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src/cpu/x86/vm/c1_FrameMap_x86.cpp@04ff2f6cd0eb (annotated)

src/cpu/x86/vm/c1_FrameMap_x86.cpp

Tue, 17 Oct 2017 12:58:25 +0800

author

aoqi

date

Tue, 17 Oct 2017 12:58:25 +0800

changeset 7994

04ff2f6cd0eb

parent 7854

e8260b6328fb

parent 6876

710a3c8b516e

child 9852

70aa912cebe5

permissions

-rw-r--r--

merge

aoqi@0	1	/*
aoqi@0	2	* Copyright (c) 1999, 2013, 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 "c1/c1_FrameMap.hpp"
aoqi@0	27	#include "c1/c1_LIR.hpp"
aoqi@0	28	#include "runtime/sharedRuntime.hpp"
aoqi@0	29	#include "vmreg_x86.inline.hpp"
aoqi@0	30
aoqi@0	31	const int FrameMap::pd_c_runtime_reserved_arg_size = 0;
aoqi@0	32
aoqi@0	33	LIR_Opr FrameMap::map_to_opr(BasicType type, VMRegPair* reg, bool) {
aoqi@0	34	LIR_Opr opr = LIR_OprFact::illegalOpr;
aoqi@0	35	VMReg r_1 = reg->first();
aoqi@0	36	VMReg r_2 = reg->second();
aoqi@0	37	if (r_1->is_stack()) {
aoqi@0	38	// Convert stack slot to an SP offset
aoqi@0	39	// The calling convention does not count the SharedRuntime::out_preserve_stack_slots() value
aoqi@0	40	// so we must add it in here.
aoqi@0	41	int st_off = (r_1->reg2stack() + SharedRuntime::out_preserve_stack_slots()) * VMRegImpl::stack_slot_size;
aoqi@0	42	opr = LIR_OprFact::address(new LIR_Address(rsp_opr, st_off, type));
aoqi@0	43	} else if (r_1->is_Register()) {
aoqi@0	44	Register reg = r_1->as_Register();
aoqi@0	45	if (r_2->is_Register() && (type == T_LONG || type == T_DOUBLE)) {
aoqi@0	46	Register reg2 = r_2->as_Register();
aoqi@0	47	#ifdef _LP64
aoqi@0	48	assert(reg2 == reg, "must be same register");
aoqi@0	49	opr = as_long_opr(reg);
aoqi@0	50	#else
aoqi@0	51	opr = as_long_opr(reg2, reg);
aoqi@0	52	#endif // _LP64
aoqi@0	53	} else if (type == T_OBJECT || type == T_ARRAY) {
aoqi@0	54	opr = as_oop_opr(reg);
aoqi@0	55	} else if (type == T_METADATA) {
aoqi@0	56	opr = as_metadata_opr(reg);
aoqi@0	57	} else {
aoqi@0	58	opr = as_opr(reg);
aoqi@0	59	}
aoqi@0	60	} else if (r_1->is_FloatRegister()) {
aoqi@0	61	assert(type == T_DOUBLE || type == T_FLOAT, "wrong type");
aoqi@0	62	int num = r_1->as_FloatRegister()->encoding();
aoqi@0	63	if (type == T_FLOAT) {
aoqi@0	64	opr = LIR_OprFact::single_fpu(num);
aoqi@0	65	} else {
aoqi@0	66	opr = LIR_OprFact::double_fpu(num);
aoqi@0	67	}
aoqi@0	68	} else if (r_1->is_XMMRegister()) {
aoqi@0	69	assert(type == T_DOUBLE || type == T_FLOAT, "wrong type");
aoqi@0	70	int num = r_1->as_XMMRegister()->encoding();
aoqi@0	71	if (type == T_FLOAT) {
aoqi@0	72	opr = LIR_OprFact::single_xmm(num);
aoqi@0	73	} else {
aoqi@0	74	opr = LIR_OprFact::double_xmm(num);
aoqi@0	75	}
aoqi@0	76	} else {
aoqi@0	77	ShouldNotReachHere();
aoqi@0	78	}
aoqi@0	79	return opr;
aoqi@0	80	}
aoqi@0	81
aoqi@0	82
aoqi@0	83	LIR_Opr FrameMap::rsi_opr;
aoqi@0	84	LIR_Opr FrameMap::rdi_opr;
aoqi@0	85	LIR_Opr FrameMap::rbx_opr;
aoqi@0	86	LIR_Opr FrameMap::rax_opr;
aoqi@0	87	LIR_Opr FrameMap::rdx_opr;
aoqi@0	88	LIR_Opr FrameMap::rcx_opr;
aoqi@0	89	LIR_Opr FrameMap::rsp_opr;
aoqi@0	90	LIR_Opr FrameMap::rbp_opr;
aoqi@0	91
aoqi@0	92	LIR_Opr FrameMap::receiver_opr;
aoqi@0	93
aoqi@0	94	LIR_Opr FrameMap::rsi_oop_opr;
aoqi@0	95	LIR_Opr FrameMap::rdi_oop_opr;
aoqi@0	96	LIR_Opr FrameMap::rbx_oop_opr;
aoqi@0	97	LIR_Opr FrameMap::rax_oop_opr;
aoqi@0	98	LIR_Opr FrameMap::rdx_oop_opr;
aoqi@0	99	LIR_Opr FrameMap::rcx_oop_opr;
aoqi@0	100
aoqi@0	101	LIR_Opr FrameMap::rsi_metadata_opr;
aoqi@0	102	LIR_Opr FrameMap::rdi_metadata_opr;
aoqi@0	103	LIR_Opr FrameMap::rbx_metadata_opr;
aoqi@0	104	LIR_Opr FrameMap::rax_metadata_opr;
aoqi@0	105	LIR_Opr FrameMap::rdx_metadata_opr;
aoqi@0	106	LIR_Opr FrameMap::rcx_metadata_opr;
aoqi@0	107
aoqi@0	108	LIR_Opr FrameMap::long0_opr;
aoqi@0	109	LIR_Opr FrameMap::long1_opr;
aoqi@0	110	LIR_Opr FrameMap::fpu0_float_opr;
aoqi@0	111	LIR_Opr FrameMap::fpu0_double_opr;
aoqi@0	112	LIR_Opr FrameMap::xmm0_float_opr;
aoqi@0	113	LIR_Opr FrameMap::xmm0_double_opr;
aoqi@0	114
aoqi@0	115	#ifdef _LP64
aoqi@0	116
aoqi@0	117	LIR_Opr FrameMap::r8_opr;
aoqi@0	118	LIR_Opr FrameMap::r9_opr;
aoqi@0	119	LIR_Opr FrameMap::r10_opr;
aoqi@0	120	LIR_Opr FrameMap::r11_opr;
aoqi@0	121	LIR_Opr FrameMap::r12_opr;
aoqi@0	122	LIR_Opr FrameMap::r13_opr;
aoqi@0	123	LIR_Opr FrameMap::r14_opr;
aoqi@0	124	LIR_Opr FrameMap::r15_opr;
aoqi@0	125
aoqi@0	126	// r10 and r15 can never contain oops since they aren't available to
aoqi@0	127	// the allocator
aoqi@0	128	LIR_Opr FrameMap::r8_oop_opr;
aoqi@0	129	LIR_Opr FrameMap::r9_oop_opr;
aoqi@0	130	LIR_Opr FrameMap::r11_oop_opr;
aoqi@0	131	LIR_Opr FrameMap::r12_oop_opr;
aoqi@0	132	LIR_Opr FrameMap::r13_oop_opr;
aoqi@0	133	LIR_Opr FrameMap::r14_oop_opr;
aoqi@0	134
aoqi@0	135	LIR_Opr FrameMap::r8_metadata_opr;
aoqi@0	136	LIR_Opr FrameMap::r9_metadata_opr;
aoqi@0	137	LIR_Opr FrameMap::r11_metadata_opr;
aoqi@0	138	LIR_Opr FrameMap::r12_metadata_opr;
aoqi@0	139	LIR_Opr FrameMap::r13_metadata_opr;
aoqi@0	140	LIR_Opr FrameMap::r14_metadata_opr;
aoqi@0	141	#endif // _LP64
aoqi@0	142
aoqi@0	143	LIR_Opr FrameMap::_caller_save_cpu_regs[] = { 0, };
aoqi@0	144	LIR_Opr FrameMap::_caller_save_fpu_regs[] = { 0, };
aoqi@0	145	LIR_Opr FrameMap::_caller_save_xmm_regs[] = { 0, };
aoqi@0	146
aoqi@0	147	XMMRegister FrameMap::_xmm_regs [] = { 0, };
aoqi@0	148
aoqi@0	149	XMMRegister FrameMap::nr2xmmreg(int rnr) {
aoqi@0	150	assert(_init_done, "tables not initialized");
aoqi@0	151	return _xmm_regs[rnr];
aoqi@0	152	}
aoqi@0	153
aoqi@0	154	//--------------------------------------------------------
aoqi@0	155	// FrameMap
aoqi@0	156	//--------------------------------------------------------
aoqi@0	157
aoqi@0	158	void FrameMap::initialize() {
aoqi@0	159	assert(!_init_done, "once");
aoqi@0	160
aoqi@0	161	assert(nof_cpu_regs == LP64_ONLY(16) NOT_LP64(8), "wrong number of CPU registers");
aoqi@0	162	map_register(0, rsi); rsi_opr = LIR_OprFact::single_cpu(0);
aoqi@0	163	map_register(1, rdi); rdi_opr = LIR_OprFact::single_cpu(1);
aoqi@0	164	map_register(2, rbx); rbx_opr = LIR_OprFact::single_cpu(2);
aoqi@0	165	map_register(3, rax); rax_opr = LIR_OprFact::single_cpu(3);
aoqi@0	166	map_register(4, rdx); rdx_opr = LIR_OprFact::single_cpu(4);
aoqi@0	167	map_register(5, rcx); rcx_opr = LIR_OprFact::single_cpu(5);
aoqi@0	168
aoqi@0	169	#ifndef _LP64
aoqi@0	170	// The unallocatable registers are at the end
aoqi@0	171	map_register(6, rsp);
aoqi@0	172	map_register(7, rbp);
aoqi@0	173	#else
aoqi@0	174	map_register( 6, r8); r8_opr = LIR_OprFact::single_cpu(6);
aoqi@0	175	map_register( 7, r9); r9_opr = LIR_OprFact::single_cpu(7);
aoqi@0	176	map_register( 8, r11); r11_opr = LIR_OprFact::single_cpu(8);
aoqi@0	177	map_register( 9, r13); r13_opr = LIR_OprFact::single_cpu(9);
aoqi@0	178	map_register(10, r14); r14_opr = LIR_OprFact::single_cpu(10);
aoqi@0	179	// r12 is allocated conditionally. With compressed oops it holds
aoqi@0	180	// the heapbase value and is not visible to the allocator.
aoqi@0	181	map_register(11, r12); r12_opr = LIR_OprFact::single_cpu(11);
aoqi@0	182	// The unallocatable registers are at the end
aoqi@0	183	map_register(12, r10); r10_opr = LIR_OprFact::single_cpu(12);
aoqi@0	184	map_register(13, r15); r15_opr = LIR_OprFact::single_cpu(13);
aoqi@0	185	map_register(14, rsp);
aoqi@0	186	map_register(15, rbp);
aoqi@0	187	#endif // _LP64
aoqi@0	188
aoqi@0	189	#ifdef _LP64
aoqi@0	190	long0_opr = LIR_OprFact::double_cpu(3 /*eax*/, 3 /*eax*/);
aoqi@0	191	long1_opr = LIR_OprFact::double_cpu(2 /*ebx*/, 2 /*ebx*/);
aoqi@0	192	#else
aoqi@0	193	long0_opr = LIR_OprFact::double_cpu(3 /*eax*/, 4 /*edx*/);
aoqi@0	194	long1_opr = LIR_OprFact::double_cpu(2 /*ebx*/, 5 /*ecx*/);
aoqi@0	195	#endif // _LP64
aoqi@0	196	fpu0_float_opr = LIR_OprFact::single_fpu(0);
aoqi@0	197	fpu0_double_opr = LIR_OprFact::double_fpu(0);
aoqi@0	198	xmm0_float_opr = LIR_OprFact::single_xmm(0);
aoqi@0	199	xmm0_double_opr = LIR_OprFact::double_xmm(0);
aoqi@0	200
aoqi@0	201	_caller_save_cpu_regs[0] = rsi_opr;
aoqi@0	202	_caller_save_cpu_regs[1] = rdi_opr;
aoqi@0	203	_caller_save_cpu_regs[2] = rbx_opr;
aoqi@0	204	_caller_save_cpu_regs[3] = rax_opr;
aoqi@0	205	_caller_save_cpu_regs[4] = rdx_opr;
aoqi@0	206	_caller_save_cpu_regs[5] = rcx_opr;
aoqi@0	207
aoqi@0	208	#ifdef _LP64
aoqi@0	209	_caller_save_cpu_regs[6] = r8_opr;
aoqi@0	210	_caller_save_cpu_regs[7] = r9_opr;
aoqi@0	211	_caller_save_cpu_regs[8] = r11_opr;
aoqi@0	212	_caller_save_cpu_regs[9] = r13_opr;
aoqi@0	213	_caller_save_cpu_regs[10] = r14_opr;
aoqi@0	214	_caller_save_cpu_regs[11] = r12_opr;
aoqi@0	215	#endif // _LP64
aoqi@0	216
aoqi@0	217
aoqi@0	218	_xmm_regs[0] = xmm0;
aoqi@0	219	_xmm_regs[1] = xmm1;
aoqi@0	220	_xmm_regs[2] = xmm2;
aoqi@0	221	_xmm_regs[3] = xmm3;
aoqi@0	222	_xmm_regs[4] = xmm4;
aoqi@0	223	_xmm_regs[5] = xmm5;
aoqi@0	224	_xmm_regs[6] = xmm6;
aoqi@0	225	_xmm_regs[7] = xmm7;
aoqi@0	226
aoqi@0	227	#ifdef _LP64
aoqi@0	228	_xmm_regs[8] = xmm8;
aoqi@0	229	_xmm_regs[9] = xmm9;
aoqi@0	230	_xmm_regs[10] = xmm10;
aoqi@0	231	_xmm_regs[11] = xmm11;
aoqi@0	232	_xmm_regs[12] = xmm12;
aoqi@0	233	_xmm_regs[13] = xmm13;
aoqi@0	234	_xmm_regs[14] = xmm14;
aoqi@0	235	_xmm_regs[15] = xmm15;
aoqi@0	236	#endif // _LP64
aoqi@0	237
aoqi@0	238	for (int i = 0; i < 8; i++) {
aoqi@0	239	_caller_save_fpu_regs[i] = LIR_OprFact::single_fpu(i);
aoqi@0	240	}
aoqi@0	241
aoqi@0	242	for (int i = 0; i < nof_caller_save_xmm_regs ; i++) {
aoqi@0	243	_caller_save_xmm_regs[i] = LIR_OprFact::single_xmm(i);
aoqi@0	244	}
aoqi@0	245
aoqi@0	246	_init_done = true;
aoqi@0	247
aoqi@0	248	rsi_oop_opr = as_oop_opr(rsi);
aoqi@0	249	rdi_oop_opr = as_oop_opr(rdi);
aoqi@0	250	rbx_oop_opr = as_oop_opr(rbx);
aoqi@0	251	rax_oop_opr = as_oop_opr(rax);
aoqi@0	252	rdx_oop_opr = as_oop_opr(rdx);
aoqi@0	253	rcx_oop_opr = as_oop_opr(rcx);
aoqi@0	254
aoqi@0	255	rsi_metadata_opr = as_metadata_opr(rsi);
aoqi@0	256	rdi_metadata_opr = as_metadata_opr(rdi);
aoqi@0	257	rbx_metadata_opr = as_metadata_opr(rbx);
aoqi@0	258	rax_metadata_opr = as_metadata_opr(rax);
aoqi@0	259	rdx_metadata_opr = as_metadata_opr(rdx);
aoqi@0	260	rcx_metadata_opr = as_metadata_opr(rcx);
aoqi@0	261
aoqi@0	262	rsp_opr = as_pointer_opr(rsp);
aoqi@0	263	rbp_opr = as_pointer_opr(rbp);
aoqi@0	264
aoqi@0	265	#ifdef _LP64
aoqi@0	266	r8_oop_opr = as_oop_opr(r8);
aoqi@0	267	r9_oop_opr = as_oop_opr(r9);
aoqi@0	268	r11_oop_opr = as_oop_opr(r11);
aoqi@0	269	r12_oop_opr = as_oop_opr(r12);
aoqi@0	270	r13_oop_opr = as_oop_opr(r13);
aoqi@0	271	r14_oop_opr = as_oop_opr(r14);
aoqi@0	272
aoqi@0	273	r8_metadata_opr = as_metadata_opr(r8);
aoqi@0	274	r9_metadata_opr = as_metadata_opr(r9);
aoqi@0	275	r11_metadata_opr = as_metadata_opr(r11);
aoqi@0	276	r12_metadata_opr = as_metadata_opr(r12);
aoqi@0	277	r13_metadata_opr = as_metadata_opr(r13);
aoqi@0	278	r14_metadata_opr = as_metadata_opr(r14);
aoqi@0	279	#endif // _LP64
aoqi@0	280
aoqi@0	281	VMRegPair regs;
aoqi@0	282	BasicType sig_bt = T_OBJECT;
aoqi@0	283	SharedRuntime::java_calling_convention(&sig_bt, &regs, 1, true);
aoqi@0	284	receiver_opr = as_oop_opr(regs.first()->as_Register());
aoqi@0	285
aoqi@0	286	}
aoqi@0	287
aoqi@0	288
aoqi@0	289	Address FrameMap::make_new_address(ByteSize sp_offset) const {
aoqi@0	290	// for rbp, based address use this:
aoqi@0	291	// return Address(rbp, in_bytes(sp_offset) - (framesize() - 2) * 4);
aoqi@0	292	return Address(rsp, in_bytes(sp_offset));
aoqi@0	293	}
aoqi@0	294
aoqi@0	295
aoqi@0	296	// ----------------mapping-----------------------
aoqi@0	297	// all mapping is based on rbp, addressing, except for simple leaf methods where we access
aoqi@0	298	// the locals rsp based (and no frame is built)
aoqi@0	299
aoqi@0	300
aoqi@0	301	// Frame for simple leaf methods (quick entries)
aoqi@0	302	//
aoqi@0	303	// +----------+
aoqi@0	304	// | ret addr | <- TOS
aoqi@0	305	// +----------+
aoqi@0	306	// | args |
aoqi@0	307	// | ...... |
aoqi@0	308
aoqi@0	309	// Frame for standard methods
aoqi@0	310	//
aoqi@0	311	// | .........| <- TOS
aoqi@0	312	// | locals |
aoqi@0	313	// +----------+
aoqi@0	314	// | old rbp, | <- EBP
aoqi@0	315	// +----------+
aoqi@0	316	// | ret addr |
aoqi@0	317	// +----------+
aoqi@0	318	// | args |
aoqi@0	319	// | .........|
aoqi@0	320
aoqi@0	321
aoqi@0	322	// For OopMaps, map a local variable or spill index to an VMRegImpl name.
aoqi@0	323	// This is the offset from sp() in the frame of the slot for the index,
aoqi@0	324	// skewed by VMRegImpl::stack0 to indicate a stack location (vs.a register.)
aoqi@0	325	//
aoqi@0	326	// framesize +
aoqi@0	327	// stack0 stack0 0 <- VMReg
aoqi@0	328	// | | <registers> |
aoqi@0	329	// ...........|..............|.............|
aoqi@0	330	// 0 1 2 3 x x 4 5 6 ... | <- local indices
aoqi@0	331	// ^ ^ sp() ( x x indicate link
aoqi@0	332	// | | and return addr)
aoqi@0	333	// arguments non-argument locals
aoqi@0	334
aoqi@0	335
aoqi@0	336	VMReg FrameMap::fpu_regname (int n) {
aoqi@0	337	// Return the OptoReg name for the fpu stack slot "n"
aoqi@0	338	// A spilled fpu stack slot comprises to two single-word OptoReg's.
aoqi@0	339	return as_FloatRegister(n)->as_VMReg();
aoqi@0	340	}
aoqi@0	341
aoqi@0	342	LIR_Opr FrameMap::stack_pointer() {
aoqi@0	343	return FrameMap::rsp_opr;
aoqi@0	344	}
aoqi@0	345
aoqi@0	346	// JSR 292
zmajo@7854	347	// On x86, there is no need to save the SP, because neither
zmajo@7854	348	// method handle intrinsics, nor compiled lambda forms modify it.
aoqi@0	349	LIR_Opr FrameMap::method_handle_invoke_SP_save_opr() {
zmajo@7854	350	return LIR_OprFact::illegalOpr;
aoqi@0	351	}
aoqi@0	352
aoqi@0	353	bool FrameMap::validate_frame() {
aoqi@0	354	return true;
aoqi@0	355	}