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Daniel Dunbar40eb7f02010-02-21 21:54:14 +00001//===-- X86AsmBackend.cpp - X86 Assembler Backend -------------------------===//
2//
3// The LLVM Compiler Infrastructure
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
9
Evan Chengb2531002011-07-25 19:33:48 +000010#include "MCTargetDesc/X86BaseInfo.h"
Evan Cheng7e763d82011-07-25 18:43:53 +000011#include "MCTargetDesc/X86FixupKinds.h"
Jim Grosbach664d1482013-11-16 00:52:57 +000012#include "llvm/ADT/StringSwitch.h"
Zachary Turner264b5d92017-06-07 03:48:56 +000013#include "llvm/BinaryFormat/ELF.h"
14#include "llvm/BinaryFormat/MachO.h"
Craig Topperb25fda92012-03-17 18:46:09 +000015#include "llvm/MC/MCAsmBackend.h"
Rafael Espindolaf0e24d42010-12-17 16:59:53 +000016#include "llvm/MC/MCELFObjectWriter.h"
Daniel Dunbar358b29c2010-05-06 20:34:01 +000017#include "llvm/MC/MCExpr.h"
Daniel Dunbar0c9d9fd2010-12-16 03:20:06 +000018#include "llvm/MC/MCFixupKindInfo.h"
Pete Cooper3de83e42015-05-15 21:58:42 +000019#include "llvm/MC/MCInst.h"
Daniel Dunbar73b87132010-12-16 16:08:33 +000020#include "llvm/MC/MCMachObjectWriter.h"
Daniel Dunbar86face82010-03-23 03:13:05 +000021#include "llvm/MC/MCObjectWriter.h"
Pete Cooper3de83e42015-05-15 21:58:42 +000022#include "llvm/MC/MCRegisterInfo.h"
Daniel Dunbarfe8d8662010-03-15 21:56:50 +000023#include "llvm/MC/MCSectionMachO.h"
Nirav Dave57033c62016-07-11 14:32:57 +000024#include "llvm/MC/MCSubtargetInfo.h"
Daniel Dunbare0c43572010-03-23 01:39:09 +000025#include "llvm/Support/ErrorHandling.h"
26#include "llvm/Support/raw_ostream.h"
Daniel Dunbar40eb7f02010-02-21 21:54:14 +000027using namespace llvm;
28
Daniel Dunbarf0517ef2010-03-19 09:28:12 +000029static unsigned getFixupKindLog2Size(unsigned Kind) {
30 switch (Kind) {
Rafael Espindola83752532014-04-21 21:00:58 +000031 default:
32 llvm_unreachable("invalid fixup kind!");
Rafael Espindola8a3a7922010-11-28 14:17:56 +000033 case FK_PCRel_1:
Rafael Espindolaa56ab0ed2011-12-24 14:47:52 +000034 case FK_SecRel_1:
Rafael Espindola83752532014-04-21 21:00:58 +000035 case FK_Data_1:
36 return 0;
Rafael Espindola8a3a7922010-11-28 14:17:56 +000037 case FK_PCRel_2:
Rafael Espindolaa56ab0ed2011-12-24 14:47:52 +000038 case FK_SecRel_2:
Rafael Espindola83752532014-04-21 21:00:58 +000039 case FK_Data_2:
40 return 1;
Rafael Espindola8a3a7922010-11-28 14:17:56 +000041 case FK_PCRel_4:
Daniel Dunbarf0517ef2010-03-19 09:28:12 +000042 case X86::reloc_riprel_4byte:
Rafael Espindola52bd3302016-05-28 15:51:38 +000043 case X86::reloc_riprel_4byte_relax:
44 case X86::reloc_riprel_4byte_relax_rex:
Daniel Dunbarf0517ef2010-03-19 09:28:12 +000045 case X86::reloc_riprel_4byte_movq_load:
Rafael Espindola70d6e0e2010-09-30 03:11:42 +000046 case X86::reloc_signed_4byte:
Rafael Espindolaa29971f2016-07-06 21:19:11 +000047 case X86::reloc_signed_4byte_relax:
Rafael Espindola800fd352010-10-24 17:35:42 +000048 case X86::reloc_global_offset_table:
Rafael Espindolaa56ab0ed2011-12-24 14:47:52 +000049 case FK_SecRel_4:
Rafael Espindola83752532014-04-21 21:00:58 +000050 case FK_Data_4:
51 return 2;
Rafael Espindola2ac83552010-12-27 00:36:05 +000052 case FK_PCRel_8:
Rafael Espindolaa56ab0ed2011-12-24 14:47:52 +000053 case FK_SecRel_8:
Rafael Espindola83752532014-04-21 21:00:58 +000054 case FK_Data_8:
Rafael Espindola6c76d1d2014-04-21 21:15:45 +000055 case X86::reloc_global_offset_table8:
Rafael Espindola83752532014-04-21 21:00:58 +000056 return 3;
Daniel Dunbarf0517ef2010-03-19 09:28:12 +000057 }
58}
59
Chris Lattnerac588122010-07-07 22:27:31 +000060namespace {
Daniel Dunbar8888a962010-12-16 16:09:19 +000061
Rafael Espindola6b5e56c2010-12-17 17:45:22 +000062class X86ELFObjectWriter : public MCELFObjectTargetWriter {
63public:
Rafael Espindola1ad40952011-12-21 17:00:36 +000064 X86ELFObjectWriter(bool is64Bit, uint8_t OSABI, uint16_t EMachine,
65 bool HasRelocationAddend, bool foobar)
66 : MCELFObjectTargetWriter(is64Bit, OSABI, EMachine, HasRelocationAddend) {}
Rafael Espindola6b5e56c2010-12-17 17:45:22 +000067};
68
Evan Cheng5928e692011-07-25 23:24:55 +000069class X86AsmBackend : public MCAsmBackend {
Alexey Volkov302309f2014-07-04 07:14:56 +000070 const StringRef CPU;
Rafael Espindolaa834e302013-11-25 20:50:03 +000071 bool HasNopl;
Hans Wennborg7c3077c2016-02-19 21:26:31 +000072 const uint64_t MaxNopLength;
Daniel Dunbar40eb7f02010-02-21 21:54:14 +000073public:
Hans Wennborg7c3077c2016-02-19 21:26:31 +000074 X86AsmBackend(const Target &T, StringRef CPU)
Andrey Turetskiy9df334c2016-04-11 10:07:36 +000075 : MCAsmBackend(), CPU(CPU),
Craig Topper1af2adb2017-11-13 08:17:30 +000076 MaxNopLength((CPU == "slm" || CPU == "silvermont") ? 7 : 15) {
Rafael Espindolaa834e302013-11-25 20:50:03 +000077 HasNopl = CPU != "generic" && CPU != "i386" && CPU != "i486" &&
78 CPU != "i586" && CPU != "pentium" && CPU != "pentium-mmx" &&
79 CPU != "i686" && CPU != "k6" && CPU != "k6-2" && CPU != "k6-3" &&
80 CPU != "geode" && CPU != "winchip-c6" && CPU != "winchip2" &&
Craig Topperf19121d2017-12-18 23:31:43 +000081 CPU != "c3" && CPU != "c3-2" && CPU != "lakemont" && CPU != "";
Rafael Espindolaa834e302013-11-25 20:50:03 +000082 }
Daniel Dunbarf0517ef2010-03-19 09:28:12 +000083
Craig Topper39012cc2014-03-09 18:03:14 +000084 unsigned getNumFixupKinds() const override {
Daniel Dunbar0c9d9fd2010-12-16 03:20:06 +000085 return X86::NumTargetFixupKinds;
86 }
87
Craig Topper39012cc2014-03-09 18:03:14 +000088 const MCFixupKindInfo &getFixupKindInfo(MCFixupKind Kind) const override {
Daniel Dunbar0c9d9fd2010-12-16 03:20:06 +000089 const static MCFixupKindInfo Infos[X86::NumTargetFixupKinds] = {
Rafael Espindola2d39bb32016-05-28 11:13:34 +000090 {"reloc_riprel_4byte", 0, 32, MCFixupKindInfo::FKF_IsPCRel},
91 {"reloc_riprel_4byte_movq_load", 0, 32, MCFixupKindInfo::FKF_IsPCRel},
Rafael Espindola52bd3302016-05-28 15:51:38 +000092 {"reloc_riprel_4byte_relax", 0, 32, MCFixupKindInfo::FKF_IsPCRel},
93 {"reloc_riprel_4byte_relax_rex", 0, 32, MCFixupKindInfo::FKF_IsPCRel},
Rafael Espindola2d39bb32016-05-28 11:13:34 +000094 {"reloc_signed_4byte", 0, 32, 0},
Rafael Espindolaa29971f2016-07-06 21:19:11 +000095 {"reloc_signed_4byte_relax", 0, 32, 0},
Rafael Espindola2d39bb32016-05-28 11:13:34 +000096 {"reloc_global_offset_table", 0, 32, 0},
97 {"reloc_global_offset_table8", 0, 64, 0},
Daniel Dunbar0c9d9fd2010-12-16 03:20:06 +000098 };
99
100 if (Kind < FirstTargetFixupKind)
Evan Cheng5928e692011-07-25 23:24:55 +0000101 return MCAsmBackend::getFixupKindInfo(Kind);
Daniel Dunbar0c9d9fd2010-12-16 03:20:06 +0000102
103 assert(unsigned(Kind - FirstTargetFixupKind) < getNumFixupKinds() &&
104 "Invalid kind!");
105 return Infos[Kind - FirstTargetFixupKind];
106 }
107
Rafael Espindola801b42d2017-06-23 22:52:36 +0000108 void applyFixup(const MCAssembler &Asm, const MCFixup &Fixup,
109 const MCValue &Target, MutableArrayRef<char> Data,
Rafael Espindola1beb7022017-07-11 23:18:25 +0000110 uint64_t Value, bool IsResolved) const override {
Daniel Dunbar353a91ff2010-05-26 15:18:31 +0000111 unsigned Size = 1 << getFixupKindLog2Size(Fixup.getKind());
Daniel Dunbarf0517ef2010-03-19 09:28:12 +0000112
Rafael Espindola88d9e372017-06-21 23:06:53 +0000113 assert(Fixup.getOffset() + Size <= Data.size() && "Invalid fixup offset!");
Jason W Kime4df09f2011-08-04 00:38:45 +0000114
Jason W Kim239370c2011-08-05 00:53:03 +0000115 // Check that uppper bits are either all zeros or all ones.
116 // Specifically ignore overflow/underflow as long as the leakage is
117 // limited to the lower bits. This is to remain compatible with
118 // other assemblers.
Eli Friedmana5abd032011-10-13 23:27:48 +0000119 assert(isIntN(Size * 8 + 1, Value) &&
Jason W Kim239370c2011-08-05 00:53:03 +0000120 "Value does not fit in the Fixup field");
Jason W Kime4df09f2011-08-04 00:38:45 +0000121
Daniel Dunbarf0517ef2010-03-19 09:28:12 +0000122 for (unsigned i = 0; i != Size; ++i)
Rafael Espindola0f30fec2010-12-06 19:08:48 +0000123 Data[Fixup.getOffset() + i] = uint8_t(Value >> (i * 8));
Daniel Dunbarf0517ef2010-03-19 09:28:12 +0000124 }
Daniel Dunbare0c43572010-03-23 01:39:09 +0000125
Craig Topper39012cc2014-03-09 18:03:14 +0000126 bool mayNeedRelaxation(const MCInst &Inst) const override;
Daniel Dunbar86face82010-03-23 03:13:05 +0000127
Craig Topper39012cc2014-03-09 18:03:14 +0000128 bool fixupNeedsRelaxation(const MCFixup &Fixup, uint64_t Value,
Eli Bendersky4d9ada02013-01-08 00:22:56 +0000129 const MCRelaxableFragment *DF,
Craig Topper39012cc2014-03-09 18:03:14 +0000130 const MCAsmLayout &Layout) const override;
Jim Grosbach25b63fa2011-12-06 00:47:03 +0000131
Nirav Dave86030622016-07-11 14:23:53 +0000132 void relaxInstruction(const MCInst &Inst, const MCSubtargetInfo &STI,
133 MCInst &Res) const override;
Daniel Dunbara9ae3ae2010-03-23 02:36:58 +0000134
Craig Topper39012cc2014-03-09 18:03:14 +0000135 bool writeNopData(uint64_t Count, MCObjectWriter *OW) const override;
Daniel Dunbar40eb7f02010-02-21 21:54:14 +0000136};
Michael J. Spencerbee1f7f2010-10-10 22:04:20 +0000137} // end anonymous namespace
Daniel Dunbar40eb7f02010-02-21 21:54:14 +0000138
Nirav Dave86030622016-07-11 14:23:53 +0000139static unsigned getRelaxedOpcodeBranch(const MCInst &Inst, bool is16BitMode) {
140 unsigned Op = Inst.getOpcode();
Daniel Dunbare0c43572010-03-23 01:39:09 +0000141 switch (Op) {
142 default:
143 return Op;
Nirav Dave86030622016-07-11 14:23:53 +0000144 case X86::JAE_1:
145 return (is16BitMode) ? X86::JAE_2 : X86::JAE_4;
146 case X86::JA_1:
147 return (is16BitMode) ? X86::JA_2 : X86::JA_4;
148 case X86::JBE_1:
149 return (is16BitMode) ? X86::JBE_2 : X86::JBE_4;
150 case X86::JB_1:
151 return (is16BitMode) ? X86::JB_2 : X86::JB_4;
152 case X86::JE_1:
153 return (is16BitMode) ? X86::JE_2 : X86::JE_4;
154 case X86::JGE_1:
155 return (is16BitMode) ? X86::JGE_2 : X86::JGE_4;
156 case X86::JG_1:
157 return (is16BitMode) ? X86::JG_2 : X86::JG_4;
158 case X86::JLE_1:
159 return (is16BitMode) ? X86::JLE_2 : X86::JLE_4;
160 case X86::JL_1:
161 return (is16BitMode) ? X86::JL_2 : X86::JL_4;
162 case X86::JMP_1:
163 return (is16BitMode) ? X86::JMP_2 : X86::JMP_4;
164 case X86::JNE_1:
165 return (is16BitMode) ? X86::JNE_2 : X86::JNE_4;
166 case X86::JNO_1:
167 return (is16BitMode) ? X86::JNO_2 : X86::JNO_4;
168 case X86::JNP_1:
169 return (is16BitMode) ? X86::JNP_2 : X86::JNP_4;
170 case X86::JNS_1:
171 return (is16BitMode) ? X86::JNS_2 : X86::JNS_4;
172 case X86::JO_1:
173 return (is16BitMode) ? X86::JO_2 : X86::JO_4;
174 case X86::JP_1:
175 return (is16BitMode) ? X86::JP_2 : X86::JP_4;
176 case X86::JS_1:
177 return (is16BitMode) ? X86::JS_2 : X86::JS_4;
Daniel Dunbare0c43572010-03-23 01:39:09 +0000178 }
179}
180
Nirav Dave86030622016-07-11 14:23:53 +0000181static unsigned getRelaxedOpcodeArith(const MCInst &Inst) {
182 unsigned Op = Inst.getOpcode();
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000183 switch (Op) {
184 default:
185 return Op;
186
187 // IMUL
188 case X86::IMUL16rri8: return X86::IMUL16rri;
189 case X86::IMUL16rmi8: return X86::IMUL16rmi;
190 case X86::IMUL32rri8: return X86::IMUL32rri;
191 case X86::IMUL32rmi8: return X86::IMUL32rmi;
192 case X86::IMUL64rri8: return X86::IMUL64rri32;
193 case X86::IMUL64rmi8: return X86::IMUL64rmi32;
194
195 // AND
196 case X86::AND16ri8: return X86::AND16ri;
197 case X86::AND16mi8: return X86::AND16mi;
198 case X86::AND32ri8: return X86::AND32ri;
199 case X86::AND32mi8: return X86::AND32mi;
200 case X86::AND64ri8: return X86::AND64ri32;
201 case X86::AND64mi8: return X86::AND64mi32;
202
203 // OR
204 case X86::OR16ri8: return X86::OR16ri;
205 case X86::OR16mi8: return X86::OR16mi;
206 case X86::OR32ri8: return X86::OR32ri;
207 case X86::OR32mi8: return X86::OR32mi;
208 case X86::OR64ri8: return X86::OR64ri32;
209 case X86::OR64mi8: return X86::OR64mi32;
210
211 // XOR
212 case X86::XOR16ri8: return X86::XOR16ri;
213 case X86::XOR16mi8: return X86::XOR16mi;
214 case X86::XOR32ri8: return X86::XOR32ri;
215 case X86::XOR32mi8: return X86::XOR32mi;
216 case X86::XOR64ri8: return X86::XOR64ri32;
217 case X86::XOR64mi8: return X86::XOR64mi32;
218
219 // ADD
220 case X86::ADD16ri8: return X86::ADD16ri;
221 case X86::ADD16mi8: return X86::ADD16mi;
222 case X86::ADD32ri8: return X86::ADD32ri;
223 case X86::ADD32mi8: return X86::ADD32mi;
224 case X86::ADD64ri8: return X86::ADD64ri32;
225 case X86::ADD64mi8: return X86::ADD64mi32;
226
Quentin Colombet2cb8a512015-12-14 23:12:40 +0000227 // ADC
228 case X86::ADC16ri8: return X86::ADC16ri;
229 case X86::ADC16mi8: return X86::ADC16mi;
230 case X86::ADC32ri8: return X86::ADC32ri;
231 case X86::ADC32mi8: return X86::ADC32mi;
232 case X86::ADC64ri8: return X86::ADC64ri32;
233 case X86::ADC64mi8: return X86::ADC64mi32;
234
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000235 // SUB
236 case X86::SUB16ri8: return X86::SUB16ri;
237 case X86::SUB16mi8: return X86::SUB16mi;
238 case X86::SUB32ri8: return X86::SUB32ri;
239 case X86::SUB32mi8: return X86::SUB32mi;
240 case X86::SUB64ri8: return X86::SUB64ri32;
241 case X86::SUB64mi8: return X86::SUB64mi32;
242
Quentin Colombet25b43f32015-12-15 00:09:23 +0000243 // SBB
244 case X86::SBB16ri8: return X86::SBB16ri;
245 case X86::SBB16mi8: return X86::SBB16mi;
246 case X86::SBB32ri8: return X86::SBB32ri;
247 case X86::SBB32mi8: return X86::SBB32mi;
248 case X86::SBB64ri8: return X86::SBB64ri32;
249 case X86::SBB64mi8: return X86::SBB64mi32;
250
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000251 // CMP
252 case X86::CMP16ri8: return X86::CMP16ri;
253 case X86::CMP16mi8: return X86::CMP16mi;
254 case X86::CMP32ri8: return X86::CMP32ri;
255 case X86::CMP32mi8: return X86::CMP32mi;
256 case X86::CMP64ri8: return X86::CMP64ri32;
257 case X86::CMP64mi8: return X86::CMP64mi32;
Rafael Espindola625ccf82010-12-18 01:01:34 +0000258
259 // PUSH
David Woodhouse8bceb5d2014-01-08 12:58:32 +0000260 case X86::PUSH32i8: return X86::PUSHi32;
261 case X86::PUSH16i8: return X86::PUSHi16;
262 case X86::PUSH64i8: return X86::PUSH64i32;
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000263 }
264}
265
Nirav Dave86030622016-07-11 14:23:53 +0000266static unsigned getRelaxedOpcode(const MCInst &Inst, bool is16BitMode) {
267 unsigned R = getRelaxedOpcodeArith(Inst);
268 if (R != Inst.getOpcode())
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000269 return R;
Nirav Dave86030622016-07-11 14:23:53 +0000270 return getRelaxedOpcodeBranch(Inst, is16BitMode);
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000271}
272
Jim Grosbachaba3de92012-01-18 18:52:16 +0000273bool X86AsmBackend::mayNeedRelaxation(const MCInst &Inst) const {
Nirav Dave86030622016-07-11 14:23:53 +0000274 // Branches can always be relaxed in either mode.
275 if (getRelaxedOpcodeBranch(Inst, false) != Inst.getOpcode())
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000276 return true;
277
Daniel Dunbara19838e2010-05-26 17:45:29 +0000278 // Check if this instruction is ever relaxable.
Nirav Dave86030622016-07-11 14:23:53 +0000279 if (getRelaxedOpcodeArith(Inst) == Inst.getOpcode())
Daniel Dunbara19838e2010-05-26 17:45:29 +0000280 return false;
Daniel Dunbar353a91ff2010-05-26 15:18:31 +0000281
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000282
Michael Kuperstein21a3c182015-07-01 10:54:42 +0000283 // Check if the relaxable operand has an expression. For the current set of
284 // relaxable instructions, the relaxable operand is always the last operand.
285 unsigned RelaxableOp = Inst.getNumOperands() - 1;
286 if (Inst.getOperand(RelaxableOp).isExpr())
287 return true;
Rafael Espindolae8ae98812010-10-26 14:09:12 +0000288
Michael Kuperstein21a3c182015-07-01 10:54:42 +0000289 return false;
Daniel Dunbar86face82010-03-23 03:13:05 +0000290}
291
Jim Grosbach25b63fa2011-12-06 00:47:03 +0000292bool X86AsmBackend::fixupNeedsRelaxation(const MCFixup &Fixup,
293 uint64_t Value,
Eli Bendersky4d9ada02013-01-08 00:22:56 +0000294 const MCRelaxableFragment *DF,
Jim Grosbach25b63fa2011-12-06 00:47:03 +0000295 const MCAsmLayout &Layout) const {
296 // Relax if the value is too big for a (signed) i8.
297 return int64_t(Value) != int64_t(int8_t(Value));
298}
299
Daniel Dunbare0c43572010-03-23 01:39:09 +0000300// FIXME: Can tblgen help at all here to verify there aren't other instructions
301// we can relax?
Nirav Dave86030622016-07-11 14:23:53 +0000302void X86AsmBackend::relaxInstruction(const MCInst &Inst,
303 const MCSubtargetInfo &STI,
304 MCInst &Res) const {
Daniel Dunbare0c43572010-03-23 01:39:09 +0000305 // The only relaxations X86 does is from a 1byte pcrel to a 4byte pcrel.
Nirav Dave86030622016-07-11 14:23:53 +0000306 bool is16BitMode = STI.getFeatureBits()[X86::Mode16Bit];
307 unsigned RelaxedOp = getRelaxedOpcode(Inst, is16BitMode);
Daniel Dunbare0c43572010-03-23 01:39:09 +0000308
Daniel Dunbar7c8bd0f2010-05-26 18:15:06 +0000309 if (RelaxedOp == Inst.getOpcode()) {
Alp Tokere69170a2014-06-26 22:52:05 +0000310 SmallString<256> Tmp;
311 raw_svector_ostream OS(Tmp);
Daniel Dunbar7c8bd0f2010-05-26 18:15:06 +0000312 Inst.dump_pretty(OS);
Daniel Dunbar3627af52010-05-26 15:18:13 +0000313 OS << "\n";
Chris Lattner2104b8d2010-04-07 22:58:41 +0000314 report_fatal_error("unexpected instruction to relax: " + OS.str());
Daniel Dunbare0c43572010-03-23 01:39:09 +0000315 }
316
Daniel Dunbar7c8bd0f2010-05-26 18:15:06 +0000317 Res = Inst;
Daniel Dunbare0c43572010-03-23 01:39:09 +0000318 Res.setOpcode(RelaxedOp);
319}
320
Eli Benderskyb2022f32012-12-13 00:24:56 +0000321/// \brief Write a sequence of optimal nops to the output, covering \p Count
322/// bytes.
323/// \return - true on success, false on failure
Jim Grosbachaba3de92012-01-18 18:52:16 +0000324bool X86AsmBackend::writeNopData(uint64_t Count, MCObjectWriter *OW) const {
Hans Wennborg7c3077c2016-02-19 21:26:31 +0000325 static const uint8_t Nops[10][10] = {
Daniel Dunbara9ae3ae2010-03-23 02:36:58 +0000326 // nop
327 {0x90},
328 // xchg %ax,%ax
329 {0x66, 0x90},
330 // nopl (%[re]ax)
331 {0x0f, 0x1f, 0x00},
332 // nopl 0(%[re]ax)
333 {0x0f, 0x1f, 0x40, 0x00},
334 // nopl 0(%[re]ax,%[re]ax,1)
335 {0x0f, 0x1f, 0x44, 0x00, 0x00},
336 // nopw 0(%[re]ax,%[re]ax,1)
337 {0x66, 0x0f, 0x1f, 0x44, 0x00, 0x00},
338 // nopl 0L(%[re]ax)
339 {0x0f, 0x1f, 0x80, 0x00, 0x00, 0x00, 0x00},
340 // nopl 0L(%[re]ax,%[re]ax,1)
341 {0x0f, 0x1f, 0x84, 0x00, 0x00, 0x00, 0x00, 0x00},
342 // nopw 0L(%[re]ax,%[re]ax,1)
343 {0x66, 0x0f, 0x1f, 0x84, 0x00, 0x00, 0x00, 0x00, 0x00},
344 // nopw %cs:0L(%[re]ax,%[re]ax,1)
345 {0x66, 0x2e, 0x0f, 0x1f, 0x84, 0x00, 0x00, 0x00, 0x00, 0x00},
Daniel Dunbara9ae3ae2010-03-23 02:36:58 +0000346 };
347
Hans Wennborg7c3077c2016-02-19 21:26:31 +0000348 // This CPU doesn't support long nops. If needed add more.
349 // FIXME: Can we get this from the subtarget somehow?
350 // FIXME: We could generated something better than plain 0x90.
351 if (!HasNopl) {
352 for (uint64_t i = 0; i < Count; ++i)
353 OW->write8(0x90);
354 return true;
355 }
Roman Divacky5dd4ccb2012-09-18 16:08:49 +0000356
Hans Wennborg7c3077c2016-02-19 21:26:31 +0000357 // 15 is the longest single nop instruction. Emit as many 15-byte nops as
358 // needed, then emit a nop of the remaining length.
David Sehr4c8979c2013-03-05 00:02:23 +0000359 do {
Alexey Volkov302309f2014-07-04 07:14:56 +0000360 const uint8_t ThisNopLength = (uint8_t) std::min(Count, MaxNopLength);
David Sehr4c8979c2013-03-05 00:02:23 +0000361 const uint8_t Prefixes = ThisNopLength <= 10 ? 0 : ThisNopLength - 10;
362 for (uint8_t i = 0; i < Prefixes; i++)
Jim Grosbach36e60e92015-06-04 22:24:41 +0000363 OW->write8(0x66);
David Sehr4c8979c2013-03-05 00:02:23 +0000364 const uint8_t Rest = ThisNopLength - Prefixes;
365 for (uint8_t i = 0; i < Rest; i++)
Jim Grosbach36e60e92015-06-04 22:24:41 +0000366 OW->write8(Nops[Rest - 1][i]);
David Sehr4c8979c2013-03-05 00:02:23 +0000367 Count -= ThisNopLength;
368 } while (Count != 0);
Daniel Dunbara9ae3ae2010-03-23 02:36:58 +0000369
370 return true;
371}
372
Daniel Dunbare0c43572010-03-23 01:39:09 +0000373/* *** */
374
Chris Lattnerac588122010-07-07 22:27:31 +0000375namespace {
Bill Wendling184d5d32013-09-11 20:38:09 +0000376
Daniel Dunbarc5084cc2010-03-19 09:29:03 +0000377class ELFX86AsmBackend : public X86AsmBackend {
378public:
Rafael Espindola1ad40952011-12-21 17:00:36 +0000379 uint8_t OSABI;
David Blaikie9f380a32015-03-16 18:06:57 +0000380 ELFX86AsmBackend(const Target &T, uint8_t OSABI, StringRef CPU)
381 : X86AsmBackend(T, CPU), OSABI(OSABI) {}
Daniel Dunbarc5084cc2010-03-19 09:29:03 +0000382};
383
Matt Fleming5abb6dd2010-05-21 11:39:07 +0000384class ELFX86_32AsmBackend : public ELFX86AsmBackend {
385public:
Roman Divacky5dd4ccb2012-09-18 16:08:49 +0000386 ELFX86_32AsmBackend(const Target &T, uint8_t OSABI, StringRef CPU)
387 : ELFX86AsmBackend(T, OSABI, CPU) {}
Matt Flemingf751d852010-08-16 18:36:14 +0000388
Lang Hames60fbc7c2017-10-10 16:28:07 +0000389 std::unique_ptr<MCObjectWriter>
390 createObjectWriter(raw_pwrite_stream &OS) const override {
Michael Liao83a77c32012-10-30 17:33:39 +0000391 return createX86ELFObjectWriter(OS, /*IsELF64*/ false, OSABI, ELF::EM_386);
Jan Sjödin6348dc02011-03-09 18:44:41 +0000392 }
Matt Fleming5abb6dd2010-05-21 11:39:07 +0000393};
394
Zinovy Niscad431c2014-07-10 13:03:26 +0000395class ELFX86_X32AsmBackend : public ELFX86AsmBackend {
396public:
397 ELFX86_X32AsmBackend(const Target &T, uint8_t OSABI, StringRef CPU)
398 : ELFX86AsmBackend(T, OSABI, CPU) {}
399
Lang Hames60fbc7c2017-10-10 16:28:07 +0000400 std::unique_ptr<MCObjectWriter>
401 createObjectWriter(raw_pwrite_stream &OS) const override {
Zinovy Niscad431c2014-07-10 13:03:26 +0000402 return createX86ELFObjectWriter(OS, /*IsELF64*/ false, OSABI,
403 ELF::EM_X86_64);
404 }
405};
406
Michael Kupersteina3b79dd2015-11-04 11:21:50 +0000407class ELFX86_IAMCUAsmBackend : public ELFX86AsmBackend {
408public:
409 ELFX86_IAMCUAsmBackend(const Target &T, uint8_t OSABI, StringRef CPU)
410 : ELFX86AsmBackend(T, OSABI, CPU) {}
411
Lang Hames60fbc7c2017-10-10 16:28:07 +0000412 std::unique_ptr<MCObjectWriter>
413 createObjectWriter(raw_pwrite_stream &OS) const override {
Michael Kupersteina3b79dd2015-11-04 11:21:50 +0000414 return createX86ELFObjectWriter(OS, /*IsELF64*/ false, OSABI,
415 ELF::EM_IAMCU);
416 }
417};
418
Matt Fleming5abb6dd2010-05-21 11:39:07 +0000419class ELFX86_64AsmBackend : public ELFX86AsmBackend {
420public:
Roman Divacky5dd4ccb2012-09-18 16:08:49 +0000421 ELFX86_64AsmBackend(const Target &T, uint8_t OSABI, StringRef CPU)
422 : ELFX86AsmBackend(T, OSABI, CPU) {}
Matt Flemingf751d852010-08-16 18:36:14 +0000423
Lang Hames60fbc7c2017-10-10 16:28:07 +0000424 std::unique_ptr<MCObjectWriter>
425 createObjectWriter(raw_pwrite_stream &OS) const override {
Michael Liao83a77c32012-10-30 17:33:39 +0000426 return createX86ELFObjectWriter(OS, /*IsELF64*/ true, OSABI, ELF::EM_X86_64);
Jan Sjödin6348dc02011-03-09 18:44:41 +0000427 }
Matt Fleming5abb6dd2010-05-21 11:39:07 +0000428};
429
Michael J. Spencerf8270bd2010-07-27 06:46:15 +0000430class WindowsX86AsmBackend : public X86AsmBackend {
Michael J. Spencer377aa202010-08-21 05:58:13 +0000431 bool Is64Bit;
Rafael Espindola4262a222010-10-16 18:23:53 +0000432
Michael J. Spencerf8270bd2010-07-27 06:46:15 +0000433public:
Roman Divacky5dd4ccb2012-09-18 16:08:49 +0000434 WindowsX86AsmBackend(const Target &T, bool is64Bit, StringRef CPU)
435 : X86AsmBackend(T, CPU)
Michael J. Spencer377aa202010-08-21 05:58:13 +0000436 , Is64Bit(is64Bit) {
Michael J. Spencerf8270bd2010-07-27 06:46:15 +0000437 }
438
David Majnemerce108422016-01-19 23:05:27 +0000439 Optional<MCFixupKind> getFixupKind(StringRef Name) const override {
440 return StringSwitch<Optional<MCFixupKind>>(Name)
441 .Case("dir32", FK_Data_4)
442 .Case("secrel32", FK_SecRel_4)
443 .Case("secidx", FK_SecRel_2)
444 .Default(MCAsmBackend::getFixupKind(Name));
445 }
446
Lang Hames60fbc7c2017-10-10 16:28:07 +0000447 std::unique_ptr<MCObjectWriter>
448 createObjectWriter(raw_pwrite_stream &OS) const override {
Rafael Espindola908d2ed2011-12-24 02:14:02 +0000449 return createX86WinCOFFObjectWriter(OS, Is64Bit);
Michael J. Spencerf8270bd2010-07-27 06:46:15 +0000450 }
Michael J. Spencerf8270bd2010-07-27 06:46:15 +0000451};
452
Bill Wendling184d5d32013-09-11 20:38:09 +0000453namespace CU {
454
455 /// Compact unwind encoding values.
456 enum CompactUnwindEncodings {
457 /// [RE]BP based frame where [RE]BP is pused on the stack immediately after
458 /// the return address, then [RE]SP is moved to [RE]BP.
459 UNWIND_MODE_BP_FRAME = 0x01000000,
460
461 /// A frameless function with a small constant stack size.
462 UNWIND_MODE_STACK_IMMD = 0x02000000,
463
464 /// A frameless function with a large constant stack size.
465 UNWIND_MODE_STACK_IND = 0x03000000,
466
467 /// No compact unwind encoding is available.
468 UNWIND_MODE_DWARF = 0x04000000,
469
470 /// Mask for encoding the frame registers.
471 UNWIND_BP_FRAME_REGISTERS = 0x00007FFF,
472
473 /// Mask for encoding the frameless registers.
474 UNWIND_FRAMELESS_STACK_REG_PERMUTATION = 0x000003FF
475 };
476
Alexander Kornienkof00654e2015-06-23 09:49:53 +0000477} // end CU namespace
Bill Wendling184d5d32013-09-11 20:38:09 +0000478
Daniel Dunbar77c41412010-03-11 01:34:21 +0000479class DarwinX86AsmBackend : public X86AsmBackend {
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000480 const MCRegisterInfo &MRI;
481
482 /// \brief Number of registers that can be saved in a compact unwind encoding.
483 enum { CU_NUM_SAVED_REGS = 6 };
484
485 mutable unsigned SavedRegs[CU_NUM_SAVED_REGS];
486 bool Is64Bit;
487
488 unsigned OffsetSize; ///< Offset of a "push" instruction.
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000489 unsigned MoveInstrSize; ///< Size of a "move" instruction.
Sanjay Patela065eb42014-08-29 15:32:09 +0000490 unsigned StackDivide; ///< Amount to adjust stack size by.
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000491protected:
Alexander Potapenkoc5785672014-09-03 07:37:20 +0000492 /// \brief Size of a "push" instruction for the given register.
493 unsigned PushInstrSize(unsigned Reg) const {
494 switch (Reg) {
495 case X86::EBX:
496 case X86::ECX:
497 case X86::EDX:
498 case X86::EDI:
499 case X86::ESI:
500 case X86::EBP:
501 case X86::RBX:
502 case X86::RBP:
503 return 1;
504 case X86::R12:
505 case X86::R13:
506 case X86::R14:
507 case X86::R15:
508 return 2;
509 }
510 return 1;
511 }
512
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000513 /// \brief Implementation of algorithm to generate the compact unwind encoding
514 /// for the CFI instructions.
515 uint32_t
516 generateCompactUnwindEncodingImpl(ArrayRef<MCCFIInstruction> Instrs) const {
517 if (Instrs.empty()) return 0;
518
519 // Reset the saved registers.
520 unsigned SavedRegIdx = 0;
521 memset(SavedRegs, 0, sizeof(SavedRegs));
522
523 bool HasFP = false;
524
525 // Encode that we are using EBP/RBP as the frame pointer.
526 uint32_t CompactUnwindEncoding = 0;
527
528 unsigned SubtractInstrIdx = Is64Bit ? 3 : 2;
529 unsigned InstrOffset = 0;
530 unsigned StackAdjust = 0;
531 unsigned StackSize = 0;
532 unsigned PrevStackSize = 0;
533 unsigned NumDefCFAOffsets = 0;
534
535 for (unsigned i = 0, e = Instrs.size(); i != e; ++i) {
536 const MCCFIInstruction &Inst = Instrs[i];
537
538 switch (Inst.getOperation()) {
539 default:
Jim Grosbach2fca51d2013-11-08 22:33:06 +0000540 // Any other CFI directives indicate a frame that we aren't prepared
541 // to represent via compact unwind, so just bail out.
542 return 0;
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000543 case MCCFIInstruction::OpDefCfaRegister: {
544 // Defines a frame pointer. E.g.
545 //
546 // movq %rsp, %rbp
547 // L0:
548 // .cfi_def_cfa_register %rbp
549 //
550 HasFP = true;
Saleem Abdulrasool03ffa792016-09-20 17:05:04 +0000551
552 // If the frame pointer is other than esp/rsp, we do not have a way to
553 // generate a compact unwinding representation, so bail out.
554 if (MRI.getLLVMRegNum(Inst.getRegister(), true) !=
555 (Is64Bit ? X86::RBP : X86::EBP))
556 return 0;
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000557
558 // Reset the counts.
559 memset(SavedRegs, 0, sizeof(SavedRegs));
560 StackAdjust = 0;
561 SavedRegIdx = 0;
562 InstrOffset += MoveInstrSize;
563 break;
564 }
565 case MCCFIInstruction::OpDefCfaOffset: {
566 // Defines a new offset for the CFA. E.g.
567 //
568 // With frame:
Michael Liao5bf95782014-12-04 05:20:33 +0000569 //
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000570 // pushq %rbp
571 // L0:
572 // .cfi_def_cfa_offset 16
573 //
574 // Without frame:
575 //
576 // subq $72, %rsp
577 // L0:
578 // .cfi_def_cfa_offset 80
579 //
580 PrevStackSize = StackSize;
581 StackSize = std::abs(Inst.getOffset()) / StackDivide;
582 ++NumDefCFAOffsets;
583 break;
584 }
585 case MCCFIInstruction::OpOffset: {
586 // Defines a "push" of a callee-saved register. E.g.
587 //
588 // pushq %r15
589 // pushq %r14
590 // pushq %rbx
591 // L0:
592 // subq $120, %rsp
593 // L1:
594 // .cfi_offset %rbx, -40
595 // .cfi_offset %r14, -32
596 // .cfi_offset %r15, -24
597 //
598 if (SavedRegIdx == CU_NUM_SAVED_REGS)
599 // If there are too many saved registers, we cannot use a compact
600 // unwind encoding.
601 return CU::UNWIND_MODE_DWARF;
602
603 unsigned Reg = MRI.getLLVMRegNum(Inst.getRegister(), true);
604 SavedRegs[SavedRegIdx++] = Reg;
605 StackAdjust += OffsetSize;
Alexander Potapenkoc5785672014-09-03 07:37:20 +0000606 InstrOffset += PushInstrSize(Reg);
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000607 break;
608 }
609 }
610 }
611
612 StackAdjust /= StackDivide;
613
614 if (HasFP) {
615 if ((StackAdjust & 0xFF) != StackAdjust)
616 // Offset was too big for a compact unwind encoding.
617 return CU::UNWIND_MODE_DWARF;
618
619 // Get the encoding of the saved registers when we have a frame pointer.
620 uint32_t RegEnc = encodeCompactUnwindRegistersWithFrame();
621 if (RegEnc == ~0U) return CU::UNWIND_MODE_DWARF;
622
623 CompactUnwindEncoding |= CU::UNWIND_MODE_BP_FRAME;
624 CompactUnwindEncoding |= (StackAdjust & 0xFF) << 16;
625 CompactUnwindEncoding |= RegEnc & CU::UNWIND_BP_FRAME_REGISTERS;
626 } else {
627 // If the amount of the stack allocation is the size of a register, then
628 // we "push" the RAX/EAX register onto the stack instead of adjusting the
629 // stack pointer with a SUB instruction. We don't support the push of the
630 // RAX/EAX register with compact unwind. So we check for that situation
631 // here.
632 if ((NumDefCFAOffsets == SavedRegIdx + 1 &&
633 StackSize - PrevStackSize == 1) ||
634 (Instrs.size() == 1 && NumDefCFAOffsets == 1 && StackSize == 2))
635 return CU::UNWIND_MODE_DWARF;
636
637 SubtractInstrIdx += InstrOffset;
638 ++StackAdjust;
639
640 if ((StackSize & 0xFF) == StackSize) {
641 // Frameless stack with a small stack size.
642 CompactUnwindEncoding |= CU::UNWIND_MODE_STACK_IMMD;
643
644 // Encode the stack size.
645 CompactUnwindEncoding |= (StackSize & 0xFF) << 16;
646 } else {
647 if ((StackAdjust & 0x7) != StackAdjust)
648 // The extra stack adjustments are too big for us to handle.
649 return CU::UNWIND_MODE_DWARF;
650
651 // Frameless stack with an offset too large for us to encode compactly.
652 CompactUnwindEncoding |= CU::UNWIND_MODE_STACK_IND;
653
654 // Encode the offset to the nnnnnn value in the 'subl $nnnnnn, ESP'
655 // instruction.
656 CompactUnwindEncoding |= (SubtractInstrIdx & 0xFF) << 16;
657
658 // Encode any extra stack stack adjustments (done via push
659 // instructions).
660 CompactUnwindEncoding |= (StackAdjust & 0x7) << 13;
661 }
662
663 // Encode the number of registers saved. (Reverse the list first.)
664 std::reverse(&SavedRegs[0], &SavedRegs[SavedRegIdx]);
665 CompactUnwindEncoding |= (SavedRegIdx & 0x7) << 10;
666
667 // Get the encoding of the saved registers when we don't have a frame
668 // pointer.
669 uint32_t RegEnc = encodeCompactUnwindRegistersWithoutFrame(SavedRegIdx);
670 if (RegEnc == ~0U) return CU::UNWIND_MODE_DWARF;
671
672 // Encode the register encoding.
673 CompactUnwindEncoding |=
674 RegEnc & CU::UNWIND_FRAMELESS_STACK_REG_PERMUTATION;
675 }
676
677 return CompactUnwindEncoding;
678 }
679
680private:
681 /// \brief Get the compact unwind number for a given register. The number
682 /// corresponds to the enum lists in compact_unwind_encoding.h.
683 int getCompactUnwindRegNum(unsigned Reg) const {
Craig Toppere5e035a32015-12-05 07:13:35 +0000684 static const MCPhysReg CU32BitRegs[7] = {
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000685 X86::EBX, X86::ECX, X86::EDX, X86::EDI, X86::ESI, X86::EBP, 0
686 };
Craig Toppere5e035a32015-12-05 07:13:35 +0000687 static const MCPhysReg CU64BitRegs[] = {
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000688 X86::RBX, X86::R12, X86::R13, X86::R14, X86::R15, X86::RBP, 0
689 };
Craig Toppere5e035a32015-12-05 07:13:35 +0000690 const MCPhysReg *CURegs = Is64Bit ? CU64BitRegs : CU32BitRegs;
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000691 for (int Idx = 1; *CURegs; ++CURegs, ++Idx)
692 if (*CURegs == Reg)
693 return Idx;
694
695 return -1;
696 }
697
698 /// \brief Return the registers encoded for a compact encoding with a frame
699 /// pointer.
700 uint32_t encodeCompactUnwindRegistersWithFrame() const {
701 // Encode the registers in the order they were saved --- 3-bits per
702 // register. The list of saved registers is assumed to be in reverse
703 // order. The registers are numbered from 1 to CU_NUM_SAVED_REGS.
704 uint32_t RegEnc = 0;
705 for (int i = 0, Idx = 0; i != CU_NUM_SAVED_REGS; ++i) {
706 unsigned Reg = SavedRegs[i];
707 if (Reg == 0) break;
708
709 int CURegNum = getCompactUnwindRegNum(Reg);
710 if (CURegNum == -1) return ~0U;
711
712 // Encode the 3-bit register number in order, skipping over 3-bits for
713 // each register.
714 RegEnc |= (CURegNum & 0x7) << (Idx++ * 3);
715 }
716
717 assert((RegEnc & 0x3FFFF) == RegEnc &&
718 "Invalid compact register encoding!");
719 return RegEnc;
720 }
721
722 /// \brief Create the permutation encoding used with frameless stacks. It is
723 /// passed the number of registers to be saved and an array of the registers
724 /// saved.
725 uint32_t encodeCompactUnwindRegistersWithoutFrame(unsigned RegCount) const {
726 // The saved registers are numbered from 1 to 6. In order to encode the
727 // order in which they were saved, we re-number them according to their
728 // place in the register order. The re-numbering is relative to the last
729 // re-numbered register. E.g., if we have registers {6, 2, 4, 5} saved in
730 // that order:
731 //
732 // Orig Re-Num
733 // ---- ------
734 // 6 6
735 // 2 2
736 // 4 3
737 // 5 3
738 //
Bruno Cardoso Lopes27de9b02014-12-08 18:18:32 +0000739 for (unsigned i = 0; i < RegCount; ++i) {
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000740 int CUReg = getCompactUnwindRegNum(SavedRegs[i]);
741 if (CUReg == -1) return ~0U;
742 SavedRegs[i] = CUReg;
743 }
744
745 // Reverse the list.
746 std::reverse(&SavedRegs[0], &SavedRegs[CU_NUM_SAVED_REGS]);
747
748 uint32_t RenumRegs[CU_NUM_SAVED_REGS];
749 for (unsigned i = CU_NUM_SAVED_REGS - RegCount; i < CU_NUM_SAVED_REGS; ++i){
750 unsigned Countless = 0;
751 for (unsigned j = CU_NUM_SAVED_REGS - RegCount; j < i; ++j)
752 if (SavedRegs[j] < SavedRegs[i])
753 ++Countless;
754
755 RenumRegs[i] = SavedRegs[i] - Countless - 1;
756 }
757
758 // Take the renumbered values and encode them into a 10-bit number.
759 uint32_t permutationEncoding = 0;
760 switch (RegCount) {
761 case 6:
762 permutationEncoding |= 120 * RenumRegs[0] + 24 * RenumRegs[1]
763 + 6 * RenumRegs[2] + 2 * RenumRegs[3]
764 + RenumRegs[4];
765 break;
766 case 5:
767 permutationEncoding |= 120 * RenumRegs[1] + 24 * RenumRegs[2]
768 + 6 * RenumRegs[3] + 2 * RenumRegs[4]
769 + RenumRegs[5];
770 break;
771 case 4:
772 permutationEncoding |= 60 * RenumRegs[2] + 12 * RenumRegs[3]
773 + 3 * RenumRegs[4] + RenumRegs[5];
774 break;
775 case 3:
776 permutationEncoding |= 20 * RenumRegs[3] + 4 * RenumRegs[4]
777 + RenumRegs[5];
778 break;
779 case 2:
780 permutationEncoding |= 5 * RenumRegs[4] + RenumRegs[5];
781 break;
782 case 1:
783 permutationEncoding |= RenumRegs[5];
784 break;
785 }
786
787 assert((permutationEncoding & 0x3FF) == permutationEncoding &&
788 "Invalid compact register encoding!");
789 return permutationEncoding;
790 }
791
Daniel Dunbar77c41412010-03-11 01:34:21 +0000792public:
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000793 DarwinX86AsmBackend(const Target &T, const MCRegisterInfo &MRI, StringRef CPU,
794 bool Is64Bit)
795 : X86AsmBackend(T, CPU), MRI(MRI), Is64Bit(Is64Bit) {
796 memset(SavedRegs, 0, sizeof(SavedRegs));
797 OffsetSize = Is64Bit ? 8 : 4;
798 MoveInstrSize = Is64Bit ? 3 : 2;
799 StackDivide = Is64Bit ? 8 : 4;
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000800 }
Daniel Dunbar77c41412010-03-11 01:34:21 +0000801};
802
Daniel Dunbarfe8d8662010-03-15 21:56:50 +0000803class DarwinX86_32AsmBackend : public DarwinX86AsmBackend {
804public:
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000805 DarwinX86_32AsmBackend(const Target &T, const MCRegisterInfo &MRI,
Rafael Espindoladf100c32014-06-20 22:30:31 +0000806 StringRef CPU)
807 : DarwinX86AsmBackend(T, MRI, CPU, false) {}
Daniel Dunbar4d7c8642010-03-19 10:43:26 +0000808
Lang Hames60fbc7c2017-10-10 16:28:07 +0000809 std::unique_ptr<MCObjectWriter>
810 createObjectWriter(raw_pwrite_stream &OS) const override {
Daniel Dunbar7da045e2010-12-20 15:07:39 +0000811 return createX86MachObjectWriter(OS, /*Is64Bit=*/false,
Charles Davis8bdfafd2013-09-01 04:28:48 +0000812 MachO::CPU_TYPE_I386,
813 MachO::CPU_SUBTYPE_I386_ALL);
Daniel Dunbar4d7c8642010-03-19 10:43:26 +0000814 }
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000815
816 /// \brief Generate the compact unwind encoding for the CFI instructions.
Craig Topper39012cc2014-03-09 18:03:14 +0000817 uint32_t generateCompactUnwindEncoding(
818 ArrayRef<MCCFIInstruction> Instrs) const override {
Rafael Espindoladf100c32014-06-20 22:30:31 +0000819 return generateCompactUnwindEncodingImpl(Instrs);
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000820 }
Daniel Dunbarfe8d8662010-03-15 21:56:50 +0000821};
822
823class DarwinX86_64AsmBackend : public DarwinX86AsmBackend {
Jim Grosbach664d1482013-11-16 00:52:57 +0000824 const MachO::CPUSubTypeX86 Subtype;
Daniel Dunbarfe8d8662010-03-15 21:56:50 +0000825public:
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000826 DarwinX86_64AsmBackend(const Target &T, const MCRegisterInfo &MRI,
Rafael Espindoladf100c32014-06-20 22:30:31 +0000827 StringRef CPU, MachO::CPUSubTypeX86 st)
828 : DarwinX86AsmBackend(T, MRI, CPU, true), Subtype(st) {}
Daniel Dunbarfe8d8662010-03-15 21:56:50 +0000829
Lang Hames60fbc7c2017-10-10 16:28:07 +0000830 std::unique_ptr<MCObjectWriter>
831 createObjectWriter(raw_pwrite_stream &OS) const override {
Daniel Dunbar7da045e2010-12-20 15:07:39 +0000832 return createX86MachObjectWriter(OS, /*Is64Bit=*/true,
Jim Grosbach664d1482013-11-16 00:52:57 +0000833 MachO::CPU_TYPE_X86_64, Subtype);
Daniel Dunbar4d7c8642010-03-19 10:43:26 +0000834 }
835
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000836 /// \brief Generate the compact unwind encoding for the CFI instructions.
Craig Topper39012cc2014-03-09 18:03:14 +0000837 uint32_t generateCompactUnwindEncoding(
838 ArrayRef<MCCFIInstruction> Instrs) const override {
Rafael Espindoladf100c32014-06-20 22:30:31 +0000839 return generateCompactUnwindEncodingImpl(Instrs);
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000840 }
Daniel Dunbarfe8d8662010-03-15 21:56:50 +0000841};
842
Michael J. Spencerbee1f7f2010-10-10 22:04:20 +0000843} // end anonymous namespace
Daniel Dunbar40eb7f02010-02-21 21:54:14 +0000844
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000845MCAsmBackend *llvm::createX86_32AsmBackend(const Target &T,
Alex Bradburyb22f7512018-01-03 08:53:05 +0000846 const MCSubtargetInfo &STI,
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000847 const MCRegisterInfo &MRI,
Joel Jones373d7d32016-07-25 17:18:28 +0000848 const MCTargetOptions &Options) {
Alex Bradburyb22f7512018-01-03 08:53:05 +0000849 const Triple &TheTriple = STI.getTargetTriple();
850 StringRef CPU = STI.getCPU();
851 llvm::errs() << "create x86-32 backend with CPU: " << CPU << "\n";
Daniel Sanders50f17232015-09-15 16:17:27 +0000852 if (TheTriple.isOSBinFormatMachO())
Rafael Espindoladf100c32014-06-20 22:30:31 +0000853 return new DarwinX86_32AsmBackend(T, MRI, CPU);
Daniel Dunbar2b9b0e32011-04-19 21:14:45 +0000854
David Majnemerce108422016-01-19 23:05:27 +0000855 if (TheTriple.isOSWindows() && TheTriple.isOSBinFormatCOFF())
Roman Divacky5dd4ccb2012-09-18 16:08:49 +0000856 return new WindowsX86AsmBackend(T, false, CPU);
Daniel Dunbar2b9b0e32011-04-19 21:14:45 +0000857
Daniel Sanders50f17232015-09-15 16:17:27 +0000858 uint8_t OSABI = MCELFObjectTargetWriter::getOSABI(TheTriple.getOS());
Michael Kupersteina3b79dd2015-11-04 11:21:50 +0000859
860 if (TheTriple.isOSIAMCU())
861 return new ELFX86_IAMCUAsmBackend(T, OSABI, CPU);
862
Roman Divacky5dd4ccb2012-09-18 16:08:49 +0000863 return new ELFX86_32AsmBackend(T, OSABI, CPU);
Daniel Dunbar40eb7f02010-02-21 21:54:14 +0000864}
865
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000866MCAsmBackend *llvm::createX86_64AsmBackend(const Target &T,
Alex Bradburyb22f7512018-01-03 08:53:05 +0000867 const MCSubtargetInfo &STI,
Bill Wendling58e2d3d2013-09-09 02:37:14 +0000868 const MCRegisterInfo &MRI,
Joel Jones373d7d32016-07-25 17:18:28 +0000869 const MCTargetOptions &Options) {
Alex Bradburyb22f7512018-01-03 08:53:05 +0000870 const Triple &TheTriple = STI.getTargetTriple();
871 StringRef CPU = STI.getCPU();
Daniel Sanders50f17232015-09-15 16:17:27 +0000872 if (TheTriple.isOSBinFormatMachO()) {
Jim Grosbach664d1482013-11-16 00:52:57 +0000873 MachO::CPUSubTypeX86 CS =
Daniel Sanders50f17232015-09-15 16:17:27 +0000874 StringSwitch<MachO::CPUSubTypeX86>(TheTriple.getArchName())
Jim Grosbach664d1482013-11-16 00:52:57 +0000875 .Case("x86_64h", MachO::CPU_SUBTYPE_X86_64_H)
876 .Default(MachO::CPU_SUBTYPE_X86_64_ALL);
Rafael Espindoladf100c32014-06-20 22:30:31 +0000877 return new DarwinX86_64AsmBackend(T, MRI, CPU, CS);
Jim Grosbach664d1482013-11-16 00:52:57 +0000878 }
Daniel Dunbar2b9b0e32011-04-19 21:14:45 +0000879
David Majnemerce108422016-01-19 23:05:27 +0000880 if (TheTriple.isOSWindows() && TheTriple.isOSBinFormatCOFF())
Roman Divacky5dd4ccb2012-09-18 16:08:49 +0000881 return new WindowsX86AsmBackend(T, true, CPU);
Daniel Dunbar2b9b0e32011-04-19 21:14:45 +0000882
Daniel Sanders50f17232015-09-15 16:17:27 +0000883 uint8_t OSABI = MCELFObjectTargetWriter::getOSABI(TheTriple.getOS());
Zinovy Niscad431c2014-07-10 13:03:26 +0000884
Daniel Sanders50f17232015-09-15 16:17:27 +0000885 if (TheTriple.getEnvironment() == Triple::GNUX32)
Zinovy Niscad431c2014-07-10 13:03:26 +0000886 return new ELFX86_X32AsmBackend(T, OSABI, CPU);
Roman Divacky5dd4ccb2012-09-18 16:08:49 +0000887 return new ELFX86_64AsmBackend(T, OSABI, CPU);
Daniel Dunbar40eb7f02010-02-21 21:54:14 +0000888}