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src/cpu/sparc/vm/c1_Runtime1_sparc.cpp@92add02409c9 (annotated)

src/cpu/sparc/vm/c1_Runtime1_sparc.cpp

Fri, 08 Apr 2011 14:19:50 -0700

author

jmasa

date

Fri, 08 Apr 2011 14:19:50 -0700

changeset 2784

92add02409c9

parent 2603

1b4e6a5d98e0

child 3037

3d42f82cd811

permissions

-rw-r--r--

Merge

duke@435	1	/*
phh@2423	2	* Copyright (c) 1999, 2011, Oracle and/or its affiliates. All rights reserved.
duke@435	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@435	4	*
duke@435	5	* This code is free software; you can redistribute it and/or modify it
duke@435	6	* under the terms of the GNU General Public License version 2 only, as
duke@435	7	* published by the Free Software Foundation.
duke@435	8	*
duke@435	9	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@435	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@435	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@435	12	* version 2 for more details (a copy is included in the LICENSE file that
duke@435	13	* accompanied this code).
duke@435	14	*
duke@435	15	* You should have received a copy of the GNU General Public License version
duke@435	16	* 2 along with this work; if not, write to the Free Software Foundation,
duke@435	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@435	18	*
trims@1907	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907	20	* or visit www.oracle.com if you need additional information or have any
trims@1907	21	* questions.
duke@435	22	*
duke@435	23	*/
duke@435	24
stefank@2314	25	#include "precompiled.hpp"
stefank@2314	26	#include "c1/c1_Defs.hpp"
stefank@2314	27	#include "c1/c1_MacroAssembler.hpp"
stefank@2314	28	#include "c1/c1_Runtime1.hpp"
stefank@2314	29	#include "interpreter/interpreter.hpp"
stefank@2314	30	#include "nativeInst_sparc.hpp"
stefank@2314	31	#include "oops/compiledICHolderOop.hpp"
stefank@2314	32	#include "oops/oop.inline.hpp"
stefank@2314	33	#include "prims/jvmtiExport.hpp"
stefank@2314	34	#include "register_sparc.hpp"
stefank@2314	35	#include "runtime/sharedRuntime.hpp"
stefank@2314	36	#include "runtime/signature.hpp"
stefank@2314	37	#include "runtime/vframeArray.hpp"
stefank@2314	38	#include "vmreg_sparc.inline.hpp"
duke@435	39
duke@435	40	// Implementation of StubAssembler
duke@435	41
duke@435	42	int StubAssembler::call_RT(Register oop_result1, Register oop_result2, address entry_point, int number_of_arguments) {
duke@435	43	// for sparc changing the number of arguments doesn't change
duke@435	44	// anything about the frame size so we'll always lie and claim that
duke@435	45	// we are only passing 1 argument.
duke@435	46	set_num_rt_args(1);
duke@435	47
duke@435	48	assert_not_delayed();
duke@435	49	// bang stack before going to runtime
duke@435	50	set(-os::vm_page_size() + STACK_BIAS, G3_scratch);
duke@435	51	st(G0, SP, G3_scratch);
duke@435	52
duke@435	53	// debugging support
duke@435	54	assert(number_of_arguments >= 0 , "cannot have negative number of arguments");
duke@435	55
duke@435	56	set_last_Java_frame(SP, noreg);
duke@435	57	if (VerifyThread) mov(G2_thread, O0); // about to be smashed; pass early
duke@435	58	save_thread(L7_thread_cache);
duke@435	59	// do the call
duke@435	60	call(entry_point, relocInfo::runtime_call_type);
duke@435	61	if (!VerifyThread) {
duke@435	62	delayed()->mov(G2_thread, O0); // pass thread as first argument
duke@435	63	} else {
duke@435	64	delayed()->nop(); // (thread already passed)
duke@435	65	}
duke@435	66	int call_offset = offset(); // offset of return address
duke@435	67	restore_thread(L7_thread_cache);
duke@435	68	reset_last_Java_frame();
duke@435	69
duke@435	70	// check for pending exceptions
duke@435	71	{ Label L;
twisti@1162	72	Address exception_addr(G2_thread, Thread::pending_exception_offset());
duke@435	73	ld_ptr(exception_addr, Gtemp);
duke@435	74	br_null(Gtemp, false, pt, L);
duke@435	75	delayed()->nop();
twisti@1162	76	Address vm_result_addr(G2_thread, JavaThread::vm_result_offset());
duke@435	77	st_ptr(G0, vm_result_addr);
twisti@1162	78	Address vm_result_addr_2(G2_thread, JavaThread::vm_result_2_offset());
duke@435	79	st_ptr(G0, vm_result_addr_2);
duke@435	80
duke@435	81	if (frame_size() == no_frame_size) {
duke@435	82	// we use O7 linkage so that forward_exception_entry has the issuing PC
duke@435	83	call(StubRoutines::forward_exception_entry(), relocInfo::runtime_call_type);
duke@435	84	delayed()->restore();
duke@435	85	} else if (_stub_id == Runtime1::forward_exception_id) {
duke@435	86	should_not_reach_here();
duke@435	87	} else {
twisti@1162	88	AddressLiteral exc(Runtime1::entry_for(Runtime1::forward_exception_id));
twisti@1162	89	jump_to(exc, G4);
duke@435	90	delayed()->nop();
duke@435	91	}
duke@435	92	bind(L);
duke@435	93	}
duke@435	94
duke@435	95	// get oop result if there is one and reset the value in the thread
duke@435	96	if (oop_result1->is_valid()) { // get oop result if there is one and reset it in the thread
duke@435	97	get_vm_result (oop_result1);
duke@435	98	} else {
duke@435	99	// be a little paranoid and clear the result
twisti@1162	100	Address vm_result_addr(G2_thread, JavaThread::vm_result_offset());
duke@435	101	st_ptr(G0, vm_result_addr);
duke@435	102	}
duke@435	103
duke@435	104	if (oop_result2->is_valid()) {
duke@435	105	get_vm_result_2(oop_result2);
duke@435	106	} else {
duke@435	107	// be a little paranoid and clear the result
twisti@1162	108	Address vm_result_addr_2(G2_thread, JavaThread::vm_result_2_offset());
duke@435	109	st_ptr(G0, vm_result_addr_2);
duke@435	110	}
duke@435	111
duke@435	112	return call_offset;
duke@435	113	}
duke@435	114
duke@435	115
duke@435	116	int StubAssembler::call_RT(Register oop_result1, Register oop_result2, address entry, Register arg1) {
duke@435	117	// O0 is reserved for the thread
duke@435	118	mov(arg1, O1);
duke@435	119	return call_RT(oop_result1, oop_result2, entry, 1);
duke@435	120	}
duke@435	121
duke@435	122
duke@435	123	int StubAssembler::call_RT(Register oop_result1, Register oop_result2, address entry, Register arg1, Register arg2) {
duke@435	124	// O0 is reserved for the thread
duke@435	125	mov(arg1, O1);
duke@435	126	mov(arg2, O2); assert(arg2 != O1, "smashed argument");
duke@435	127	return call_RT(oop_result1, oop_result2, entry, 2);
duke@435	128	}
duke@435	129
duke@435	130
duke@435	131	int StubAssembler::call_RT(Register oop_result1, Register oop_result2, address entry, Register arg1, Register arg2, Register arg3) {
duke@435	132	// O0 is reserved for the thread
duke@435	133	mov(arg1, O1);
duke@435	134	mov(arg2, O2); assert(arg2 != O1, "smashed argument");
duke@435	135	mov(arg3, O3); assert(arg3 != O1 && arg3 != O2, "smashed argument");
duke@435	136	return call_RT(oop_result1, oop_result2, entry, 3);
duke@435	137	}
duke@435	138
duke@435	139
duke@435	140	// Implementation of Runtime1
duke@435	141
duke@435	142	#define __ sasm->
duke@435	143
duke@435	144	static int cpu_reg_save_offsets[FrameMap::nof_cpu_regs];
duke@435	145	static int fpu_reg_save_offsets[FrameMap::nof_fpu_regs];
duke@435	146	static int reg_save_size_in_words;
duke@435	147	static int frame_size_in_bytes = -1;
duke@435	148
duke@435	149	static OopMap* generate_oop_map(StubAssembler* sasm, bool save_fpu_registers) {
duke@435	150	assert(frame_size_in_bytes == __ total_frame_size_in_bytes(reg_save_size_in_words),
twisti@2603	151	"mismatch in calculation");
duke@435	152	sasm->set_frame_size(frame_size_in_bytes / BytesPerWord);
duke@435	153	int frame_size_in_slots = frame_size_in_bytes / sizeof(jint);
duke@435	154	OopMap* oop_map = new OopMap(frame_size_in_slots, 0);
duke@435	155
duke@435	156	int i;
duke@435	157	for (i = 0; i < FrameMap::nof_cpu_regs; i++) {
duke@435	158	Register r = as_Register(i);
duke@435	159	if (r == G1 || r == G3 || r == G4 || r == G5) {
duke@435	160	int sp_offset = cpu_reg_save_offsets[i];
duke@435	161	oop_map->set_callee_saved(VMRegImpl::stack2reg(sp_offset),
duke@435	162	r->as_VMReg());
duke@435	163	}
duke@435	164	}
duke@435	165
duke@435	166	if (save_fpu_registers) {
duke@435	167	for (i = 0; i < FrameMap::nof_fpu_regs; i++) {
duke@435	168	FloatRegister r = as_FloatRegister(i);
duke@435	169	int sp_offset = fpu_reg_save_offsets[i];
duke@435	170	oop_map->set_callee_saved(VMRegImpl::stack2reg(sp_offset),
duke@435	171	r->as_VMReg());
duke@435	172	}
duke@435	173	}
duke@435	174	return oop_map;
duke@435	175	}
duke@435	176
duke@435	177	static OopMap* save_live_registers(StubAssembler* sasm, bool save_fpu_registers = true) {
duke@435	178	assert(frame_size_in_bytes == __ total_frame_size_in_bytes(reg_save_size_in_words),
twisti@2603	179	"mismatch in calculation");
duke@435	180	__ save_frame_c1(frame_size_in_bytes);
duke@435	181
duke@435	182	// Record volatile registers as callee-save values in an OopMap so their save locations will be
duke@435	183	// propagated to the caller frame's RegisterMap during StackFrameStream construction (needed for
duke@435	184	// deoptimization; see compiledVFrame::create_stack_value). The caller's I, L and O registers
duke@435	185	// are saved in register windows - I's and L's in the caller's frame and O's in the stub frame
duke@435	186	// (as the stub's I's) when the runtime routine called by the stub creates its frame.
duke@435	187	// OopMap frame sizes are in c2 stack slot sizes (sizeof(jint))
duke@435	188
duke@435	189	int i;
duke@435	190	for (i = 0; i < FrameMap::nof_cpu_regs; i++) {
duke@435	191	Register r = as_Register(i);
duke@435	192	if (r == G1 || r == G3 || r == G4 || r == G5) {
duke@435	193	int sp_offset = cpu_reg_save_offsets[i];
duke@435	194	__ st_ptr(r, SP, (sp_offset * BytesPerWord) + STACK_BIAS);
duke@435	195	}
duke@435	196	}
duke@435	197
duke@435	198	if (save_fpu_registers) {
duke@435	199	for (i = 0; i < FrameMap::nof_fpu_regs; i++) {
duke@435	200	FloatRegister r = as_FloatRegister(i);
duke@435	201	int sp_offset = fpu_reg_save_offsets[i];
duke@435	202	__ stf(FloatRegisterImpl::S, r, SP, (sp_offset * BytesPerWord) + STACK_BIAS);
duke@435	203	}
duke@435	204	}
duke@435	205
duke@435	206	return generate_oop_map(sasm, save_fpu_registers);
duke@435	207	}
duke@435	208
duke@435	209	static void restore_live_registers(StubAssembler* sasm, bool restore_fpu_registers = true) {
duke@435	210	for (int i = 0; i < FrameMap::nof_cpu_regs; i++) {
duke@435	211	Register r = as_Register(i);
duke@435	212	if (r == G1 || r == G3 || r == G4 || r == G5) {
duke@435	213	__ ld_ptr(SP, (cpu_reg_save_offsets[i] * BytesPerWord) + STACK_BIAS, r);
duke@435	214	}
duke@435	215	}
duke@435	216
duke@435	217	if (restore_fpu_registers) {
duke@435	218	for (int i = 0; i < FrameMap::nof_fpu_regs; i++) {
duke@435	219	FloatRegister r = as_FloatRegister(i);
duke@435	220	__ ldf(FloatRegisterImpl::S, SP, (fpu_reg_save_offsets[i] * BytesPerWord) + STACK_BIAS, r);
duke@435	221	}
duke@435	222	}
duke@435	223	}
duke@435	224
duke@435	225
duke@435	226	void Runtime1::initialize_pd() {
duke@435	227	// compute word offsets from SP at which live (non-windowed) registers are captured by stub routines
duke@435	228	//
duke@435	229	// A stub routine will have a frame that is at least large enough to hold
duke@435	230	// a register window save area (obviously) and the volatile g registers
duke@435	231	// and floating registers. A user of save_live_registers can have a frame
duke@435	232	// that has more scratch area in it (although typically they will use L-regs).
duke@435	233	// in that case the frame will look like this (stack growing down)
duke@435	234	//
duke@435	235	// FP -> | |
duke@435	236	// | scratch mem |
duke@435	237	// | " " |
duke@435	238	// --------------
duke@435	239	// | float regs |
duke@435	240	// | " " |
duke@435	241	// ---------------
duke@435	242	// | G regs |
duke@435	243	// | " " |
duke@435	244	// ---------------
duke@435	245	// | abi reg. |
duke@435	246	// | window save |
duke@435	247	// | area |
duke@435	248	// SP -> ---------------
duke@435	249	//
duke@435	250	int i;
duke@435	251	int sp_offset = round_to(frame::register_save_words, 2); // start doubleword aligned
duke@435	252
duke@435	253	// only G int registers are saved explicitly; others are found in register windows
duke@435	254	for (i = 0; i < FrameMap::nof_cpu_regs; i++) {
duke@435	255	Register r = as_Register(i);
duke@435	256	if (r == G1 || r == G3 || r == G4 || r == G5) {
duke@435	257	cpu_reg_save_offsets[i] = sp_offset;
duke@435	258	sp_offset++;
duke@435	259	}
duke@435	260	}
duke@435	261
duke@435	262	// all float registers are saved explicitly
duke@435	263	assert(FrameMap::nof_fpu_regs == 32, "double registers not handled here");
duke@435	264	for (i = 0; i < FrameMap::nof_fpu_regs; i++) {
duke@435	265	fpu_reg_save_offsets[i] = sp_offset;
duke@435	266	sp_offset++;
duke@435	267	}
duke@435	268	reg_save_size_in_words = sp_offset - frame::memory_parameter_word_sp_offset;
duke@435	269	// this should match assembler::total_frame_size_in_bytes, which
duke@435	270	// isn't callable from this context. It's checked by an assert when
duke@435	271	// it's used though.
duke@435	272	frame_size_in_bytes = align_size_up(sp_offset * wordSize, 8);
duke@435	273	}
duke@435	274
duke@435	275
duke@435	276	OopMapSet* Runtime1::generate_exception_throw(StubAssembler* sasm, address target, bool has_argument) {
duke@435	277	// make a frame and preserve the caller's caller-save registers
duke@435	278	OopMap* oop_map = save_live_registers(sasm);
duke@435	279	int call_offset;
duke@435	280	if (!has_argument) {
duke@435	281	call_offset = __ call_RT(noreg, noreg, target);
duke@435	282	} else {
duke@435	283	call_offset = __ call_RT(noreg, noreg, target, G4);
duke@435	284	}
duke@435	285	OopMapSet* oop_maps = new OopMapSet();
duke@435	286	oop_maps->add_gc_map(call_offset, oop_map);
duke@435	287
duke@435	288	__ should_not_reach_here();
duke@435	289	return oop_maps;
duke@435	290	}
duke@435	291
duke@435	292
duke@435	293	OopMapSet* Runtime1::generate_stub_call(StubAssembler* sasm, Register result, address target,
duke@435	294	Register arg1, Register arg2, Register arg3) {
duke@435	295	// make a frame and preserve the caller's caller-save registers
duke@435	296	OopMap* oop_map = save_live_registers(sasm);
duke@435	297
duke@435	298	int call_offset;
duke@435	299	if (arg1 == noreg) {
duke@435	300	call_offset = __ call_RT(result, noreg, target);
duke@435	301	} else if (arg2 == noreg) {
duke@435	302	call_offset = __ call_RT(result, noreg, target, arg1);
duke@435	303	} else if (arg3 == noreg) {
duke@435	304	call_offset = __ call_RT(result, noreg, target, arg1, arg2);
duke@435	305	} else {
duke@435	306	call_offset = __ call_RT(result, noreg, target, arg1, arg2, arg3);
duke@435	307	}
duke@435	308	OopMapSet* oop_maps = NULL;
duke@435	309
duke@435	310	oop_maps = new OopMapSet();
duke@435	311	oop_maps->add_gc_map(call_offset, oop_map);
duke@435	312	restore_live_registers(sasm);
duke@435	313
duke@435	314	__ ret();
duke@435	315	__ delayed()->restore();
duke@435	316
duke@435	317	return oop_maps;
duke@435	318	}
duke@435	319
duke@435	320
duke@435	321	OopMapSet* Runtime1::generate_patching(StubAssembler* sasm, address target) {
duke@435	322	// make a frame and preserve the caller's caller-save registers
duke@435	323	OopMap* oop_map = save_live_registers(sasm);
duke@435	324
duke@435	325	// call the runtime patching routine, returns non-zero if nmethod got deopted.
duke@435	326	int call_offset = __ call_RT(noreg, noreg, target);
duke@435	327	OopMapSet* oop_maps = new OopMapSet();
duke@435	328	oop_maps->add_gc_map(call_offset, oop_map);
duke@435	329
duke@435	330	// re-execute the patched instruction or, if the nmethod was deoptmized, return to the
duke@435	331	// deoptimization handler entry that will cause re-execution of the current bytecode
duke@435	332	DeoptimizationBlob* deopt_blob = SharedRuntime::deopt_blob();
duke@435	333	assert(deopt_blob != NULL, "deoptimization blob must have been created");
duke@435	334
duke@435	335	Label no_deopt;
duke@435	336	__ tst(O0);
duke@435	337	__ brx(Assembler::equal, false, Assembler::pt, no_deopt);
duke@435	338	__ delayed()->nop();
duke@435	339
duke@435	340	// return to the deoptimization handler entry for unpacking and rexecute
duke@435	341	// if we simply returned the we'd deopt as if any call we patched had just
duke@435	342	// returned.
duke@435	343
duke@435	344	restore_live_registers(sasm);
iveresov@2476	345
iveresov@2476	346	AddressLiteral dest(deopt_blob->unpack_with_reexecution());
iveresov@2476	347	__ jump_to(dest, O0);
iveresov@2476	348	__ delayed()->restore();
duke@435	349
duke@435	350	__ bind(no_deopt);
duke@435	351	restore_live_registers(sasm);
duke@435	352	__ ret();
duke@435	353	__ delayed()->restore();
duke@435	354
duke@435	355	return oop_maps;
duke@435	356	}
duke@435	357
duke@435	358	OopMapSet* Runtime1::generate_code_for(StubID id, StubAssembler* sasm) {
duke@435	359
duke@435	360	OopMapSet* oop_maps = NULL;
duke@435	361	// for better readability
duke@435	362	const bool must_gc_arguments = true;
duke@435	363	const bool dont_gc_arguments = false;
duke@435	364
duke@435	365	// stub code & info for the different stubs
duke@435	366	switch (id) {
duke@435	367	case forward_exception_id:
duke@435	368	{
twisti@2603	369	oop_maps = generate_handle_exception(id, sasm);
duke@435	370	}
duke@435	371	break;
duke@435	372
duke@435	373	case new_instance_id:
duke@435	374	case fast_new_instance_id:
duke@435	375	case fast_new_instance_init_check_id:
duke@435	376	{
duke@435	377	Register G5_klass = G5; // Incoming
duke@435	378	Register O0_obj = O0; // Outgoing
duke@435	379
duke@435	380	if (id == new_instance_id) {
duke@435	381	__ set_info("new_instance", dont_gc_arguments);
duke@435	382	} else if (id == fast_new_instance_id) {
duke@435	383	__ set_info("fast new_instance", dont_gc_arguments);
duke@435	384	} else {
duke@435	385	assert(id == fast_new_instance_init_check_id, "bad StubID");
duke@435	386	__ set_info("fast new_instance init check", dont_gc_arguments);
duke@435	387	}
duke@435	388
duke@435	389	if ((id == fast_new_instance_id || id == fast_new_instance_init_check_id) &&
duke@435	390	UseTLAB && FastTLABRefill) {
duke@435	391	Label slow_path;
duke@435	392	Register G1_obj_size = G1;
duke@435	393	Register G3_t1 = G3;
duke@435	394	Register G4_t2 = G4;
duke@435	395	assert_different_registers(G5_klass, G1_obj_size, G3_t1, G4_t2);
duke@435	396
duke@435	397	// Push a frame since we may do dtrace notification for the
duke@435	398	// allocation which requires calling out and we don't want
duke@435	399	// to stomp the real return address.
duke@435	400	__ save_frame(0);
duke@435	401
duke@435	402	if (id == fast_new_instance_init_check_id) {
duke@435	403	// make sure the klass is initialized
duke@435	404	__ ld(G5_klass, instanceKlass::init_state_offset_in_bytes() + sizeof(oopDesc), G3_t1);
duke@435	405	__ cmp(G3_t1, instanceKlass::fully_initialized);
duke@435	406	__ br(Assembler::notEqual, false, Assembler::pn, slow_path);
duke@435	407	__ delayed()->nop();
duke@435	408	}
duke@435	409	#ifdef ASSERT
duke@435	410	// assert object can be fast path allocated
duke@435	411	{
duke@435	412	Label ok, not_ok;
duke@435	413	__ ld(G5_klass, Klass::layout_helper_offset_in_bytes() + sizeof(oopDesc), G1_obj_size);
duke@435	414	__ cmp(G1_obj_size, 0); // make sure it's an instance (LH > 0)
duke@435	415	__ br(Assembler::lessEqual, false, Assembler::pn, not_ok);
duke@435	416	__ delayed()->nop();
duke@435	417	__ btst(Klass::_lh_instance_slow_path_bit, G1_obj_size);
duke@435	418	__ br(Assembler::zero, false, Assembler::pn, ok);
duke@435	419	__ delayed()->nop();
duke@435	420	__ bind(not_ok);
duke@435	421	__ stop("assert(can be fast path allocated)");
duke@435	422	__ should_not_reach_here();
duke@435	423	__ bind(ok);
duke@435	424	}
duke@435	425	#endif // ASSERT
duke@435	426	// if we got here then the TLAB allocation failed, so try
duke@435	427	// refilling the TLAB or allocating directly from eden.
duke@435	428	Label retry_tlab, try_eden;
duke@435	429	__ tlab_refill(retry_tlab, try_eden, slow_path); // preserves G5_klass
duke@435	430
duke@435	431	__ bind(retry_tlab);
duke@435	432
duke@435	433	// get the instance size
duke@435	434	__ ld(G5_klass, klassOopDesc::header_size() * HeapWordSize + Klass::layout_helper_offset_in_bytes(), G1_obj_size);
phh@2423	435
duke@435	436	__ tlab_allocate(O0_obj, G1_obj_size, 0, G3_t1, slow_path);
phh@2423	437
duke@435	438	__ initialize_object(O0_obj, G5_klass, G1_obj_size, 0, G3_t1, G4_t2);
duke@435	439	__ verify_oop(O0_obj);
duke@435	440	__ mov(O0, I0);
duke@435	441	__ ret();
duke@435	442	__ delayed()->restore();
duke@435	443
duke@435	444	__ bind(try_eden);
duke@435	445	// get the instance size
duke@435	446	__ ld(G5_klass, klassOopDesc::header_size() * HeapWordSize + Klass::layout_helper_offset_in_bytes(), G1_obj_size);
duke@435	447	__ eden_allocate(O0_obj, G1_obj_size, 0, G3_t1, G4_t2, slow_path);
phh@2447	448	__ incr_allocated_bytes(G1_obj_size, G3_t1, G4_t2);
phh@2423	449
duke@435	450	__ initialize_object(O0_obj, G5_klass, G1_obj_size, 0, G3_t1, G4_t2);
duke@435	451	__ verify_oop(O0_obj);
duke@435	452	__ mov(O0, I0);
duke@435	453	__ ret();
duke@435	454	__ delayed()->restore();
duke@435	455
duke@435	456	__ bind(slow_path);
duke@435	457
duke@435	458	// pop this frame so generate_stub_call can push it's own
duke@435	459	__ restore();
duke@435	460	}
duke@435	461
duke@435	462	oop_maps = generate_stub_call(sasm, I0, CAST_FROM_FN_PTR(address, new_instance), G5_klass);
duke@435	463	// I0->O0: new instance
duke@435	464	}
duke@435	465
duke@435	466	break;
duke@435	467
duke@435	468	case counter_overflow_id:
iveresov@2138	469	// G4 contains bci, G5 contains method
iveresov@2138	470	oop_maps = generate_stub_call(sasm, noreg, CAST_FROM_FN_PTR(address, counter_overflow), G4, G5);
duke@435	471	break;
duke@435	472
duke@435	473	case new_type_array_id:
duke@435	474	case new_object_array_id:
duke@435	475	{
duke@435	476	Register G5_klass = G5; // Incoming
duke@435	477	Register G4_length = G4; // Incoming
duke@435	478	Register O0_obj = O0; // Outgoing
duke@435	479
twisti@1162	480	Address klass_lh(G5_klass, ((klassOopDesc::header_size() * HeapWordSize)
twisti@1162	481	+ Klass::layout_helper_offset_in_bytes()));
duke@435	482	assert(Klass::_lh_header_size_shift % BitsPerByte == 0, "bytewise");
duke@435	483	assert(Klass::_lh_header_size_mask == 0xFF, "bytewise");
duke@435	484	// Use this offset to pick out an individual byte of the layout_helper:
duke@435	485	const int klass_lh_header_size_offset = ((BytesPerInt - 1) // 3 - 2 selects byte {0,1,0,0}
duke@435	486	- Klass::_lh_header_size_shift / BitsPerByte);
duke@435	487
duke@435	488	if (id == new_type_array_id) {
duke@435	489	__ set_info("new_type_array", dont_gc_arguments);
duke@435	490	} else {
duke@435	491	__ set_info("new_object_array", dont_gc_arguments);
duke@435	492	}
duke@435	493
duke@435	494	#ifdef ASSERT
duke@435	495	// assert object type is really an array of the proper kind
duke@435	496	{
duke@435	497	Label ok;
duke@435	498	Register G3_t1 = G3;
duke@435	499	__ ld(klass_lh, G3_t1);
duke@435	500	__ sra(G3_t1, Klass::_lh_array_tag_shift, G3_t1);
duke@435	501	int tag = ((id == new_type_array_id)
duke@435	502	? Klass::_lh_array_tag_type_value
duke@435	503	: Klass::_lh_array_tag_obj_value);
duke@435	504	__ cmp(G3_t1, tag);
duke@435	505	__ brx(Assembler::equal, false, Assembler::pt, ok);
duke@435	506	__ delayed()->nop();
duke@435	507	__ stop("assert(is an array klass)");
duke@435	508	__ should_not_reach_here();
duke@435	509	__ bind(ok);
duke@435	510	}
duke@435	511	#endif // ASSERT
duke@435	512
duke@435	513	if (UseTLAB && FastTLABRefill) {
duke@435	514	Label slow_path;
duke@435	515	Register G1_arr_size = G1;
duke@435	516	Register G3_t1 = G3;
duke@435	517	Register O1_t2 = O1;
duke@435	518	assert_different_registers(G5_klass, G4_length, G1_arr_size, G3_t1, O1_t2);
duke@435	519
duke@435	520	// check that array length is small enough for fast path
duke@435	521	__ set(C1_MacroAssembler::max_array_allocation_length, G3_t1);
duke@435	522	__ cmp(G4_length, G3_t1);
duke@435	523	__ br(Assembler::greaterUnsigned, false, Assembler::pn, slow_path);
duke@435	524	__ delayed()->nop();
duke@435	525
duke@435	526	// if we got here then the TLAB allocation failed, so try
duke@435	527	// refilling the TLAB or allocating directly from eden.
duke@435	528	Label retry_tlab, try_eden;
duke@435	529	__ tlab_refill(retry_tlab, try_eden, slow_path); // preserves G4_length and G5_klass
duke@435	530
duke@435	531	__ bind(retry_tlab);
duke@435	532
duke@435	533	// get the allocation size: (length << (layout_helper & 0x1F)) + header_size
duke@435	534	__ ld(klass_lh, G3_t1);
duke@435	535	__ sll(G4_length, G3_t1, G1_arr_size);
duke@435	536	__ srl(G3_t1, Klass::_lh_header_size_shift, G3_t1);
duke@435	537	__ and3(G3_t1, Klass::_lh_header_size_mask, G3_t1);
duke@435	538	__ add(G1_arr_size, G3_t1, G1_arr_size);
duke@435	539	__ add(G1_arr_size, MinObjAlignmentInBytesMask, G1_arr_size); // align up
duke@435	540	__ and3(G1_arr_size, ~MinObjAlignmentInBytesMask, G1_arr_size);
duke@435	541
duke@435	542	__ tlab_allocate(O0_obj, G1_arr_size, 0, G3_t1, slow_path); // preserves G1_arr_size
duke@435	543
duke@435	544	__ initialize_header(O0_obj, G5_klass, G4_length, G3_t1, O1_t2);
duke@435	545	__ ldub(klass_lh, G3_t1, klass_lh_header_size_offset);
duke@435	546	__ sub(G1_arr_size, G3_t1, O1_t2); // body length
duke@435	547	__ add(O0_obj, G3_t1, G3_t1); // body start
duke@435	548	__ initialize_body(G3_t1, O1_t2);
duke@435	549	__ verify_oop(O0_obj);
duke@435	550	__ retl();
duke@435	551	__ delayed()->nop();
duke@435	552
duke@435	553	__ bind(try_eden);
duke@435	554	// get the allocation size: (length << (layout_helper & 0x1F)) + header_size
duke@435	555	__ ld(klass_lh, G3_t1);
duke@435	556	__ sll(G4_length, G3_t1, G1_arr_size);
duke@435	557	__ srl(G3_t1, Klass::_lh_header_size_shift, G3_t1);
duke@435	558	__ and3(G3_t1, Klass::_lh_header_size_mask, G3_t1);
duke@435	559	__ add(G1_arr_size, G3_t1, G1_arr_size);
duke@435	560	__ add(G1_arr_size, MinObjAlignmentInBytesMask, G1_arr_size);
duke@435	561	__ and3(G1_arr_size, ~MinObjAlignmentInBytesMask, G1_arr_size);
duke@435	562
duke@435	563	__ eden_allocate(O0_obj, G1_arr_size, 0, G3_t1, O1_t2, slow_path); // preserves G1_arr_size
phh@2447	564	__ incr_allocated_bytes(G1_arr_size, G3_t1, O1_t2);
duke@435	565
duke@435	566	__ initialize_header(O0_obj, G5_klass, G4_length, G3_t1, O1_t2);
duke@435	567	__ ldub(klass_lh, G3_t1, klass_lh_header_size_offset);
duke@435	568	__ sub(G1_arr_size, G3_t1, O1_t2); // body length
duke@435	569	__ add(O0_obj, G3_t1, G3_t1); // body start
duke@435	570	__ initialize_body(G3_t1, O1_t2);
duke@435	571	__ verify_oop(O0_obj);
duke@435	572	__ retl();
duke@435	573	__ delayed()->nop();
duke@435	574
duke@435	575	__ bind(slow_path);
duke@435	576	}
duke@435	577
duke@435	578	if (id == new_type_array_id) {
duke@435	579	oop_maps = generate_stub_call(sasm, I0, CAST_FROM_FN_PTR(address, new_type_array), G5_klass, G4_length);
duke@435	580	} else {
duke@435	581	oop_maps = generate_stub_call(sasm, I0, CAST_FROM_FN_PTR(address, new_object_array), G5_klass, G4_length);
duke@435	582	}
duke@435	583	// I0 -> O0: new array
duke@435	584	}
duke@435	585	break;
duke@435	586
duke@435	587	case new_multi_array_id:
duke@435	588	{ // O0: klass
duke@435	589	// O1: rank
duke@435	590	// O2: address of 1st dimension
duke@435	591	__ set_info("new_multi_array", dont_gc_arguments);
duke@435	592	oop_maps = generate_stub_call(sasm, I0, CAST_FROM_FN_PTR(address, new_multi_array), I0, I1, I2);
duke@435	593	// I0 -> O0: new multi array
duke@435	594	}
duke@435	595	break;
duke@435	596
duke@435	597	case register_finalizer_id:
duke@435	598	{
duke@435	599	__ set_info("register_finalizer", dont_gc_arguments);
duke@435	600
duke@435	601	// load the klass and check the has finalizer flag
duke@435	602	Label register_finalizer;
duke@435	603	Register t = O1;
iveresov@2344	604	__ load_klass(O0, t);
duke@435	605	__ ld(t, Klass::access_flags_offset_in_bytes() + sizeof(oopDesc), t);
duke@435	606	__ set(JVM_ACC_HAS_FINALIZER, G3);
duke@435	607	__ andcc(G3, t, G0);
duke@435	608	__ br(Assembler::notZero, false, Assembler::pt, register_finalizer);
duke@435	609	__ delayed()->nop();
duke@435	610
duke@435	611	// do a leaf return
duke@435	612	__ retl();
duke@435	613	__ delayed()->nop();
duke@435	614
duke@435	615	__ bind(register_finalizer);
duke@435	616	OopMap* oop_map = save_live_registers(sasm);
duke@435	617	int call_offset = __ call_RT(noreg, noreg,
duke@435	618	CAST_FROM_FN_PTR(address, SharedRuntime::register_finalizer), I0);
duke@435	619	oop_maps = new OopMapSet();
duke@435	620	oop_maps->add_gc_map(call_offset, oop_map);
duke@435	621
duke@435	622	// Now restore all the live registers
duke@435	623	restore_live_registers(sasm);
duke@435	624
duke@435	625	__ ret();
duke@435	626	__ delayed()->restore();
duke@435	627	}
duke@435	628	break;
duke@435	629
duke@435	630	case throw_range_check_failed_id:
duke@435	631	{ __ set_info("range_check_failed", dont_gc_arguments); // arguments will be discarded
duke@435	632	// G4: index
duke@435	633	oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_range_check_exception), true);
duke@435	634	}
duke@435	635	break;
duke@435	636
duke@435	637	case throw_index_exception_id:
duke@435	638	{ __ set_info("index_range_check_failed", dont_gc_arguments); // arguments will be discarded
duke@435	639	// G4: index
duke@435	640	oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_index_exception), true);
duke@435	641	}
duke@435	642	break;
duke@435	643
duke@435	644	case throw_div0_exception_id:
duke@435	645	{ __ set_info("throw_div0_exception", dont_gc_arguments);
duke@435	646	oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_div0_exception), false);
duke@435	647	}
duke@435	648	break;
duke@435	649
duke@435	650	case throw_null_pointer_exception_id:
duke@435	651	{ __ set_info("throw_null_pointer_exception", dont_gc_arguments);
duke@435	652	oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_null_pointer_exception), false);
duke@435	653	}
duke@435	654	break;
duke@435	655
duke@435	656	case handle_exception_id:
twisti@2603	657	{ __ set_info("handle_exception", dont_gc_arguments);
twisti@2603	658	oop_maps = generate_handle_exception(id, sasm);
twisti@2603	659	}
twisti@2603	660	break;
duke@435	661
twisti@2603	662	case handle_exception_from_callee_id:
twisti@2603	663	{ __ set_info("handle_exception_from_callee", dont_gc_arguments);
twisti@2603	664	oop_maps = generate_handle_exception(id, sasm);
duke@435	665	}
duke@435	666	break;
duke@435	667
duke@435	668	case unwind_exception_id:
duke@435	669	{
duke@435	670	// O0: exception
duke@435	671	// I7: address of call to this method
duke@435	672
duke@435	673	__ set_info("unwind_exception", dont_gc_arguments);
duke@435	674	__ mov(Oexception, Oexception->after_save());
duke@435	675	__ add(I7, frame::pc_return_offset, Oissuing_pc->after_save());
duke@435	676
duke@435	677	__ call_VM_leaf(L7_thread_cache, CAST_FROM_FN_PTR(address, SharedRuntime::exception_handler_for_return_address),
twisti@1730	678	G2_thread, Oissuing_pc->after_save());
duke@435	679	__ verify_not_null_oop(Oexception->after_save());
twisti@1919	680
twisti@2603	681	// Restore SP from L7 if the exception PC is a method handle call site.
twisti@1919	682	__ mov(O0, G5); // Save the target address.
twisti@1919	683	__ lduw(Address(G2_thread, JavaThread::is_method_handle_return_offset()), L0);
twisti@1919	684	__ tst(L0); // Condition codes are preserved over the restore.
twisti@1919	685	__ restore();
twisti@1919	686
twisti@1919	687	__ jmp(G5, 0);
twisti@1919	688	__ delayed()->movcc(Assembler::notZero, false, Assembler::icc, L7_mh_SP_save, SP); // Restore SP if required.
duke@435	689	}
duke@435	690	break;
duke@435	691
duke@435	692	case throw_array_store_exception_id:
duke@435	693	{
duke@435	694	__ set_info("throw_array_store_exception", dont_gc_arguments);
never@2488	695	oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_array_store_exception), true);
duke@435	696	}
duke@435	697	break;
duke@435	698
duke@435	699	case throw_class_cast_exception_id:
duke@435	700	{
duke@435	701	// G4: object
duke@435	702	__ set_info("throw_class_cast_exception", dont_gc_arguments);
duke@435	703	oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_class_cast_exception), true);
duke@435	704	}
duke@435	705	break;
duke@435	706
duke@435	707	case throw_incompatible_class_change_error_id:
duke@435	708	{
duke@435	709	__ set_info("throw_incompatible_class_cast_exception", dont_gc_arguments);
duke@435	710	oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_incompatible_class_change_error), false);
duke@435	711	}
duke@435	712	break;
duke@435	713
duke@435	714	case slow_subtype_check_id:
duke@435	715	{ // Support for uint StubRoutine::partial_subtype_check( Klass sub, Klass super );
duke@435	716	// Arguments :
duke@435	717	//
duke@435	718	// ret : G3
duke@435	719	// sub : G3, argument, destroyed
duke@435	720	// super: G1, argument, not changed
duke@435	721	// raddr: O7, blown by call
jrose@1079	722	Label miss;
duke@435	723
duke@435	724	__ save_frame(0); // Blow no registers!
duke@435	725
jrose@1079	726	__ check_klass_subtype_slow_path(G3, G1, L0, L1, L2, L4, NULL, &miss);
duke@435	727
duke@435	728	__ mov(1, G3);
jrose@1079	729	__ ret(); // Result in G5 is 'true'
duke@435	730	__ delayed()->restore(); // free copy or add can go here
duke@435	731
duke@435	732	__ bind(miss);
duke@435	733	__ mov(0, G3);
jrose@1079	734	__ ret(); // Result in G5 is 'false'
duke@435	735	__ delayed()->restore(); // free copy or add can go here
duke@435	736	}
duke@435	737
duke@435	738	case monitorenter_nofpu_id:
duke@435	739	case monitorenter_id:
duke@435	740	{ // G4: object
duke@435	741	// G5: lock address
duke@435	742	__ set_info("monitorenter", dont_gc_arguments);
duke@435	743
duke@435	744	int save_fpu_registers = (id == monitorenter_id);
duke@435	745	// make a frame and preserve the caller's caller-save registers
duke@435	746	OopMap* oop_map = save_live_registers(sasm, save_fpu_registers);
duke@435	747
duke@435	748	int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, monitorenter), G4, G5);
duke@435	749
duke@435	750	oop_maps = new OopMapSet();
duke@435	751	oop_maps->add_gc_map(call_offset, oop_map);
duke@435	752	restore_live_registers(sasm, save_fpu_registers);
duke@435	753
duke@435	754	__ ret();
duke@435	755	__ delayed()->restore();
duke@435	756	}
duke@435	757	break;
duke@435	758
duke@435	759	case monitorexit_nofpu_id:
duke@435	760	case monitorexit_id:
duke@435	761	{ // G4: lock address
duke@435	762	// note: really a leaf routine but must setup last java sp
duke@435	763	// => use call_RT for now (speed can be improved by
duke@435	764	// doing last java sp setup manually)
duke@435	765	__ set_info("monitorexit", dont_gc_arguments);
duke@435	766
duke@435	767	int save_fpu_registers = (id == monitorexit_id);
duke@435	768	// make a frame and preserve the caller's caller-save registers
duke@435	769	OopMap* oop_map = save_live_registers(sasm, save_fpu_registers);
duke@435	770
duke@435	771	int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, monitorexit), G4);
duke@435	772
duke@435	773	oop_maps = new OopMapSet();
duke@435	774	oop_maps->add_gc_map(call_offset, oop_map);
duke@435	775	restore_live_registers(sasm, save_fpu_registers);
duke@435	776
duke@435	777	__ ret();
duke@435	778	__ delayed()->restore();
duke@435	779
duke@435	780	}
duke@435	781	break;
duke@435	782
duke@435	783	case access_field_patching_id:
duke@435	784	{ __ set_info("access_field_patching", dont_gc_arguments);
duke@435	785	oop_maps = generate_patching(sasm, CAST_FROM_FN_PTR(address, access_field_patching));
duke@435	786	}
duke@435	787	break;
duke@435	788
duke@435	789	case load_klass_patching_id:
duke@435	790	{ __ set_info("load_klass_patching", dont_gc_arguments);
duke@435	791	oop_maps = generate_patching(sasm, CAST_FROM_FN_PTR(address, move_klass_patching));
duke@435	792	}
duke@435	793	break;
duke@435	794
duke@435	795	case jvmti_exception_throw_id:
duke@435	796	{ // Oexception : exception
duke@435	797	__ set_info("jvmti_exception_throw", dont_gc_arguments);
duke@435	798	oop_maps = generate_stub_call(sasm, noreg, CAST_FROM_FN_PTR(address, Runtime1::post_jvmti_exception_throw), I0);
duke@435	799	}
duke@435	800	break;
duke@435	801
duke@435	802	case dtrace_object_alloc_id:
duke@435	803	{ // O0: object
duke@435	804	__ set_info("dtrace_object_alloc", dont_gc_arguments);
duke@435	805	// we can't gc here so skip the oopmap but make sure that all
duke@435	806	// the live registers get saved.
duke@435	807	save_live_registers(sasm);
duke@435	808
duke@435	809	__ save_thread(L7_thread_cache);
duke@435	810	__ call(CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_object_alloc),
duke@435	811	relocInfo::runtime_call_type);
duke@435	812	__ delayed()->mov(I0, O0);
duke@435	813	__ restore_thread(L7_thread_cache);
duke@435	814
duke@435	815	restore_live_registers(sasm);
duke@435	816	__ ret();
duke@435	817	__ delayed()->restore();
duke@435	818	}
duke@435	819	break;
duke@435	820
ysr@777	821	#ifndef SERIALGC
ysr@777	822	case g1_pre_barrier_slow_id:
ysr@777	823	{ // G4: previous value of memory
ysr@777	824	BarrierSet* bs = Universe::heap()->barrier_set();
ysr@777	825	if (bs->kind() != BarrierSet::G1SATBCTLogging) {
ysr@777	826	__ save_frame(0);
ysr@777	827	__ set((int)id, O1);
ysr@777	828	__ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, unimplemented_entry), I0);
ysr@777	829	__ should_not_reach_here();
ysr@777	830	break;
ysr@777	831	}
ysr@777	832
ysr@777	833	__ set_info("g1_pre_barrier_slow_id", dont_gc_arguments);
ysr@777	834
ysr@777	835	Register pre_val = G4;
ysr@777	836	Register tmp = G1_scratch;
ysr@777	837	Register tmp2 = G3_scratch;
ysr@777	838
ysr@777	839	Label refill, restart;
ysr@777	840	bool with_frame = false; // I don't know if we can do with-frame.
ysr@777	841	int satb_q_index_byte_offset =
ysr@777	842	in_bytes(JavaThread::satb_mark_queue_offset() +
ysr@777	843	PtrQueue::byte_offset_of_index());
ysr@777	844	int satb_q_buf_byte_offset =
ysr@777	845	in_bytes(JavaThread::satb_mark_queue_offset() +
ysr@777	846	PtrQueue::byte_offset_of_buf());
ysr@777	847	__ bind(restart);
ysr@777	848	__ ld_ptr(G2_thread, satb_q_index_byte_offset, tmp);
ysr@777	849
ysr@777	850	__ br_on_reg_cond(Assembler::rc_z, /*annul*/false,
ysr@777	851	Assembler::pn, tmp, refill);
ysr@777	852
ysr@777	853	// If the branch is taken, no harm in executing this in the delay slot.
ysr@777	854	__ delayed()->ld_ptr(G2_thread, satb_q_buf_byte_offset, tmp2);
ysr@777	855	__ sub(tmp, oopSize, tmp);
ysr@777	856
ysr@777	857	__ st_ptr(pre_val, tmp2, tmp); // [_buf + index] := <address_of_card>
ysr@777	858	// Use return-from-leaf
ysr@777	859	__ retl();
ysr@777	860	__ delayed()->st_ptr(tmp, G2_thread, satb_q_index_byte_offset);
ysr@777	861
ysr@777	862	__ bind(refill);
ysr@777	863	__ save_frame(0);
ysr@777	864
ysr@777	865	__ mov(pre_val, L0);
ysr@777	866	__ mov(tmp, L1);
ysr@777	867	__ mov(tmp2, L2);
ysr@777	868
ysr@777	869	__ call_VM_leaf(L7_thread_cache,
ysr@777	870	CAST_FROM_FN_PTR(address,
ysr@777	871	SATBMarkQueueSet::handle_zero_index_for_thread),
ysr@777	872	G2_thread);
ysr@777	873
ysr@777	874	__ mov(L0, pre_val);
ysr@777	875	__ mov(L1, tmp);
ysr@777	876	__ mov(L2, tmp2);
ysr@777	877
ysr@777	878	__ br(Assembler::always, /*annul*/false, Assembler::pt, restart);
ysr@777	879	__ delayed()->restore();
ysr@777	880	}
ysr@777	881	break;
ysr@777	882
ysr@777	883	case g1_post_barrier_slow_id:
ysr@777	884	{
ysr@777	885	BarrierSet* bs = Universe::heap()->barrier_set();
ysr@777	886	if (bs->kind() != BarrierSet::G1SATBCTLogging) {
ysr@777	887	__ save_frame(0);
ysr@777	888	__ set((int)id, O1);
ysr@777	889	__ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, unimplemented_entry), I0);
ysr@777	890	__ should_not_reach_here();
ysr@777	891	break;
ysr@777	892	}
ysr@777	893
ysr@777	894	__ set_info("g1_post_barrier_slow_id", dont_gc_arguments);
ysr@777	895
ysr@777	896	Register addr = G4;
ysr@777	897	Register cardtable = G5;
ysr@777	898	Register tmp = G1_scratch;
ysr@777	899	Register tmp2 = G3_scratch;
ysr@777	900	jbyte* byte_map_base = ((CardTableModRefBS*)bs)->byte_map_base;
ysr@777	901
ysr@777	902	Label not_already_dirty, restart, refill;
ysr@777	903
ysr@777	904	#ifdef _LP64
ysr@777	905	__ srlx(addr, CardTableModRefBS::card_shift, addr);
ysr@777	906	#else
ysr@777	907	__ srl(addr, CardTableModRefBS::card_shift, addr);
ysr@777	908	#endif
ysr@777	909
twisti@1162	910	AddressLiteral rs(byte_map_base);
twisti@1162	911	__ set(rs, cardtable); // cardtable := <card table base>
ysr@777	912	__ ldub(addr, cardtable, tmp); // tmp := [addr + cardtable]
ysr@777	913
ysr@777	914	__ br_on_reg_cond(Assembler::rc_nz, /*annul*/false, Assembler::pt,
ysr@777	915	tmp, not_already_dirty);
ysr@777	916	// Get cardtable + tmp into a reg by itself -- useful in the take-the-branch
ysr@777	917	// case, harmless if not.
ysr@777	918	__ delayed()->add(addr, cardtable, tmp2);
ysr@777	919
ysr@777	920	// We didn't take the branch, so we're already dirty: return.
ysr@777	921	// Use return-from-leaf
ysr@777	922	__ retl();
ysr@777	923	__ delayed()->nop();
ysr@777	924
ysr@777	925	// Not dirty.
ysr@777	926	__ bind(not_already_dirty);
ysr@777	927	// First, dirty it.
ysr@777	928	__ stb(G0, tmp2, 0); // [cardPtr] := 0 (i.e., dirty).
ysr@777	929
ysr@777	930	Register tmp3 = cardtable;
ysr@777	931	Register tmp4 = tmp;
ysr@777	932
ysr@777	933	// these registers are now dead
ysr@777	934	addr = cardtable = tmp = noreg;
ysr@777	935
ysr@777	936	int dirty_card_q_index_byte_offset =
ysr@777	937	in_bytes(JavaThread::dirty_card_queue_offset() +
ysr@777	938	PtrQueue::byte_offset_of_index());
ysr@777	939	int dirty_card_q_buf_byte_offset =
ysr@777	940	in_bytes(JavaThread::dirty_card_queue_offset() +
ysr@777	941	PtrQueue::byte_offset_of_buf());
ysr@777	942	__ bind(restart);
ysr@777	943	__ ld_ptr(G2_thread, dirty_card_q_index_byte_offset, tmp3);
ysr@777	944
ysr@777	945	__ br_on_reg_cond(Assembler::rc_z, /*annul*/false, Assembler::pn,
ysr@777	946	tmp3, refill);
ysr@777	947	// If the branch is taken, no harm in executing this in the delay slot.
ysr@777	948	__ delayed()->ld_ptr(G2_thread, dirty_card_q_buf_byte_offset, tmp4);
ysr@777	949	__ sub(tmp3, oopSize, tmp3);
ysr@777	950
ysr@777	951	__ st_ptr(tmp2, tmp4, tmp3); // [_buf + index] := <address_of_card>
ysr@777	952	// Use return-from-leaf
ysr@777	953	__ retl();
ysr@777	954	__ delayed()->st_ptr(tmp3, G2_thread, dirty_card_q_index_byte_offset);
ysr@777	955
ysr@777	956	__ bind(refill);
ysr@777	957	__ save_frame(0);
ysr@777	958
ysr@777	959	__ mov(tmp2, L0);
ysr@777	960	__ mov(tmp3, L1);
ysr@777	961	__ mov(tmp4, L2);
ysr@777	962
ysr@777	963	__ call_VM_leaf(L7_thread_cache,
ysr@777	964	CAST_FROM_FN_PTR(address,
ysr@777	965	DirtyCardQueueSet::handle_zero_index_for_thread),
ysr@777	966	G2_thread);
ysr@777	967
ysr@777	968	__ mov(L0, tmp2);
ysr@777	969	__ mov(L1, tmp3);
ysr@777	970	__ mov(L2, tmp4);
ysr@777	971
ysr@777	972	__ br(Assembler::always, /*annul*/false, Assembler::pt, restart);
ysr@777	973	__ delayed()->restore();
ysr@777	974	}
ysr@777	975	break;
ysr@777	976	#endif // !SERIALGC
ysr@777	977
duke@435	978	default:
duke@435	979	{ __ set_info("unimplemented entry", dont_gc_arguments);
duke@435	980	__ save_frame(0);
duke@435	981	__ set((int)id, O1);
duke@435	982	__ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, unimplemented_entry), O1);
duke@435	983	__ should_not_reach_here();
duke@435	984	}
duke@435	985	break;
duke@435	986	}
duke@435	987	return oop_maps;
duke@435	988	}
duke@435	989
duke@435	990
twisti@2603	991	OopMapSet* Runtime1::generate_handle_exception(StubID id, StubAssembler* sasm) {
twisti@2603	992	__ block_comment("generate_handle_exception");
twisti@2603	993
twisti@2603	994	// Save registers, if required.
twisti@2603	995	OopMapSet* oop_maps = new OopMapSet();
twisti@2603	996	OopMap* oop_map = NULL;
twisti@2603	997	switch (id) {
twisti@2603	998	case forward_exception_id:
twisti@2603	999	// We're handling an exception in the context of a compiled frame.
twisti@2603	1000	// The registers have been saved in the standard places. Perform
twisti@2603	1001	// an exception lookup in the caller and dispatch to the handler
twisti@2603	1002	// if found. Otherwise unwind and dispatch to the callers
twisti@2603	1003	// exception handler.
twisti@2603	1004	oop_map = generate_oop_map(sasm, true);
twisti@2603	1005
twisti@2603	1006	// transfer the pending exception to the exception_oop
twisti@2603	1007	__ ld_ptr(G2_thread, in_bytes(JavaThread::pending_exception_offset()), Oexception);
twisti@2603	1008	__ ld_ptr(Oexception, 0, G0);
twisti@2603	1009	__ st_ptr(G0, G2_thread, in_bytes(JavaThread::pending_exception_offset()));
twisti@2603	1010	__ add(I7, frame::pc_return_offset, Oissuing_pc);
twisti@2603	1011	break;
twisti@2603	1012	case handle_exception_id:
twisti@2603	1013	// At this point all registers MAY be live.
twisti@2603	1014	oop_map = save_live_registers(sasm);
twisti@2603	1015	__ mov(Oexception->after_save(), Oexception);
twisti@2603	1016	__ mov(Oissuing_pc->after_save(), Oissuing_pc);
twisti@2603	1017	break;
twisti@2603	1018	case handle_exception_from_callee_id:
twisti@2603	1019	// At this point all registers except exception oop (Oexception)
twisti@2603	1020	// and exception pc (Oissuing_pc) are dead.
twisti@2603	1021	oop_map = new OopMap(frame_size_in_bytes / sizeof(jint), 0);
twisti@2603	1022	sasm->set_frame_size(frame_size_in_bytes / BytesPerWord);
twisti@2603	1023	__ save_frame_c1(frame_size_in_bytes);
twisti@2603	1024	__ mov(Oexception->after_save(), Oexception);
twisti@2603	1025	__ mov(Oissuing_pc->after_save(), Oissuing_pc);
twisti@2603	1026	break;
twisti@2603	1027	default: ShouldNotReachHere();
twisti@2603	1028	}
duke@435	1029
duke@435	1030	__ verify_not_null_oop(Oexception);
duke@435	1031
duke@435	1032	// save the exception and issuing pc in the thread
twisti@2603	1033	__ st_ptr(Oexception, G2_thread, in_bytes(JavaThread::exception_oop_offset()));
duke@435	1034	__ st_ptr(Oissuing_pc, G2_thread, in_bytes(JavaThread::exception_pc_offset()));
duke@435	1035
twisti@2603	1036	// use the throwing pc as the return address to lookup (has bci & oop map)
duke@435	1037	__ mov(Oissuing_pc, I7);
duke@435	1038	__ sub(I7, frame::pc_return_offset, I7);
duke@435	1039	int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, exception_handler_for_pc));
twisti@2603	1040	oop_maps->add_gc_map(call_offset, oop_map);
duke@435	1041
duke@435	1042	// Note: if nmethod has been deoptimized then regardless of
duke@435	1043	// whether it had a handler or not we will deoptimize
duke@435	1044	// by entering the deopt blob with a pending exception.
duke@435	1045
twisti@2603	1046	// Restore the registers that were saved at the beginning, remove
twisti@2603	1047	// the frame and jump to the exception handler.
twisti@2603	1048	switch (id) {
twisti@2603	1049	case forward_exception_id:
twisti@2603	1050	case handle_exception_id:
twisti@2603	1051	restore_live_registers(sasm);
twisti@2603	1052	__ jmp(O0, 0);
twisti@2603	1053	__ delayed()->restore();
twisti@2603	1054	break;
twisti@2603	1055	case handle_exception_from_callee_id:
twisti@2603	1056	// Restore SP from L7 if the exception PC is a method handle call site.
twisti@2603	1057	__ mov(O0, G5); // Save the target address.
twisti@2603	1058	__ lduw(Address(G2_thread, JavaThread::is_method_handle_return_offset()), L0);
twisti@2603	1059	__ tst(L0); // Condition codes are preserved over the restore.
twisti@2603	1060	__ restore();
duke@435	1061
twisti@2603	1062	__ jmp(G5, 0); // jump to the exception handler
twisti@2603	1063	__ delayed()->movcc(Assembler::notZero, false, Assembler::icc, L7_mh_SP_save, SP); // Restore SP if required.
twisti@2603	1064	break;
twisti@2603	1065	default: ShouldNotReachHere();
twisti@2603	1066	}
duke@435	1067
twisti@2603	1068	return oop_maps;
duke@435	1069	}
duke@435	1070
duke@435	1071
duke@435	1072	#undef __
duke@435	1073
bobv@2036	1074	const char *Runtime1::pd_name_for_address(address entry) {
bobv@2036	1075	return "<unknown function>";
bobv@2036	1076	}