LLVM 20.0.0git
ARMDisassembler.cpp
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1//===- ARMDisassembler.cpp - Disassembler for ARM/Thumb ISA ---------------===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8
9#include "ARMBaseInstrInfo.h"
14#include "Utils/ARMBaseInfo.h"
15#include "llvm/MC/MCContext.h"
18#include "llvm/MC/MCInst.h"
19#include "llvm/MC/MCInstrDesc.h"
20#include "llvm/MC/MCInstrInfo.h"
28#include <algorithm>
29#include <cassert>
30#include <cstdint>
31#include <vector>
32
33using namespace llvm;
34
35#define DEBUG_TYPE "arm-disassembler"
36
38
39namespace {
40
41 // Handles the condition code status of instructions in IT blocks
42 class ITStatus
43 {
44 public:
45 // Returns the condition code for instruction in IT block
46 unsigned getITCC() {
47 unsigned CC = ARMCC::AL;
48 if (instrInITBlock())
49 CC = ITStates.back();
50 return CC;
51 }
52
53 // Advances the IT block state to the next T or E
54 void advanceITState() {
55 ITStates.pop_back();
56 }
57
58 // Returns true if the current instruction is in an IT block
59 bool instrInITBlock() {
60 return !ITStates.empty();
61 }
62
63 // Returns true if current instruction is the last instruction in an IT block
64 bool instrLastInITBlock() {
65 return ITStates.size() == 1;
66 }
67
68 // Called when decoding an IT instruction. Sets the IT state for
69 // the following instructions that for the IT block. Firstcond
70 // corresponds to the field in the IT instruction encoding; Mask
71 // is in the MCOperand format in which 1 means 'else' and 0 'then'.
72 void setITState(char Firstcond, char Mask) {
73 // (3 - the number of trailing zeros) is the number of then / else.
74 unsigned NumTZ = llvm::countr_zero<uint8_t>(Mask);
75 unsigned char CCBits = static_cast<unsigned char>(Firstcond & 0xf);
76 assert(NumTZ <= 3 && "Invalid IT mask!");
77 // push condition codes onto the stack the correct order for the pops
78 for (unsigned Pos = NumTZ+1; Pos <= 3; ++Pos) {
79 unsigned Else = (Mask >> Pos) & 1;
80 ITStates.push_back(CCBits ^ Else);
81 }
82 ITStates.push_back(CCBits);
83 }
84
85 private:
86 std::vector<unsigned char> ITStates;
87 };
88
89 class VPTStatus
90 {
91 public:
92 unsigned getVPTPred() {
93 unsigned Pred = ARMVCC::None;
94 if (instrInVPTBlock())
95 Pred = VPTStates.back();
96 return Pred;
97 }
98
99 void advanceVPTState() {
100 VPTStates.pop_back();
101 }
102
103 bool instrInVPTBlock() {
104 return !VPTStates.empty();
105 }
106
107 bool instrLastInVPTBlock() {
108 return VPTStates.size() == 1;
109 }
110
111 void setVPTState(char Mask) {
112 // (3 - the number of trailing zeros) is the number of then / else.
113 unsigned NumTZ = llvm::countr_zero<uint8_t>(Mask);
114 assert(NumTZ <= 3 && "Invalid VPT mask!");
115 // push predicates onto the stack the correct order for the pops
116 for (unsigned Pos = NumTZ+1; Pos <= 3; ++Pos) {
117 bool T = ((Mask >> Pos) & 1) == 0;
118 if (T)
119 VPTStates.push_back(ARMVCC::Then);
120 else
121 VPTStates.push_back(ARMVCC::Else);
122 }
123 VPTStates.push_back(ARMVCC::Then);
124 }
125
126 private:
128 };
129
130/// ARM disassembler for all ARM platforms.
131class ARMDisassembler : public MCDisassembler {
132public:
133 std::unique_ptr<const MCInstrInfo> MCII;
134
135 ARMDisassembler(const MCSubtargetInfo &STI, MCContext &Ctx,
136 const MCInstrInfo *MCII)
137 : MCDisassembler(STI, Ctx), MCII(MCII) {
138 InstructionEndianness = STI.hasFeature(ARM::ModeBigEndianInstructions)
141 }
142
143 ~ARMDisassembler() override = default;
144
147 raw_ostream &CStream) const override;
148
150 uint64_t Address) const override;
151
152private:
153 DecodeStatus getARMInstruction(MCInst &Instr, uint64_t &Size,
155 raw_ostream &CStream) const;
156
157 DecodeStatus getThumbInstruction(MCInst &Instr, uint64_t &Size,
159 raw_ostream &CStream) const;
160
161 mutable ITStatus ITBlock;
162 mutable VPTStatus VPTBlock;
163
164 void AddThumb1SBit(MCInst &MI, bool InITBlock) const;
165 bool isVectorPredicable(const MCInst &MI) const;
166 DecodeStatus AddThumbPredicate(MCInst&) const;
167 void UpdateThumbVFPPredicate(DecodeStatus &, MCInst&) const;
168
169 llvm::endianness InstructionEndianness;
170};
171
172} // end anonymous namespace
173
174// Forward declare these because the autogenerated code will reference them.
175// Definitions are further down.
176static DecodeStatus DecodeGPRRegisterClass(MCInst &Inst, unsigned RegNo,
177 uint64_t Address,
178 const MCDisassembler *Decoder);
179static DecodeStatus DecodeCLRMGPRRegisterClass(MCInst &Inst, unsigned RegNo,
180 uint64_t Address,
181 const MCDisassembler *Decoder);
182static DecodeStatus DecodetGPROddRegisterClass(MCInst &Inst, unsigned RegNo,
183 uint64_t Address,
184 const MCDisassembler *Decoder);
185static DecodeStatus DecodetGPREvenRegisterClass(MCInst &Inst, unsigned RegNo,
186 uint64_t Address,
187 const MCDisassembler *Decoder);
188static DecodeStatus
190 uint64_t Address,
191 const MCDisassembler *Decoder);
192static DecodeStatus DecodeGPRnopcRegisterClass(MCInst &Inst, unsigned RegNo,
193 uint64_t Address,
194 const MCDisassembler *Decoder);
195static DecodeStatus DecodeGPRnospRegisterClass(MCInst &Inst, unsigned RegNo,
196 uint64_t Address,
197 const MCDisassembler *Decoder);
198static DecodeStatus
199DecodeGPRwithAPSRRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
200 const MCDisassembler *Decoder);
201static DecodeStatus DecodeGPRwithZRRegisterClass(MCInst &Inst, unsigned RegNo,
202 uint64_t Address,
203 const MCDisassembler *Decoder);
204static DecodeStatus
205DecodeGPRwithZRnospRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
206 const MCDisassembler *Decoder);
207static DecodeStatus DecodetGPRRegisterClass(MCInst &Inst, unsigned RegNo,
208 uint64_t Address,
209 const MCDisassembler *Decoder);
210static DecodeStatus DecodetcGPRRegisterClass(MCInst &Inst, unsigned RegNo,
211 uint64_t Address,
212 const MCDisassembler *Decoder);
213static DecodeStatus DecoderGPRRegisterClass(MCInst &Inst, unsigned RegNo,
214 uint64_t Address,
215 const MCDisassembler *Decoder);
216static DecodeStatus DecodeGPRPairRegisterClass(MCInst &Inst, unsigned RegNo,
217 uint64_t Address,
218 const MCDisassembler *Decoder);
219static DecodeStatus
220DecodeGPRPairnospRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
221 const MCDisassembler *Decoder);
222static DecodeStatus DecodeGPRspRegisterClass(MCInst &Inst, unsigned RegNo,
223 uint64_t Address,
224 const MCDisassembler *Decoder);
225static DecodeStatus DecodeHPRRegisterClass(MCInst &Inst, unsigned RegNo,
226 uint64_t Address,
227 const MCDisassembler *Decoder);
228static DecodeStatus DecodeSPRRegisterClass(MCInst &Inst, unsigned RegNo,
229 uint64_t Address,
230 const MCDisassembler *Decoder);
231static DecodeStatus DecodeDPRRegisterClass(MCInst &Inst, unsigned RegNo,
232 uint64_t Address,
233 const MCDisassembler *Decoder);
234static DecodeStatus DecodeDPR_8RegisterClass(MCInst &Inst, unsigned RegNo,
235 uint64_t Address,
236 const MCDisassembler *Decoder);
237static DecodeStatus DecodeSPR_8RegisterClass(MCInst &Inst, unsigned RegNo,
238 uint64_t Address,
239 const MCDisassembler *Decoder);
240static DecodeStatus DecodeDPR_VFP2RegisterClass(MCInst &Inst, unsigned RegNo,
241 uint64_t Address,
242 const MCDisassembler *Decoder);
243static DecodeStatus DecodeQPRRegisterClass(MCInst &Inst, unsigned RegNo,
244 uint64_t Address,
245 const MCDisassembler *Decoder);
246static DecodeStatus DecodeMQPRRegisterClass(MCInst &Inst, unsigned RegNo,
247 uint64_t Address,
248 const MCDisassembler *Decoder);
249static DecodeStatus DecodeMQQPRRegisterClass(MCInst &Inst, unsigned RegNo,
250 uint64_t Address,
251 const MCDisassembler *Decoder);
252static DecodeStatus DecodeMQQQQPRRegisterClass(MCInst &Inst, unsigned RegNo,
253 uint64_t Address,
254 const MCDisassembler *Decoder);
255static DecodeStatus DecodeDPairRegisterClass(MCInst &Inst, unsigned RegNo,
256 uint64_t Address,
257 const MCDisassembler *Decoder);
258static DecodeStatus
259DecodeDPairSpacedRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
260 const MCDisassembler *Decoder);
261
262static DecodeStatus DecodePredicateOperand(MCInst &Inst, unsigned Val,
263 uint64_t Address,
264 const MCDisassembler *Decoder);
265static DecodeStatus DecodeCCOutOperand(MCInst &Inst, unsigned Val,
266 uint64_t Address,
267 const MCDisassembler *Decoder);
268static DecodeStatus DecodeRegListOperand(MCInst &Inst, unsigned Val,
269 uint64_t Address,
270 const MCDisassembler *Decoder);
271static DecodeStatus DecodeSPRRegListOperand(MCInst &Inst, unsigned Val,
272 uint64_t Address,
273 const MCDisassembler *Decoder);
274static DecodeStatus DecodeDPRRegListOperand(MCInst &Inst, unsigned Val,
275 uint64_t Address,
276 const MCDisassembler *Decoder);
277
279 uint64_t Address,
280 const MCDisassembler *Decoder);
281static DecodeStatus DecodeCopMemInstruction(MCInst &Inst, unsigned Insn,
282 uint64_t Address,
283 const MCDisassembler *Decoder);
284static DecodeStatus
285DecodeAddrMode2IdxInstruction(MCInst &Inst, unsigned Insn, uint64_t Address,
286 const MCDisassembler *Decoder);
287static DecodeStatus DecodeSORegMemOperand(MCInst &Inst, unsigned Insn,
288 uint64_t Address,
289 const MCDisassembler *Decoder);
291 uint64_t Address,
292 const MCDisassembler *Decoder);
293static DecodeStatus DecodeTSBInstruction(MCInst &Inst, unsigned Insn,
294 uint64_t Address,
295 const MCDisassembler *Decoder);
296static DecodeStatus DecodeSORegImmOperand(MCInst &Inst, unsigned Insn,
297 uint64_t Address,
298 const MCDisassembler *Decoder);
299static DecodeStatus DecodeSORegRegOperand(MCInst &Inst, unsigned Insn,
300 uint64_t Address,
301 const MCDisassembler *Decoder);
302
303static DecodeStatus
305 uint64_t Adddress,
306 const MCDisassembler *Decoder);
307static DecodeStatus DecodeT2MOVTWInstruction(MCInst &Inst, unsigned Insn,
308 uint64_t Address,
309 const MCDisassembler *Decoder);
311 uint64_t Address,
312 const MCDisassembler *Decoder);
313static DecodeStatus DecodeSMLAInstruction(MCInst &Inst, unsigned Insn,
314 uint64_t Address,
315 const MCDisassembler *Decoder);
316static DecodeStatus DecodeHINTInstruction(MCInst &Inst, unsigned Insn,
317 uint64_t Address,
318 const MCDisassembler *Decoder);
319static DecodeStatus DecodeCPSInstruction(MCInst &Inst, unsigned Insn,
320 uint64_t Address,
321 const MCDisassembler *Decoder);
322static DecodeStatus DecodeTSTInstruction(MCInst &Inst, unsigned Insn,
323 uint64_t Address,
324 const MCDisassembler *Decoder);
325static DecodeStatus DecodeSETPANInstruction(MCInst &Inst, unsigned Insn,
326 uint64_t Address,
327 const MCDisassembler *Decoder);
328static DecodeStatus DecodeT2CPSInstruction(MCInst &Inst, unsigned Insn,
329 uint64_t Address,
330 const MCDisassembler *Decoder);
332 uint64_t Address,
333 const MCDisassembler *Decoder);
334static DecodeStatus DecodeAddrModeImm12Operand(MCInst &Inst, unsigned Val,
335 uint64_t Address,
336 const MCDisassembler *Decoder);
337static DecodeStatus DecodeAddrMode5Operand(MCInst &Inst, unsigned Val,
338 uint64_t Address,
339 const MCDisassembler *Decoder);
340static DecodeStatus DecodeAddrMode5FP16Operand(MCInst &Inst, unsigned Val,
341 uint64_t Address,
342 const MCDisassembler *Decoder);
343static DecodeStatus DecodeAddrMode7Operand(MCInst &Inst, unsigned Val,
344 uint64_t Address,
345 const MCDisassembler *Decoder);
346static DecodeStatus DecodeT2BInstruction(MCInst &Inst, unsigned Insn,
347 uint64_t Address,
348 const MCDisassembler *Decoder);
350 uint64_t Address,
351 const MCDisassembler *Decoder);
352static DecodeStatus DecodeAddrMode6Operand(MCInst &Inst, unsigned Val,
353 uint64_t Address,
354 const MCDisassembler *Decoder);
355static DecodeStatus DecodeVLDST1Instruction(MCInst &Inst, unsigned Val,
356 uint64_t Address,
357 const MCDisassembler *Decoder);
358static DecodeStatus DecodeVLDST2Instruction(MCInst &Inst, unsigned Val,
359 uint64_t Address,
360 const MCDisassembler *Decoder);
361static DecodeStatus DecodeVLDST3Instruction(MCInst &Inst, unsigned Val,
362 uint64_t Address,
363 const MCDisassembler *Decoder);
364static DecodeStatus DecodeVLDST4Instruction(MCInst &Inst, unsigned Val,
365 uint64_t Address,
366 const MCDisassembler *Decoder);
367static DecodeStatus DecodeVLDInstruction(MCInst &Inst, unsigned Val,
368 uint64_t Address,
369 const MCDisassembler *Decoder);
370static DecodeStatus DecodeVSTInstruction(MCInst &Inst, unsigned Val,
371 uint64_t Address,
372 const MCDisassembler *Decoder);
373static DecodeStatus DecodeVLD1DupInstruction(MCInst &Inst, unsigned Val,
374 uint64_t Address,
375 const MCDisassembler *Decoder);
376static DecodeStatus DecodeVLD2DupInstruction(MCInst &Inst, unsigned Val,
377 uint64_t Address,
378 const MCDisassembler *Decoder);
379static DecodeStatus DecodeVLD3DupInstruction(MCInst &Inst, unsigned Val,
380 uint64_t Address,
381 const MCDisassembler *Decoder);
382static DecodeStatus DecodeVLD4DupInstruction(MCInst &Inst, unsigned Val,
383 uint64_t Address,
384 const MCDisassembler *Decoder);
385static DecodeStatus DecodeVMOVModImmInstruction(MCInst &Inst, unsigned Val,
386 uint64_t Address,
387 const MCDisassembler *Decoder);
388static DecodeStatus DecodeMVEModImmInstruction(MCInst &Inst, unsigned Val,
389 uint64_t Address,
390 const MCDisassembler *Decoder);
391static DecodeStatus DecodeMVEVADCInstruction(MCInst &Inst, unsigned Insn,
392 uint64_t Address,
393 const MCDisassembler *Decoder);
394static DecodeStatus DecodeVSHLMaxInstruction(MCInst &Inst, unsigned Val,
395 uint64_t Address,
396 const MCDisassembler *Decoder);
397static DecodeStatus DecodeShiftRight8Imm(MCInst &Inst, unsigned Val,
398 uint64_t Address,
399 const MCDisassembler *Decoder);
400static DecodeStatus DecodeShiftRight16Imm(MCInst &Inst, unsigned Val,
401 uint64_t Address,
402 const MCDisassembler *Decoder);
403static DecodeStatus DecodeShiftRight32Imm(MCInst &Inst, unsigned Val,
404 uint64_t Address,
405 const MCDisassembler *Decoder);
406static DecodeStatus DecodeShiftRight64Imm(MCInst &Inst, unsigned Val,
407 uint64_t Address,
408 const MCDisassembler *Decoder);
409static DecodeStatus DecodeTBLInstruction(MCInst &Inst, unsigned Insn,
410 uint64_t Address,
411 const MCDisassembler *Decoder);
412static DecodeStatus DecodePostIdxReg(MCInst &Inst, unsigned Insn,
413 uint64_t Address,
414 const MCDisassembler *Decoder);
415static DecodeStatus DecodeMveAddrModeRQ(MCInst &Inst, unsigned Insn,
416 uint64_t Address,
417 const MCDisassembler *Decoder);
418template <int shift>
419static DecodeStatus DecodeMveAddrModeQ(MCInst &Inst, unsigned Insn,
420 uint64_t Address,
421 const MCDisassembler *Decoder);
422static DecodeStatus DecodeCoprocessor(MCInst &Inst, unsigned Insn,
423 uint64_t Address,
424 const MCDisassembler *Decoder);
425static DecodeStatus DecodeMemBarrierOption(MCInst &Inst, unsigned Insn,
426 uint64_t Address,
427 const MCDisassembler *Decoder);
429 uint64_t Address,
430 const MCDisassembler *Decoder);
431static DecodeStatus DecodeMSRMask(MCInst &Inst, unsigned Insn, uint64_t Address,
432 const MCDisassembler *Decoder);
433static DecodeStatus DecodeBankedReg(MCInst &Inst, unsigned Insn,
434 uint64_t Address,
435 const MCDisassembler *Decoder);
436static DecodeStatus DecodeDoubleRegLoad(MCInst &Inst, unsigned Insn,
437 uint64_t Address,
438 const MCDisassembler *Decoder);
439static DecodeStatus DecodeDoubleRegStore(MCInst &Inst, unsigned Insn,
440 uint64_t Address,
441 const MCDisassembler *Decoder);
442static DecodeStatus DecodeLDRPreImm(MCInst &Inst, unsigned Insn,
443 uint64_t Address,
444 const MCDisassembler *Decoder);
445static DecodeStatus DecodeLDRPreReg(MCInst &Inst, unsigned Insn,
446 uint64_t Address,
447 const MCDisassembler *Decoder);
448static DecodeStatus DecodeSTRPreImm(MCInst &Inst, unsigned Insn,
449 uint64_t Address,
450 const MCDisassembler *Decoder);
451static DecodeStatus DecodeSTRPreReg(MCInst &Inst, unsigned Insn,
452 uint64_t Address,
453 const MCDisassembler *Decoder);
454static DecodeStatus DecodeVLD1LN(MCInst &Inst, unsigned Insn, uint64_t Address,
455 const MCDisassembler *Decoder);
456static DecodeStatus DecodeVLD2LN(MCInst &Inst, unsigned Insn, uint64_t Address,
457 const MCDisassembler *Decoder);
458static DecodeStatus DecodeVLD3LN(MCInst &Inst, unsigned Insn, uint64_t Address,
459 const MCDisassembler *Decoder);
460static DecodeStatus DecodeVLD4LN(MCInst &Inst, unsigned Insn, uint64_t Address,
461 const MCDisassembler *Decoder);
462static DecodeStatus DecodeVST1LN(MCInst &Inst, unsigned Insn, uint64_t Address,
463 const MCDisassembler *Decoder);
464static DecodeStatus DecodeVST2LN(MCInst &Inst, unsigned Insn, uint64_t Address,
465 const MCDisassembler *Decoder);
466static DecodeStatus DecodeVST3LN(MCInst &Inst, unsigned Insn, uint64_t Address,
467 const MCDisassembler *Decoder);
468static DecodeStatus DecodeVST4LN(MCInst &Inst, unsigned Insn, uint64_t Address,
469 const MCDisassembler *Decoder);
470static DecodeStatus DecodeVMOVSRR(MCInst &Inst, unsigned Insn, uint64_t Address,
471 const MCDisassembler *Decoder);
472static DecodeStatus DecodeVMOVRRS(MCInst &Inst, unsigned Insn, uint64_t Address,
473 const MCDisassembler *Decoder);
474static DecodeStatus DecodeSwap(MCInst &Inst, unsigned Insn, uint64_t Address,
475 const MCDisassembler *Decoder);
476static DecodeStatus DecodeVCVTD(MCInst &Inst, unsigned Insn, uint64_t Address,
477 const MCDisassembler *Decoder);
478static DecodeStatus DecodeVCVTQ(MCInst &Inst, unsigned Insn, uint64_t Address,
479 const MCDisassembler *Decoder);
480static DecodeStatus DecodeVCVTImmOperand(MCInst &Inst, unsigned Insn,
481 uint64_t Address,
482 const MCDisassembler *Decoder);
483static DecodeStatus
484DecodeNEONComplexLane64Instruction(MCInst &Inst, unsigned Val, uint64_t Address,
485 const MCDisassembler *Decoder);
486
488 uint64_t Address,
489 const MCDisassembler *Decoder);
490static DecodeStatus DecodeThumbBROperand(MCInst &Inst, unsigned Val,
491 uint64_t Address,
492 const MCDisassembler *Decoder);
493static DecodeStatus DecodeT2BROperand(MCInst &Inst, unsigned Val,
494 uint64_t Address,
495 const MCDisassembler *Decoder);
496static DecodeStatus DecodeThumbCmpBROperand(MCInst &Inst, unsigned Val,
497 uint64_t Address,
498 const MCDisassembler *Decoder);
499static DecodeStatus DecodeThumbAddrModeRR(MCInst &Inst, unsigned Val,
500 uint64_t Address,
501 const MCDisassembler *Decoder);
502static DecodeStatus DecodeThumbAddrModeIS(MCInst &Inst, unsigned Val,
503 uint64_t Address,
504 const MCDisassembler *Decoder);
505static DecodeStatus DecodeThumbAddrModePC(MCInst &Inst, unsigned Val,
506 uint64_t Address,
507 const MCDisassembler *Decoder);
508static DecodeStatus DecodeThumbAddrModeSP(MCInst &Inst, unsigned Val,
509 uint64_t Address,
510 const MCDisassembler *Decoder);
511static DecodeStatus DecodeT2AddrModeSOReg(MCInst &Inst, unsigned Val,
512 uint64_t Address,
513 const MCDisassembler *Decoder);
514static DecodeStatus DecodeT2LoadShift(MCInst &Inst, unsigned Val,
515 uint64_t Address,
516 const MCDisassembler *Decoder);
517static DecodeStatus DecodeT2LoadImm8(MCInst &Inst, unsigned Insn,
518 uint64_t Address,
519 const MCDisassembler *Decoder);
520static DecodeStatus DecodeT2LoadImm12(MCInst &Inst, unsigned Insn,
521 uint64_t Address,
522 const MCDisassembler *Decoder);
523static DecodeStatus DecodeT2LoadT(MCInst &Inst, unsigned Insn, uint64_t Address,
524 const MCDisassembler *Decoder);
525static DecodeStatus DecodeT2LoadLabel(MCInst &Inst, unsigned Insn,
526 uint64_t Address,
527 const MCDisassembler *Decoder);
528static DecodeStatus DecodeT2Imm8S4(MCInst &Inst, unsigned Val, uint64_t Address,
529 const MCDisassembler *Decoder);
530static DecodeStatus DecodeT2Imm7S4(MCInst &Inst, unsigned Val, uint64_t Address,
531 const MCDisassembler *Decoder);
532static DecodeStatus DecodeT2AddrModeImm8s4(MCInst &Inst, unsigned Val,
533 uint64_t Address,
534 const MCDisassembler *Decoder);
535static DecodeStatus DecodeT2AddrModeImm7s4(MCInst &Inst, unsigned Val,
536 uint64_t Address,
537 const MCDisassembler *Decoder);
538static DecodeStatus DecodeT2AddrModeImm0_1020s4(MCInst &Inst, unsigned Val,
539 uint64_t Address,
540 const MCDisassembler *Decoder);
541static DecodeStatus DecodeT2Imm8(MCInst &Inst, unsigned Val, uint64_t Address,
542 const MCDisassembler *Decoder);
543template <int shift>
544static DecodeStatus DecodeT2Imm7(MCInst &Inst, unsigned Val, uint64_t Address,
545 const MCDisassembler *Decoder);
546static DecodeStatus DecodeT2AddrModeImm8(MCInst &Inst, unsigned Val,
547 uint64_t Address,
548 const MCDisassembler *Decoder);
549template <int shift>
550static DecodeStatus DecodeTAddrModeImm7(MCInst &Inst, unsigned Val,
551 uint64_t Address,
552 const MCDisassembler *Decoder);
553template <int shift, int WriteBack>
554static DecodeStatus DecodeT2AddrModeImm7(MCInst &Inst, unsigned Val,
555 uint64_t Address,
556 const MCDisassembler *Decoder);
558 uint64_t Address,
559 const MCDisassembler *Decoder);
561 uint64_t Address,
562 const MCDisassembler *Decoder);
564 uint64_t Address,
565 const MCDisassembler *Decoder);
566static DecodeStatus DecodeQADDInstruction(MCInst &Inst, unsigned Insn,
567 uint64_t Address,
568 const MCDisassembler *Decoder);
569static DecodeStatus DecodeThumbBLXOffset(MCInst &Inst, unsigned Insn,
570 uint64_t Address,
571 const MCDisassembler *Decoder);
572static DecodeStatus DecodeT2AddrModeImm12(MCInst &Inst, unsigned Val,
573 uint64_t Address,
574 const MCDisassembler *Decoder);
575static DecodeStatus DecodeThumbTableBranch(MCInst &Inst, unsigned Val,
576 uint64_t Address,
577 const MCDisassembler *Decoder);
578static DecodeStatus DecodeThumb2BCCInstruction(MCInst &Inst, unsigned Val,
579 uint64_t Address,
580 const MCDisassembler *Decoder);
581static DecodeStatus DecodeT2SOImm(MCInst &Inst, unsigned Val, uint64_t Address,
582 const MCDisassembler *Decoder);
583static DecodeStatus DecodeThumbBCCTargetOperand(MCInst &Inst, unsigned Val,
584 uint64_t Address,
585 const MCDisassembler *Decoder);
586static DecodeStatus DecodeThumbBLTargetOperand(MCInst &Inst, unsigned Val,
587 uint64_t Address,
588 const MCDisassembler *Decoder);
589static DecodeStatus DecodeIT(MCInst &Inst, unsigned Val, uint64_t Address,
590 const MCDisassembler *Decoder);
592 uint64_t Address,
593 const MCDisassembler *Decoder);
595 uint64_t Address,
596 const MCDisassembler *Decoder);
597static DecodeStatus DecodeT2Adr(MCInst &Inst, unsigned Val, uint64_t Address,
598 const MCDisassembler *Decoder);
599static DecodeStatus DecodeT2LdStPre(MCInst &Inst, unsigned Val,
600 uint64_t Address,
601 const MCDisassembler *Decoder);
603 uint64_t Address,
604 const MCDisassembler *Decoder);
605
606static DecodeStatus DecodeLDR(MCInst &Inst, unsigned Val, uint64_t Address,
607 const MCDisassembler *Decoder);
608static DecodeStatus DecoderForMRRC2AndMCRR2(MCInst &Inst, unsigned Val,
609 uint64_t Address,
610 const MCDisassembler *Decoder);
611static DecodeStatus DecodeForVMRSandVMSR(MCInst &Inst, unsigned Val,
612 uint64_t Address,
613 const MCDisassembler *Decoder);
614
615template <bool isSigned, bool isNeg, bool zeroPermitted, int size>
616static DecodeStatus DecodeBFLabelOperand(MCInst &Inst, unsigned val,
617 uint64_t Address,
618 const MCDisassembler *Decoder);
619static DecodeStatus DecodeBFAfterTargetOperand(MCInst &Inst, unsigned val,
620 uint64_t Address,
621 const MCDisassembler *Decoder);
622static DecodeStatus DecodePredNoALOperand(MCInst &Inst, unsigned Val,
623 uint64_t Address,
624 const MCDisassembler *Decoder);
625static DecodeStatus DecodeLOLoop(MCInst &Inst, unsigned Insn, uint64_t Address,
626 const MCDisassembler *Decoder);
627static DecodeStatus DecodeLongShiftOperand(MCInst &Inst, unsigned Val,
628 uint64_t Address,
629 const MCDisassembler *Decoder);
630static DecodeStatus DecodeVSCCLRM(MCInst &Inst, unsigned Insn, uint64_t Address,
631 const MCDisassembler *Decoder);
632static DecodeStatus DecodeVPTMaskOperand(MCInst &Inst, unsigned Val,
633 uint64_t Address,
634 const MCDisassembler *Decoder);
635static DecodeStatus DecodeVpredROperand(MCInst &Inst, unsigned Val,
636 uint64_t Address,
637 const MCDisassembler *Decoder);
638static DecodeStatus DecodeVpredNOperand(MCInst &Inst, unsigned Val,
639 uint64_t Address,
640 const MCDisassembler *Decoder);
641static DecodeStatus
642DecodeRestrictedIPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
643 const MCDisassembler *Decoder);
644static DecodeStatus
645DecodeRestrictedSPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
646 const MCDisassembler *Decoder);
647static DecodeStatus
648DecodeRestrictedUPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
649 const MCDisassembler *Decoder);
650static DecodeStatus
651DecodeRestrictedFPPredicateOperand(MCInst &Inst, unsigned Val, uint64_t Address,
652 const MCDisassembler *Decoder);
653template <bool Writeback>
654static DecodeStatus DecodeVSTRVLDR_SYSREG(MCInst &Inst, unsigned Insn,
655 uint64_t Address,
656 const MCDisassembler *Decoder);
657template <int shift>
658static DecodeStatus DecodeMVE_MEM_1_pre(MCInst &Inst, unsigned Val,
659 uint64_t Address,
660 const MCDisassembler *Decoder);
661template <int shift>
662static DecodeStatus DecodeMVE_MEM_2_pre(MCInst &Inst, unsigned Val,
663 uint64_t Address,
664 const MCDisassembler *Decoder);
665template <int shift>
666static DecodeStatus DecodeMVE_MEM_3_pre(MCInst &Inst, unsigned Val,
667 uint64_t Address,
668 const MCDisassembler *Decoder);
669template <unsigned MinLog, unsigned MaxLog>
670static DecodeStatus DecodePowerTwoOperand(MCInst &Inst, unsigned Val,
671 uint64_t Address,
672 const MCDisassembler *Decoder);
673template <unsigned start>
674static DecodeStatus
675DecodeMVEPairVectorIndexOperand(MCInst &Inst, unsigned Val, uint64_t Address,
676 const MCDisassembler *Decoder);
677static DecodeStatus DecodeMVEVMOVQtoDReg(MCInst &Inst, unsigned Insn,
678 uint64_t Address,
679 const MCDisassembler *Decoder);
680static DecodeStatus DecodeMVEVMOVDRegtoQ(MCInst &Inst, unsigned Insn,
681 uint64_t Address,
682 const MCDisassembler *Decoder);
683static DecodeStatus DecodeMVEVCVTt1fp(MCInst &Inst, unsigned Insn,
684 uint64_t Address,
685 const MCDisassembler *Decoder);
686typedef DecodeStatus OperandDecoder(MCInst &Inst, unsigned Val,
687 uint64_t Address,
688 const MCDisassembler *Decoder);
689template <bool scalar, OperandDecoder predicate_decoder>
690static DecodeStatus DecodeMVEVCMP(MCInst &Inst, unsigned Insn, uint64_t Address,
691 const MCDisassembler *Decoder);
692static DecodeStatus DecodeMveVCTP(MCInst &Inst, unsigned Insn, uint64_t Address,
693 const MCDisassembler *Decoder);
694static DecodeStatus DecodeMVEVPNOT(MCInst &Inst, unsigned Insn,
695 uint64_t Address,
696 const MCDisassembler *Decoder);
697static DecodeStatus
698DecodeMVEOverlappingLongShift(MCInst &Inst, unsigned Insn, uint64_t Address,
699 const MCDisassembler *Decoder);
700static DecodeStatus DecodeT2AddSubSPImm(MCInst &Inst, unsigned Insn,
701 uint64_t Address,
702 const MCDisassembler *Decoder);
703static DecodeStatus DecodeLazyLoadStoreMul(MCInst &Inst, unsigned Insn,
704 uint64_t Address,
705 const MCDisassembler *Decoder);
706
707#include "ARMGenDisassemblerTables.inc"
708
710 const MCSubtargetInfo &STI,
711 MCContext &Ctx) {
712 return new ARMDisassembler(STI, Ctx, T.createMCInstrInfo());
713}
714
715// Post-decoding checks
717 uint64_t Address, raw_ostream &CS,
719 DecodeStatus Result) {
720 switch (MI.getOpcode()) {
721 case ARM::HVC: {
722 // HVC is undefined if condition = 0xf otherwise upredictable
723 // if condition != 0xe
724 uint32_t Cond = (Insn >> 28) & 0xF;
725 if (Cond == 0xF)
727 if (Cond != 0xE)
729 return Result;
730 }
731 case ARM::t2ADDri:
732 case ARM::t2ADDri12:
733 case ARM::t2ADDrr:
734 case ARM::t2ADDrs:
735 case ARM::t2SUBri:
736 case ARM::t2SUBri12:
737 case ARM::t2SUBrr:
738 case ARM::t2SUBrs:
739 if (MI.getOperand(0).getReg() == ARM::SP &&
740 MI.getOperand(1).getReg() != ARM::SP)
742 return Result;
743 default: return Result;
744 }
745}
746
747uint64_t ARMDisassembler::suggestBytesToSkip(ArrayRef<uint8_t> Bytes,
748 uint64_t Address) const {
749 // In Arm state, instructions are always 4 bytes wide, so there's no
750 // point in skipping any smaller number of bytes if an instruction
751 // can't be decoded.
752 if (!STI.hasFeature(ARM::ModeThumb))
753 return 4;
754
755 // In a Thumb instruction stream, a halfword is a standalone 2-byte
756 // instruction if and only if its value is less than 0xE800.
757 // Otherwise, it's the first halfword of a 4-byte instruction.
758 //
759 // So, if we can see the upcoming halfword, we can judge on that
760 // basis, and maybe skip a whole 4-byte instruction that we don't
761 // know how to decode, without accidentally trying to interpret its
762 // second half as something else.
763 //
764 // If we don't have the instruction data available, we just have to
765 // recommend skipping the minimum sensible distance, which is 2
766 // bytes.
767 if (Bytes.size() < 2)
768 return 2;
769
770 uint16_t Insn16 = llvm::support::endian::read<uint16_t>(
771 Bytes.data(), InstructionEndianness);
772 return Insn16 < 0xE800 ? 2 : 4;
773}
774
775DecodeStatus ARMDisassembler::getInstruction(MCInst &MI, uint64_t &Size,
776 ArrayRef<uint8_t> Bytes,
777 uint64_t Address,
778 raw_ostream &CS) const {
779 if (STI.hasFeature(ARM::ModeThumb))
780 return getThumbInstruction(MI, Size, Bytes, Address, CS);
781 return getARMInstruction(MI, Size, Bytes, Address, CS);
782}
783
784DecodeStatus ARMDisassembler::getARMInstruction(MCInst &MI, uint64_t &Size,
785 ArrayRef<uint8_t> Bytes,
786 uint64_t Address,
787 raw_ostream &CS) const {
788 CommentStream = &CS;
789
790 assert(!STI.hasFeature(ARM::ModeThumb) &&
791 "Asked to disassemble an ARM instruction but Subtarget is in Thumb "
792 "mode!");
793
794 // We want to read exactly 4 bytes of data.
795 if (Bytes.size() < 4) {
796 Size = 0;
798 }
799
800 // Encoded as a 32-bit word in the stream.
801 uint32_t Insn = llvm::support::endian::read<uint32_t>(Bytes.data(),
802 InstructionEndianness);
803
804 // Calling the auto-generated decoder function.
806 decodeInstruction(DecoderTableARM32, MI, Insn, Address, this, STI);
807 if (Result != MCDisassembler::Fail) {
808 Size = 4;
809 return checkDecodedInstruction(MI, Size, Address, CS, Insn, Result);
810 }
811
812 struct DecodeTable {
813 const uint8_t *P;
814 bool DecodePred;
815 };
816
817 const DecodeTable Tables[] = {
818 {DecoderTableVFP32, false}, {DecoderTableVFPV832, false},
819 {DecoderTableNEONData32, true}, {DecoderTableNEONLoadStore32, true},
820 {DecoderTableNEONDup32, true}, {DecoderTablev8NEON32, false},
821 {DecoderTablev8Crypto32, false},
822 };
823
824 for (auto Table : Tables) {
825 Result = decodeInstruction(Table.P, MI, Insn, Address, this, STI);
826 if (Result != MCDisassembler::Fail) {
827 Size = 4;
828 // Add a fake predicate operand, because we share these instruction
829 // definitions with Thumb2 where these instructions are predicable.
830 if (Table.DecodePred && !DecodePredicateOperand(MI, 0xE, Address, this))
832 return Result;
833 }
834 }
835
836 Result =
837 decodeInstruction(DecoderTableCoProc32, MI, Insn, Address, this, STI);
838 if (Result != MCDisassembler::Fail) {
839 Size = 4;
840 return checkDecodedInstruction(MI, Size, Address, CS, Insn, Result);
841 }
842
843 Size = 4;
845}
846
847/// tryAddingSymbolicOperand - trys to add a symbolic operand in place of the
848/// immediate Value in the MCInst. The immediate Value has had any PC
849/// adjustment made by the caller. If the instruction is a branch instruction
850/// then isBranch is true, else false. If the getOpInfo() function was set as
851/// part of the setupForSymbolicDisassembly() call then that function is called
852/// to get any symbolic information at the Address for this instruction. If
853/// that returns non-zero then the symbolic information it returns is used to
854/// create an MCExpr and that is added as an operand to the MCInst. If
855/// getOpInfo() returns zero and isBranch is true then a symbol look up for
856/// Value is done and if a symbol is found an MCExpr is created with that, else
857/// an MCExpr with Value is created. This function returns true if it adds an
858/// operand to the MCInst and false otherwise.
859static bool tryAddingSymbolicOperand(uint64_t Address, int32_t Value,
860 bool isBranch, uint64_t InstSize,
861 MCInst &MI,
862 const MCDisassembler *Decoder) {
863 // FIXME: Does it make sense for value to be negative?
865 isBranch, /*Offset=*/0, /*OpSize=*/0,
866 InstSize);
867}
868
869/// tryAddingPcLoadReferenceComment - trys to add a comment as to what is being
870/// referenced by a load instruction with the base register that is the Pc.
871/// These can often be values in a literal pool near the Address of the
872/// instruction. The Address of the instruction and its immediate Value are
873/// used as a possible literal pool entry. The SymbolLookUp call back will
874/// return the name of a symbol referenced by the literal pool's entry if
875/// the referenced address is that of a symbol. Or it will return a pointer to
876/// a literal 'C' string if the referenced address of the literal pool's entry
877/// is an address into a section with 'C' string literals.
879 const MCDisassembler *Decoder) {
880 const MCDisassembler *Dis = static_cast<const MCDisassembler*>(Decoder);
882}
883
884// Thumb1 instructions don't have explicit S bits. Rather, they
885// implicitly set CPSR. Since it's not represented in the encoding, the
886// auto-generated decoder won't inject the CPSR operand. We need to fix
887// that as a post-pass.
888void ARMDisassembler::AddThumb1SBit(MCInst &MI, bool InITBlock) const {
889 const MCInstrDesc &MCID = MCII->get(MI.getOpcode());
890 MCInst::iterator I = MI.begin();
891 for (unsigned i = 0; i < MCID.NumOperands; ++i, ++I) {
892 if (I == MI.end()) break;
893 if (MCID.operands()[i].isOptionalDef() &&
894 MCID.operands()[i].RegClass == ARM::CCRRegClassID) {
895 if (i > 0 && MCID.operands()[i - 1].isPredicate())
896 continue;
897 MI.insert(I,
898 MCOperand::createReg(InITBlock ? ARM::NoRegister : ARM::CPSR));
899 return;
900 }
901 }
902
903 MI.insert(I, MCOperand::createReg(InITBlock ? ARM::NoRegister : ARM::CPSR));
904}
905
906bool ARMDisassembler::isVectorPredicable(const MCInst &MI) const {
907 const MCInstrDesc &MCID = MCII->get(MI.getOpcode());
908 for (unsigned i = 0; i < MCID.NumOperands; ++i) {
909 if (ARM::isVpred(MCID.operands()[i].OperandType))
910 return true;
911 }
912 return false;
913}
914
915// Most Thumb instructions don't have explicit predicates in the
916// encoding, but rather get their predicates from IT context. We need
917// to fix up the predicate operands using this context information as a
918// post-pass.
920ARMDisassembler::AddThumbPredicate(MCInst &MI) const {
922
923 const FeatureBitset &FeatureBits = getSubtargetInfo().getFeatureBits();
924
925 // A few instructions actually have predicates encoded in them. Don't
926 // try to overwrite it if we're seeing one of those.
927 switch (MI.getOpcode()) {
928 case ARM::tBcc:
929 case ARM::t2Bcc:
930 case ARM::tCBZ:
931 case ARM::tCBNZ:
932 case ARM::tCPS:
933 case ARM::t2CPS3p:
934 case ARM::t2CPS2p:
935 case ARM::t2CPS1p:
936 case ARM::t2CSEL:
937 case ARM::t2CSINC:
938 case ARM::t2CSINV:
939 case ARM::t2CSNEG:
940 case ARM::tMOVSr:
941 case ARM::tSETEND:
942 // Some instructions (mostly conditional branches) are not
943 // allowed in IT blocks.
944 if (ITBlock.instrInITBlock())
945 S = SoftFail;
946 else
947 return Success;
948 break;
949 case ARM::t2HINT:
950 if (MI.getOperand(0).getImm() == 0x10 && (FeatureBits[ARM::FeatureRAS]) != 0)
951 S = SoftFail;
952 break;
953 case ARM::tB:
954 case ARM::t2B:
955 case ARM::t2TBB:
956 case ARM::t2TBH:
957 // Some instructions (mostly unconditional branches) can
958 // only appears at the end of, or outside of, an IT.
959 if (ITBlock.instrInITBlock() && !ITBlock.instrLastInITBlock())
960 S = SoftFail;
961 break;
962 default:
963 break;
964 }
965
966 // Warn on non-VPT predicable instruction in a VPT block and a VPT
967 // predicable instruction in an IT block
968 if ((!isVectorPredicable(MI) && VPTBlock.instrInVPTBlock()) ||
969 (isVectorPredicable(MI) && ITBlock.instrInITBlock()))
970 S = SoftFail;
971
972 // If we're in an IT/VPT block, base the predicate on that. Otherwise,
973 // assume a predicate of AL.
974 unsigned CC = ARMCC::AL;
975 unsigned VCC = ARMVCC::None;
976 if (ITBlock.instrInITBlock()) {
977 CC = ITBlock.getITCC();
978 ITBlock.advanceITState();
979 } else if (VPTBlock.instrInVPTBlock()) {
980 VCC = VPTBlock.getVPTPred();
981 VPTBlock.advanceVPTState();
982 }
983
984 const MCInstrDesc &MCID = MCII->get(MI.getOpcode());
985
986 MCInst::iterator CCI = MI.begin();
987 for (unsigned i = 0; i < MCID.NumOperands; ++i, ++CCI) {
988 if (MCID.operands()[i].isPredicate() || CCI == MI.end())
989 break;
990 }
991
992 if (MCID.isPredicable()) {
993 CCI = MI.insert(CCI, MCOperand::createImm(CC));
994 ++CCI;
995 if (CC == ARMCC::AL)
996 MI.insert(CCI, MCOperand::createReg(ARM::NoRegister));
997 else
998 MI.insert(CCI, MCOperand::createReg(ARM::CPSR));
999 } else if (CC != ARMCC::AL) {
1000 Check(S, SoftFail);
1001 }
1002
1003 MCInst::iterator VCCI = MI.begin();
1004 unsigned VCCPos;
1005 for (VCCPos = 0; VCCPos < MCID.NumOperands; ++VCCPos, ++VCCI) {
1006 if (ARM::isVpred(MCID.operands()[VCCPos].OperandType) || VCCI == MI.end())
1007 break;
1008 }
1009
1010 if (isVectorPredicable(MI)) {
1011 VCCI = MI.insert(VCCI, MCOperand::createImm(VCC));
1012 ++VCCI;
1013 if (VCC == ARMVCC::None)
1014 VCCI = MI.insert(VCCI, MCOperand::createReg(0));
1015 else
1016 VCCI = MI.insert(VCCI, MCOperand::createReg(ARM::P0));
1017 ++VCCI;
1018 VCCI = MI.insert(VCCI, MCOperand::createReg(0));
1019 ++VCCI;
1020 if (MCID.operands()[VCCPos].OperandType == ARM::OPERAND_VPRED_R) {
1021 int TiedOp = MCID.getOperandConstraint(VCCPos + 3, MCOI::TIED_TO);
1022 assert(TiedOp >= 0 &&
1023 "Inactive register in vpred_r is not tied to an output!");
1024 // Copy the operand to ensure it's not invalidated when MI grows.
1025 MI.insert(VCCI, MCOperand(MI.getOperand(TiedOp)));
1026 }
1027 } else if (VCC != ARMVCC::None) {
1028 Check(S, SoftFail);
1029 }
1030
1031 return S;
1032}
1033
1034// Thumb VFP instructions are a special case. Because we share their
1035// encodings between ARM and Thumb modes, and they are predicable in ARM
1036// mode, the auto-generated decoder will give them an (incorrect)
1037// predicate operand. We need to rewrite these operands based on the IT
1038// context as a post-pass.
1039void ARMDisassembler::UpdateThumbVFPPredicate(
1040 DecodeStatus &S, MCInst &MI) const {
1041 unsigned CC;
1042 CC = ITBlock.getITCC();
1043 if (CC == 0xF)
1044 CC = ARMCC::AL;
1045 if (ITBlock.instrInITBlock())
1046 ITBlock.advanceITState();
1047 else if (VPTBlock.instrInVPTBlock()) {
1048 CC = VPTBlock.getVPTPred();
1049 VPTBlock.advanceVPTState();
1050 }
1051
1052 const MCInstrDesc &MCID = MCII->get(MI.getOpcode());
1053 ArrayRef<MCOperandInfo> OpInfo = MCID.operands();
1054 MCInst::iterator I = MI.begin();
1055 unsigned short NumOps = MCID.NumOperands;
1056 for (unsigned i = 0; i < NumOps; ++i, ++I) {
1057 if (OpInfo[i].isPredicate() ) {
1058 if (CC != ARMCC::AL && !MCID.isPredicable())
1059 Check(S, SoftFail);
1060 I->setImm(CC);
1061 ++I;
1062 if (CC == ARMCC::AL)
1063 I->setReg(ARM::NoRegister);
1064 else
1065 I->setReg(ARM::CPSR);
1066 return;
1067 }
1068 }
1069}
1070
1071DecodeStatus ARMDisassembler::getThumbInstruction(MCInst &MI, uint64_t &Size,
1072 ArrayRef<uint8_t> Bytes,
1073 uint64_t Address,
1074 raw_ostream &CS) const {
1075 CommentStream = &CS;
1076
1077 assert(STI.hasFeature(ARM::ModeThumb) &&
1078 "Asked to disassemble in Thumb mode but Subtarget is in ARM mode!");
1079
1080 // We want to read exactly 2 bytes of data.
1081 if (Bytes.size() < 2) {
1082 Size = 0;
1083 return MCDisassembler::Fail;
1084 }
1085
1086 uint16_t Insn16 = llvm::support::endian::read<uint16_t>(
1087 Bytes.data(), InstructionEndianness);
1089 decodeInstruction(DecoderTableThumb16, MI, Insn16, Address, this, STI);
1090 if (Result != MCDisassembler::Fail) {
1091 Size = 2;
1092 Check(Result, AddThumbPredicate(MI));
1093 return Result;
1094 }
1095
1096 Result = decodeInstruction(DecoderTableThumbSBit16, MI, Insn16, Address, this,
1097 STI);
1098 if (Result) {
1099 Size = 2;
1100 bool InITBlock = ITBlock.instrInITBlock();
1101 Check(Result, AddThumbPredicate(MI));
1102 AddThumb1SBit(MI, InITBlock);
1103 return Result;
1104 }
1105
1106 Result =
1107 decodeInstruction(DecoderTableThumb216, MI, Insn16, Address, this, STI);
1108 if (Result != MCDisassembler::Fail) {
1109 Size = 2;
1110
1111 // Nested IT blocks are UNPREDICTABLE. Must be checked before we add
1112 // the Thumb predicate.
1113 if (MI.getOpcode() == ARM::t2IT && ITBlock.instrInITBlock())
1115
1116 Check(Result, AddThumbPredicate(MI));
1117
1118 // If we find an IT instruction, we need to parse its condition
1119 // code and mask operands so that we can apply them correctly
1120 // to the subsequent instructions.
1121 if (MI.getOpcode() == ARM::t2IT) {
1122 unsigned Firstcond = MI.getOperand(0).getImm();
1123 unsigned Mask = MI.getOperand(1).getImm();
1124 ITBlock.setITState(Firstcond, Mask);
1125
1126 // An IT instruction that would give a 'NV' predicate is unpredictable.
1127 if (Firstcond == ARMCC::AL && !isPowerOf2_32(Mask))
1128 CS << "unpredictable IT predicate sequence";
1129 }
1130
1131 return Result;
1132 }
1133
1134 // We want to read exactly 4 bytes of data.
1135 if (Bytes.size() < 4) {
1136 Size = 0;
1137 return MCDisassembler::Fail;
1138 }
1139
1140 uint32_t Insn32 =
1141 (uint32_t(Insn16) << 16) | llvm::support::endian::read<uint16_t>(
1142 Bytes.data() + 2, InstructionEndianness);
1143
1144 Result =
1145 decodeInstruction(DecoderTableMVE32, MI, Insn32, Address, this, STI);
1146 if (Result != MCDisassembler::Fail) {
1147 Size = 4;
1148
1149 // Nested VPT blocks are UNPREDICTABLE. Must be checked before we add
1150 // the VPT predicate.
1151 if (isVPTOpcode(MI.getOpcode()) && VPTBlock.instrInVPTBlock())
1153
1154 Check(Result, AddThumbPredicate(MI));
1155
1156 if (isVPTOpcode(MI.getOpcode())) {
1157 unsigned Mask = MI.getOperand(0).getImm();
1158 VPTBlock.setVPTState(Mask);
1159 }
1160
1161 return Result;
1162 }
1163
1164 Result =
1165 decodeInstruction(DecoderTableThumb32, MI, Insn32, Address, this, STI);
1166 if (Result != MCDisassembler::Fail) {
1167 Size = 4;
1168 bool InITBlock = ITBlock.instrInITBlock();
1169 Check(Result, AddThumbPredicate(MI));
1170 AddThumb1SBit(MI, InITBlock);
1171 return Result;
1172 }
1173
1174 Result =
1175 decodeInstruction(DecoderTableThumb232, MI, Insn32, Address, this, STI);
1176 if (Result != MCDisassembler::Fail) {
1177 Size = 4;
1178 Check(Result, AddThumbPredicate(MI));
1179 return checkDecodedInstruction(MI, Size, Address, CS, Insn32, Result);
1180 }
1181
1182 if (fieldFromInstruction(Insn32, 28, 4) == 0xE) {
1183 Result =
1184 decodeInstruction(DecoderTableVFP32, MI, Insn32, Address, this, STI);
1185 if (Result != MCDisassembler::Fail) {
1186 Size = 4;
1187 UpdateThumbVFPPredicate(Result, MI);
1188 return Result;
1189 }
1190 }
1191
1192 Result =
1193 decodeInstruction(DecoderTableVFPV832, MI, Insn32, Address, this, STI);
1194 if (Result != MCDisassembler::Fail) {
1195 Size = 4;
1196 return Result;
1197 }
1198
1199 if (fieldFromInstruction(Insn32, 28, 4) == 0xE) {
1200 Result = decodeInstruction(DecoderTableNEONDup32, MI, Insn32, Address, this,
1201 STI);
1202 if (Result != MCDisassembler::Fail) {
1203 Size = 4;
1204 Check(Result, AddThumbPredicate(MI));
1205 return Result;
1206 }
1207 }
1208
1209 if (fieldFromInstruction(Insn32, 24, 8) == 0xF9) {
1210 uint32_t NEONLdStInsn = Insn32;
1211 NEONLdStInsn &= 0xF0FFFFFF;
1212 NEONLdStInsn |= 0x04000000;
1213 Result = decodeInstruction(DecoderTableNEONLoadStore32, MI, NEONLdStInsn,
1214 Address, this, STI);
1215 if (Result != MCDisassembler::Fail) {
1216 Size = 4;
1217 Check(Result, AddThumbPredicate(MI));
1218 return Result;
1219 }
1220 }
1221
1222 if (fieldFromInstruction(Insn32, 24, 4) == 0xF) {
1223 uint32_t NEONDataInsn = Insn32;
1224 NEONDataInsn &= 0xF0FFFFFF; // Clear bits 27-24
1225 NEONDataInsn |= (NEONDataInsn & 0x10000000) >> 4; // Move bit 28 to bit 24
1226 NEONDataInsn |= 0x12000000; // Set bits 28 and 25
1227 Result = decodeInstruction(DecoderTableNEONData32, MI, NEONDataInsn,
1228 Address, this, STI);
1229 if (Result != MCDisassembler::Fail) {
1230 Size = 4;
1231 Check(Result, AddThumbPredicate(MI));
1232 return Result;
1233 }
1234
1235 uint32_t NEONCryptoInsn = Insn32;
1236 NEONCryptoInsn &= 0xF0FFFFFF; // Clear bits 27-24
1237 NEONCryptoInsn |= (NEONCryptoInsn & 0x10000000) >> 4; // Move bit 28 to bit 24
1238 NEONCryptoInsn |= 0x12000000; // Set bits 28 and 25
1239 Result = decodeInstruction(DecoderTablev8Crypto32, MI, NEONCryptoInsn,
1240 Address, this, STI);
1241 if (Result != MCDisassembler::Fail) {
1242 Size = 4;
1243 return Result;
1244 }
1245
1246 uint32_t NEONv8Insn = Insn32;
1247 NEONv8Insn &= 0xF3FFFFFF; // Clear bits 27-26
1248 Result = decodeInstruction(DecoderTablev8NEON32, MI, NEONv8Insn, Address,
1249 this, STI);
1250 if (Result != MCDisassembler::Fail) {
1251 Size = 4;
1252 return Result;
1253 }
1254 }
1255
1256 uint32_t Coproc = fieldFromInstruction(Insn32, 8, 4);
1257 const uint8_t *DecoderTable = ARM::isCDECoproc(Coproc, STI)
1258 ? DecoderTableThumb2CDE32
1259 : DecoderTableThumb2CoProc32;
1260 Result =
1261 decodeInstruction(DecoderTable, MI, Insn32, Address, this, STI);
1262 if (Result != MCDisassembler::Fail) {
1263 Size = 4;
1264 Check(Result, AddThumbPredicate(MI));
1265 return Result;
1266 }
1267
1268 Size = 0;
1269 return MCDisassembler::Fail;
1270}
1271
1281}
1282
1283static const uint16_t GPRDecoderTable[] = {
1284 ARM::R0, ARM::R1, ARM::R2, ARM::R3,
1285 ARM::R4, ARM::R5, ARM::R6, ARM::R7,
1286 ARM::R8, ARM::R9, ARM::R10, ARM::R11,
1287 ARM::R12, ARM::SP, ARM::LR, ARM::PC
1288};
1289
1291 ARM::R0, ARM::R1, ARM::R2, ARM::R3,
1292 ARM::R4, ARM::R5, ARM::R6, ARM::R7,
1293 ARM::R8, ARM::R9, ARM::R10, ARM::R11,
1294 ARM::R12, 0, ARM::LR, ARM::APSR
1295};
1296
1297static DecodeStatus DecodeGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1298 uint64_t Address,
1299 const MCDisassembler *Decoder) {
1300 if (RegNo > 15)
1301 return MCDisassembler::Fail;
1302
1303 unsigned Register = GPRDecoderTable[RegNo];
1306}
1307
1309 uint64_t Address,
1310 const MCDisassembler *Decoder) {
1311 if (RegNo > 15)
1312 return MCDisassembler::Fail;
1313
1314 unsigned Register = CLRMGPRDecoderTable[RegNo];
1315 if (Register == 0)
1316 return MCDisassembler::Fail;
1317
1320}
1321
1323 uint64_t Address,
1324 const MCDisassembler *Decoder) {
1326
1327 if (RegNo == 15)
1329
1330 Check(S, DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1331
1332 return S;
1333}
1334
1336 uint64_t Address,
1337 const MCDisassembler *Decoder) {
1339
1340 if (RegNo == 13)
1342
1343 Check(S, DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1344
1345 return S;
1346}
1347
1348static DecodeStatus
1349DecodeGPRwithAPSRRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1350 const MCDisassembler *Decoder) {
1352
1353 if (RegNo == 15)
1354 {
1355 Inst.addOperand(MCOperand::createReg(ARM::APSR_NZCV));
1357 }
1358
1359 Check(S, DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1360 return S;
1361}
1362
1363static DecodeStatus
1364DecodeGPRwithZRRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1365 const MCDisassembler *Decoder) {
1367
1368 if (RegNo == 15)
1369 {
1370 Inst.addOperand(MCOperand::createReg(ARM::ZR));
1372 }
1373
1374 if (RegNo == 13)
1376
1377 Check(S, DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1378 return S;
1379}
1380
1381static DecodeStatus
1382DecodeGPRwithZRnospRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1383 const MCDisassembler *Decoder) {
1385 if (RegNo == 13)
1386 return MCDisassembler::Fail;
1387 Check(S, DecodeGPRwithZRRegisterClass(Inst, RegNo, Address, Decoder));
1388 return S;
1389}
1390
1391static DecodeStatus DecodetGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1392 uint64_t Address,
1393 const MCDisassembler *Decoder) {
1394 if (RegNo > 7)
1395 return MCDisassembler::Fail;
1396 return DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder);
1397}
1398
1400 ARM::R0_R1, ARM::R2_R3, ARM::R4_R5, ARM::R6_R7,
1401 ARM::R8_R9, ARM::R10_R11, ARM::R12_SP
1402};
1403
1405 uint64_t Address,
1406 const MCDisassembler *Decoder) {
1408
1409 // According to the Arm ARM RegNo = 14 is undefined, but we return fail
1410 // rather than SoftFail as there is no GPRPair table entry for index 7.
1411 if (RegNo > 13)
1412 return MCDisassembler::Fail;
1413
1414 if (RegNo & 1)
1416
1417 unsigned RegisterPair = GPRPairDecoderTable[RegNo/2];
1418 Inst.addOperand(MCOperand::createReg(RegisterPair));
1419 return S;
1420}
1421
1422static DecodeStatus
1423DecodeGPRPairnospRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1424 const MCDisassembler *Decoder) {
1425 if (RegNo > 13)
1426 return MCDisassembler::Fail;
1427
1428 unsigned RegisterPair = GPRPairDecoderTable[RegNo/2];
1429 Inst.addOperand(MCOperand::createReg(RegisterPair));
1430
1431 if ((RegNo & 1) || RegNo > 10)
1434}
1435
1436static DecodeStatus DecodeGPRspRegisterClass(MCInst &Inst, unsigned RegNo,
1437 uint64_t Address,
1438 const MCDisassembler *Decoder) {
1439 if (RegNo != 13)
1440 return MCDisassembler::Fail;
1441
1442 unsigned Register = GPRDecoderTable[RegNo];
1445}
1446
1447static DecodeStatus DecodetcGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1448 uint64_t Address,
1449 const MCDisassembler *Decoder) {
1450 unsigned Register = 0;
1451 switch (RegNo) {
1452 case 0:
1453 Register = ARM::R0;
1454 break;
1455 case 1:
1456 Register = ARM::R1;
1457 break;
1458 case 2:
1459 Register = ARM::R2;
1460 break;
1461 case 3:
1462 Register = ARM::R3;
1463 break;
1464 case 9:
1465 Register = ARM::R9;
1466 break;
1467 case 12:
1468 Register = ARM::R12;
1469 break;
1470 default:
1471 return MCDisassembler::Fail;
1472 }
1473
1476}
1477
1478static DecodeStatus DecoderGPRRegisterClass(MCInst &Inst, unsigned RegNo,
1479 uint64_t Address,
1480 const MCDisassembler *Decoder) {
1482
1483 const FeatureBitset &featureBits =
1484 ((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
1485
1486 if ((RegNo == 13 && !featureBits[ARM::HasV8Ops]) || RegNo == 15)
1488
1489 Check(S, DecodeGPRRegisterClass(Inst, RegNo, Address, Decoder));
1490 return S;
1491}
1492
1493static const uint16_t SPRDecoderTable[] = {
1494 ARM::S0, ARM::S1, ARM::S2, ARM::S3,
1495 ARM::S4, ARM::S5, ARM::S6, ARM::S7,
1496 ARM::S8, ARM::S9, ARM::S10, ARM::S11,
1497 ARM::S12, ARM::S13, ARM::S14, ARM::S15,
1498 ARM::S16, ARM::S17, ARM::S18, ARM::S19,
1499 ARM::S20, ARM::S21, ARM::S22, ARM::S23,
1500 ARM::S24, ARM::S25, ARM::S26, ARM::S27,
1501 ARM::S28, ARM::S29, ARM::S30, ARM::S31
1502};
1503
1504static DecodeStatus DecodeSPRRegisterClass(MCInst &Inst, unsigned RegNo,
1505 uint64_t Address,
1506 const MCDisassembler *Decoder) {
1507 if (RegNo > 31)
1508 return MCDisassembler::Fail;
1509
1510 unsigned Register = SPRDecoderTable[RegNo];
1513}
1514
1515static DecodeStatus DecodeHPRRegisterClass(MCInst &Inst, unsigned RegNo,
1516 uint64_t Address,
1517 const MCDisassembler *Decoder) {
1518 return DecodeSPRRegisterClass(Inst, RegNo, Address, Decoder);
1519}
1520
1521static const uint16_t DPRDecoderTable[] = {
1522 ARM::D0, ARM::D1, ARM::D2, ARM::D3,
1523 ARM::D4, ARM::D5, ARM::D6, ARM::D7,
1524 ARM::D8, ARM::D9, ARM::D10, ARM::D11,
1525 ARM::D12, ARM::D13, ARM::D14, ARM::D15,
1526 ARM::D16, ARM::D17, ARM::D18, ARM::D19,
1527 ARM::D20, ARM::D21, ARM::D22, ARM::D23,
1528 ARM::D24, ARM::D25, ARM::D26, ARM::D27,
1529 ARM::D28, ARM::D29, ARM::D30, ARM::D31
1530};
1531
1532// Does this instruction/subtarget permit use of registers d16-d31?
1533static bool PermitsD32(const MCInst &Inst, const MCDisassembler *Decoder) {
1534 if (Inst.getOpcode() == ARM::VSCCLRMD || Inst.getOpcode() == ARM::VSCCLRMS)
1535 return true;
1536 const FeatureBitset &featureBits =
1537 ((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
1538 return featureBits[ARM::FeatureD32];
1539}
1540
1541static DecodeStatus DecodeDPRRegisterClass(MCInst &Inst, unsigned RegNo,
1542 uint64_t Address,
1543 const MCDisassembler *Decoder) {
1544 if (RegNo > (PermitsD32(Inst, Decoder) ? 31u : 15u))
1545 return MCDisassembler::Fail;
1546
1547 unsigned Register = DPRDecoderTable[RegNo];
1550}
1551
1552static DecodeStatus DecodeDPR_8RegisterClass(MCInst &Inst, unsigned RegNo,
1553 uint64_t Address,
1554 const MCDisassembler *Decoder) {
1555 if (RegNo > 7)
1556 return MCDisassembler::Fail;
1557 return DecodeDPRRegisterClass(Inst, RegNo, Address, Decoder);
1558}
1559
1560static DecodeStatus DecodeSPR_8RegisterClass(MCInst &Inst, unsigned RegNo,
1561 uint64_t Address,
1562 const MCDisassembler *Decoder) {
1563 if (RegNo > 15)
1564 return MCDisassembler::Fail;
1565 return DecodeSPRRegisterClass(Inst, RegNo, Address, Decoder);
1566}
1567
1569 uint64_t Address,
1570 const MCDisassembler *Decoder) {
1571 if (RegNo > 15)
1572 return MCDisassembler::Fail;
1573 return DecodeDPRRegisterClass(Inst, RegNo, Address, Decoder);
1574}
1575
1576static const uint16_t QPRDecoderTable[] = {
1577 ARM::Q0, ARM::Q1, ARM::Q2, ARM::Q3,
1578 ARM::Q4, ARM::Q5, ARM::Q6, ARM::Q7,
1579 ARM::Q8, ARM::Q9, ARM::Q10, ARM::Q11,
1580 ARM::Q12, ARM::Q13, ARM::Q14, ARM::Q15
1581};
1582
1583static DecodeStatus DecodeQPRRegisterClass(MCInst &Inst, unsigned RegNo,
1584 uint64_t Address,
1585 const MCDisassembler *Decoder) {
1586 if (RegNo > 31 || (RegNo & 1) != 0)
1587 return MCDisassembler::Fail;
1588 RegNo >>= 1;
1589
1590 unsigned Register = QPRDecoderTable[RegNo];
1593}
1594
1595static const uint16_t DPairDecoderTable[] = {
1596 ARM::Q0, ARM::D1_D2, ARM::Q1, ARM::D3_D4, ARM::Q2, ARM::D5_D6,
1597 ARM::Q3, ARM::D7_D8, ARM::Q4, ARM::D9_D10, ARM::Q5, ARM::D11_D12,
1598 ARM::Q6, ARM::D13_D14, ARM::Q7, ARM::D15_D16, ARM::Q8, ARM::D17_D18,
1599 ARM::Q9, ARM::D19_D20, ARM::Q10, ARM::D21_D22, ARM::Q11, ARM::D23_D24,
1600 ARM::Q12, ARM::D25_D26, ARM::Q13, ARM::D27_D28, ARM::Q14, ARM::D29_D30,
1601 ARM::Q15
1602};
1603
1604static DecodeStatus DecodeDPairRegisterClass(MCInst &Inst, unsigned RegNo,
1605 uint64_t Address,
1606 const MCDisassembler *Decoder) {
1607 if (RegNo > 30)
1608 return MCDisassembler::Fail;
1609
1610 unsigned Register = DPairDecoderTable[RegNo];
1613}
1614
1616 ARM::D0_D2, ARM::D1_D3, ARM::D2_D4, ARM::D3_D5,
1617 ARM::D4_D6, ARM::D5_D7, ARM::D6_D8, ARM::D7_D9,
1618 ARM::D8_D10, ARM::D9_D11, ARM::D10_D12, ARM::D11_D13,
1619 ARM::D12_D14, ARM::D13_D15, ARM::D14_D16, ARM::D15_D17,
1620 ARM::D16_D18, ARM::D17_D19, ARM::D18_D20, ARM::D19_D21,
1621 ARM::D20_D22, ARM::D21_D23, ARM::D22_D24, ARM::D23_D25,
1622 ARM::D24_D26, ARM::D25_D27, ARM::D26_D28, ARM::D27_D29,
1623 ARM::D28_D30, ARM::D29_D31
1624};
1625
1626static DecodeStatus
1627DecodeDPairSpacedRegisterClass(MCInst &Inst, unsigned RegNo, uint64_t Address,
1628 const MCDisassembler *Decoder) {
1629 if (RegNo > 29)
1630 return MCDisassembler::Fail;
1631
1632 unsigned Register = DPairSpacedDecoderTable[RegNo];
1635}
1636
1637static DecodeStatus DecodePredicateOperand(MCInst &Inst, unsigned Val,
1638 uint64_t Address,
1639 const MCDisassembler *Decoder) {
1641 if (Val == 0xF) return MCDisassembler::Fail;
1642 // AL predicate is not allowed on Thumb1 branches.
1643 if (Inst.getOpcode() == ARM::tBcc && Val == 0xE)
1644 return MCDisassembler::Fail;
1645 const MCInstrInfo *MCII =
1646 static_cast<const ARMDisassembler *>(Decoder)->MCII.get();
1647 if (Val != ARMCC::AL && !MCII->get(Inst.getOpcode()).isPredicable())
1650 if (Val == ARMCC::AL) {
1651 Inst.addOperand(MCOperand::createReg(ARM::NoRegister));
1652 } else
1653 Inst.addOperand(MCOperand::createReg(ARM::CPSR));
1654 return S;
1655}
1656
1657static DecodeStatus DecodeCCOutOperand(MCInst &Inst, unsigned Val,
1658 uint64_t Address,
1659 const MCDisassembler *Decoder) {
1660 if (Val)
1661 Inst.addOperand(MCOperand::createReg(ARM::CPSR));
1662 else
1663 Inst.addOperand(MCOperand::createReg(ARM::NoRegister));
1665}
1666
1667static DecodeStatus DecodeSORegImmOperand(MCInst &Inst, unsigned Val,
1668 uint64_t Address,
1669 const MCDisassembler *Decoder) {
1671
1672 unsigned Rm = fieldFromInstruction(Val, 0, 4);
1673 unsigned type = fieldFromInstruction(Val, 5, 2);
1674 unsigned imm = fieldFromInstruction(Val, 7, 5);
1675
1676 // Register-immediate
1677 if (!Check(S, DecoderGPRRegisterClass(Inst, Rm, Address, Decoder)))
1678 return MCDisassembler::Fail;
1679
1681 switch (type) {
1682 case 0:
1683 Shift = ARM_AM::lsl;
1684 break;
1685 case 1:
1686 Shift = ARM_AM::lsr;
1687 break;
1688 case 2:
1689 Shift = ARM_AM::asr;
1690 break;
1691 case 3:
1692 Shift = ARM_AM::ror;
1693 break;
1694 }
1695
1696 if (Shift == ARM_AM::ror && imm == 0)
1697 Shift = ARM_AM::rrx;
1698
1699 unsigned Op = Shift | (imm << 3);
1701
1702 return S;
1703}
1704
1705static DecodeStatus DecodeSORegRegOperand(MCInst &Inst, unsigned Val,
1706 uint64_t Address,
1707 const MCDisassembler *Decoder) {
1709
1710 unsigned Rm = fieldFromInstruction(Val, 0, 4);
1711 unsigned type = fieldFromInstruction(Val, 5, 2);
1712 unsigned Rs = fieldFromInstruction(Val, 8, 4);
1713
1714 // Register-register
1715 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rm, Address, Decoder)))
1716 return MCDisassembler::Fail;
1717 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rs, Address, Decoder)))
1718 return MCDisassembler::Fail;
1719
1721 switch (type) {
1722 case 0:
1723 Shift = ARM_AM::lsl;
1724 break;
1725 case 1:
1726 Shift = ARM_AM::lsr;
1727 break;
1728 case 2:
1729 Shift = ARM_AM::asr;
1730 break;
1731 case 3:
1732 Shift = ARM_AM::ror;
1733 break;
1734 }
1735
1736 Inst.addOperand(MCOperand::createImm(Shift));
1737
1738 return S;
1739}
1740
1741static DecodeStatus DecodeRegListOperand(MCInst &Inst, unsigned Val,
1742 uint64_t Address,
1743 const MCDisassembler *Decoder) {
1745
1746 bool NeedDisjointWriteback = false;
1747 MCRegister WritebackReg;
1748 bool CLRM = false;
1749 switch (Inst.getOpcode()) {
1750 default:
1751 break;
1752 case ARM::LDMIA_UPD:
1753 case ARM::LDMDB_UPD:
1754 case ARM::LDMIB_UPD:
1755 case ARM::LDMDA_UPD:
1756 case ARM::t2LDMIA_UPD:
1757 case ARM::t2LDMDB_UPD:
1758 case ARM::t2STMIA_UPD:
1759 case ARM::t2STMDB_UPD:
1760 NeedDisjointWriteback = true;
1761 WritebackReg = Inst.getOperand(0).getReg();
1762 break;
1763 case ARM::t2CLRM:
1764 CLRM = true;
1765 break;
1766 }
1767
1768 // Empty register lists are not allowed.
1769 if (Val == 0) return MCDisassembler::Fail;
1770 for (unsigned i = 0; i < 16; ++i) {
1771 if (Val & (1 << i)) {
1772 if (CLRM) {
1773 if (!Check(S, DecodeCLRMGPRRegisterClass(Inst, i, Address, Decoder))) {
1774 return MCDisassembler::Fail;
1775 }
1776 } else {
1777 if (!Check(S, DecodeGPRRegisterClass(Inst, i, Address, Decoder)))
1778 return MCDisassembler::Fail;
1779 // Writeback not allowed if Rn is in the target list.
1780 if (NeedDisjointWriteback && WritebackReg == Inst.end()[-1].getReg())
1782 }
1783 }
1784 }
1785
1786 return S;
1787}
1788
1790 uint64_t Address,
1791 const MCDisassembler *Decoder) {
1793
1794 unsigned Vd = fieldFromInstruction(Val, 8, 5);
1795 unsigned regs = fieldFromInstruction(Val, 0, 8);
1796
1797 // In case of unpredictable encoding, tweak the operands.
1798 if (regs == 0 || (Vd + regs) > 32) {
1799 regs = Vd + regs > 32 ? 32 - Vd : regs;
1800 regs = std::max( 1u, regs);
1802 }
1803
1804 if (!Check(S, DecodeSPRRegisterClass(Inst, Vd, Address, Decoder)))
1805 return MCDisassembler::Fail;
1806 for (unsigned i = 0; i < (regs - 1); ++i) {
1807 if (!Check(S, DecodeSPRRegisterClass(Inst, ++Vd, Address, Decoder)))
1808 return MCDisassembler::Fail;
1809 }
1810
1811 return S;
1812}
1813
1815 uint64_t Address,
1816 const MCDisassembler *Decoder) {
1818
1819 unsigned Vd = fieldFromInstruction(Val, 8, 5);
1820 unsigned regs = fieldFromInstruction(Val, 1, 7);
1821
1822 // In case of unpredictable encoding, tweak the operands.
1823 unsigned MaxReg = PermitsD32(Inst, Decoder) ? 32 : 16;
1824 if (regs == 0 || (Vd + regs) > MaxReg) {
1825 regs = Vd + regs > MaxReg ? MaxReg - Vd : regs;
1826 regs = std::max( 1u, regs);
1827 regs = std::min(MaxReg, regs);
1829 }
1830
1831 if (!Check(S, DecodeDPRRegisterClass(Inst, Vd, Address, Decoder)))
1832 return MCDisassembler::Fail;
1833 for (unsigned i = 0; i < (regs - 1); ++i) {
1834 if (!Check(S, DecodeDPRRegisterClass(Inst, ++Vd, Address, Decoder)))
1835 return MCDisassembler::Fail;
1836 }
1837
1838 return S;
1839}
1840
1842 uint64_t Address,
1843 const MCDisassembler *Decoder) {
1844 // This operand encodes a mask of contiguous zeros between a specified MSB
1845 // and LSB. To decode it, we create the mask of all bits MSB-and-lower,
1846 // the mask of all bits LSB-and-lower, and then xor them to create
1847 // the mask of that's all ones on [msb, lsb]. Finally we not it to
1848 // create the final mask.
1849 unsigned msb = fieldFromInstruction(Val, 5, 5);
1850 unsigned lsb = fieldFromInstruction(Val, 0, 5);
1851
1853 if (lsb > msb) {
1855 // The check above will cause the warning for the "potentially undefined
1856 // instruction encoding" but we can't build a bad MCOperand value here
1857 // with a lsb > msb or else printing the MCInst will cause a crash.
1858 lsb = msb;
1859 }
1860
1861 uint32_t msb_mask = 0xFFFFFFFF;
1862 if (msb != 31) msb_mask = (1U << (msb+1)) - 1;
1863 uint32_t lsb_mask = (1U << lsb) - 1;
1864
1865 Inst.addOperand(MCOperand::createImm(~(msb_mask ^ lsb_mask)));
1866 return S;
1867}
1868
1870 uint64_t Address,
1871 const MCDisassembler *Decoder) {
1873
1874 unsigned pred = fieldFromInstruction(Insn, 28, 4);
1875 unsigned CRd = fieldFromInstruction(Insn, 12, 4);
1876 unsigned coproc = fieldFromInstruction(Insn, 8, 4);
1877 unsigned imm = fieldFromInstruction(Insn, 0, 8);
1878 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
1879 unsigned U = fieldFromInstruction(Insn, 23, 1);
1880 const FeatureBitset &featureBits =
1881 ((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
1882
1883 switch (Inst.getOpcode()) {
1884 case ARM::LDC_OFFSET:
1885 case ARM::LDC_PRE:
1886 case ARM::LDC_POST:
1887 case ARM::LDC_OPTION:
1888 case ARM::LDCL_OFFSET:
1889 case ARM::LDCL_PRE:
1890 case ARM::LDCL_POST:
1891 case ARM::LDCL_OPTION:
1892 case ARM::STC_OFFSET:
1893 case ARM::STC_PRE:
1894 case ARM::STC_POST:
1895 case ARM::STC_OPTION:
1896 case ARM::STCL_OFFSET:
1897 case ARM::STCL_PRE:
1898 case ARM::STCL_POST:
1899 case ARM::STCL_OPTION:
1900 case ARM::t2LDC_OFFSET:
1901 case ARM::t2LDC_PRE:
1902 case ARM::t2LDC_POST:
1903 case ARM::t2LDC_OPTION:
1904 case ARM::t2LDCL_OFFSET:
1905 case ARM::t2LDCL_PRE:
1906 case ARM::t2LDCL_POST:
1907 case ARM::t2LDCL_OPTION:
1908 case ARM::t2STC_OFFSET:
1909 case ARM::t2STC_PRE:
1910 case ARM::t2STC_POST:
1911 case ARM::t2STC_OPTION:
1912 case ARM::t2STCL_OFFSET:
1913 case ARM::t2STCL_PRE:
1914 case ARM::t2STCL_POST:
1915 case ARM::t2STCL_OPTION:
1916 case ARM::t2LDC2_OFFSET:
1917 case ARM::t2LDC2L_OFFSET:
1918 case ARM::t2LDC2_PRE:
1919 case ARM::t2LDC2L_PRE:
1920 case ARM::t2STC2_OFFSET:
1921 case ARM::t2STC2L_OFFSET:
1922 case ARM::t2STC2_PRE:
1923 case ARM::t2STC2L_PRE:
1924 case ARM::LDC2_OFFSET:
1925 case ARM::LDC2L_OFFSET:
1926 case ARM::LDC2_PRE:
1927 case ARM::LDC2L_PRE:
1928 case ARM::STC2_OFFSET:
1929 case ARM::STC2L_OFFSET:
1930 case ARM::STC2_PRE:
1931 case ARM::STC2L_PRE:
1932 case ARM::t2LDC2_OPTION:
1933 case ARM::t2STC2_OPTION:
1934 case ARM::t2LDC2_POST:
1935 case ARM::t2LDC2L_POST:
1936 case ARM::t2STC2_POST:
1937 case ARM::t2STC2L_POST:
1938 case ARM::LDC2_POST:
1939 case ARM::LDC2L_POST:
1940 case ARM::STC2_POST:
1941 case ARM::STC2L_POST:
1942 if (coproc == 0xA || coproc == 0xB ||
1943 (featureBits[ARM::HasV8_1MMainlineOps] &&
1944 (coproc == 0x8 || coproc == 0x9 || coproc == 0xA || coproc == 0xB ||
1945 coproc == 0xE || coproc == 0xF)))
1946 return MCDisassembler::Fail;
1947 break;
1948 default:
1949 break;
1950 }
1951
1952 if (featureBits[ARM::HasV8Ops] && (coproc != 14))
1953 return MCDisassembler::Fail;
1954
1955 Inst.addOperand(MCOperand::createImm(coproc));
1957 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
1958 return MCDisassembler::Fail;
1959
1960 switch (Inst.getOpcode()) {
1961 case ARM::t2LDC2_OFFSET:
1962 case ARM::t2LDC2L_OFFSET:
1963 case ARM::t2LDC2_PRE:
1964 case ARM::t2LDC2L_PRE:
1965 case ARM::t2STC2_OFFSET:
1966 case ARM::t2STC2L_OFFSET:
1967 case ARM::t2STC2_PRE:
1968 case ARM::t2STC2L_PRE:
1969 case ARM::LDC2_OFFSET:
1970 case ARM::LDC2L_OFFSET:
1971 case ARM::LDC2_PRE:
1972 case ARM::LDC2L_PRE:
1973 case ARM::STC2_OFFSET:
1974 case ARM::STC2L_OFFSET:
1975 case ARM::STC2_PRE:
1976 case ARM::STC2L_PRE:
1977 case ARM::t2LDC_OFFSET:
1978 case ARM::t2LDCL_OFFSET:
1979 case ARM::t2LDC_PRE:
1980 case ARM::t2LDCL_PRE:
1981 case ARM::t2STC_OFFSET:
1982 case ARM::t2STCL_OFFSET:
1983 case ARM::t2STC_PRE:
1984 case ARM::t2STCL_PRE:
1985 case ARM::LDC_OFFSET:
1986 case ARM::LDCL_OFFSET:
1987 case ARM::LDC_PRE:
1988 case ARM::LDCL_PRE:
1989 case ARM::STC_OFFSET:
1990 case ARM::STCL_OFFSET:
1991 case ARM::STC_PRE:
1992 case ARM::STCL_PRE:
1993 imm = ARM_AM::getAM5Opc(U ? ARM_AM::add : ARM_AM::sub, imm);
1995 break;
1996 case ARM::t2LDC2_POST:
1997 case ARM::t2LDC2L_POST:
1998 case ARM::t2STC2_POST:
1999 case ARM::t2STC2L_POST:
2000 case ARM::LDC2_POST:
2001 case ARM::LDC2L_POST:
2002 case ARM::STC2_POST:
2003 case ARM::STC2L_POST:
2004 case ARM::t2LDC_POST:
2005 case ARM::t2LDCL_POST:
2006 case ARM::t2STC_POST:
2007 case ARM::t2STCL_POST:
2008 case ARM::LDC_POST:
2009 case ARM::LDCL_POST:
2010 case ARM::STC_POST:
2011 case ARM::STCL_POST:
2012 imm |= U << 8;
2013 [[fallthrough]];
2014 default:
2015 // The 'option' variant doesn't encode 'U' in the immediate since
2016 // the immediate is unsigned [0,255].
2018 break;
2019 }
2020
2021 switch (Inst.getOpcode()) {
2022 case ARM::LDC_OFFSET:
2023 case ARM::LDC_PRE:
2024 case ARM::LDC_POST:
2025 case ARM::LDC_OPTION:
2026 case ARM::LDCL_OFFSET:
2027 case ARM::LDCL_PRE:
2028 case ARM::LDCL_POST:
2029 case ARM::LDCL_OPTION:
2030 case ARM::STC_OFFSET:
2031 case ARM::STC_PRE:
2032 case ARM::STC_POST:
2033 case ARM::STC_OPTION:
2034 case ARM::STCL_OFFSET:
2035 case ARM::STCL_PRE:
2036 case ARM::STCL_POST:
2037 case ARM::STCL_OPTION:
2038 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2039 return MCDisassembler::Fail;
2040 break;
2041 default:
2042 break;
2043 }
2044
2045 return S;
2046}
2047
2048static DecodeStatus
2050 const MCDisassembler *Decoder) {
2052
2053 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
2054 unsigned Rt = fieldFromInstruction(Insn, 12, 4);
2055 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
2056 unsigned imm = fieldFromInstruction(Insn, 0, 12);
2057 unsigned pred = fieldFromInstruction(Insn, 28, 4);
2058 unsigned reg = fieldFromInstruction(Insn, 25, 1);
2059 unsigned P = fieldFromInstruction(Insn, 24, 1);
2060 unsigned W = fieldFromInstruction(Insn, 21, 1);
2061
2062 // On stores, the writeback operand precedes Rt.
2063 switch (Inst.getOpcode()) {
2064 case ARM::STR_POST_IMM:
2065 case ARM::STR_POST_REG:
2066 case ARM::STRB_POST_IMM:
2067 case ARM::STRB_POST_REG:
2068 case ARM::STRT_POST_REG:
2069 case ARM::STRT_POST_IMM:
2070 case ARM::STRBT_POST_REG:
2071 case ARM::STRBT_POST_IMM:
2072 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2073 return MCDisassembler::Fail;
2074 break;
2075 default:
2076 break;
2077 }
2078
2079 if (!Check(S, DecodeGPRRegisterClass(Inst, Rt, Address, Decoder)))
2080 return MCDisassembler::Fail;
2081
2082 // On loads, the writeback operand comes after Rt.
2083 switch (Inst.getOpcode()) {
2084 case ARM::LDR_POST_IMM:
2085 case ARM::LDR_POST_REG:
2086 case ARM::LDRB_POST_IMM:
2087 case ARM::LDRB_POST_REG:
2088 case ARM::LDRBT_POST_REG:
2089 case ARM::LDRBT_POST_IMM:
2090 case ARM::LDRT_POST_REG:
2091 case ARM::LDRT_POST_IMM:
2092 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2093 return MCDisassembler::Fail;
2094 break;
2095 default:
2096 break;
2097 }
2098
2099 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2100 return MCDisassembler::Fail;
2101
2103 if (!fieldFromInstruction(Insn, 23, 1))
2104 Op = ARM_AM::sub;
2105
2106 bool writeback = (P == 0) || (W == 1);
2107 unsigned idx_mode = 0;
2108 if (P && writeback)
2109 idx_mode = ARMII::IndexModePre;
2110 else if (!P && writeback)
2111 idx_mode = ARMII::IndexModePost;
2112
2113 if (writeback && (Rn == 15 || Rn == Rt))
2114 S = MCDisassembler::SoftFail; // UNPREDICTABLE
2115
2116 if (reg) {
2117 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rm, Address, Decoder)))
2118 return MCDisassembler::Fail;
2120 switch( fieldFromInstruction(Insn, 5, 2)) {
2121 case 0:
2122 Opc = ARM_AM::lsl;
2123 break;
2124 case 1:
2125 Opc = ARM_AM::lsr;
2126 break;
2127 case 2:
2128 Opc = ARM_AM::asr;
2129 break;
2130 case 3:
2131 Opc = ARM_AM::ror;
2132 break;
2133 default:
2134 return MCDisassembler::Fail;
2135 }
2136 unsigned amt = fieldFromInstruction(Insn, 7, 5);
2137 if (Opc == ARM_AM::ror && amt == 0)
2138 Opc = ARM_AM::rrx;
2139 unsigned imm = ARM_AM::getAM2Opc(Op, amt, Opc, idx_mode);
2140
2142 } else {
2144 unsigned tmp = ARM_AM::getAM2Opc(Op, imm, ARM_AM::lsl, idx_mode);
2146 }
2147
2148 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2149 return MCDisassembler::Fail;
2150
2151 return S;
2152}
2153
2154static DecodeStatus DecodeSORegMemOperand(MCInst &Inst, unsigned Val,
2155 uint64_t Address,
2156 const MCDisassembler *Decoder) {
2158
2159 unsigned Rn = fieldFromInstruction(Val, 13, 4);
2160 unsigned Rm = fieldFromInstruction(Val, 0, 4);
2161 unsigned type = fieldFromInstruction(Val, 5, 2);
2162 unsigned imm = fieldFromInstruction(Val, 7, 5);
2163 unsigned U = fieldFromInstruction(Val, 12, 1);
2164
2166 switch (type) {
2167 case 0:
2168 ShOp = ARM_AM::lsl;
2169 break;
2170 case 1:
2171 ShOp = ARM_AM::lsr;
2172 break;
2173 case 2:
2174 ShOp = ARM_AM::asr;
2175 break;
2176 case 3:
2177 ShOp = ARM_AM::ror;
2178 break;
2179 }
2180
2181 if (ShOp == ARM_AM::ror && imm == 0)
2182 ShOp = ARM_AM::rrx;
2183
2184 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2185 return MCDisassembler::Fail;
2186 if (!Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
2187 return MCDisassembler::Fail;
2188 unsigned shift;
2189 if (U)
2190 shift = ARM_AM::getAM2Opc(ARM_AM::add, imm, ShOp);
2191 else
2192 shift = ARM_AM::getAM2Opc(ARM_AM::sub, imm, ShOp);
2193 Inst.addOperand(MCOperand::createImm(shift));
2194
2195 return S;
2196}
2197
2199 uint64_t Address,
2200 const MCDisassembler *Decoder) {
2201 if (Inst.getOpcode() != ARM::TSB && Inst.getOpcode() != ARM::t2TSB)
2202 return MCDisassembler::Fail;
2203
2204 // The "csync" operand is not encoded into the "tsb" instruction (as this is
2205 // the only available operand), but LLVM expects the instruction to have one
2206 // operand, so we need to add the csync when decoding.
2209}
2210
2212 uint64_t Address,
2213 const MCDisassembler *Decoder) {
2215
2216 unsigned Rt = fieldFromInstruction(Insn, 12, 4);
2217 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
2218 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
2219 unsigned type = fieldFromInstruction(Insn, 22, 1);
2220 unsigned imm = fieldFromInstruction(Insn, 8, 4);
2221 unsigned U = ((~fieldFromInstruction(Insn, 23, 1)) & 1) << 8;
2222 unsigned pred = fieldFromInstruction(Insn, 28, 4);
2223 unsigned W = fieldFromInstruction(Insn, 21, 1);
2224 unsigned P = fieldFromInstruction(Insn, 24, 1);
2225 unsigned Rt2 = Rt + 1;
2226
2227 bool writeback = (W == 1) | (P == 0);
2228
2229 // For {LD,ST}RD, Rt must be even, else undefined.
2230 switch (Inst.getOpcode()) {
2231 case ARM::STRD:
2232 case ARM::STRD_PRE:
2233 case ARM::STRD_POST:
2234 case ARM::LDRD:
2235 case ARM::LDRD_PRE:
2236 case ARM::LDRD_POST:
2237 if (Rt & 0x1) S = MCDisassembler::SoftFail;
2238 break;
2239 default:
2240 break;
2241 }
2242 switch (Inst.getOpcode()) {
2243 case ARM::STRD:
2244 case ARM::STRD_PRE:
2245 case ARM::STRD_POST:
2246 if (P == 0 && W == 1)
2248
2249 if (writeback && (Rn == 15 || Rn == Rt || Rn == Rt2))
2251 if (type && Rm == 15)
2253 if (Rt2 == 15)
2255 if (!type && fieldFromInstruction(Insn, 8, 4))
2257 break;
2258 case ARM::STRH:
2259 case ARM::STRH_PRE:
2260 case ARM::STRH_POST:
2261 if (Rt == 15)
2263 if (writeback && (Rn == 15 || Rn == Rt))
2265 if (!type && Rm == 15)
2267 break;
2268 case ARM::LDRD:
2269 case ARM::LDRD_PRE:
2270 case ARM::LDRD_POST:
2271 if (type && Rn == 15) {
2272 if (Rt2 == 15)
2274 break;
2275 }
2276 if (P == 0 && W == 1)
2278 if (!type && (Rt2 == 15 || Rm == 15 || Rm == Rt || Rm == Rt2))
2280 if (!type && writeback && Rn == 15)
2282 if (writeback && (Rn == Rt || Rn == Rt2))
2284 break;
2285 case ARM::LDRH:
2286 case ARM::LDRH_PRE:
2287 case ARM::LDRH_POST:
2288 if (type && Rn == 15) {
2289 if (Rt == 15)
2291 break;
2292 }
2293 if (Rt == 15)
2295 if (!type && Rm == 15)
2297 if (!type && writeback && (Rn == 15 || Rn == Rt))
2299 break;
2300 case ARM::LDRSH:
2301 case ARM::LDRSH_PRE:
2302 case ARM::LDRSH_POST:
2303 case ARM::LDRSB:
2304 case ARM::LDRSB_PRE:
2305 case ARM::LDRSB_POST:
2306 if (type && Rn == 15) {
2307 if (Rt == 15)
2309 break;
2310 }
2311 if (type && (Rt == 15 || (writeback && Rn == Rt)))
2313 if (!type && (Rt == 15 || Rm == 15))
2315 if (!type && writeback && (Rn == 15 || Rn == Rt))
2317 break;
2318 default:
2319 break;
2320 }
2321
2322 if (writeback) { // Writeback
2323 if (P)
2324 U |= ARMII::IndexModePre << 9;
2325 else
2326 U |= ARMII::IndexModePost << 9;
2327
2328 // On stores, the writeback operand precedes Rt.
2329 switch (Inst.getOpcode()) {
2330 case ARM::STRD:
2331 case ARM::STRD_PRE:
2332 case ARM::STRD_POST:
2333 case ARM::STRH:
2334 case ARM::STRH_PRE:
2335 case ARM::STRH_POST:
2336 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2337 return MCDisassembler::Fail;
2338 break;
2339 default:
2340 break;
2341 }
2342 }
2343
2344 if (!Check(S, DecodeGPRRegisterClass(Inst, Rt, Address, Decoder)))
2345 return MCDisassembler::Fail;
2346 switch (Inst.getOpcode()) {
2347 case ARM::STRD:
2348 case ARM::STRD_PRE:
2349 case ARM::STRD_POST:
2350 case ARM::LDRD:
2351 case ARM::LDRD_PRE:
2352 case ARM::LDRD_POST:
2353 if (!Check(S, DecodeGPRRegisterClass(Inst, Rt+1, Address, Decoder)))
2354 return MCDisassembler::Fail;
2355 break;
2356 default:
2357 break;
2358 }
2359
2360 if (writeback) {
2361 // On loads, the writeback operand comes after Rt.
2362 switch (Inst.getOpcode()) {
2363 case ARM::LDRD:
2364 case ARM::LDRD_PRE:
2365 case ARM::LDRD_POST:
2366 case ARM::LDRH:
2367 case ARM::LDRH_PRE:
2368 case ARM::LDRH_POST:
2369 case ARM::LDRSH:
2370 case ARM::LDRSH_PRE:
2371 case ARM::LDRSH_POST:
2372 case ARM::LDRSB:
2373 case ARM::LDRSB_PRE:
2374 case ARM::LDRSB_POST:
2375 case ARM::LDRHTr:
2376 case ARM::LDRSBTr:
2377 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2378 return MCDisassembler::Fail;
2379 break;
2380 default:
2381 break;
2382 }
2383 }
2384
2385 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2386 return MCDisassembler::Fail;
2387
2388 if (type) {
2390 Inst.addOperand(MCOperand::createImm(U | (imm << 4) | Rm));
2391 } else {
2392 if (!Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
2393 return MCDisassembler::Fail;
2395 }
2396
2397 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2398 return MCDisassembler::Fail;
2399
2400 return S;
2401}
2402
2404 uint64_t Address,
2405 const MCDisassembler *Decoder) {
2407
2408 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
2409 unsigned mode = fieldFromInstruction(Insn, 23, 2);
2410
2411 switch (mode) {
2412 case 0:
2413 mode = ARM_AM::da;
2414 break;
2415 case 1:
2416 mode = ARM_AM::ia;
2417 break;
2418 case 2:
2419 mode = ARM_AM::db;
2420 break;
2421 case 3:
2422 mode = ARM_AM::ib;
2423 break;
2424 }
2425
2427 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2428 return MCDisassembler::Fail;
2429
2430 return S;
2431}
2432
2434 uint64_t Address,
2435 const MCDisassembler *Decoder) {
2437
2438 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
2439 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
2440 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
2441 unsigned pred = fieldFromInstruction(Insn, 28, 4);
2442
2443 if (pred == 0xF)
2444 return DecodeCPSInstruction(Inst, Insn, Address, Decoder);
2445
2446 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rd, Address, Decoder)))
2447 return MCDisassembler::Fail;
2448 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rm, Address, Decoder)))
2449 return MCDisassembler::Fail;
2450 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rn, Address, Decoder)))
2451 return MCDisassembler::Fail;
2452 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2453 return MCDisassembler::Fail;
2454 return S;
2455}
2456
2457static DecodeStatus
2459 uint64_t Address,
2460 const MCDisassembler *Decoder) {
2462
2463 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
2464 unsigned pred = fieldFromInstruction(Insn, 28, 4);
2465 unsigned reglist = fieldFromInstruction(Insn, 0, 16);
2466
2467 if (pred == 0xF) {
2468 // Ambiguous with RFE and SRS
2469 switch (Inst.getOpcode()) {
2470 case ARM::LDMDA:
2471 Inst.setOpcode(ARM::RFEDA);
2472 break;
2473 case ARM::LDMDA_UPD:
2474 Inst.setOpcode(ARM::RFEDA_UPD);
2475 break;
2476 case ARM::LDMDB:
2477 Inst.setOpcode(ARM::RFEDB);
2478 break;
2479 case ARM::LDMDB_UPD:
2480 Inst.setOpcode(ARM::RFEDB_UPD);
2481 break;
2482 case ARM::LDMIA:
2483 Inst.setOpcode(ARM::RFEIA);
2484 break;
2485 case ARM::LDMIA_UPD:
2486 Inst.setOpcode(ARM::RFEIA_UPD);
2487 break;
2488 case ARM::LDMIB:
2489 Inst.setOpcode(ARM::RFEIB);
2490 break;
2491 case ARM::LDMIB_UPD:
2492 Inst.setOpcode(ARM::RFEIB_UPD);
2493 break;
2494 case ARM::STMDA:
2495 Inst.setOpcode(ARM::SRSDA);
2496 break;
2497 case ARM::STMDA_UPD:
2498 Inst.setOpcode(ARM::SRSDA_UPD);
2499 break;
2500 case ARM::STMDB:
2501 Inst.setOpcode(ARM::SRSDB);
2502 break;
2503 case ARM::STMDB_UPD:
2504 Inst.setOpcode(ARM::SRSDB_UPD);
2505 break;
2506 case ARM::STMIA:
2507 Inst.setOpcode(ARM::SRSIA);
2508 break;
2509 case ARM::STMIA_UPD:
2510 Inst.setOpcode(ARM::SRSIA_UPD);
2511 break;
2512 case ARM::STMIB:
2513 Inst.setOpcode(ARM::SRSIB);
2514 break;
2515 case ARM::STMIB_UPD:
2516 Inst.setOpcode(ARM::SRSIB_UPD);
2517 break;
2518 default:
2519 return MCDisassembler::Fail;
2520 }
2521
2522 // For stores (which become SRS's, the only operand is the mode.
2523 if (fieldFromInstruction(Insn, 20, 1) == 0) {
2524 // Check SRS encoding constraints
2525 if (!(fieldFromInstruction(Insn, 22, 1) == 1 &&
2526 fieldFromInstruction(Insn, 20, 1) == 0))
2527 return MCDisassembler::Fail;
2528
2529 Inst.addOperand(
2530 MCOperand::createImm(fieldFromInstruction(Insn, 0, 4)));
2531 return S;
2532 }
2533
2534 return DecodeRFEInstruction(Inst, Insn, Address, Decoder);
2535 }
2536
2537 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2538 return MCDisassembler::Fail;
2539 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2540 return MCDisassembler::Fail; // Tied
2541 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2542 return MCDisassembler::Fail;
2543 if (!Check(S, DecodeRegListOperand(Inst, reglist, Address, Decoder)))
2544 return MCDisassembler::Fail;
2545
2546 return S;
2547}
2548
2549// Check for UNPREDICTABLE predicated ESB instruction
2551 uint64_t Address,
2552 const MCDisassembler *Decoder) {
2553 unsigned pred = fieldFromInstruction(Insn, 28, 4);
2554 unsigned imm8 = fieldFromInstruction(Insn, 0, 8);
2555 const MCDisassembler *Dis = static_cast<const MCDisassembler*>(Decoder);
2556 const FeatureBitset &FeatureBits = Dis->getSubtargetInfo().getFeatureBits();
2557
2559
2560 Inst.addOperand(MCOperand::createImm(imm8));
2561
2562 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2563 return MCDisassembler::Fail;
2564
2565 // ESB is unpredictable if pred != AL. Without the RAS extension, it is a NOP,
2566 // so all predicates should be allowed.
2567 if (imm8 == 0x10 && pred != 0xe && ((FeatureBits[ARM::FeatureRAS]) != 0))
2569
2570 return S;
2571}
2572
2574 uint64_t Address,
2575 const MCDisassembler *Decoder) {
2576 unsigned imod = fieldFromInstruction(Insn, 18, 2);
2577 unsigned M = fieldFromInstruction(Insn, 17, 1);
2578 unsigned iflags = fieldFromInstruction(Insn, 6, 3);
2579 unsigned mode = fieldFromInstruction(Insn, 0, 5);
2580
2582
2583 // This decoder is called from multiple location that do not check
2584 // the full encoding is valid before they do.
2585 if (fieldFromInstruction(Insn, 5, 1) != 0 ||
2586 fieldFromInstruction(Insn, 16, 1) != 0 ||
2587 fieldFromInstruction(Insn, 20, 8) != 0x10)
2588 return MCDisassembler::Fail;
2589
2590 // imod == '01' --> UNPREDICTABLE
2591 // NOTE: Even though this is technically UNPREDICTABLE, we choose to
2592 // return failure here. The '01' imod value is unprintable, so there's
2593 // nothing useful we could do even if we returned UNPREDICTABLE.
2594
2595 if (imod == 1) return MCDisassembler::Fail;
2596
2597 if (imod && M) {
2598 Inst.setOpcode(ARM::CPS3p);
2599 Inst.addOperand(MCOperand::createImm(imod));
2600 Inst.addOperand(MCOperand::createImm(iflags));
2602 } else if (imod && !M) {
2603 Inst.setOpcode(ARM::CPS2p);
2604 Inst.addOperand(MCOperand::createImm(imod));
2605 Inst.addOperand(MCOperand::createImm(iflags));
2607 } else if (!imod && M) {
2608 Inst.setOpcode(ARM::CPS1p);
2610 if (iflags) S = MCDisassembler::SoftFail;
2611 } else {
2612 // imod == '00' && M == '0' --> UNPREDICTABLE
2613 Inst.setOpcode(ARM::CPS1p);
2616 }
2617
2618 return S;
2619}
2620
2622 uint64_t Address,
2623 const MCDisassembler *Decoder) {
2624 unsigned imod = fieldFromInstruction(Insn, 9, 2);
2625 unsigned M = fieldFromInstruction(Insn, 8, 1);
2626 unsigned iflags = fieldFromInstruction(Insn, 5, 3);
2627 unsigned mode = fieldFromInstruction(Insn, 0, 5);
2628
2630
2631 // imod == '01' --> UNPREDICTABLE
2632 // NOTE: Even though this is technically UNPREDICTABLE, we choose to
2633 // return failure here. The '01' imod value is unprintable, so there's
2634 // nothing useful we could do even if we returned UNPREDICTABLE.
2635
2636 if (imod == 1) return MCDisassembler::Fail;
2637
2638 if (imod && M) {
2639 Inst.setOpcode(ARM::t2CPS3p);
2640 Inst.addOperand(MCOperand::createImm(imod));
2641 Inst.addOperand(MCOperand::createImm(iflags));
2643 } else if (imod && !M) {
2644 Inst.setOpcode(ARM::t2CPS2p);
2645 Inst.addOperand(MCOperand::createImm(imod));
2646 Inst.addOperand(MCOperand::createImm(iflags));
2648 } else if (!imod && M) {
2649 Inst.setOpcode(ARM::t2CPS1p);
2651 if (iflags) S = MCDisassembler::SoftFail;
2652 } else {
2653 // imod == '00' && M == '0' --> this is a HINT instruction
2654 int imm = fieldFromInstruction(Insn, 0, 8);
2655 // HINT are defined only for immediate in [0..4]
2656 if(imm > 4) return MCDisassembler::Fail;
2657 Inst.setOpcode(ARM::t2HINT);
2659 }
2660
2661 return S;
2662}
2663
2664static DecodeStatus
2666 const MCDisassembler *Decoder) {
2667 unsigned imm = fieldFromInstruction(Insn, 0, 8);
2668
2669 unsigned Opcode = ARM::t2HINT;
2670
2671 if (imm == 0x0D) {
2672 Opcode = ARM::t2PACBTI;
2673 } else if (imm == 0x1D) {
2674 Opcode = ARM::t2PAC;
2675 } else if (imm == 0x2D) {
2676 Opcode = ARM::t2AUT;
2677 } else if (imm == 0x0F) {
2678 Opcode = ARM::t2BTI;
2679 }
2680
2681 Inst.setOpcode(Opcode);
2682 if (Opcode == ARM::t2HINT) {
2684 }
2685
2687}
2688
2690 uint64_t Address,
2691 const MCDisassembler *Decoder) {
2693
2694 unsigned Rd = fieldFromInstruction(Insn, 8, 4);
2695 unsigned imm = 0;
2696
2697 imm |= (fieldFromInstruction(Insn, 0, 8) << 0);
2698 imm |= (fieldFromInstruction(Insn, 12, 3) << 8);
2699 imm |= (fieldFromInstruction(Insn, 16, 4) << 12);
2700 imm |= (fieldFromInstruction(Insn, 26, 1) << 11);
2701
2702 if (Inst.getOpcode() == ARM::t2MOVTi16)
2703 if (!Check(S, DecoderGPRRegisterClass(Inst, Rd, Address, Decoder)))
2704 return MCDisassembler::Fail;
2705 if (!Check(S, DecoderGPRRegisterClass(Inst, Rd, Address, Decoder)))
2706 return MCDisassembler::Fail;
2707
2708 if (!tryAddingSymbolicOperand(Address, imm, false, 4, Inst, Decoder))
2710
2711 return S;
2712}
2713
2715 uint64_t Address,
2716 const MCDisassembler *Decoder) {
2718
2719 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
2720 unsigned pred = fieldFromInstruction(Insn, 28, 4);
2721 unsigned imm = 0;
2722
2723 imm |= (fieldFromInstruction(Insn, 0, 12) << 0);
2724 imm |= (fieldFromInstruction(Insn, 16, 4) << 12);
2725
2726 if (Inst.getOpcode() == ARM::MOVTi16)
2727 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rd, Address, Decoder)))
2728 return MCDisassembler::Fail;
2729
2730 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rd, Address, Decoder)))
2731 return MCDisassembler::Fail;
2732
2733 if (!tryAddingSymbolicOperand(Address, imm, false, 4, Inst, Decoder))
2735
2736 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2737 return MCDisassembler::Fail;
2738
2739 return S;
2740}
2741
2743 uint64_t Address,
2744 const MCDisassembler *Decoder) {
2746
2747 unsigned Rd = fieldFromInstruction(Insn, 16, 4);
2748 unsigned Rn = fieldFromInstruction(Insn, 0, 4);
2749 unsigned Rm = fieldFromInstruction(Insn, 8, 4);
2750 unsigned Ra = fieldFromInstruction(Insn, 12, 4);
2751 unsigned pred = fieldFromInstruction(Insn, 28, 4);
2752
2753 if (pred == 0xF)
2754 return DecodeCPSInstruction(Inst, Insn, Address, Decoder);
2755
2756 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rd, Address, Decoder)))
2757 return MCDisassembler::Fail;
2758 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rn, Address, Decoder)))
2759 return MCDisassembler::Fail;
2760 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rm, Address, Decoder)))
2761 return MCDisassembler::Fail;
2762 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Ra, Address, Decoder)))
2763 return MCDisassembler::Fail;
2764
2765 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2766 return MCDisassembler::Fail;
2767
2768 return S;
2769}
2770
2772 uint64_t Address,
2773 const MCDisassembler *Decoder) {
2775
2776 unsigned Pred = fieldFromInstruction(Insn, 28, 4);
2777 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
2778 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
2779
2780 if (Pred == 0xF)
2781 return DecodeSETPANInstruction(Inst, Insn, Address, Decoder);
2782
2783 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2784 return MCDisassembler::Fail;
2785 if (!Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
2786 return MCDisassembler::Fail;
2787 if (!Check(S, DecodePredicateOperand(Inst, Pred, Address, Decoder)))
2788 return MCDisassembler::Fail;
2789
2790 return S;
2791}
2792
2794 uint64_t Address,
2795 const MCDisassembler *Decoder) {
2797
2798 unsigned Imm = fieldFromInstruction(Insn, 9, 1);
2799
2800 const MCDisassembler *Dis = static_cast<const MCDisassembler*>(Decoder);
2801 const FeatureBitset &FeatureBits = Dis->getSubtargetInfo().getFeatureBits();
2802
2803 if (!FeatureBits[ARM::HasV8_1aOps] ||
2804 !FeatureBits[ARM::HasV8Ops])
2805 return MCDisassembler::Fail;
2806
2807 // Decoder can be called from DecodeTST, which does not check the full
2808 // encoding is valid.
2809 if (fieldFromInstruction(Insn, 20,12) != 0xf11 ||
2810 fieldFromInstruction(Insn, 4,4) != 0)
2811 return MCDisassembler::Fail;
2812 if (fieldFromInstruction(Insn, 10,10) != 0 ||
2813 fieldFromInstruction(Insn, 0,4) != 0)
2815
2816 Inst.setOpcode(ARM::SETPAN);
2818
2819 return S;
2820}
2821
2823 uint64_t Address,
2824 const MCDisassembler *Decoder) {
2826
2827 unsigned add = fieldFromInstruction(Val, 12, 1);
2828 unsigned imm = fieldFromInstruction(Val, 0, 12);
2829 unsigned Rn = fieldFromInstruction(Val, 13, 4);
2830
2831 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2832 return MCDisassembler::Fail;
2833
2834 if (!add) imm *= -1;
2835 if (imm == 0 && !add) imm = INT32_MIN;
2837 if (Rn == 15)
2838 tryAddingPcLoadReferenceComment(Address, Address + imm + 8, Decoder);
2839
2840 return S;
2841}
2842
2843static DecodeStatus DecodeAddrMode5Operand(MCInst &Inst, unsigned Val,
2844 uint64_t Address,
2845 const MCDisassembler *Decoder) {
2847
2848 unsigned Rn = fieldFromInstruction(Val, 9, 4);
2849 // U == 1 to add imm, 0 to subtract it.
2850 unsigned U = fieldFromInstruction(Val, 8, 1);
2851 unsigned imm = fieldFromInstruction(Val, 0, 8);
2852
2853 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2854 return MCDisassembler::Fail;
2855
2856 if (U)
2858 else
2860
2861 return S;
2862}
2863
2865 uint64_t Address,
2866 const MCDisassembler *Decoder) {
2868
2869 unsigned Rn = fieldFromInstruction(Val, 9, 4);
2870 // U == 1 to add imm, 0 to subtract it.
2871 unsigned U = fieldFromInstruction(Val, 8, 1);
2872 unsigned imm = fieldFromInstruction(Val, 0, 8);
2873
2874 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
2875 return MCDisassembler::Fail;
2876
2877 if (U)
2879 else
2881
2882 return S;
2883}
2884
2885static DecodeStatus DecodeAddrMode7Operand(MCInst &Inst, unsigned Val,
2886 uint64_t Address,
2887 const MCDisassembler *Decoder) {
2888 return DecodeGPRRegisterClass(Inst, Val, Address, Decoder);
2889}
2890
2892 uint64_t Address,
2893 const MCDisassembler *Decoder) {
2895
2896 // Note the J1 and J2 values are from the encoded instruction. So here
2897 // change them to I1 and I2 values via as documented:
2898 // I1 = NOT(J1 EOR S);
2899 // I2 = NOT(J2 EOR S);
2900 // and build the imm32 with one trailing zero as documented:
2901 // imm32 = SignExtend(S:I1:I2:imm10:imm11:'0', 32);
2902 unsigned S = fieldFromInstruction(Insn, 26, 1);
2903 unsigned J1 = fieldFromInstruction(Insn, 13, 1);
2904 unsigned J2 = fieldFromInstruction(Insn, 11, 1);
2905 unsigned I1 = !(J1 ^ S);
2906 unsigned I2 = !(J2 ^ S);
2907 unsigned imm10 = fieldFromInstruction(Insn, 16, 10);
2908 unsigned imm11 = fieldFromInstruction(Insn, 0, 11);
2909 unsigned tmp = (S << 23) | (I1 << 22) | (I2 << 21) | (imm10 << 11) | imm11;
2910 int imm32 = SignExtend32<25>(tmp << 1);
2911 if (!tryAddingSymbolicOperand(Address, Address + imm32 + 4,
2912 true, 4, Inst, Decoder))
2913 Inst.addOperand(MCOperand::createImm(imm32));
2914
2915 return Status;
2916}
2917
2919 uint64_t Address,
2920 const MCDisassembler *Decoder) {
2922
2923 unsigned pred = fieldFromInstruction(Insn, 28, 4);
2924 unsigned imm = fieldFromInstruction(Insn, 0, 24) << 2;
2925
2926 if (pred == 0xF) {
2927 Inst.setOpcode(ARM::BLXi);
2928 imm |= fieldFromInstruction(Insn, 24, 1) << 1;
2929 if (!tryAddingSymbolicOperand(Address, Address + SignExtend32<26>(imm) + 8,
2930 true, 4, Inst, Decoder))
2931 Inst.addOperand(MCOperand::createImm(SignExtend32<26>(imm)));
2932 return S;
2933 }
2934
2935 if (!tryAddingSymbolicOperand(Address, Address + SignExtend32<26>(imm) + 8,
2936 true, 4, Inst, Decoder))
2937 Inst.addOperand(MCOperand::createImm(SignExtend32<26>(imm)));
2938
2939 // We already have BL_pred for BL w/ predicate, no need to add addition
2940 // predicate opreands for BL
2941 if (Inst.getOpcode() != ARM::BL)
2942 if (!Check(S, DecodePredicateOperand(Inst, pred, Address, Decoder)))
2943 return MCDisassembler::Fail;
2944
2945 return S;
2946}
2947
2948static DecodeStatus DecodeAddrMode6Operand(MCInst &Inst, unsigned Val,
2949 uint64_t Address,
2950 const MCDisassembler *Decoder) {
2952
2953 unsigned Rm = fieldFromInstruction(Val, 0, 4);
2954 unsigned align = fieldFromInstruction(Val, 4, 2);
2955
2956 if (!Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
2957 return MCDisassembler::Fail;
2958 if (!align)
2960 else
2961 Inst.addOperand(MCOperand::createImm(4 << align));
2962
2963 return S;
2964}
2965
2967 uint64_t Address,
2968 const MCDisassembler *Decoder) {
2970
2971 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
2972 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
2973 unsigned wb = fieldFromInstruction(Insn, 16, 4);
2974 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
2975 Rn |= fieldFromInstruction(Insn, 4, 2) << 4;
2976 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
2977
2978 // First output register
2979 switch (Inst.getOpcode()) {
2980 case ARM::VLD1q16: case ARM::VLD1q32: case ARM::VLD1q64: case ARM::VLD1q8:
2981 case ARM::VLD1q16wb_fixed: case ARM::VLD1q16wb_register:
2982 case ARM::VLD1q32wb_fixed: case ARM::VLD1q32wb_register:
2983 case ARM::VLD1q64wb_fixed: case ARM::VLD1q64wb_register:
2984 case ARM::VLD1q8wb_fixed: case ARM::VLD1q8wb_register:
2985 case ARM::VLD2d16: case ARM::VLD2d32: case ARM::VLD2d8:
2986 case ARM::VLD2d16wb_fixed: case ARM::VLD2d16wb_register:
2987 case ARM::VLD2d32wb_fixed: case ARM::VLD2d32wb_register:
2988 case ARM::VLD2d8wb_fixed: case ARM::VLD2d8wb_register:
2989 if (!Check(S, DecodeDPairRegisterClass(Inst, Rd, Address, Decoder)))
2990 return MCDisassembler::Fail;
2991 break;
2992 case ARM::VLD2b16:
2993 case ARM::VLD2b32:
2994 case ARM::VLD2b8:
2995 case ARM::VLD2b16wb_fixed:
2996 case ARM::VLD2b16wb_register:
2997 case ARM::VLD2b32wb_fixed:
2998 case ARM::VLD2b32wb_register:
2999 case ARM::VLD2b8wb_fixed:
3000 case ARM::VLD2b8wb_register:
3001 if (!Check(S, DecodeDPairSpacedRegisterClass(Inst, Rd, Address, Decoder)))
3002 return MCDisassembler::Fail;
3003 break;
3004 default:
3005 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3006 return MCDisassembler::Fail;
3007 }
3008
3009 // Second output register
3010 switch (Inst.getOpcode()) {
3011 case ARM::VLD3d8:
3012 case ARM::VLD3d16:
3013 case ARM::VLD3d32:
3014 case ARM::VLD3d8_UPD:
3015 case ARM::VLD3d16_UPD:
3016 case ARM::VLD3d32_UPD:
3017 case ARM::VLD4d8:
3018 case ARM::VLD4d16:
3019 case ARM::VLD4d32:
3020 case ARM::VLD4d8_UPD:
3021 case ARM::VLD4d16_UPD:
3022 case ARM::VLD4d32_UPD:
3023 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+1)%32, Address, Decoder)))
3024 return MCDisassembler::Fail;
3025 break;
3026 case ARM::VLD3q8:
3027 case ARM::VLD3q16:
3028 case ARM::VLD3q32:
3029 case ARM::VLD3q8_UPD:
3030 case ARM::VLD3q16_UPD:
3031 case ARM::VLD3q32_UPD:
3032 case ARM::VLD4q8:
3033 case ARM::VLD4q16:
3034 case ARM::VLD4q32:
3035 case ARM::VLD4q8_UPD:
3036 case ARM::VLD4q16_UPD:
3037 case ARM::VLD4q32_UPD:
3038 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+2)%32, Address, Decoder)))
3039 return MCDisassembler::Fail;
3040 break;
3041 default:
3042 break;
3043 }
3044
3045 // Third output register
3046 switch(Inst.getOpcode()) {
3047 case ARM::VLD3d8:
3048 case ARM::VLD3d16:
3049 case ARM::VLD3d32:
3050 case ARM::VLD3d8_UPD:
3051 case ARM::VLD3d16_UPD:
3052 case ARM::VLD3d32_UPD:
3053 case ARM::VLD4d8:
3054 case ARM::VLD4d16:
3055 case ARM::VLD4d32:
3056 case ARM::VLD4d8_UPD:
3057 case ARM::VLD4d16_UPD:
3058 case ARM::VLD4d32_UPD:
3059 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+2)%32, Address, Decoder)))
3060 return MCDisassembler::Fail;
3061 break;
3062 case ARM::VLD3q8:
3063 case ARM::VLD3q16:
3064 case ARM::VLD3q32:
3065 case ARM::VLD3q8_UPD:
3066 case ARM::VLD3q16_UPD:
3067 case ARM::VLD3q32_UPD:
3068 case ARM::VLD4q8:
3069 case ARM::VLD4q16:
3070 case ARM::VLD4q32:
3071 case ARM::VLD4q8_UPD:
3072 case ARM::VLD4q16_UPD:
3073 case ARM::VLD4q32_UPD:
3074 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+4)%32, Address, Decoder)))
3075 return MCDisassembler::Fail;
3076 break;
3077 default:
3078 break;
3079 }
3080
3081 // Fourth output register
3082 switch (Inst.getOpcode()) {
3083 case ARM::VLD4d8:
3084 case ARM::VLD4d16:
3085 case ARM::VLD4d32:
3086 case ARM::VLD4d8_UPD:
3087 case ARM::VLD4d16_UPD:
3088 case ARM::VLD4d32_UPD:
3089 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+3)%32, Address, Decoder)))
3090 return MCDisassembler::Fail;
3091 break;
3092 case ARM::VLD4q8:
3093 case ARM::VLD4q16:
3094 case ARM::VLD4q32:
3095 case ARM::VLD4q8_UPD:
3096 case ARM::VLD4q16_UPD:
3097 case ARM::VLD4q32_UPD:
3098 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+6)%32, Address, Decoder)))
3099 return MCDisassembler::Fail;
3100 break;
3101 default:
3102 break;
3103 }
3104
3105 // Writeback operand
3106 switch (Inst.getOpcode()) {
3107 case ARM::VLD1d8wb_fixed:
3108 case ARM::VLD1d16wb_fixed:
3109 case ARM::VLD1d32wb_fixed:
3110 case ARM::VLD1d64wb_fixed:
3111 case ARM::VLD1d8wb_register:
3112 case ARM::VLD1d16wb_register:
3113 case ARM::VLD1d32wb_register:
3114 case ARM::VLD1d64wb_register:
3115 case ARM::VLD1q8wb_fixed:
3116 case ARM::VLD1q16wb_fixed:
3117 case ARM::VLD1q32wb_fixed:
3118 case ARM::VLD1q64wb_fixed:
3119 case ARM::VLD1q8wb_register:
3120 case ARM::VLD1q16wb_register:
3121 case ARM::VLD1q32wb_register:
3122 case ARM::VLD1q64wb_register:
3123 case ARM::VLD1d8Twb_fixed:
3124 case ARM::VLD1d8Twb_register:
3125 case ARM::VLD1d16Twb_fixed:
3126 case ARM::VLD1d16Twb_register:
3127 case ARM::VLD1d32Twb_fixed:
3128 case ARM::VLD1d32Twb_register:
3129 case ARM::VLD1d64Twb_fixed:
3130 case ARM::VLD1d64Twb_register:
3131 case ARM::VLD1d8Qwb_fixed:
3132 case ARM::VLD1d8Qwb_register:
3133 case ARM::VLD1d16Qwb_fixed:
3134 case ARM::VLD1d16Qwb_register:
3135 case ARM::VLD1d32Qwb_fixed:
3136 case ARM::VLD1d32Qwb_register:
3137 case ARM::VLD1d64Qwb_fixed:
3138 case ARM::VLD1d64Qwb_register:
3139 case ARM::VLD2d8wb_fixed:
3140 case ARM::VLD2d16wb_fixed:
3141 case ARM::VLD2d32wb_fixed:
3142 case ARM::VLD2q8wb_fixed:
3143 case ARM::VLD2q16wb_fixed:
3144 case ARM::VLD2q32wb_fixed:
3145 case ARM::VLD2d8wb_register:
3146 case ARM::VLD2d16wb_register:
3147 case ARM::VLD2d32wb_register:
3148 case ARM::VLD2q8wb_register:
3149 case ARM::VLD2q16wb_register:
3150 case ARM::VLD2q32wb_register:
3151 case ARM::VLD2b8wb_fixed:
3152 case ARM::VLD2b16wb_fixed:
3153 case ARM::VLD2b32wb_fixed:
3154 case ARM::VLD2b8wb_register:
3155 case ARM::VLD2b16wb_register:
3156 case ARM::VLD2b32wb_register:
3158 break;
3159 case ARM::VLD3d8_UPD:
3160 case ARM::VLD3d16_UPD:
3161 case ARM::VLD3d32_UPD:
3162 case ARM::VLD3q8_UPD:
3163 case ARM::VLD3q16_UPD:
3164 case ARM::VLD3q32_UPD:
3165 case ARM::VLD4d8_UPD:
3166 case ARM::VLD4d16_UPD:
3167 case ARM::VLD4d32_UPD:
3168 case ARM::VLD4q8_UPD:
3169 case ARM::VLD4q16_UPD:
3170 case ARM::VLD4q32_UPD:
3171 if (!Check(S, DecodeGPRRegisterClass(Inst, wb, Address, Decoder)))
3172 return MCDisassembler::Fail;
3173 break;
3174 default:
3175 break;
3176 }
3177
3178 // AddrMode6 Base (register+alignment)
3179 if (!Check(S, DecodeAddrMode6Operand(Inst, Rn, Address, Decoder)))
3180 return MCDisassembler::Fail;
3181
3182 // AddrMode6 Offset (register)
3183 switch (Inst.getOpcode()) {
3184 default:
3185 // The below have been updated to have explicit am6offset split
3186 // between fixed and register offset. For those instructions not
3187 // yet updated, we need to add an additional reg0 operand for the
3188 // fixed variant.
3189 //
3190 // The fixed offset encodes as Rm == 0xd, so we check for that.
3191 if (Rm == 0xd) {
3193 break;
3194 }
3195 // Fall through to handle the register offset variant.
3196 [[fallthrough]];
3197 case ARM::VLD1d8wb_fixed:
3198 case ARM::VLD1d16wb_fixed:
3199 case ARM::VLD1d32wb_fixed:
3200 case ARM::VLD1d64wb_fixed:
3201 case ARM::VLD1d8Twb_fixed:
3202 case ARM::VLD1d16Twb_fixed:
3203 case ARM::VLD1d32Twb_fixed:
3204 case ARM::VLD1d64Twb_fixed:
3205 case ARM::VLD1d8Qwb_fixed:
3206 case ARM::VLD1d16Qwb_fixed:
3207 case ARM::VLD1d32Qwb_fixed:
3208 case ARM::VLD1d64Qwb_fixed:
3209 case ARM::VLD1d8wb_register:
3210 case ARM::VLD1d16wb_register:
3211 case ARM::VLD1d32wb_register:
3212 case ARM::VLD1d64wb_register:
3213 case ARM::VLD1q8wb_fixed:
3214 case ARM::VLD1q16wb_fixed:
3215 case ARM::VLD1q32wb_fixed:
3216 case ARM::VLD1q64wb_fixed:
3217 case ARM::VLD1q8wb_register:
3218 case ARM::VLD1q16wb_register:
3219 case ARM::VLD1q32wb_register:
3220 case ARM::VLD1q64wb_register:
3221 // The fixed offset post-increment encodes Rm == 0xd. The no-writeback
3222 // variant encodes Rm == 0xf. Anything else is a register offset post-
3223 // increment and we need to add the register operand to the instruction.
3224 if (Rm != 0xD && Rm != 0xF &&
3225 !Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
3226 return MCDisassembler::Fail;
3227 break;
3228 case ARM::VLD2d8wb_fixed:
3229 case ARM::VLD2d16wb_fixed:
3230 case ARM::VLD2d32wb_fixed:
3231 case ARM::VLD2b8wb_fixed:
3232 case ARM::VLD2b16wb_fixed:
3233 case ARM::VLD2b32wb_fixed:
3234 case ARM::VLD2q8wb_fixed:
3235 case ARM::VLD2q16wb_fixed:
3236 case ARM::VLD2q32wb_fixed:
3237 break;
3238 }
3239
3240 return S;
3241}
3242
3244 uint64_t Address,
3245 const MCDisassembler *Decoder) {
3246 unsigned type = fieldFromInstruction(Insn, 8, 4);
3247 unsigned align = fieldFromInstruction(Insn, 4, 2);
3248 if (type == 6 && (align & 2)) return MCDisassembler::Fail;
3249 if (type == 7 && (align & 2)) return MCDisassembler::Fail;
3250 if (type == 10 && align == 3) return MCDisassembler::Fail;
3251
3252 unsigned load = fieldFromInstruction(Insn, 21, 1);
3253 return load ? DecodeVLDInstruction(Inst, Insn, Address, Decoder)
3254 : DecodeVSTInstruction(Inst, Insn, Address, Decoder);
3255}
3256
3258 uint64_t Address,
3259 const MCDisassembler *Decoder) {
3260 unsigned size = fieldFromInstruction(Insn, 6, 2);
3261 if (size == 3) return MCDisassembler::Fail;
3262
3263 unsigned type = fieldFromInstruction(Insn, 8, 4);
3264 unsigned align = fieldFromInstruction(Insn, 4, 2);
3265 if (type == 8 && align == 3) return MCDisassembler::Fail;
3266 if (type == 9 && align == 3) return MCDisassembler::Fail;
3267
3268 unsigned load = fieldFromInstruction(Insn, 21, 1);
3269 return load ? DecodeVLDInstruction(Inst, Insn, Address, Decoder)
3270 : DecodeVSTInstruction(Inst, Insn, Address, Decoder);
3271}
3272
3274 uint64_t Address,
3275 const MCDisassembler *Decoder) {
3276 unsigned size = fieldFromInstruction(Insn, 6, 2);
3277 if (size == 3) return MCDisassembler::Fail;
3278
3279 unsigned align = fieldFromInstruction(Insn, 4, 2);
3280 if (align & 2) return MCDisassembler::Fail;
3281
3282 unsigned load = fieldFromInstruction(Insn, 21, 1);
3283 return load ? DecodeVLDInstruction(Inst, Insn, Address, Decoder)
3284 : DecodeVSTInstruction(Inst, Insn, Address, Decoder);
3285}
3286
3288 uint64_t Address,
3289 const MCDisassembler *Decoder) {
3290 unsigned size = fieldFromInstruction(Insn, 6, 2);
3291 if (size == 3) return MCDisassembler::Fail;
3292
3293 unsigned load = fieldFromInstruction(Insn, 21, 1);
3294 return load ? DecodeVLDInstruction(Inst, Insn, Address, Decoder)
3295 : DecodeVSTInstruction(Inst, Insn, Address, Decoder);
3296}
3297
3299 uint64_t Address,
3300 const MCDisassembler *Decoder) {
3302
3303 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
3304 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
3305 unsigned wb = fieldFromInstruction(Insn, 16, 4);
3306 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
3307 Rn |= fieldFromInstruction(Insn, 4, 2) << 4;
3308 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
3309
3310 // Writeback Operand
3311 switch (Inst.getOpcode()) {
3312 case ARM::VST1d8wb_fixed:
3313 case ARM::VST1d16wb_fixed:
3314 case ARM::VST1d32wb_fixed:
3315 case ARM::VST1d64wb_fixed:
3316 case ARM::VST1d8wb_register:
3317 case ARM::VST1d16wb_register:
3318 case ARM::VST1d32wb_register:
3319 case ARM::VST1d64wb_register:
3320 case ARM::VST1q8wb_fixed:
3321 case ARM::VST1q16wb_fixed:
3322 case ARM::VST1q32wb_fixed:
3323 case ARM::VST1q64wb_fixed:
3324 case ARM::VST1q8wb_register:
3325 case ARM::VST1q16wb_register:
3326 case ARM::VST1q32wb_register:
3327 case ARM::VST1q64wb_register:
3328 case ARM::VST1d8Twb_fixed:
3329 case ARM::VST1d16Twb_fixed:
3330 case ARM::VST1d32Twb_fixed:
3331 case ARM::VST1d64Twb_fixed:
3332 case ARM::VST1d8Twb_register:
3333 case ARM::VST1d16Twb_register:
3334 case ARM::VST1d32Twb_register:
3335 case ARM::VST1d64Twb_register:
3336 case ARM::VST1d8Qwb_fixed:
3337 case ARM::VST1d16Qwb_fixed:
3338 case ARM::VST1d32Qwb_fixed:
3339 case ARM::VST1d64Qwb_fixed:
3340 case ARM::VST1d8Qwb_register:
3341 case ARM::VST1d16Qwb_register:
3342 case ARM::VST1d32Qwb_register:
3343 case ARM::VST1d64Qwb_register:
3344 case ARM::VST2d8wb_fixed:
3345 case ARM::VST2d16wb_fixed:
3346 case ARM::VST2d32wb_fixed:
3347 case ARM::VST2d8wb_register:
3348 case ARM::VST2d16wb_register:
3349 case ARM::VST2d32wb_register:
3350 case ARM::VST2q8wb_fixed:
3351 case ARM::VST2q16wb_fixed:
3352 case ARM::VST2q32wb_fixed:
3353 case ARM::VST2q8wb_register:
3354 case ARM::VST2q16wb_register:
3355 case ARM::VST2q32wb_register:
3356 case ARM::VST2b8wb_fixed:
3357 case ARM::VST2b16wb_fixed:
3358 case ARM::VST2b32wb_fixed:
3359 case ARM::VST2b8wb_register:
3360 case ARM::VST2b16wb_register:
3361 case ARM::VST2b32wb_register:
3362 if (Rm == 0xF)
3363 return MCDisassembler::Fail;
3365 break;
3366 case ARM::VST3d8_UPD:
3367 case ARM::VST3d16_UPD:
3368 case ARM::VST3d32_UPD:
3369 case ARM::VST3q8_UPD:
3370 case ARM::VST3q16_UPD:
3371 case ARM::VST3q32_UPD:
3372 case ARM::VST4d8_UPD:
3373 case ARM::VST4d16_UPD:
3374 case ARM::VST4d32_UPD:
3375 case ARM::VST4q8_UPD:
3376 case ARM::VST4q16_UPD:
3377 case ARM::VST4q32_UPD:
3378 if (!Check(S, DecodeGPRRegisterClass(Inst, wb, Address, Decoder)))
3379 return MCDisassembler::Fail;
3380 break;
3381 default:
3382 break;
3383 }
3384
3385 // AddrMode6 Base (register+alignment)
3386 if (!Check(S, DecodeAddrMode6Operand(Inst, Rn, Address, Decoder)))
3387 return MCDisassembler::Fail;
3388
3389 // AddrMode6 Offset (register)
3390 switch (Inst.getOpcode()) {
3391 default:
3392 if (Rm == 0xD)
3394 else if (Rm != 0xF) {
3395 if (!Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
3396 return MCDisassembler::Fail;
3397 }
3398 break;
3399 case ARM::VST1d8wb_fixed:
3400 case ARM::VST1d16wb_fixed:
3401 case ARM::VST1d32wb_fixed:
3402 case ARM::VST1d64wb_fixed:
3403 case ARM::VST1q8wb_fixed:
3404 case ARM::VST1q16wb_fixed:
3405 case ARM::VST1q32wb_fixed:
3406 case ARM::VST1q64wb_fixed:
3407 case ARM::VST1d8Twb_fixed:
3408 case ARM::VST1d16Twb_fixed:
3409 case ARM::VST1d32Twb_fixed:
3410 case ARM::VST1d64Twb_fixed:
3411 case ARM::VST1d8Qwb_fixed:
3412 case ARM::VST1d16Qwb_fixed:
3413 case ARM::VST1d32Qwb_fixed:
3414 case ARM::VST1d64Qwb_fixed:
3415 case ARM::VST2d8wb_fixed:
3416 case ARM::VST2d16wb_fixed:
3417 case ARM::VST2d32wb_fixed:
3418 case ARM::VST2q8wb_fixed:
3419 case ARM::VST2q16wb_fixed:
3420 case ARM::VST2q32wb_fixed:
3421 case ARM::VST2b8wb_fixed:
3422 case ARM::VST2b16wb_fixed:
3423 case ARM::VST2b32wb_fixed:
3424 break;
3425 }
3426
3427 // First input register
3428 switch (Inst.getOpcode()) {
3429 case ARM::VST1q16:
3430 case ARM::VST1q32:
3431 case ARM::VST1q64:
3432 case ARM::VST1q8:
3433 case ARM::VST1q16wb_fixed:
3434 case ARM::VST1q16wb_register:
3435 case ARM::VST1q32wb_fixed:
3436 case ARM::VST1q32wb_register:
3437 case ARM::VST1q64wb_fixed:
3438 case ARM::VST1q64wb_register:
3439 case ARM::VST1q8wb_fixed:
3440 case ARM::VST1q8wb_register:
3441 case ARM::VST2d16:
3442 case ARM::VST2d32:
3443 case ARM::VST2d8:
3444 case ARM::VST2d16wb_fixed:
3445 case ARM::VST2d16wb_register:
3446 case ARM::VST2d32wb_fixed:
3447 case ARM::VST2d32wb_register:
3448 case ARM::VST2d8wb_fixed:
3449 case ARM::VST2d8wb_register:
3450 if (!Check(S, DecodeDPairRegisterClass(Inst, Rd, Address, Decoder)))
3451 return MCDisassembler::Fail;
3452 break;
3453 case ARM::VST2b16:
3454 case ARM::VST2b32:
3455 case ARM::VST2b8:
3456 case ARM::VST2b16wb_fixed:
3457 case ARM::VST2b16wb_register:
3458 case ARM::VST2b32wb_fixed:
3459 case ARM::VST2b32wb_register:
3460 case ARM::VST2b8wb_fixed:
3461 case ARM::VST2b8wb_register:
3462 if (!Check(S, DecodeDPairSpacedRegisterClass(Inst, Rd, Address, Decoder)))
3463 return MCDisassembler::Fail;
3464 break;
3465 default:
3466 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3467 return MCDisassembler::Fail;
3468 }
3469
3470 // Second input register
3471 switch (Inst.getOpcode()) {
3472 case ARM::VST3d8:
3473 case ARM::VST3d16:
3474 case ARM::VST3d32:
3475 case ARM::VST3d8_UPD:
3476 case ARM::VST3d16_UPD:
3477 case ARM::VST3d32_UPD:
3478 case ARM::VST4d8:
3479 case ARM::VST4d16:
3480 case ARM::VST4d32:
3481 case ARM::VST4d8_UPD:
3482 case ARM::VST4d16_UPD:
3483 case ARM::VST4d32_UPD:
3484 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+1)%32, Address, Decoder)))
3485 return MCDisassembler::Fail;
3486 break;
3487 case ARM::VST3q8:
3488 case ARM::VST3q16:
3489 case ARM::VST3q32:
3490 case ARM::VST3q8_UPD:
3491 case ARM::VST3q16_UPD:
3492 case ARM::VST3q32_UPD:
3493 case ARM::VST4q8:
3494 case ARM::VST4q16:
3495 case ARM::VST4q32:
3496 case ARM::VST4q8_UPD:
3497 case ARM::VST4q16_UPD:
3498 case ARM::VST4q32_UPD:
3499 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+2)%32, Address, Decoder)))
3500 return MCDisassembler::Fail;
3501 break;
3502 default:
3503 break;
3504 }
3505
3506 // Third input register
3507 switch (Inst.getOpcode()) {
3508 case ARM::VST3d8:
3509 case ARM::VST3d16:
3510 case ARM::VST3d32:
3511 case ARM::VST3d8_UPD:
3512 case ARM::VST3d16_UPD:
3513 case ARM::VST3d32_UPD:
3514 case ARM::VST4d8:
3515 case ARM::VST4d16:
3516 case ARM::VST4d32:
3517 case ARM::VST4d8_UPD:
3518 case ARM::VST4d16_UPD:
3519 case ARM::VST4d32_UPD:
3520 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+2)%32, Address, Decoder)))
3521 return MCDisassembler::Fail;
3522 break;
3523 case ARM::VST3q8:
3524 case ARM::VST3q16:
3525 case ARM::VST3q32:
3526 case ARM::VST3q8_UPD:
3527 case ARM::VST3q16_UPD:
3528 case ARM::VST3q32_UPD:
3529 case ARM::VST4q8:
3530 case ARM::VST4q16:
3531 case ARM::VST4q32:
3532 case ARM::VST4q8_UPD:
3533 case ARM::VST4q16_UPD:
3534 case ARM::VST4q32_UPD:
3535 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+4)%32, Address, Decoder)))
3536 return MCDisassembler::Fail;
3537 break;
3538 default:
3539 break;
3540 }
3541
3542 // Fourth input register
3543 switch (Inst.getOpcode()) {
3544 case ARM::VST4d8:
3545 case ARM::VST4d16:
3546 case ARM::VST4d32:
3547 case ARM::VST4d8_UPD:
3548 case ARM::VST4d16_UPD:
3549 case ARM::VST4d32_UPD:
3550 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+3)%32, Address, Decoder)))
3551 return MCDisassembler::Fail;
3552 break;
3553 case ARM::VST4q8:
3554 case ARM::VST4q16:
3555 case ARM::VST4q32:
3556 case ARM::VST4q8_UPD:
3557 case ARM::VST4q16_UPD:
3558 case ARM::VST4q32_UPD:
3559 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+6)%32, Address, Decoder)))
3560 return MCDisassembler::Fail;
3561 break;
3562 default:
3563 break;
3564 }
3565
3566 return S;
3567}
3568
3570 uint64_t Address,
3571 const MCDisassembler *Decoder) {
3573
3574 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
3575 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
3576 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
3577 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
3578 unsigned align = fieldFromInstruction(Insn, 4, 1);
3579 unsigned size = fieldFromInstruction(Insn, 6, 2);
3580
3581 if (size == 0 && align == 1)
3582 return MCDisassembler::Fail;
3583 align *= (1 << size);
3584
3585 switch (Inst.getOpcode()) {
3586 case ARM::VLD1DUPq16: case ARM::VLD1DUPq32: case ARM::VLD1DUPq8:
3587 case ARM::VLD1DUPq16wb_fixed: case ARM::VLD1DUPq16wb_register:
3588 case ARM::VLD1DUPq32wb_fixed: case ARM::VLD1DUPq32wb_register:
3589 case ARM::VLD1DUPq8wb_fixed: case ARM::VLD1DUPq8wb_register:
3590 if (!Check(S, DecodeDPairRegisterClass(Inst, Rd, Address, Decoder)))
3591 return MCDisassembler::Fail;
3592 break;
3593 default:
3594 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3595 return MCDisassembler::Fail;
3596 break;
3597 }
3598 if (Rm != 0xF) {
3599 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
3600 return MCDisassembler::Fail;
3601 }
3602
3603 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
3604 return MCDisassembler::Fail;
3605 Inst.addOperand(MCOperand::createImm(align));
3606
3607 // The fixed offset post-increment encodes Rm == 0xd. The no-writeback
3608 // variant encodes Rm == 0xf. Anything else is a register offset post-
3609 // increment and we need to add the register operand to the instruction.
3610 if (Rm != 0xD && Rm != 0xF &&
3611 !Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
3612 return MCDisassembler::Fail;
3613
3614 return S;
3615}
3616
3618 uint64_t Address,
3619 const MCDisassembler *Decoder) {
3621
3622 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
3623 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
3624 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
3625 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
3626 unsigned align = fieldFromInstruction(Insn, 4, 1);
3627 unsigned size = 1 << fieldFromInstruction(Insn, 6, 2);
3628 align *= 2*size;
3629
3630 switch (Inst.getOpcode()) {
3631 case ARM::VLD2DUPd16: case ARM::VLD2DUPd32: case ARM::VLD2DUPd8:
3632 case ARM::VLD2DUPd16wb_fixed: case ARM::VLD2DUPd16wb_register:
3633 case ARM::VLD2DUPd32wb_fixed: case ARM::VLD2DUPd32wb_register:
3634 case ARM::VLD2DUPd8wb_fixed: case ARM::VLD2DUPd8wb_register:
3635 if (!Check(S, DecodeDPairRegisterClass(Inst, Rd, Address, Decoder)))
3636 return MCDisassembler::Fail;
3637 break;
3638 case ARM::VLD2DUPd16x2: case ARM::VLD2DUPd32x2: case ARM::VLD2DUPd8x2:
3639 case ARM::VLD2DUPd16x2wb_fixed: case ARM::VLD2DUPd16x2wb_register:
3640 case ARM::VLD2DUPd32x2wb_fixed: case ARM::VLD2DUPd32x2wb_register:
3641 case ARM::VLD2DUPd8x2wb_fixed: case ARM::VLD2DUPd8x2wb_register:
3642 if (!Check(S, DecodeDPairSpacedRegisterClass(Inst, Rd, Address, Decoder)))
3643 return MCDisassembler::Fail;
3644 break;
3645 default:
3646 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3647 return MCDisassembler::Fail;
3648 break;
3649 }
3650
3651 if (Rm != 0xF)
3653
3654 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
3655 return MCDisassembler::Fail;
3656 Inst.addOperand(MCOperand::createImm(align));
3657
3658 if (Rm != 0xD && Rm != 0xF) {
3659 if (!Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
3660 return MCDisassembler::Fail;
3661 }
3662
3663 return S;
3664}
3665
3667 uint64_t Address,
3668 const MCDisassembler *Decoder) {
3670
3671 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
3672 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
3673 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
3674 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
3675 unsigned inc = fieldFromInstruction(Insn, 5, 1) + 1;
3676
3677 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3678 return MCDisassembler::Fail;
3679 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+inc)%32, Address, Decoder)))
3680 return MCDisassembler::Fail;
3681 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+2*inc)%32, Address, Decoder)))
3682 return MCDisassembler::Fail;
3683 if (Rm != 0xF) {
3684 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
3685 return MCDisassembler::Fail;
3686 }
3687
3688 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
3689 return MCDisassembler::Fail;
3691
3692 if (Rm == 0xD)
3694 else if (Rm != 0xF) {
3695 if (!Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
3696 return MCDisassembler::Fail;
3697 }
3698
3699 return S;
3700}
3701
3703 uint64_t Address,
3704 const MCDisassembler *Decoder) {
3706
3707 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
3708 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
3709 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
3710 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
3711 unsigned size = fieldFromInstruction(Insn, 6, 2);
3712 unsigned inc = fieldFromInstruction(Insn, 5, 1) + 1;
3713 unsigned align = fieldFromInstruction(Insn, 4, 1);
3714
3715 if (size == 0x3) {
3716 if (align == 0)
3717 return MCDisassembler::Fail;
3718 align = 16;
3719 } else {
3720 if (size == 2) {
3721 align *= 8;
3722 } else {
3723 size = 1 << size;
3724 align *= 4*size;
3725 }
3726 }
3727
3728 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3729 return MCDisassembler::Fail;
3730 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+inc)%32, Address, Decoder)))
3731 return MCDisassembler::Fail;
3732 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+2*inc)%32, Address, Decoder)))
3733 return MCDisassembler::Fail;
3734 if (!Check(S, DecodeDPRRegisterClass(Inst, (Rd+3*inc)%32, Address, Decoder)))
3735 return MCDisassembler::Fail;
3736 if (Rm != 0xF) {
3737 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
3738 return MCDisassembler::Fail;
3739 }
3740
3741 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
3742 return MCDisassembler::Fail;
3743 Inst.addOperand(MCOperand::createImm(align));
3744
3745 if (Rm == 0xD)
3747 else if (Rm != 0xF) {
3748 if (!Check(S, DecodeGPRRegisterClass(Inst, Rm, Address, Decoder)))
3749 return MCDisassembler::Fail;
3750 }
3751
3752 return S;
3753}
3754
3756 uint64_t Address,
3757 const MCDisassembler *Decoder) {
3759
3760 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
3761 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
3762 unsigned imm = fieldFromInstruction(Insn, 0, 4);
3763 imm |= fieldFromInstruction(Insn, 16, 3) << 4;
3764 imm |= fieldFromInstruction(Insn, 24, 1) << 7;
3765 imm |= fieldFromInstruction(Insn, 8, 4) << 8;
3766 imm |= fieldFromInstruction(Insn, 5, 1) << 12;
3767 unsigned Q = fieldFromInstruction(Insn, 6, 1);
3768
3769 if (Q) {
3770 if (!Check(S, DecodeQPRRegisterClass(Inst, Rd, Address, Decoder)))
3771 return MCDisassembler::Fail;
3772 } else {
3773 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3774 return MCDisassembler::Fail;
3775 }
3776
3778
3779 switch (Inst.getOpcode()) {
3780 case ARM::VORRiv4i16:
3781 case ARM::VORRiv2i32:
3782 case ARM::VBICiv4i16:
3783 case ARM::VBICiv2i32:
3784 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3785 return MCDisassembler::Fail;
3786 break;
3787 case ARM::VORRiv8i16:
3788 case ARM::VORRiv4i32:
3789 case ARM::VBICiv8i16:
3790 case ARM::VBICiv4i32:
3791 if (!Check(S, DecodeQPRRegisterClass(Inst, Rd, Address, Decoder)))
3792 return MCDisassembler::Fail;
3793 break;
3794 default:
3795 break;
3796 }
3797
3798 return S;
3799}
3800
3802 uint64_t Address,
3803 const MCDisassembler *Decoder) {
3805
3806 unsigned Qd = ((fieldFromInstruction(Insn, 22, 1) << 3) |
3807 fieldFromInstruction(Insn, 13, 3));
3808 unsigned cmode = fieldFromInstruction(Insn, 8, 4);
3809 unsigned imm = fieldFromInstruction(Insn, 0, 4);
3810 imm |= fieldFromInstruction(Insn, 16, 3) << 4;
3811 imm |= fieldFromInstruction(Insn, 28, 1) << 7;
3812 imm |= cmode << 8;
3813 imm |= fieldFromInstruction(Insn, 5, 1) << 12;
3814
3815 if (cmode == 0xF && Inst.getOpcode() == ARM::MVE_VMVNimmi32)
3816 return MCDisassembler::Fail;
3817
3818 if (!Check(S, DecodeMQPRRegisterClass(Inst, Qd, Address, Decoder)))
3819 return MCDisassembler::Fail;
3820
3822
3826
3827 return S;
3828}
3829
3831 uint64_t Address,
3832 const MCDisassembler *Decoder) {
3834
3835 unsigned Qd = fieldFromInstruction(Insn, 13, 3);
3836 Qd |= fieldFromInstruction(Insn, 22, 1) << 3;
3837 if (!Check(S, DecodeMQPRRegisterClass(Inst, Qd, Address, Decoder)))
3838 return MCDisassembler::Fail;
3839 Inst.addOperand(MCOperand::createReg(ARM::FPSCR_NZCV));
3840
3841 unsigned Qn = fieldFromInstruction(Insn, 17, 3);
3842 Qn |= fieldFromInstruction(Insn, 7, 1) << 3;
3843 if (!Check(S, DecodeMQPRRegisterClass(Inst, Qn, Address, Decoder)))
3844 return MCDisassembler::Fail;
3845 unsigned Qm = fieldFromInstruction(Insn, 1, 3);
3846 Qm |= fieldFromInstruction(Insn, 5, 1) << 3;
3847 if (!Check(S, DecodeMQPRRegisterClass(Inst, Qm, Address, Decoder)))
3848 return MCDisassembler::Fail;
3849 if (!fieldFromInstruction(Insn, 12, 1)) // I bit clear => need input FPSCR
3850 Inst.addOperand(MCOperand::createReg(ARM::FPSCR_NZCV));
3852
3853 return S;
3854}
3855
3857 uint64_t Address,
3858 const MCDisassembler *Decoder) {
3860
3861 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
3862 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
3863 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
3864 Rm |= fieldFromInstruction(Insn, 5, 1) << 4;
3865 unsigned size = fieldFromInstruction(Insn, 18, 2);
3866
3867 if (!Check(S, DecodeQPRRegisterClass(Inst, Rd, Address, Decoder)))
3868 return MCDisassembler::Fail;
3869 if (!Check(S, DecodeDPRRegisterClass(Inst, Rm, Address, Decoder)))
3870 return MCDisassembler::Fail;
3872
3873 return S;
3874}
3875
3876static DecodeStatus DecodeShiftRight8Imm(MCInst &Inst, unsigned Val,
3877 uint64_t Address,
3878 const MCDisassembler *Decoder) {
3879 Inst.addOperand(MCOperand::createImm(8 - Val));
3881}
3882
3883static DecodeStatus DecodeShiftRight16Imm(MCInst &Inst, unsigned Val,
3884 uint64_t Address,
3885 const MCDisassembler *Decoder) {
3886 Inst.addOperand(MCOperand::createImm(16 - Val));
3888}
3889
3890static DecodeStatus DecodeShiftRight32Imm(MCInst &Inst, unsigned Val,
3891 uint64_t Address,
3892 const MCDisassembler *Decoder) {
3893 Inst.addOperand(MCOperand::createImm(32 - Val));
3895}
3896
3897static DecodeStatus DecodeShiftRight64Imm(MCInst &Inst, unsigned Val,
3898 uint64_t Address,
3899 const MCDisassembler *Decoder) {
3900 Inst.addOperand(MCOperand::createImm(64 - Val));
3902}
3903
3905 uint64_t Address,
3906 const MCDisassembler *Decoder) {
3908
3909 unsigned Rd = fieldFromInstruction(Insn, 12, 4);
3910 Rd |= fieldFromInstruction(Insn, 22, 1) << 4;
3911 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
3912 Rn |= fieldFromInstruction(Insn, 7, 1) << 4;
3913 unsigned Rm = fieldFromInstruction(Insn, 0, 4);
3914 Rm |= fieldFromInstruction(Insn, 5, 1) << 4;
3915 unsigned op = fieldFromInstruction(Insn, 6, 1);
3916
3917 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3918 return MCDisassembler::Fail;
3919 if (op) {
3920 if (!Check(S, DecodeDPRRegisterClass(Inst, Rd, Address, Decoder)))
3921 return MCDisassembler::Fail; // Writeback
3922 }
3923
3924 switch (Inst.getOpcode()) {
3925 case ARM::VTBL2:
3926 case ARM::VTBX2:
3927 if (!Check(S, DecodeDPairRegisterClass(Inst, Rn, Address, Decoder)))
3928 return MCDisassembler::Fail;
3929 break;
3930 default:
3931 if (!Check(S, DecodeDPRRegisterClass(Inst, Rn, Address, Decoder)))
3932 return MCDisassembler::Fail;
3933 }
3934
3935 if (!Check(S, DecodeDPRRegisterClass(Inst, Rm, Address, Decoder)))
3936 return MCDisassembler::Fail;
3937
3938 return S;
3939}
3940
3942 uint64_t Address,
3943 const MCDisassembler *Decoder) {
3945
3946 unsigned dst = fieldFromInstruction(Insn, 8, 3);
3947 unsigned imm = fieldFromInstruction(Insn, 0, 8);
3948
3949 if (!Check(S, DecodetGPRRegisterClass(Inst, dst, Address, Decoder)))
3950 return MCDisassembler::Fail;
3951
3952 switch(Inst.getOpcode()) {
3953 default:
3954 return MCDisassembler::Fail;
3955 case ARM::tADR:
3956 break; // tADR does not explicitly represent the PC as an operand.
3957 case ARM::tADDrSPi:
3958 Inst.addOperand(MCOperand::createReg(ARM::SP));
3959 break;
3960 }
3961
3963 return S;
3964}
3965
3966static DecodeStatus DecodeThumbBROperand(MCInst &Inst, unsigned Val,
3967 uint64_t Address,
3968 const MCDisassembler *Decoder) {
3969 if (!tryAddingSymbolicOperand(Address, Address + SignExtend32<12>(Val<<1) + 4,
3970 true, 2, Inst, Decoder))
3971 Inst.addOperand(MCOperand::createImm(SignExtend32<12>(Val << 1)));
3973}
3974
3975static DecodeStatus DecodeT2BROperand(MCInst &Inst, unsigned Val,
3976 uint64_t Address,
3977 const MCDisassembler *Decoder) {
3978 if (!tryAddingSymbolicOperand(Address, Address + SignExtend32<21>(Val) + 4,
3979 true, 4, Inst, Decoder))
3980 Inst.addOperand(MCOperand::createImm(SignExtend32<21>(Val)));
3982}
3983
3985 uint64_t Address,
3986 const MCDisassembler *Decoder) {
3987 if (!tryAddingSymbolicOperand(Address, Address + (Val<<1) + 4,
3988 true, 2, Inst, Decoder))
3989 Inst.addOperand(MCOperand::createImm(Val << 1));
3991}
3992
3993static DecodeStatus DecodeThumbAddrModeRR(MCInst &Inst, unsigned Val,
3994 uint64_t Address,
3995 const MCDisassembler *Decoder) {
3997
3998 unsigned Rn = fieldFromInstruction(Val, 0, 3);
3999 unsigned Rm = fieldFromInstruction(Val, 3, 3);
4000
4001 if (!Check(S, DecodetGPRRegisterClass(Inst, Rn, Address, Decoder)))
4002 return MCDisassembler::Fail;
4003 if (!Check(S, DecodetGPRRegisterClass(Inst, Rm, Address, Decoder)))
4004 return MCDisassembler::Fail;
4005
4006 return S;
4007}
4008
4009static DecodeStatus DecodeThumbAddrModeIS(MCInst &Inst, unsigned Val,
4010 uint64_t Address,
4011 const MCDisassembler *Decoder) {
4013
4014 unsigned Rn = fieldFromInstruction(Val, 0, 3);
4015 unsigned imm = fieldFromInstruction(Val, 3, 5);
4016
4017 if (!Check(S, DecodetGPRRegisterClass(Inst, Rn, Address, Decoder)))
4018 return MCDisassembler::Fail;
4020
4021 return S;
4022}
4023
4024static DecodeStatus DecodeThumbAddrModePC(MCInst &Inst, unsigned Val,
4025 uint64_t Address,
4026 const MCDisassembler *Decoder) {
4027 unsigned imm = Val << 2;
4028
4030 tryAddingPcLoadReferenceComment(Address, (Address & ~2u) + imm + 4, Decoder);
4031
4033}
4034
4035static DecodeStatus DecodeThumbAddrModeSP(MCInst &Inst, unsigned Val,
4036 uint64_t Address,
4037 const MCDisassembler *Decoder) {
4038 Inst.addOperand(MCOperand::createReg(ARM::SP));
4040
4042}
4043
4044static DecodeStatus DecodeT2AddrModeSOReg(MCInst &Inst, unsigned Val,
4045 uint64_t Address,
4046 const MCDisassembler *Decoder) {
4048
4049 unsigned Rn = fieldFromInstruction(Val, 6, 4);
4050 unsigned Rm = fieldFromInstruction(Val, 2, 4);
4051 unsigned imm = fieldFromInstruction(Val, 0, 2);
4052
4053 // Thumb stores cannot use PC as dest register.
4054 switch (Inst.getOpcode()) {
4055 case ARM::t2STRHs:
4056 case ARM::t2STRBs:
4057 case ARM::t2STRs:
4058 if (Rn == 15)
4059 return MCDisassembler::Fail;
4060 break;
4061 default:
4062 break;
4063 }
4064
4065 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
4066 return MCDisassembler::Fail;
4067 if (!Check(S, DecoderGPRRegisterClass(Inst, Rm, Address, Decoder)))
4068 return MCDisassembler::Fail;
4070
4071 return S;
4072}
4073
4075 uint64_t Address,
4076 const MCDisassembler *Decoder) {
4078
4079 unsigned Rt = fieldFromInstruction(Insn, 12, 4);
4080 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
4081
4082 const FeatureBitset &featureBits =
4083 ((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4084
4085 bool hasMP = featureBits[ARM::FeatureMP];
4086 bool hasV7Ops = featureBits[ARM::HasV7Ops];
4087
4088 if (Rn == 15) {
4089 switch (Inst.getOpcode()) {
4090 case ARM::t2LDRBs:
4091 Inst.setOpcode(ARM::t2LDRBpci);
4092 break;
4093 case ARM::t2LDRHs:
4094 Inst.setOpcode(ARM::t2LDRHpci);
4095 break;
4096 case ARM::t2LDRSHs:
4097 Inst.setOpcode(ARM::t2LDRSHpci);
4098 break;
4099 case ARM::t2LDRSBs:
4100 Inst.setOpcode(ARM::t2LDRSBpci);
4101 break;
4102 case ARM::t2LDRs:
4103 Inst.setOpcode(ARM::t2LDRpci);
4104 break;
4105 case ARM::t2PLDs:
4106 Inst.setOpcode(ARM::t2PLDpci);
4107 break;
4108 case ARM::t2PLIs:
4109 Inst.setOpcode(ARM::t2PLIpci);
4110 break;
4111 default:
4112 return MCDisassembler::Fail;
4113 }
4114
4115 return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4116 }
4117
4118 if (Rt == 15) {
4119 switch (Inst.getOpcode()) {
4120 case ARM::t2LDRSHs:
4121 return MCDisassembler::Fail;
4122 case ARM::t2LDRHs:
4123 Inst.setOpcode(ARM::t2PLDWs);
4124 break;
4125 case ARM::t2LDRSBs:
4126 Inst.setOpcode(ARM::t2PLIs);
4127 break;
4128 default:
4129 break;
4130 }
4131 }
4132
4133 switch (Inst.getOpcode()) {
4134 case ARM::t2PLDs:
4135 break;
4136 case ARM::t2PLIs:
4137 if (!hasV7Ops)
4138 return MCDisassembler::Fail;
4139 break;
4140 case ARM::t2PLDWs:
4141 if (!hasV7Ops || !hasMP)
4142 return MCDisassembler::Fail;
4143 break;
4144 default:
4145 if (!Check(S, DecodeGPRRegisterClass(Inst, Rt, Address, Decoder)))
4146 return MCDisassembler::Fail;
4147 }
4148
4149 unsigned addrmode = fieldFromInstruction(Insn, 4, 2);
4150 addrmode |= fieldFromInstruction(Insn, 0, 4) << 2;
4151 addrmode |= fieldFromInstruction(Insn, 16, 4) << 6;
4152 if (!Check(S, DecodeT2AddrModeSOReg(Inst, addrmode, Address, Decoder)))
4153 return MCDisassembler::Fail;
4154
4155 return S;
4156}
4157
4159 uint64_t Address,
4160 const MCDisassembler *Decoder) {
4162
4163 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
4164 unsigned Rt = fieldFromInstruction(Insn, 12, 4);
4165 unsigned U = fieldFromInstruction(Insn, 9, 1);
4166 unsigned imm = fieldFromInstruction(Insn, 0, 8);
4167 imm |= (U << 8);
4168 imm |= (Rn << 9);
4169 unsigned add = fieldFromInstruction(Insn, 9, 1);
4170
4171 const FeatureBitset &featureBits =
4172 ((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4173
4174 bool hasMP = featureBits[ARM::FeatureMP];
4175 bool hasV7Ops = featureBits[ARM::HasV7Ops];
4176
4177 if (Rn == 15) {
4178 switch (Inst.getOpcode()) {
4179 case ARM::t2LDRi8:
4180 Inst.setOpcode(ARM::t2LDRpci);
4181 break;
4182 case ARM::t2LDRBi8:
4183 Inst.setOpcode(ARM::t2LDRBpci);
4184 break;
4185 case ARM::t2LDRSBi8:
4186 Inst.setOpcode(ARM::t2LDRSBpci);
4187 break;
4188 case ARM::t2LDRHi8:
4189 Inst.setOpcode(ARM::t2LDRHpci);
4190 break;
4191 case ARM::t2LDRSHi8:
4192 Inst.setOpcode(ARM::t2LDRSHpci);
4193 break;
4194 case ARM::t2PLDi8:
4195 Inst.setOpcode(ARM::t2PLDpci);
4196 break;
4197 case ARM::t2PLIi8:
4198 Inst.setOpcode(ARM::t2PLIpci);
4199 break;
4200 default:
4201 return MCDisassembler::Fail;
4202 }
4203 return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4204 }
4205
4206 if (Rt == 15) {
4207 switch (Inst.getOpcode()) {
4208 case ARM::t2LDRSHi8:
4209 return MCDisassembler::Fail;
4210 case ARM::t2LDRHi8:
4211 if (!add)
4212 Inst.setOpcode(ARM::t2PLDWi8);
4213 break;
4214 case ARM::t2LDRSBi8:
4215 Inst.setOpcode(ARM::t2PLIi8);
4216 break;
4217 default:
4218 break;
4219 }
4220 }
4221
4222 switch (Inst.getOpcode()) {
4223 case ARM::t2PLDi8:
4224 break;
4225 case ARM::t2PLIi8:
4226 if (!hasV7Ops)
4227 return MCDisassembler::Fail;
4228 break;
4229 case ARM::t2PLDWi8:
4230 if (!hasV7Ops || !hasMP)
4231 return MCDisassembler::Fail;
4232 break;
4233 default:
4234 if (!Check(S, DecodeGPRRegisterClass(Inst, Rt, Address, Decoder)))
4235 return MCDisassembler::Fail;
4236 }
4237
4238 if (!Check(S, DecodeT2AddrModeImm8(Inst, imm, Address, Decoder)))
4239 return MCDisassembler::Fail;
4240 return S;
4241}
4242
4244 uint64_t Address,
4245 const MCDisassembler *Decoder) {
4247
4248 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
4249 unsigned Rt = fieldFromInstruction(Insn, 12, 4);
4250 unsigned imm = fieldFromInstruction(Insn, 0, 12);
4251 imm |= (Rn << 13);
4252
4253 const FeatureBitset &featureBits =
4254 ((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4255
4256 bool hasMP = featureBits[ARM::FeatureMP];
4257 bool hasV7Ops = featureBits[ARM::HasV7Ops];
4258
4259 if (Rn == 15) {
4260 switch (Inst.getOpcode()) {
4261 case ARM::t2LDRi12:
4262 Inst.setOpcode(ARM::t2LDRpci);
4263 break;
4264 case ARM::t2LDRHi12:
4265 Inst.setOpcode(ARM::t2LDRHpci);
4266 break;
4267 case ARM::t2LDRSHi12:
4268 Inst.setOpcode(ARM::t2LDRSHpci);
4269 break;
4270 case ARM::t2LDRBi12:
4271 Inst.setOpcode(ARM::t2LDRBpci);
4272 break;
4273 case ARM::t2LDRSBi12:
4274 Inst.setOpcode(ARM::t2LDRSBpci);
4275 break;
4276 case ARM::t2PLDi12:
4277 Inst.setOpcode(ARM::t2PLDpci);
4278 break;
4279 case ARM::t2PLIi12:
4280 Inst.setOpcode(ARM::t2PLIpci);
4281 break;
4282 default:
4283 return MCDisassembler::Fail;
4284 }
4285 return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4286 }
4287
4288 if (Rt == 15) {
4289 switch (Inst.getOpcode()) {
4290 case ARM::t2LDRSHi12:
4291 return MCDisassembler::Fail;
4292 case ARM::t2LDRHi12:
4293 Inst.setOpcode(ARM::t2PLDWi12);
4294 break;
4295 case ARM::t2LDRSBi12:
4296 Inst.setOpcode(ARM::t2PLIi12);
4297 break;
4298 default:
4299 break;
4300 }
4301 }
4302
4303 switch (Inst.getOpcode()) {
4304 case ARM::t2PLDi12:
4305 break;
4306 case ARM::t2PLIi12:
4307 if (!hasV7Ops)
4308 return MCDisassembler::Fail;
4309 break;
4310 case ARM::t2PLDWi12:
4311 if (!hasV7Ops || !hasMP)
4312 return MCDisassembler::Fail;
4313 break;
4314 default:
4315 if (!Check(S, DecodeGPRRegisterClass(Inst, Rt, Address, Decoder)))
4316 return MCDisassembler::Fail;
4317 }
4318
4319 if (!Check(S, DecodeT2AddrModeImm12(Inst, imm, Address, Decoder)))
4320 return MCDisassembler::Fail;
4321 return S;
4322}
4323
4324static DecodeStatus DecodeT2LoadT(MCInst &Inst, unsigned Insn, uint64_t Address,
4325 const MCDisassembler *Decoder) {
4327
4328 unsigned Rn = fieldFromInstruction(Insn, 16, 4);
4329 unsigned Rt = fieldFromInstruction(Insn, 12, 4);
4330 unsigned imm = fieldFromInstruction(Insn, 0, 8);
4331 imm |= (Rn << 9);
4332
4333 if (Rn == 15) {
4334 switch (Inst.getOpcode()) {
4335 case ARM::t2LDRT:
4336 Inst.setOpcode(ARM::t2LDRpci);
4337 break;
4338 case ARM::t2LDRBT:
4339 Inst.setOpcode(ARM::t2LDRBpci);
4340 break;
4341 case ARM::t2LDRHT:
4342 Inst.setOpcode(ARM::t2LDRHpci);
4343 break;
4344 case ARM::t2LDRSBT:
4345 Inst.setOpcode(ARM::t2LDRSBpci);
4346 break;
4347 case ARM::t2LDRSHT:
4348 Inst.setOpcode(ARM::t2LDRSHpci);
4349 break;
4350 default:
4351 return MCDisassembler::Fail;
4352 }
4353 return DecodeT2LoadLabel(Inst, Insn, Address, Decoder);
4354 }
4355
4356 if (!Check(S, DecoderGPRRegisterClass(Inst, Rt, Address, Decoder)))
4357 return MCDisassembler::Fail;
4358 if (!Check(S, DecodeT2AddrModeImm8(Inst, imm, Address, Decoder)))
4359 return MCDisassembler::Fail;
4360 return S;
4361}
4362
4364 uint64_t Address,
4365 const MCDisassembler *Decoder) {
4367
4368 unsigned Rt = fieldFromInstruction(Insn, 12, 4);
4369 unsigned U = fieldFromInstruction(Insn, 23, 1);
4370 int imm = fieldFromInstruction(Insn, 0, 12);
4371
4372 const FeatureBitset &featureBits =
4373 ((const MCDisassembler*)Decoder)->getSubtargetInfo().getFeatureBits();
4374
4375 bool hasV7Ops = featureBits[ARM::HasV7Ops];
4376
4377 if (Rt == 15) {
4378 switch (Inst.getOpcode()) {
4379 case ARM::t2LDRBpci:
4380 case ARM::t2LDRHpci:
4381 Inst.setOpcode(ARM::t2PLDpci);
4382 break;
4383 case ARM::t2LDRSBpci:
4384 Inst.setOpcode(ARM::t2PLIpci);
4385 break;
4386 case ARM::t2LDRSHpci:
4387 return MCDisassembler::Fail;
4388 default:
4389 break;
4390 }
4391 }
4392
4393 switch(Inst.getOpcode()) {
4394 case ARM::t2PLDpci:
4395 break;
4396 case ARM::t2PLIpci:
4397 if (!hasV7Ops)
4398 return MCDisassembler::Fail;
4399 break;
4400 default:
4401 if (!Check(S, DecodeGPRRegisterClass(Inst, Rt, Address, Decoder)))
4402 return MCDisassembler::Fail;
4403 }
4404
4405 if (!U) {
4406 // Special case for #-0.
4407 if (imm == 0)
4408 imm = INT32_MIN;
4409 else
4410 imm = -imm;
4411 }
4413
4414 return S;
4415}
4416
4417static DecodeStatus DecodeT2Imm8S4(MCInst &Inst, unsigned Val, uint64_t Address,
4418 const MCDisassembler *Decoder) {
4419 if (Val == 0)
4420 Inst.addOperand(MCOperand::createImm(INT32_MIN));
4421 else {
4422 int imm = Val & 0xFF;
4423
4424 if (!(Val & 0x100)) imm *= -1;
4425 Inst.addOperand(MCOperand::createImm(imm * 4));
4426 }
4427
4429}
4430
4431static DecodeStatus DecodeT2Imm7S4(MCInst &Inst, unsigned Val, uint64_t Address,
4432 const MCDisassembler *Decoder) {
4433 if (Val == 0)
4434 Inst.addOperand(MCOperand::createImm(INT32_MIN));
4435 else {
4436 int imm = Val & 0x7F;
4437
4438 if (!(Val & 0x80))
4439 imm *= -1;
4440 Inst.addOperand(MCOperand::createImm(imm * 4));
4441 }
4442
4444}
4445
4446static DecodeStatus DecodeT2AddrModeImm8s4(MCInst &Inst, unsigned Val,
4447 uint64_t Address,
4448 const MCDisassembler *Decoder) {
4450
4451 unsigned Rn = fieldFromInstruction(Val, 9, 4);
4452 unsigned imm = fieldFromInstruction(Val, 0, 9);
4453
4454 if (!Check(S, DecodeGPRRegisterClass(Inst, Rn, Address, Decoder)))
4455 return MCDisassembler::Fail;
4456 if (!Check(S, DecodeT2Imm8S4(Inst, imm, Address, Decoder)))
4457 return MCDisassembler::Fail;
4458
4459 return S;
4460}
4461
4462static DecodeStatus DecodeT2AddrModeImm7s4(MCInst &Inst, unsigned Val,
4463 uint64_t Address,
4464 const MCDisassembler *Decoder) {
4466
4467 unsigned Rn = fieldFromInstruction(Val, 8, 4);
4468 unsigned imm = fieldFromInstruction(Val, 0, 8);
4469
4470 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rn, Address, Decoder)))
4471 return MCDisassembler::Fail;
4472 if (!Check(S, DecodeT2Imm7S4(Inst, imm, Address, Decoder)))
4473 return MCDisassembler::Fail;
4474
4475 return S;
4476}
4477
4479 uint64_t Address,
4480 const MCDisassembler *Decoder) {
4482
4483 unsigned Rn = fieldFromInstruction(Val, 8, 4);
4484 unsigned imm = fieldFromInstruction(Val, 0, 8);
4485
4486 if (!Check(S, DecodeGPRnopcRegisterClass(Inst, Rn, Address, Decoder)))
4487 return MCDisassembler::Fail;
4488
4490
4491 return S;
4492}
4493
4494static DecodeStatus DecodeT2Imm8(MCInst &Inst, unsigned Val, uint64_t Address,
4495 const MCDisassembler *Decoder) {
4496 int imm = Val & 0xFF;
4497 if (Val == 0)
4498 imm = INT32_MIN;
4499 else if (!(Val & 0x100))
4500 imm *= -1;
4502
4504}
4505
4506template <int shift>
4507static DecodeStatus DecodeT2Imm7(MCInst &Inst, unsigned Val, uint64_t Address,
4508 const MCDisassembler *Decoder) {
4509 int imm = Val & 0x7F;
4510 if (Val == 0)
4511 imm = INT32_MIN;
4512 else if (!(Val & 0x80))
4513 imm *= -1;
4514 if (imm != INT32_MIN)
4515 imm *= (1U << shift);
4517
4519}
4520
4521static