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src/cpu/x86/vm/frame_x86.cpp@710a3c8b516e (annotated)

src/cpu/x86/vm/frame_x86.cpp

Tue, 08 Aug 2017 15:57:29 +0800

author

aoqi

date

Tue, 08 Aug 2017 15:57:29 +0800

changeset 6876

710a3c8b516e

parent 6680

78bbf4d43a14

parent 0

f90c822e73f8

child 7994

04ff2f6cd0eb

permissions

-rw-r--r--

merge

aoqi@0	1	/*
aoqi@0	2	* Copyright (c) 1997, 2014, Oracle and/or its affiliates. All rights reserved.
aoqi@0	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
aoqi@0	4	*
aoqi@0	5	* This code is free software; you can redistribute it and/or modify it
aoqi@0	6	* under the terms of the GNU General Public License version 2 only, as
aoqi@0	7	* published by the Free Software Foundation.
aoqi@0	8	*
aoqi@0	9	* This code is distributed in the hope that it will be useful, but WITHOUT
aoqi@0	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
aoqi@0	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
aoqi@0	12	* version 2 for more details (a copy is included in the LICENSE file that
aoqi@0	13	* accompanied this code).
aoqi@0	14	*
aoqi@0	15	* You should have received a copy of the GNU General Public License version
aoqi@0	16	* 2 along with this work; if not, write to the Free Software Foundation,
aoqi@0	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
aoqi@0	18	*
aoqi@0	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
aoqi@0	20	* or visit www.oracle.com if you need additional information or have any
aoqi@0	21	* questions.
aoqi@0	22	*
aoqi@0	23	*/
aoqi@0	24
aoqi@0	25	#include "precompiled.hpp"
aoqi@0	26	#include "interpreter/interpreter.hpp"
aoqi@0	27	#include "memory/resourceArea.hpp"
aoqi@0	28	#include "oops/markOop.hpp"
aoqi@0	29	#include "oops/method.hpp"
aoqi@0	30	#include "oops/oop.inline.hpp"
aoqi@0	31	#include "prims/methodHandles.hpp"
aoqi@0	32	#include "runtime/frame.inline.hpp"
aoqi@0	33	#include "runtime/handles.inline.hpp"
aoqi@0	34	#include "runtime/javaCalls.hpp"
aoqi@0	35	#include "runtime/monitorChunk.hpp"
aoqi@0	36	#include "runtime/os.hpp"
aoqi@0	37	#include "runtime/signature.hpp"
aoqi@0	38	#include "runtime/stubCodeGenerator.hpp"
aoqi@0	39	#include "runtime/stubRoutines.hpp"
aoqi@0	40	#include "vmreg_x86.inline.hpp"
aoqi@0	41	#ifdef COMPILER1
aoqi@0	42	#include "c1/c1_Runtime1.hpp"
aoqi@0	43	#include "runtime/vframeArray.hpp"
aoqi@0	44	#endif
aoqi@0	45
aoqi@0	46	#ifdef ASSERT
aoqi@0	47	void RegisterMap::check_location_valid() {
aoqi@0	48	}
aoqi@0	49	#endif
aoqi@0	50
aoqi@0	51	PRAGMA_FORMAT_MUTE_WARNINGS_FOR_GCC
aoqi@0	52
aoqi@0	53	// Profiling/safepoint support
aoqi@0	54
aoqi@0	55	bool frame::safe_for_sender(JavaThread *thread) {
aoqi@0	56	address sp = (address)_sp;
aoqi@0	57	address fp = (address)_fp;
aoqi@0	58	address unextended_sp = (address)_unextended_sp;
aoqi@0	59
aoqi@0	60	// consider stack guards when trying to determine "safe" stack pointers
aoqi@0	61	static size_t stack_guard_size = os::uses_stack_guard_pages() ? (StackYellowPages + StackRedPages) * os::vm_page_size() : 0;
aoqi@0	62	size_t usable_stack_size = thread->stack_size() - stack_guard_size;
aoqi@0	63
aoqi@0	64	// sp must be within the usable part of the stack (not in guards)
aoqi@0	65	bool sp_safe = (sp < thread->stack_base()) &&
aoqi@0	66	(sp >= thread->stack_base() - usable_stack_size);
aoqi@0	67
aoqi@0	68
aoqi@0	69	if (!sp_safe) {
aoqi@0	70	return false;
aoqi@0	71	}
aoqi@0	72
aoqi@0	73	// unextended sp must be within the stack and above or equal sp
aoqi@0	74	bool unextended_sp_safe = (unextended_sp < thread->stack_base()) &&
aoqi@0	75	(unextended_sp >= sp);
aoqi@0	76
aoqi@0	77	if (!unextended_sp_safe) {
aoqi@0	78	return false;
aoqi@0	79	}
aoqi@0	80
aoqi@0	81	// an fp must be within the stack and above (but not equal) sp
aoqi@0	82	// second evaluation on fp+ is added to handle situation where fp is -1
aoqi@0	83	bool fp_safe = (fp < thread->stack_base() && (fp > sp) && (((fp + (return_addr_offset * sizeof(void*))) < thread->stack_base())));
aoqi@0	84
aoqi@0	85	// We know sp/unextended_sp are safe only fp is questionable here
aoqi@0	86
aoqi@0	87	// If the current frame is known to the code cache then we can attempt to
aoqi@0	88	// to construct the sender and do some validation of it. This goes a long way
aoqi@0	89	// toward eliminating issues when we get in frame construction code
aoqi@0	90
aoqi@0	91	if (_cb != NULL ) {
aoqi@0	92
aoqi@0	93	// First check if frame is complete and tester is reliable
aoqi@0	94	// Unfortunately we can only check frame complete for runtime stubs and nmethod
aoqi@0	95	// other generic buffer blobs are more problematic so we just assume they are
aoqi@0	96	// ok. adapter blobs never have a frame complete and are never ok.
aoqi@0	97
aoqi@0	98	if (!_cb->is_frame_complete_at(_pc)) {
aoqi@0	99	if (_cb->is_nmethod() || _cb->is_adapter_blob() || _cb->is_runtime_stub()) {
aoqi@0	100	return false;
aoqi@0	101	}
aoqi@0	102	}
aoqi@0	103
aoqi@0	104	// Could just be some random pointer within the codeBlob
aoqi@0	105	if (!_cb->code_contains(_pc)) {
aoqi@0	106	return false;
aoqi@0	107	}
aoqi@0	108
aoqi@0	109	// Entry frame checks
aoqi@0	110	if (is_entry_frame()) {
aoqi@0	111	// an entry frame must have a valid fp.
aoqi@0	112
aoqi@0	113	if (!fp_safe) return false;
aoqi@0	114
aoqi@0	115	// Validate the JavaCallWrapper an entry frame must have
aoqi@0	116
aoqi@0	117	address jcw = (address)entry_frame_call_wrapper();
aoqi@0	118
aoqi@0	119	bool jcw_safe = (jcw < thread->stack_base()) && ( jcw > fp);
aoqi@0	120
aoqi@0	121	return jcw_safe;
aoqi@0	122
aoqi@0	123	}
aoqi@0	124
aoqi@0	125	intptr_t* sender_sp = NULL;
aoqi@0	126	address sender_pc = NULL;
aoqi@0	127
aoqi@0	128	if (is_interpreted_frame()) {
aoqi@0	129	// fp must be safe
aoqi@0	130	if (!fp_safe) {
aoqi@0	131	return false;
aoqi@0	132	}
aoqi@0	133
aoqi@0	134	sender_pc = (address) this->fp()[return_addr_offset];
aoqi@0	135	sender_sp = (intptr_t*) addr_at(sender_sp_offset);
aoqi@0	136
aoqi@0	137	} else {
aoqi@0	138	// must be some sort of compiled/runtime frame
aoqi@0	139	// fp does not have to be safe (although it could be check for c1?)
aoqi@0	140
aoqi@0	141	// check for a valid frame_size, otherwise we are unlikely to get a valid sender_pc
aoqi@0	142	if (_cb->frame_size() <= 0) {
aoqi@0	143	return false;
aoqi@0	144	}
aoqi@0	145
aoqi@0	146	sender_sp = _unextended_sp + _cb->frame_size();
aoqi@0	147	// On Intel the return_address is always the word on the stack
aoqi@0	148	sender_pc = (address) *(sender_sp-1);
aoqi@0	149	}
aoqi@0	150
aoqi@0	151
aoqi@0	152	// If the potential sender is the interpreter then we can do some more checking
aoqi@0	153	if (Interpreter::contains(sender_pc)) {
aoqi@0	154
aoqi@0	155	// ebp is always saved in a recognizable place in any code we generate. However
aoqi@0	156	// only if the sender is interpreted/call_stub (c1 too?) are we certain that the saved ebp
aoqi@0	157	// is really a frame pointer.
aoqi@0	158
aoqi@0	159	intptr_t *saved_fp = (intptr_t*)*(sender_sp - frame::sender_sp_offset);
aoqi@0	160	bool saved_fp_safe = ((address)saved_fp < thread->stack_base()) && (saved_fp > sender_sp);
aoqi@0	161
aoqi@0	162	if (!saved_fp_safe) {
aoqi@0	163	return false;
aoqi@0	164	}
aoqi@0	165
aoqi@0	166	// construct the potential sender
aoqi@0	167
aoqi@0	168	frame sender(sender_sp, saved_fp, sender_pc);
aoqi@0	169
aoqi@0	170	return sender.is_interpreted_frame_valid(thread);
aoqi@0	171
aoqi@0	172	}
aoqi@0	173
aoqi@0	174	// We must always be able to find a recognizable pc
aoqi@0	175	CodeBlob* sender_blob = CodeCache::find_blob_unsafe(sender_pc);
aoqi@0	176	if (sender_pc == NULL || sender_blob == NULL) {
aoqi@0	177	return false;
aoqi@0	178	}
aoqi@0	179
aoqi@0	180	// Could be a zombie method
aoqi@0	181	if (sender_blob->is_zombie() || sender_blob->is_unloaded()) {
aoqi@0	182	return false;
aoqi@0	183	}
aoqi@0	184
aoqi@0	185	// Could just be some random pointer within the codeBlob
aoqi@0	186	if (!sender_blob->code_contains(sender_pc)) {
aoqi@0	187	return false;
aoqi@0	188	}
aoqi@0	189
aoqi@0	190	// We should never be able to see an adapter if the current frame is something from code cache
aoqi@0	191	if (sender_blob->is_adapter_blob()) {
aoqi@0	192	return false;
aoqi@0	193	}
aoqi@0	194
aoqi@0	195	// Could be the call_stub
aoqi@0	196	if (StubRoutines::returns_to_call_stub(sender_pc)) {
aoqi@0	197	intptr_t *saved_fp = (intptr_t*)*(sender_sp - frame::sender_sp_offset);
aoqi@0	198	bool saved_fp_safe = ((address)saved_fp < thread->stack_base()) && (saved_fp > sender_sp);
aoqi@0	199
aoqi@0	200	if (!saved_fp_safe) {
aoqi@0	201	return false;
aoqi@0	202	}
aoqi@0	203
aoqi@0	204	// construct the potential sender
aoqi@0	205
aoqi@0	206	frame sender(sender_sp, saved_fp, sender_pc);
aoqi@0	207
aoqi@0	208	// Validate the JavaCallWrapper an entry frame must have
aoqi@0	209	address jcw = (address)sender.entry_frame_call_wrapper();
aoqi@0	210
aoqi@0	211	bool jcw_safe = (jcw < thread->stack_base()) && ( jcw > (address)sender.fp());
aoqi@0	212
aoqi@0	213	return jcw_safe;
aoqi@0	214	}
aoqi@0	215
aoqi@0	216	if (sender_blob->is_nmethod()) {
aoqi@0	217	nmethod* nm = sender_blob->as_nmethod_or_null();
aoqi@0	218	if (nm != NULL) {
aoqi@0	219	if (nm->is_deopt_mh_entry(sender_pc) || nm->is_deopt_entry(sender_pc)) {
aoqi@0	220	return false;
aoqi@0	221	}
aoqi@0	222	}
aoqi@0	223	}
aoqi@0	224
aoqi@0	225	// If the frame size is 0 something (or less) is bad because every nmethod has a non-zero frame size
aoqi@0	226	// because the return address counts against the callee's frame.
aoqi@0	227
aoqi@0	228	if (sender_blob->frame_size() <= 0) {
aoqi@0	229	assert(!sender_blob->is_nmethod(), "should count return address at least");
aoqi@0	230	return false;
aoqi@0	231	}
aoqi@0	232
aoqi@0	233	// We should never be able to see anything here except an nmethod. If something in the
aoqi@0	234	// code cache (current frame) is called by an entity within the code cache that entity
aoqi@0	235	// should not be anything but the call stub (already covered), the interpreter (already covered)
aoqi@0	236	// or an nmethod.
aoqi@0	237
aoqi@0	238	if (!sender_blob->is_nmethod()) {
aoqi@0	239	return false;
aoqi@0	240	}
aoqi@0	241
aoqi@0	242	// Could put some more validation for the potential non-interpreted sender
aoqi@0	243	// frame we'd create by calling sender if I could think of any. Wait for next crash in forte...
aoqi@0	244
aoqi@0	245	// One idea is seeing if the sender_pc we have is one that we'd expect to call to current cb
aoqi@0	246
aoqi@0	247	// We've validated the potential sender that would be created
aoqi@0	248	return true;
aoqi@0	249	}
aoqi@0	250
aoqi@0	251	// Must be native-compiled frame. Since sender will try and use fp to find
aoqi@0	252	// linkages it must be safe
aoqi@0	253
aoqi@0	254	if (!fp_safe) {
aoqi@0	255	return false;
aoqi@0	256	}
aoqi@0	257
aoqi@0	258	// Will the pc we fetch be non-zero (which we'll find at the oldest frame)
aoqi@0	259
aoqi@0	260	if ( (address) this->fp()[return_addr_offset] == NULL) return false;
aoqi@0	261
aoqi@0	262
aoqi@0	263	// could try and do some more potential verification of native frame if we could think of some...
aoqi@0	264
aoqi@0	265	return true;
aoqi@0	266
aoqi@0	267	}
aoqi@0	268
aoqi@0	269
aoqi@0	270	void frame::patch_pc(Thread* thread, address pc) {
aoqi@0	271	address* pc_addr = &(((address*) sp())[-1]);
aoqi@0	272	if (TracePcPatching) {
aoqi@0	273	tty->print_cr("patch_pc at address " INTPTR_FORMAT " [" INTPTR_FORMAT " -> " INTPTR_FORMAT "]",
aoqi@0	274	pc_addr, *pc_addr, pc);
aoqi@0	275	}
aoqi@0	276	// Either the return address is the original one or we are going to
aoqi@0	277	// patch in the same address that's already there.
aoqi@0	278	assert(_pc == *pc_addr || pc == *pc_addr, "must be");
aoqi@0	279	*pc_addr = pc;
aoqi@0	280	_cb = CodeCache::find_blob(pc);
aoqi@0	281	address original_pc = nmethod::get_deopt_original_pc(this);
aoqi@0	282	if (original_pc != NULL) {
aoqi@0	283	assert(original_pc == _pc, "expected original PC to be stored before patching");
aoqi@0	284	_deopt_state = is_deoptimized;
aoqi@0	285	// leave _pc as is
aoqi@0	286	} else {
aoqi@0	287	_deopt_state = not_deoptimized;
aoqi@0	288	_pc = pc;
aoqi@0	289	}
aoqi@0	290	}
aoqi@0	291
aoqi@0	292	bool frame::is_interpreted_frame() const {
aoqi@0	293	return Interpreter::contains(pc());
aoqi@0	294	}
aoqi@0	295
aoqi@0	296	int frame::frame_size(RegisterMap* map) const {
aoqi@0	297	frame sender = this->sender(map);
aoqi@0	298	return sender.sp() - sp();
aoqi@0	299	}
aoqi@0	300
aoqi@0	301	intptr_t* frame::entry_frame_argument_at(int offset) const {
aoqi@0	302	// convert offset to index to deal with tsi
aoqi@0	303	int index = (Interpreter::expr_offset_in_bytes(offset)/wordSize);
aoqi@0	304	// Entry frame's arguments are always in relation to unextended_sp()
aoqi@0	305	return &unextended_sp()[index];
aoqi@0	306	}
aoqi@0	307
aoqi@0	308	// sender_sp
aoqi@0	309	#ifdef CC_INTERP
aoqi@0	310	intptr_t* frame::interpreter_frame_sender_sp() const {
aoqi@0	311	assert(is_interpreted_frame(), "interpreted frame expected");
aoqi@0	312	// QQQ why does this specialize method exist if frame::sender_sp() does same thing?
aoqi@0	313	// seems odd and if we always know interpreted vs. non then sender_sp() is really
aoqi@0	314	// doing too much work.
aoqi@0	315	return get_interpreterState()->sender_sp();
aoqi@0	316	}
aoqi@0	317
aoqi@0	318	// monitor elements
aoqi@0	319
aoqi@0	320	BasicObjectLock* frame::interpreter_frame_monitor_begin() const {
aoqi@0	321	return get_interpreterState()->monitor_base();
aoqi@0	322	}
aoqi@0	323
aoqi@0	324	BasicObjectLock* frame::interpreter_frame_monitor_end() const {
aoqi@0	325	return (BasicObjectLock*) get_interpreterState()->stack_base();
aoqi@0	326	}
aoqi@0	327
aoqi@0	328	#else // CC_INTERP
aoqi@0	329
aoqi@0	330	intptr_t* frame::interpreter_frame_sender_sp() const {
aoqi@0	331	assert(is_interpreted_frame(), "interpreted frame expected");
aoqi@0	332	return (intptr_t*) at(interpreter_frame_sender_sp_offset);
aoqi@0	333	}
aoqi@0	334
aoqi@0	335	void frame::set_interpreter_frame_sender_sp(intptr_t* sender_sp) {
aoqi@0	336	assert(is_interpreted_frame(), "interpreted frame expected");
aoqi@0	337	ptr_at_put(interpreter_frame_sender_sp_offset, (intptr_t) sender_sp);
aoqi@0	338	}
aoqi@0	339
aoqi@0	340
aoqi@0	341	// monitor elements
aoqi@0	342
aoqi@0	343	BasicObjectLock* frame::interpreter_frame_monitor_begin() const {
aoqi@0	344	return (BasicObjectLock*) addr_at(interpreter_frame_monitor_block_bottom_offset);
aoqi@0	345	}
aoqi@0	346
aoqi@0	347	BasicObjectLock* frame::interpreter_frame_monitor_end() const {
aoqi@0	348	BasicObjectLock* result = (BasicObjectLock*) *addr_at(interpreter_frame_monitor_block_top_offset);
aoqi@0	349	// make sure the pointer points inside the frame
aoqi@0	350	assert(sp() <= (intptr_t*) result, "monitor end should be above the stack pointer");
aoqi@0	351	assert((intptr_t*) result < fp(), "monitor end should be strictly below the frame pointer");
aoqi@0	352	return result;
aoqi@0	353	}
aoqi@0	354
aoqi@0	355	void frame::interpreter_frame_set_monitor_end(BasicObjectLock* value) {
aoqi@0	356	*((BasicObjectLock**)addr_at(interpreter_frame_monitor_block_top_offset)) = value;
aoqi@0	357	}
aoqi@0	358
aoqi@0	359	// Used by template based interpreter deoptimization
aoqi@0	360	void frame::interpreter_frame_set_last_sp(intptr_t* sp) {
aoqi@0	361	*((intptr_t**)addr_at(interpreter_frame_last_sp_offset)) = sp;
aoqi@0	362	}
aoqi@0	363	#endif // CC_INTERP
aoqi@0	364
aoqi@0	365	frame frame::sender_for_entry_frame(RegisterMap* map) const {
aoqi@0	366	assert(map != NULL, "map must be set");
aoqi@0	367	// Java frame called from C; skip all C frames and return top C
aoqi@0	368	// frame of that chunk as the sender
aoqi@0	369	JavaFrameAnchor* jfa = entry_frame_call_wrapper()->anchor();
aoqi@0	370	assert(!entry_frame_is_first(), "next Java fp must be non zero");
aoqi@0	371	assert(jfa->last_Java_sp() > sp(), "must be above this frame on stack");
aoqi@0	372	map->clear();
aoqi@0	373	assert(map->include_argument_oops(), "should be set by clear");
aoqi@0	374	if (jfa->last_Java_pc() != NULL ) {
aoqi@0	375	frame fr(jfa->last_Java_sp(), jfa->last_Java_fp(), jfa->last_Java_pc());
aoqi@0	376	return fr;
aoqi@0	377	}
aoqi@0	378	frame fr(jfa->last_Java_sp(), jfa->last_Java_fp());
aoqi@0	379	return fr;
aoqi@0	380	}
aoqi@0	381
aoqi@0	382	//------------------------------------------------------------------------------
aoqi@0	383	// frame::verify_deopt_original_pc
aoqi@0	384	//
aoqi@0	385	// Verifies the calculated original PC of a deoptimization PC for the
aoqi@0	386	// given unextended SP. The unextended SP might also be the saved SP
aoqi@0	387	// for MethodHandle call sites.
aoqi@0	388	#ifdef ASSERT
aoqi@0	389	void frame::verify_deopt_original_pc(nmethod* nm, intptr_t* unextended_sp, bool is_method_handle_return) {
aoqi@0	390	frame fr;
aoqi@0	391
aoqi@0	392	// This is ugly but it's better than to change {get,set}_original_pc
aoqi@0	393	// to take an SP value as argument. And it's only a debugging
aoqi@0	394	// method anyway.
aoqi@0	395	fr._unextended_sp = unextended_sp;
aoqi@0	396
aoqi@0	397	address original_pc = nm->get_original_pc(&fr);
aoqi@0	398	assert(nm->insts_contains(original_pc), "original PC must be in nmethod");
aoqi@0	399	assert(nm->is_method_handle_return(original_pc) == is_method_handle_return, "must be");
aoqi@0	400	}
aoqi@0	401	#endif
aoqi@0	402
aoqi@0	403	//------------------------------------------------------------------------------
aoqi@0	404	// frame::adjust_unextended_sp
aoqi@0	405	void frame::adjust_unextended_sp() {
aoqi@0	406	// If we are returning to a compiled MethodHandle call site, the
aoqi@0	407	// saved_fp will in fact be a saved value of the unextended SP. The
aoqi@0	408	// simplest way to tell whether we are returning to such a call site
aoqi@0	409	// is as follows:
aoqi@0	410
aoqi@0	411	nmethod* sender_nm = (_cb == NULL) ? NULL : _cb->as_nmethod_or_null();
aoqi@0	412	if (sender_nm != NULL) {
aoqi@0	413	// If the sender PC is a deoptimization point, get the original
aoqi@0	414	// PC. For MethodHandle call site the unextended_sp is stored in
aoqi@0	415	// saved_fp.
aoqi@0	416	if (sender_nm->is_deopt_mh_entry(_pc)) {
aoqi@0	417	DEBUG_ONLY(verify_deopt_mh_original_pc(sender_nm, _fp));
aoqi@0	418	_unextended_sp = _fp;
aoqi@0	419	}
aoqi@0	420	else if (sender_nm->is_deopt_entry(_pc)) {
aoqi@0	421	DEBUG_ONLY(verify_deopt_original_pc(sender_nm, _unextended_sp));
aoqi@0	422	}
aoqi@0	423	else if (sender_nm->is_method_handle_return(_pc)) {
aoqi@0	424	_unextended_sp = _fp;
aoqi@0	425	}
aoqi@0	426	}
aoqi@0	427	}
aoqi@0	428
aoqi@0	429	//------------------------------------------------------------------------------
aoqi@0	430	// frame::update_map_with_saved_link
aoqi@0	431	void frame::update_map_with_saved_link(RegisterMap* map, intptr_t** link_addr) {
aoqi@0	432	// The interpreter and compiler(s) always save EBP/RBP in a known
aoqi@0	433	// location on entry. We must record where that location is
aoqi@0	434	// so this if EBP/RBP was live on callout from c2 we can find
aoqi@0	435	// the saved copy no matter what it called.
aoqi@0	436
aoqi@0	437	// Since the interpreter always saves EBP/RBP if we record where it is then
aoqi@0	438	// we don't have to always save EBP/RBP on entry and exit to c2 compiled
aoqi@0	439	// code, on entry will be enough.
aoqi@0	440	map->set_location(rbp->as_VMReg(), (address) link_addr);
aoqi@0	441	#ifdef AMD64
aoqi@0	442	// this is weird "H" ought to be at a higher address however the
aoqi@0	443	// oopMaps seems to have the "H" regs at the same address and the
aoqi@0	444	// vanilla register.
aoqi@0	445	// XXXX make this go away
aoqi@0	446	if (true) {
aoqi@0	447	map->set_location(rbp->as_VMReg()->next(), (address) link_addr);
aoqi@0	448	}
aoqi@0	449	#endif // AMD64
aoqi@0	450	}
aoqi@0	451
aoqi@0	452
aoqi@0	453	//------------------------------------------------------------------------------
aoqi@0	454	// frame::sender_for_interpreter_frame
aoqi@0	455	frame frame::sender_for_interpreter_frame(RegisterMap* map) const {
aoqi@0	456	// SP is the raw SP from the sender after adapter or interpreter
aoqi@0	457	// extension.
aoqi@0	458	intptr_t* sender_sp = this->sender_sp();
aoqi@0	459
aoqi@0	460	// This is the sp before any possible extension (adapter/locals).
aoqi@0	461	intptr_t* unextended_sp = interpreter_frame_sender_sp();
aoqi@0	462
aoqi@0	463	#ifdef COMPILER2
aoqi@0	464	if (map->update_map()) {
aoqi@0	465	update_map_with_saved_link(map, (intptr_t**) addr_at(link_offset));
aoqi@0	466	}
aoqi@0	467	#endif // COMPILER2
aoqi@0	468
aoqi@0	469	return frame(sender_sp, unextended_sp, link(), sender_pc());
aoqi@0	470	}
aoqi@0	471
aoqi@0	472
aoqi@0	473	//------------------------------------------------------------------------------
aoqi@0	474	// frame::sender_for_compiled_frame
aoqi@0	475	frame frame::sender_for_compiled_frame(RegisterMap* map) const {
aoqi@0	476	assert(map != NULL, "map must be set");
aoqi@0	477
aoqi@0	478	// frame owned by optimizing compiler
aoqi@0	479	assert(_cb->frame_size() >= 0, "must have non-zero frame size");
aoqi@0	480	intptr_t* sender_sp = unextended_sp() + _cb->frame_size();
aoqi@0	481	intptr_t* unextended_sp = sender_sp;
aoqi@0	482
aoqi@0	483	// On Intel the return_address is always the word on the stack
aoqi@0	484	address sender_pc = (address) *(sender_sp-1);
aoqi@0	485
aoqi@0	486	// This is the saved value of EBP which may or may not really be an FP.
aoqi@0	487	// It is only an FP if the sender is an interpreter frame (or C1?).
aoqi@0	488	intptr_t** saved_fp_addr = (intptr_t**) (sender_sp - frame::sender_sp_offset);
aoqi@0	489
aoqi@0	490	if (map->update_map()) {
aoqi@0	491	// Tell GC to use argument oopmaps for some runtime stubs that need it.
aoqi@0	492	// For C1, the runtime stub might not have oop maps, so set this flag
aoqi@0	493	// outside of update_register_map.
aoqi@0	494	map->set_include_argument_oops(_cb->caller_must_gc_arguments(map->thread()));
aoqi@0	495	if (_cb->oop_maps() != NULL) {
aoqi@0	496	OopMapSet::update_register_map(this, map);
aoqi@0	497	}
aoqi@0	498
aoqi@0	499	// Since the prolog does the save and restore of EBP there is no oopmap
aoqi@0	500	// for it so we must fill in its location as if there was an oopmap entry
aoqi@0	501	// since if our caller was compiled code there could be live jvm state in it.
aoqi@0	502	update_map_with_saved_link(map, saved_fp_addr);
aoqi@0	503	}
aoqi@0	504
aoqi@0	505	assert(sender_sp != sp(), "must have changed");
aoqi@0	506	return frame(sender_sp, unextended_sp, *saved_fp_addr, sender_pc);
aoqi@0	507	}
aoqi@0	508
aoqi@0	509
aoqi@0	510	//------------------------------------------------------------------------------
aoqi@0	511	// frame::sender
aoqi@0	512	frame frame::sender(RegisterMap* map) const {
aoqi@0	513	// Default is we done have to follow them. The sender_for_xxx will
aoqi@0	514	// update it accordingly
aoqi@0	515	map->set_include_argument_oops(false);
aoqi@0	516
aoqi@0	517	if (is_entry_frame()) return sender_for_entry_frame(map);
aoqi@0	518	if (is_interpreted_frame()) return sender_for_interpreter_frame(map);
aoqi@0	519	assert(_cb == CodeCache::find_blob(pc()),"Must be the same");
aoqi@0	520
aoqi@0	521	if (_cb != NULL) {
aoqi@0	522	return sender_for_compiled_frame(map);
aoqi@0	523	}
aoqi@0	524	// Must be native-compiled frame, i.e. the marshaling code for native
aoqi@0	525	// methods that exists in the core system.
aoqi@0	526	return frame(sender_sp(), link(), sender_pc());
aoqi@0	527	}
aoqi@0	528
aoqi@0	529
aoqi@0	530	bool frame::interpreter_frame_equals_unpacked_fp(intptr_t* fp) {
aoqi@0	531	assert(is_interpreted_frame(), "must be interpreter frame");
aoqi@0	532	Method* method = interpreter_frame_method();
aoqi@0	533	// When unpacking an optimized frame the frame pointer is
aoqi@0	534	// adjusted with:
aoqi@0	535	int diff = (method->max_locals() - method->size_of_parameters()) *
aoqi@0	536	Interpreter::stackElementWords;
aoqi@0	537	return _fp == (fp - diff);
aoqi@0	538	}
aoqi@0	539
aoqi@0	540	void frame::pd_gc_epilog() {
aoqi@0	541	// nothing done here now
aoqi@0	542	}
aoqi@0	543
aoqi@0	544	bool frame::is_interpreted_frame_valid(JavaThread* thread) const {
aoqi@0	545	// QQQ
aoqi@0	546	#ifdef CC_INTERP
aoqi@0	547	#else
aoqi@0	548	assert(is_interpreted_frame(), "Not an interpreted frame");
aoqi@0	549	// These are reasonable sanity checks
aoqi@0	550	if (fp() == 0 || (intptr_t(fp()) & (wordSize-1)) != 0) {
aoqi@0	551	return false;
aoqi@0	552	}
aoqi@0	553	if (sp() == 0 || (intptr_t(sp()) & (wordSize-1)) != 0) {
aoqi@0	554	return false;
aoqi@0	555	}
aoqi@0	556	if (fp() + interpreter_frame_initial_sp_offset < sp()) {
aoqi@0	557	return false;
aoqi@0	558	}
aoqi@0	559	// These are hacks to keep us out of trouble.
aoqi@0	560	// The problem with these is that they mask other problems
aoqi@0	561	if (fp() <= sp()) { // this attempts to deal with unsigned comparison above
aoqi@0	562	return false;
aoqi@0	563	}
aoqi@0	564
aoqi@0	565	// do some validation of frame elements
aoqi@0	566
aoqi@0	567	// first the method
aoqi@0	568
aoqi@0	569	Method* m = *interpreter_frame_method_addr();
aoqi@0	570
aoqi@0	571	// validate the method we'd find in this potential sender
aoqi@0	572	if (!m->is_valid_method()) return false;
aoqi@0	573
aoqi@0	574	// stack frames shouldn't be much larger than max_stack elements
aoqi@0	575
aoqi@0	576	if (fp() - sp() > 1024 + m->max_stack()*Interpreter::stackElementSize) {
aoqi@0	577	return false;
aoqi@0	578	}
aoqi@0	579
aoqi@0	580	// validate bci/bcx
aoqi@0	581
aoqi@0	582	intptr_t bcx = interpreter_frame_bcx();
aoqi@0	583	if (m->validate_bci_from_bcx(bcx) < 0) {
aoqi@0	584	return false;
aoqi@0	585	}
aoqi@0	586
aoqi@0	587	// validate ConstantPoolCache*
aoqi@0	588	ConstantPoolCache* cp = *interpreter_frame_cache_addr();
aoqi@0	589	if (cp == NULL || !cp->is_metaspace_object()) return false;
aoqi@0	590
aoqi@0	591	// validate locals
aoqi@0	592
aoqi@0	593	address locals = (address) *interpreter_frame_locals_addr();
aoqi@0	594
aoqi@0	595	if (locals > thread->stack_base() || locals < (address) fp()) return false;
aoqi@0	596
aoqi@0	597	// We'd have to be pretty unlucky to be mislead at this point
aoqi@0	598
aoqi@0	599	#endif // CC_INTERP
aoqi@0	600	return true;
aoqi@0	601	}
aoqi@0	602
aoqi@0	603	BasicType frame::interpreter_frame_result(oop* oop_result, jvalue* value_result) {
aoqi@0	604	#ifdef CC_INTERP
aoqi@0	605	// Needed for JVMTI. The result should always be in the
aoqi@0	606	// interpreterState object
aoqi@0	607	interpreterState istate = get_interpreterState();
aoqi@0	608	#endif // CC_INTERP
aoqi@0	609	assert(is_interpreted_frame(), "interpreted frame expected");
aoqi@0	610	Method* method = interpreter_frame_method();
aoqi@0	611	BasicType type = method->result_type();
aoqi@0	612
aoqi@0	613	intptr_t* tos_addr;
aoqi@0	614	if (method->is_native()) {
aoqi@0	615	// Prior to calling into the runtime to report the method_exit the possible
aoqi@0	616	// return value is pushed to the native stack. If the result is a jfloat/jdouble
aoqi@0	617	// then ST0 is saved before EAX/EDX. See the note in generate_native_result
aoqi@0	618	tos_addr = (intptr_t*)sp();
aoqi@0	619	if (type == T_FLOAT || type == T_DOUBLE) {
aoqi@0	620	// QQQ seems like this code is equivalent on the two platforms
aoqi@0	621	#ifdef AMD64
aoqi@0	622	// This is times two because we do a push(ltos) after pushing XMM0
aoqi@0	623	// and that takes two interpreter stack slots.
aoqi@0	624	tos_addr += 2 * Interpreter::stackElementWords;
aoqi@0	625	#else
aoqi@0	626	tos_addr += 2;
aoqi@0	627	#endif // AMD64
aoqi@0	628	}
aoqi@0	629	} else {
aoqi@0	630	tos_addr = (intptr_t*)interpreter_frame_tos_address();
aoqi@0	631	}
aoqi@0	632
aoqi@0	633	switch (type) {
aoqi@0	634	case T_OBJECT :
aoqi@0	635	case T_ARRAY : {
aoqi@0	636	oop obj;
aoqi@0	637	if (method->is_native()) {
aoqi@0	638	#ifdef CC_INTERP
aoqi@0	639	obj = istate->_oop_temp;
aoqi@0	640	#else
aoqi@0	641	obj = cast_to_oop(at(interpreter_frame_oop_temp_offset));
aoqi@0	642	#endif // CC_INTERP
aoqi@0	643	} else {
aoqi@0	644	oop* obj_p = (oop*)tos_addr;
aoqi@0	645	obj = (obj_p == NULL) ? (oop)NULL : *obj_p;
aoqi@0	646	}
aoqi@0	647	assert(obj == NULL || Universe::heap()->is_in(obj), "sanity check");
aoqi@0	648	*oop_result = obj;
aoqi@0	649	break;
aoqi@0	650	}
aoqi@0	651	case T_BOOLEAN : value_result->z = *(jboolean*)tos_addr; break;
aoqi@0	652	case T_BYTE : value_result->b = *(jbyte*)tos_addr; break;
aoqi@0	653	case T_CHAR : value_result->c = *(jchar*)tos_addr; break;
aoqi@0	654	case T_SHORT : value_result->s = *(jshort*)tos_addr; break;
aoqi@0	655	case T_INT : value_result->i = *(jint*)tos_addr; break;
aoqi@0	656	case T_LONG : value_result->j = *(jlong*)tos_addr; break;
aoqi@0	657	case T_FLOAT : {
aoqi@0	658	#ifdef AMD64
aoqi@0	659	value_result->f = *(jfloat*)tos_addr;
aoqi@0	660	#else
aoqi@0	661	if (method->is_native()) {
aoqi@0	662	jdouble d = *(jdouble*)tos_addr; // Result was in ST0 so need to convert to jfloat
aoqi@0	663	value_result->f = (jfloat)d;
aoqi@0	664	} else {
aoqi@0	665	value_result->f = *(jfloat*)tos_addr;
aoqi@0	666	}
aoqi@0	667	#endif // AMD64
aoqi@0	668	break;
aoqi@0	669	}
aoqi@0	670	case T_DOUBLE : value_result->d = *(jdouble*)tos_addr; break;
aoqi@0	671	case T_VOID : /* Nothing to do */ break;
aoqi@0	672	default : ShouldNotReachHere();
aoqi@0	673	}
aoqi@0	674
aoqi@0	675	return type;
aoqi@0	676	}
aoqi@0	677
aoqi@0	678
aoqi@0	679	intptr_t* frame::interpreter_frame_tos_at(jint offset) const {
aoqi@0	680	int index = (Interpreter::expr_offset_in_bytes(offset)/wordSize);
aoqi@0	681	return &interpreter_frame_tos_address()[index];
aoqi@0	682	}
aoqi@0	683
aoqi@0	684	#ifndef PRODUCT
aoqi@0	685
aoqi@0	686	#define DESCRIBE_FP_OFFSET(name) \
aoqi@0	687	values.describe(frame_no, fp() + frame::name##_offset, #name)
aoqi@0	688
aoqi@0	689	void frame::describe_pd(FrameValues& values, int frame_no) {
aoqi@0	690	if (is_interpreted_frame()) {
aoqi@0	691	DESCRIBE_FP_OFFSET(interpreter_frame_sender_sp);
aoqi@0	692	DESCRIBE_FP_OFFSET(interpreter_frame_last_sp);
aoqi@0	693	DESCRIBE_FP_OFFSET(interpreter_frame_method);
aoqi@0	694	DESCRIBE_FP_OFFSET(interpreter_frame_mdx);
aoqi@0	695	DESCRIBE_FP_OFFSET(interpreter_frame_cache);
aoqi@0	696	DESCRIBE_FP_OFFSET(interpreter_frame_locals);
aoqi@0	697	DESCRIBE_FP_OFFSET(interpreter_frame_bcx);
aoqi@0	698	DESCRIBE_FP_OFFSET(interpreter_frame_initial_sp);
aoqi@0	699	}
aoqi@0	700	}
aoqi@0	701	#endif
aoqi@0	702
aoqi@0	703	intptr_t *frame::initial_deoptimization_info() {
aoqi@0	704	// used to reset the saved FP
aoqi@0	705	return fp();
aoqi@0	706	}
aoqi@0	707
aoqi@0	708	intptr_t* frame::real_fp() const {
aoqi@0	709	if (_cb != NULL) {
aoqi@0	710	// use the frame size if valid
aoqi@0	711	int size = _cb->frame_size();
aoqi@0	712	if (size > 0) {
aoqi@0	713	return unextended_sp() + size;
aoqi@0	714	}
aoqi@0	715	}
aoqi@0	716	// else rely on fp()
aoqi@0	717	assert(! is_compiled_frame(), "unknown compiled frame size");
aoqi@0	718	return fp();
aoqi@0	719	}