@2361	817	// oops_do() no longer applies after doit() is finished.
kamg@2361	818	oop obj = locals->obj_at(_index)();
kamg@2361	819	_value.l = JNIHandles::make_local(_calling_thread, obj);
kamg@2361	820	break;
kamg@2361	821	}
kamg@2361	822	default: ShouldNotReachHere();
kamg@2361	823	}
duke@435	824	}
duke@435	825	}
duke@435	826	}
duke@435	827
duke@435	828
duke@435	829	bool VM_GetOrSetLocal::allow_nested_vm_operations() const {
duke@435	830	return true; // May need to deoptimize
duke@435	831	}
duke@435	832
duke@435	833
kamg@2361	834	VM_GetReceiver::VM_GetReceiver(
kamg@2361	835	JavaThread* thread, JavaThread* caller_thread, jint depth)
kamg@2361	836	: VM_GetOrSetLocal(thread, caller_thread, depth, 0) {}
kamg@2361	837
duke@435	838	/////////////////////////////////////////////////////////////////////////////////////////
duke@435	839
duke@435	840	//
duke@435	841	// class JvmtiSuspendControl - see comments in jvmtiImpl.hpp
duke@435	842	//
duke@435	843
duke@435	844	bool JvmtiSuspendControl::suspend(JavaThread *java_thread) {
duke@435	845	// external suspend should have caught suspending a thread twice
duke@435	846
duke@435	847	// Immediate suspension required for JPDA back-end so JVMTI agent threads do
duke@435	848	// not deadlock due to later suspension on transitions while holding
duke@435	849	// raw monitors. Passing true causes the immediate suspension.
duke@435	850	// java_suspend() will catch threads in the process of exiting
duke@435	851	// and will ignore them.
duke@435	852	java_thread->java_suspend();
duke@435	853
duke@435	854	// It would be nice to have the following assertion in all the time,
duke@435	855	// but it is possible for a racing resume request to have resumed
duke@435	856	// this thread right after we suspended it. Temporarily enable this
duke@435	857	// assertion if you are chasing a different kind of bug.
duke@435	858	//
duke@435	859	// assert(java_lang_Thread::thread(java_thread->threadObj()) == NULL ||
duke@435	860	// java_thread->is_being_ext_suspended(), "thread is not suspended");
duke@435	861
duke@435	862	if (java_lang_Thread::thread(java_thread->threadObj()) == NULL) {
duke@435	863	// check again because we can get delayed in java_suspend():
duke@435	864	// the thread is in process of exiting.
duke@435	865	return false;
duke@435	866	}
duke@435	867
duke@435	868	return true;
duke@435	869	}
duke@435	870
duke@435	871	bool JvmtiSuspendControl::resume(JavaThread *java_thread) {
duke@435	872	// external suspend should have caught resuming a thread twice
duke@435	873	assert(java_thread->is_being_ext_suspended(), "thread should be suspended");
duke@435	874
duke@435	875	// resume thread
duke@435	876	{
duke@435	877	// must always grab Threads_lock, see JVM_SuspendThread
duke@435	878	MutexLocker ml(Threads_lock);
duke@435	879	java_thread->java_resume();
duke@435	880	}
duke@435	881
duke@435	882	return true;
duke@435	883	}
duke@435	884
duke@435	885
duke@435	886	void JvmtiSuspendControl::print() {
duke@435	887	#ifndef PRODUCT
duke@435	888	MutexLocker mu(Threads_lock);
duke@435	889	ResourceMark rm;
duke@435	890
duke@435	891	tty->print("Suspended Threads: [");
duke@435	892	for (JavaThread *thread = Threads::first(); thread != NULL; thread = thread->next()) {
duke@435	893	#if JVMTI_TRACE
duke@435	894	const char *name = JvmtiTrace::safe_get_thread_name(thread);
duke@435	895	#else
duke@435	896	const char *name = "";
duke@435	897	#endif /*JVMTI_TRACE */
duke@435	898	tty->print("%s(%c ", name, thread->is_being_ext_suspended() ? 'S' : '_');
duke@435	899	if (!thread->has_last_Java_frame()) {
duke@435	900	tty->print("no stack");
duke@435	901	}
duke@435	902	tty->print(") ");
duke@435	903	}
duke@435	904	tty->print_cr("]");
duke@435	905	#endif
duke@435	906	}
kamg@2511	907
kamg@2511	908	JvmtiDeferredEvent JvmtiDeferredEvent::compiled_method_load_event(
kamg@2511	909	nmethod* nm) {
kamg@2511	910	JvmtiDeferredEvent event = JvmtiDeferredEvent(TYPE_COMPILED_METHOD_LOAD);
kamg@2583	911	event._event_data.compiled_method_load = nm;
dcubed@2624	912	// Keep the nmethod alive until the ServiceThread can process
dcubed@2624	913	// this deferred event.
dcubed@2624	914	nmethodLocker::lock_nmethod(nm);
kamg@2511	915	return event;
kamg@2511	916	}
kamg@2511	917
kamg@2511	918	JvmtiDeferredEvent JvmtiDeferredEvent::compiled_method_unload_event(
dcubed@2624	919	nmethod* nm, jmethodID id, const void* code) {
kamg@2511	920	JvmtiDeferredEvent event = JvmtiDeferredEvent(TYPE_COMPILED_METHOD_UNLOAD);
dcubed@2624	921	event._event_data.compiled_method_unload.nm = nm;
kamg@2583	922	event._event_data.compiled_method_unload.method_id = id;
kamg@2583	923	event._event_data.compiled_method_unload.code_begin = code;
dcubed@2624	924	// Keep the nmethod alive until the ServiceThread can process
dcubed@2624	925	// this deferred event. This will keep the memory for the
dcubed@2624	926	// generated code from being reused too early. We pass
dcubed@2624	927	// zombie_ok == true here so that our nmethod that was just
dcubed@2624	928	// made into a zombie can be locked.
dcubed@2624	929	nmethodLocker::lock_nmethod(nm, true /* zombie_ok */);
kamg@2583	930	return event;
kamg@2583	931	}
dcubed@2836	932
kamg@2583	933	JvmtiDeferredEvent JvmtiDeferredEvent::dynamic_code_generated_event(
kamg@2583	934	const char* name, const void* code_begin, const void* code_end) {
kamg@2583	935	JvmtiDeferredEvent event = JvmtiDeferredEvent(TYPE_DYNAMIC_CODE_GENERATED);
dcubed@2836	936	// Need to make a copy of the name since we don't know how long
dcubed@2836	937	// the event poster will keep it around after we enqueue the
dcubed@2836	938	// deferred event and return. strdup() failure is handled in
dcubed@2836	939	// the post() routine below.
dcubed@2836	940	event._event_data.dynamic_code_generated.name = os::strdup(name);
kamg@2583	941	event._event_data.dynamic_code_generated.code_begin = code_begin;
kamg@2583	942	event._event_data.dynamic_code_generated.code_end = code_end;
kamg@2511	943	return event;
kamg@2511	944	}
kamg@2511	945
kamg@2511	946	void JvmtiDeferredEvent::post() {
kamg@2583	947	assert(ServiceThread::is_service_thread(Thread::current()),
kamg@2583	948	"Service thread must post enqueued events");
kamg@2511	949	switch(_type) {
kamg@2583	950	case TYPE_COMPILED_METHOD_LOAD: {
kamg@2583	951	nmethod* nm = _event_data.compiled_method_load;
kamg@2583	952	JvmtiExport::post_compiled_method_load(nm);
dcubed@2624	953	// done with the deferred event so unlock the nmethod
kamg@2583	954	nmethodLocker::unlock_nmethod(nm);
kamg@2511	955	break;
kamg@2583	956	}
dcubed@2624	957	case TYPE_COMPILED_METHOD_UNLOAD: {
dcubed@2624	958	nmethod* nm = _event_data.compiled_method_unload.nm;
kamg@2511	959	JvmtiExport::post_compiled_method_unload(
kamg@2583	960	_event_data.compiled_method_unload.method_id,
kamg@2583	961	_event_data.compiled_method_unload.code_begin);
dcubed@2624	962	// done with the deferred event so unlock the nmethod
dcubed@2624	963	nmethodLocker::unlock_nmethod(nm);
kamg@2511	964	break;
dcubed@2624	965	}
dcubed@2836	966	case TYPE_DYNAMIC_CODE_GENERATED: {
kamg@2583	967	JvmtiExport::post_dynamic_code_generated_internal(
dcubed@2836	968	// if strdup failed give the event a default name
dcubed@2836	969	(_event_data.dynamic_code_generated.name == NULL)
dcubed@2836	970	? "unknown_code" : _event_data.dynamic_code_generated.name,
kamg@2583	971	_event_data.dynamic_code_generated.code_begin,
kamg@2583	972	_event_data.dynamic_code_generated.code_end);
dcubed@2836	973	if (_event_data.dynamic_code_generated.name != NULL) {
dcubed@2836	974	// release our copy
dcubed@2836	975	os::free((void *)_event_data.dynamic_code_generated.name);
dcubed@2836	976	}
kamg@2511	977	break;
dcubed@2836	978	}
kamg@2511	979	default:
kamg@2511	980	ShouldNotReachHere();
kamg@2511	981	}
kamg@2511	982	}
kamg@2511	983
kamg@2511	984	JvmtiDeferredEventQueue::QueueNode* JvmtiDeferredEventQueue::_queue_tail = NULL;
kamg@2511	985	JvmtiDeferredEventQueue::QueueNode* JvmtiDeferredEventQueue::_queue_head = NULL;
kamg@2511	986
kamg@2511	987	volatile JvmtiDeferredEventQueue::QueueNode*
kamg@2511	988	JvmtiDeferredEventQueue::_pending_list = NULL;
kamg@2511	989
kamg@2511	990	bool JvmtiDeferredEventQueue::has_events() {
kamg@2511	991	assert(Service_lock->owned_by_self(), "Must own Service_lock");
kamg@2511	992	return _queue_head != NULL || _pending_list != NULL;
kamg@2511	993	}
kamg@2511	994
kamg@2511	995	void JvmtiDeferredEventQueue::enqueue(const JvmtiDeferredEvent& event) {
kamg@2511	996	assert(Service_lock->owned_by_self(), "Must own Service_lock");
kamg@2511	997
kamg@2511	998	process_pending_events();
kamg@2511	999
kamg@2511	1000	// Events get added to the end of the queue (and are pulled off the front).
kamg@2511	1001	QueueNode* node = new QueueNode(event);
kamg@2511	1002	if (_queue_tail == NULL) {
kamg@2511	1003	_queue_tail = _queue_head = node;
kamg@2511	1004	} else {
kamg@2511	1005	assert(_queue_tail->next() == NULL, "Must be the last element in the list");
kamg@2511	1006	_queue_tail->set_next(node);
kamg@2511	1007	_queue_tail = node;
kamg@2511	1008	}
kamg@2511	1009
kamg@2511	1010	Service_lock->notify_all();
kamg@2511	1011	assert((_queue_head == NULL) == (_queue_tail == NULL),
kamg@2511	1012	"Inconsistent queue markers");
kamg@2511	1013	}
kamg@2511	1014
kamg@2511	1015	JvmtiDeferredEvent JvmtiDeferredEventQueue::dequeue() {
kamg@2511	1016	assert(Service_lock->owned_by_self(), "Must own Service_lock");
kamg@2511	1017
kamg@2511	1018	process_pending_events();
kamg@2511	1019
kamg@2511	1020	assert(_queue_head != NULL, "Nothing to dequeue");
kamg@2511	1021
kamg@2511	1022	if (_queue_head == NULL) {
kamg@2511	1023	// Just in case this happens in product; it shouldn't but let's not crash
kamg@2511	1024	return JvmtiDeferredEvent();
kamg@2511	1025	}
kamg@2511	1026
kamg@2511	1027	QueueNode* node = _queue_head;
kamg@2511	1028	_queue_head = _queue_head->next();
kamg@2511	1029	if (_queue_head == NULL) {
kamg@2511	1030	_queue_tail = NULL;
kamg@2511	1031	}
kamg@2511	1032
kamg@2511	1033	assert((_queue_head == NULL) == (_queue_tail == NULL),
kamg@2511	1034	"Inconsistent queue markers");
kamg@2511	1035
kamg@2511	1036	JvmtiDeferredEvent event = node->event();
kamg@2511	1037	delete node;
kamg@2511	1038	return event;
kamg@2511	1039	}
kamg@2511	1040
kamg@2511	1041	void JvmtiDeferredEventQueue::add_pending_event(
kamg@2511	1042	const JvmtiDeferredEvent& event) {
kamg@2511	1043
kamg@2511	1044	QueueNode* node = new QueueNode(event);
kamg@2511	1045
kamg@2511	1046	bool success = false;
kamg@2511	1047	QueueNode* prev_value = (QueueNode*)_pending_list;
kamg@2511	1048	do {
kamg@2511	1049	node->set_next(prev_value);
kamg@2511	1050	prev_value = (QueueNode*)Atomic::cmpxchg_ptr(
kamg@2511	1051	(void*)node, (volatile void*)&_pending_list, (void*)node->next());
kamg@2511	1052	} while (prev_value != node->next());
kamg@2511	1053	}
kamg@2511	1054
kamg@2511	1055	// This method transfers any events that were added by someone NOT holding
kamg@2511	1056	// the lock into the mainline queue.
kamg@2511	1057	void JvmtiDeferredEventQueue::process_pending_events() {
kamg@2511	1058	assert(Service_lock->owned_by_self(), "Must own Service_lock");
kamg@2511	1059
kamg@2511	1060	if (_pending_list != NULL) {
kamg@2511	1061	QueueNode* head =
kamg@2511	1062	(QueueNode*)Atomic::xchg_ptr(NULL, (volatile void*)&_pending_list);
kamg@2511	1063
kamg@2511	1064	assert((_queue_head == NULL) == (_queue_tail == NULL),
kamg@2511	1065	"Inconsistent queue markers");
kamg@2511	1066
kamg@2511	1067	if (head != NULL) {
kamg@2511	1068	// Since we've treated the pending list as a stack (with newer
kamg@2511	1069	// events at the beginning), we need to join the bottom of the stack
kamg@2511	1070	// with the 'tail' of the queue in order to get the events in the
kamg@2511	1071	// right order. We do this by reversing the pending list and appending
kamg@2511	1072	// it to the queue.
kamg@2511	1073
kamg@2511	1074	QueueNode* new_tail = head;
kamg@2511	1075	QueueNode* new_head = NULL;
kamg@2511	1076
kamg@2511	1077	// This reverses the list
kamg@2511	1078	QueueNode* prev = new_tail;
kamg@2511	1079	QueueNode* node = new_tail->next();
kamg@2511	1080	new_tail->set_next(NULL);
kamg@2511	1081	while (node != NULL) {
kamg@2511	1082	QueueNode* next = node->next();
kamg@2511	1083	node->set_next(prev);
kamg@2511	1084	prev = node;
kamg@2511	1085	node = next;
kamg@2511	1086	}
kamg@2511	1087	new_head = prev;
kamg@2511	1088
kamg@2511	1089	// Now append the new list to the queue
kamg@2511	1090	if (_queue_tail != NULL) {
kamg@2511	1091	_queue_tail->set_next(new_head);
kamg@2511	1092	} else { // _queue_head == NULL
kamg@2511	1093	_queue_head = new_head;
kamg@2511	1094	}
kamg@2511	1095	_queue_tail = new_tail;
kamg@2511	1096	}
kamg@2511	1097	}
kamg@2511	1098	}