xref: /freebsd/contrib/llvm-project/llvm/lib/DebugInfo/DWARF/DWARFDebugFrame.cpp (revision 271171e0d97b88ba2a7c3bf750c9672b484c1c13)
1 //===- DWARFDebugFrame.h - Parsing of .debug_frame ------------------------===//
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 "llvm/DebugInfo/DWARF/DWARFDebugFrame.h"
10 #include "llvm/ADT/DenseMap.h"
11 #include "llvm/ADT/Optional.h"
12 #include "llvm/ADT/StringExtras.h"
13 #include "llvm/ADT/StringRef.h"
14 #include "llvm/BinaryFormat/Dwarf.h"
15 #include "llvm/MC/MCRegisterInfo.h"
16 #include "llvm/Support/Casting.h"
17 #include "llvm/Support/Compiler.h"
18 #include "llvm/Support/DataExtractor.h"
19 #include "llvm/Support/Errc.h"
20 #include "llvm/Support/ErrorHandling.h"
21 #include "llvm/Support/Format.h"
22 #include "llvm/Support/raw_ostream.h"
23 #include <algorithm>
24 #include <cassert>
25 #include <cinttypes>
26 #include <cstdint>
27 
28 using namespace llvm;
29 using namespace dwarf;
30 
31 static void printRegister(raw_ostream &OS, const MCRegisterInfo *MRI, bool IsEH,
32                           unsigned RegNum) {
33   if (MRI) {
34     if (Optional<unsigned> LLVMRegNum = MRI->getLLVMRegNum(RegNum, IsEH)) {
35       if (const char *RegName = MRI->getName(*LLVMRegNum)) {
36         OS << RegName;
37         return;
38       }
39     }
40   }
41   OS << "reg" << RegNum;
42 }
43 
44 UnwindLocation UnwindLocation::createUnspecified() { return {Unspecified}; }
45 
46 UnwindLocation UnwindLocation::createUndefined() { return {Undefined}; }
47 
48 UnwindLocation UnwindLocation::createSame() { return {Same}; }
49 
50 UnwindLocation UnwindLocation::createIsConstant(int32_t Value) {
51   return {Constant, InvalidRegisterNumber, Value, None, false};
52 }
53 
54 UnwindLocation UnwindLocation::createIsCFAPlusOffset(int32_t Offset) {
55   return {CFAPlusOffset, InvalidRegisterNumber, Offset, None, false};
56 }
57 
58 UnwindLocation UnwindLocation::createAtCFAPlusOffset(int32_t Offset) {
59   return {CFAPlusOffset, InvalidRegisterNumber, Offset, None, true};
60 }
61 
62 UnwindLocation
63 UnwindLocation::createIsRegisterPlusOffset(uint32_t RegNum, int32_t Offset,
64                                            Optional<uint32_t> AddrSpace) {
65   return {RegPlusOffset, RegNum, Offset, AddrSpace, false};
66 }
67 
68 UnwindLocation
69 UnwindLocation::createAtRegisterPlusOffset(uint32_t RegNum, int32_t Offset,
70                                            Optional<uint32_t> AddrSpace) {
71   return {RegPlusOffset, RegNum, Offset, AddrSpace, true};
72 }
73 
74 UnwindLocation UnwindLocation::createIsDWARFExpression(DWARFExpression Expr) {
75   return {Expr, false};
76 }
77 
78 UnwindLocation UnwindLocation::createAtDWARFExpression(DWARFExpression Expr) {
79   return {Expr, true};
80 }
81 
82 void UnwindLocation::dump(raw_ostream &OS, const MCRegisterInfo *MRI,
83                           bool IsEH) const {
84   if (Dereference)
85     OS << '[';
86   switch (Kind) {
87   case Unspecified:
88     OS << "unspecified";
89     break;
90   case Undefined:
91     OS << "undefined";
92     break;
93   case Same:
94     OS << "same";
95     break;
96   case CFAPlusOffset:
97     OS << "CFA";
98     if (Offset == 0)
99       break;
100     if (Offset > 0)
101       OS << "+";
102     OS << Offset;
103     break;
104   case RegPlusOffset:
105     printRegister(OS, MRI, IsEH, RegNum);
106     if (Offset == 0 && !AddrSpace)
107       break;
108     if (Offset >= 0)
109       OS << "+";
110     OS << Offset;
111     if (AddrSpace)
112       OS << " in addrspace" << *AddrSpace;
113     break;
114   case DWARFExpr:
115     Expr->print(OS, DIDumpOptions(), MRI, nullptr, IsEH);
116     break;
117   case Constant:
118     OS << Offset;
119     break;
120   }
121   if (Dereference)
122     OS << ']';
123 }
124 
125 raw_ostream &llvm::dwarf::operator<<(raw_ostream &OS,
126                                      const UnwindLocation &UL) {
127   UL.dump(OS, nullptr, false);
128   return OS;
129 }
130 
131 bool UnwindLocation::operator==(const UnwindLocation &RHS) const {
132   if (Kind != RHS.Kind)
133     return false;
134   switch (Kind) {
135   case Unspecified:
136   case Undefined:
137   case Same:
138     return true;
139   case CFAPlusOffset:
140     return Offset == RHS.Offset && Dereference == RHS.Dereference;
141   case RegPlusOffset:
142     return RegNum == RHS.RegNum && Offset == RHS.Offset &&
143            Dereference == RHS.Dereference;
144   case DWARFExpr:
145     return *Expr == *RHS.Expr && Dereference == RHS.Dereference;
146   case Constant:
147     return Offset == RHS.Offset;
148   }
149   return false;
150 }
151 
152 void RegisterLocations::dump(raw_ostream &OS, const MCRegisterInfo *MRI,
153                              bool IsEH) const {
154   bool First = true;
155   for (const auto &RegLocPair : Locations) {
156     if (First)
157       First = false;
158     else
159       OS << ", ";
160     printRegister(OS, MRI, IsEH, RegLocPair.first);
161     OS << '=';
162     RegLocPair.second.dump(OS, MRI, IsEH);
163   }
164 }
165 
166 raw_ostream &llvm::dwarf::operator<<(raw_ostream &OS,
167                                      const RegisterLocations &RL) {
168   RL.dump(OS, nullptr, false);
169   return OS;
170 }
171 
172 void UnwindRow::dump(raw_ostream &OS, const MCRegisterInfo *MRI, bool IsEH,
173                      unsigned IndentLevel) const {
174   OS.indent(2 * IndentLevel);
175   if (hasAddress())
176     OS << format("0x%" PRIx64 ": ", *Address);
177   OS << "CFA=";
178   CFAValue.dump(OS, MRI, IsEH);
179   if (RegLocs.hasLocations()) {
180     OS << ": ";
181     RegLocs.dump(OS, MRI, IsEH);
182   }
183   OS << "\n";
184 }
185 
186 raw_ostream &llvm::dwarf::operator<<(raw_ostream &OS, const UnwindRow &Row) {
187   Row.dump(OS, nullptr, false, 0);
188   return OS;
189 }
190 
191 void UnwindTable::dump(raw_ostream &OS, const MCRegisterInfo *MRI, bool IsEH,
192                        unsigned IndentLevel) const {
193   for (const UnwindRow &Row : Rows)
194     Row.dump(OS, MRI, IsEH, IndentLevel);
195 }
196 
197 raw_ostream &llvm::dwarf::operator<<(raw_ostream &OS, const UnwindTable &Rows) {
198   Rows.dump(OS, nullptr, false, 0);
199   return OS;
200 }
201 
202 Expected<UnwindTable> UnwindTable::create(const FDE *Fde) {
203   const CIE *Cie = Fde->getLinkedCIE();
204   if (Cie == nullptr)
205     return createStringError(errc::invalid_argument,
206                              "unable to get CIE for FDE at offset 0x%" PRIx64,
207                              Fde->getOffset());
208 
209   // Rows will be empty if there are no CFI instructions.
210   if (Cie->cfis().empty() && Fde->cfis().empty())
211     return UnwindTable();
212 
213   UnwindTable UT;
214   UnwindRow Row;
215   Row.setAddress(Fde->getInitialLocation());
216   UT.EndAddress = Fde->getInitialLocation() + Fde->getAddressRange();
217   if (Error CieError = UT.parseRows(Cie->cfis(), Row, nullptr))
218     return std::move(CieError);
219   // We need to save the initial locations of registers from the CIE parsing
220   // in case we run into DW_CFA_restore or DW_CFA_restore_extended opcodes.
221   const RegisterLocations InitialLocs = Row.getRegisterLocations();
222   if (Error FdeError = UT.parseRows(Fde->cfis(), Row, &InitialLocs))
223     return std::move(FdeError);
224   // May be all the CFI instructions were DW_CFA_nop amd Row becomes empty.
225   // Do not add that to the unwind table.
226   if (Row.getRegisterLocations().hasLocations() ||
227       Row.getCFAValue().getLocation() != UnwindLocation::Unspecified)
228     UT.Rows.push_back(Row);
229   return UT;
230 }
231 
232 Expected<UnwindTable> UnwindTable::create(const CIE *Cie) {
233   // Rows will be empty if there are no CFI instructions.
234   if (Cie->cfis().empty())
235     return UnwindTable();
236 
237   UnwindTable UT;
238   UnwindRow Row;
239   if (Error CieError = UT.parseRows(Cie->cfis(), Row, nullptr))
240     return std::move(CieError);
241   // May be all the CFI instructions were DW_CFA_nop amd Row becomes empty.
242   // Do not add that to the unwind table.
243   if (Row.getRegisterLocations().hasLocations() ||
244       Row.getCFAValue().getLocation() != UnwindLocation::Unspecified)
245     UT.Rows.push_back(Row);
246   return UT;
247 }
248 
249 // See DWARF standard v3, section 7.23
250 const uint8_t DWARF_CFI_PRIMARY_OPCODE_MASK = 0xc0;
251 const uint8_t DWARF_CFI_PRIMARY_OPERAND_MASK = 0x3f;
252 
253 Error CFIProgram::parse(DWARFDataExtractor Data, uint64_t *Offset,
254                         uint64_t EndOffset) {
255   DataExtractor::Cursor C(*Offset);
256   while (C && C.tell() < EndOffset) {
257     uint8_t Opcode = Data.getRelocatedValue(C, 1);
258     if (!C)
259       break;
260 
261     // Some instructions have a primary opcode encoded in the top bits.
262     if (uint8_t Primary = Opcode & DWARF_CFI_PRIMARY_OPCODE_MASK) {
263       // If it's a primary opcode, the first operand is encoded in the bottom
264       // bits of the opcode itself.
265       uint64_t Op1 = Opcode & DWARF_CFI_PRIMARY_OPERAND_MASK;
266       switch (Primary) {
267       case DW_CFA_advance_loc:
268       case DW_CFA_restore:
269         addInstruction(Primary, Op1);
270         break;
271       case DW_CFA_offset:
272         addInstruction(Primary, Op1, Data.getULEB128(C));
273         break;
274       default:
275         llvm_unreachable("invalid primary CFI opcode");
276       }
277       continue;
278     }
279 
280     // Extended opcode - its value is Opcode itself.
281     switch (Opcode) {
282     default:
283       return createStringError(errc::illegal_byte_sequence,
284                                "invalid extended CFI opcode 0x%" PRIx8, Opcode);
285     case DW_CFA_nop:
286     case DW_CFA_remember_state:
287     case DW_CFA_restore_state:
288     case DW_CFA_GNU_window_save:
289       // No operands
290       addInstruction(Opcode);
291       break;
292     case DW_CFA_set_loc:
293       // Operands: Address
294       addInstruction(Opcode, Data.getRelocatedAddress(C));
295       break;
296     case DW_CFA_advance_loc1:
297       // Operands: 1-byte delta
298       addInstruction(Opcode, Data.getRelocatedValue(C, 1));
299       break;
300     case DW_CFA_advance_loc2:
301       // Operands: 2-byte delta
302       addInstruction(Opcode, Data.getRelocatedValue(C, 2));
303       break;
304     case DW_CFA_advance_loc4:
305       // Operands: 4-byte delta
306       addInstruction(Opcode, Data.getRelocatedValue(C, 4));
307       break;
308     case DW_CFA_restore_extended:
309     case DW_CFA_undefined:
310     case DW_CFA_same_value:
311     case DW_CFA_def_cfa_register:
312     case DW_CFA_def_cfa_offset:
313     case DW_CFA_GNU_args_size:
314       // Operands: ULEB128
315       addInstruction(Opcode, Data.getULEB128(C));
316       break;
317     case DW_CFA_def_cfa_offset_sf:
318       // Operands: SLEB128
319       addInstruction(Opcode, Data.getSLEB128(C));
320       break;
321     case DW_CFA_LLVM_def_aspace_cfa:
322     case DW_CFA_LLVM_def_aspace_cfa_sf: {
323       auto RegNum = Data.getULEB128(C);
324       auto CfaOffset = Opcode == DW_CFA_LLVM_def_aspace_cfa
325                            ? Data.getULEB128(C)
326                            : Data.getSLEB128(C);
327       auto AddressSpace = Data.getULEB128(C);
328       addInstruction(Opcode, RegNum, CfaOffset, AddressSpace);
329       break;
330     }
331     case DW_CFA_offset_extended:
332     case DW_CFA_register:
333     case DW_CFA_def_cfa:
334     case DW_CFA_val_offset: {
335       // Operands: ULEB128, ULEB128
336       // Note: We can not embed getULEB128 directly into function
337       // argument list. getULEB128 changes Offset and order of evaluation
338       // for arguments is unspecified.
339       uint64_t op1 = Data.getULEB128(C);
340       uint64_t op2 = Data.getULEB128(C);
341       addInstruction(Opcode, op1, op2);
342       break;
343     }
344     case DW_CFA_offset_extended_sf:
345     case DW_CFA_def_cfa_sf:
346     case DW_CFA_val_offset_sf: {
347       // Operands: ULEB128, SLEB128
348       // Note: see comment for the previous case
349       uint64_t op1 = Data.getULEB128(C);
350       uint64_t op2 = (uint64_t)Data.getSLEB128(C);
351       addInstruction(Opcode, op1, op2);
352       break;
353     }
354     case DW_CFA_def_cfa_expression: {
355       uint64_t ExprLength = Data.getULEB128(C);
356       addInstruction(Opcode, 0);
357       StringRef Expression = Data.getBytes(C, ExprLength);
358 
359       DataExtractor Extractor(Expression, Data.isLittleEndian(),
360                               Data.getAddressSize());
361       // Note. We do not pass the DWARF format to DWARFExpression, because
362       // DW_OP_call_ref, the only operation which depends on the format, is
363       // prohibited in call frame instructions, see sec. 6.4.2 in DWARFv5.
364       Instructions.back().Expression =
365           DWARFExpression(Extractor, Data.getAddressSize());
366       break;
367     }
368     case DW_CFA_expression:
369     case DW_CFA_val_expression: {
370       uint64_t RegNum = Data.getULEB128(C);
371       addInstruction(Opcode, RegNum, 0);
372 
373       uint64_t BlockLength = Data.getULEB128(C);
374       StringRef Expression = Data.getBytes(C, BlockLength);
375       DataExtractor Extractor(Expression, Data.isLittleEndian(),
376                               Data.getAddressSize());
377       // Note. We do not pass the DWARF format to DWARFExpression, because
378       // DW_OP_call_ref, the only operation which depends on the format, is
379       // prohibited in call frame instructions, see sec. 6.4.2 in DWARFv5.
380       Instructions.back().Expression =
381           DWARFExpression(Extractor, Data.getAddressSize());
382       break;
383     }
384     }
385   }
386 
387   *Offset = C.tell();
388   return C.takeError();
389 }
390 
391 StringRef CFIProgram::callFrameString(unsigned Opcode) const {
392   return dwarf::CallFrameString(Opcode, Arch);
393 }
394 
395 const char *CFIProgram::operandTypeString(CFIProgram::OperandType OT) {
396 #define ENUM_TO_CSTR(e)                                                        \
397   case e:                                                                      \
398     return #e;
399   switch (OT) {
400     ENUM_TO_CSTR(OT_Unset);
401     ENUM_TO_CSTR(OT_None);
402     ENUM_TO_CSTR(OT_Address);
403     ENUM_TO_CSTR(OT_Offset);
404     ENUM_TO_CSTR(OT_FactoredCodeOffset);
405     ENUM_TO_CSTR(OT_SignedFactDataOffset);
406     ENUM_TO_CSTR(OT_UnsignedFactDataOffset);
407     ENUM_TO_CSTR(OT_Register);
408     ENUM_TO_CSTR(OT_AddressSpace);
409     ENUM_TO_CSTR(OT_Expression);
410   }
411   return "<unknown CFIProgram::OperandType>";
412 }
413 
414 llvm::Expected<uint64_t>
415 CFIProgram::Instruction::getOperandAsUnsigned(const CFIProgram &CFIP,
416                                               uint32_t OperandIdx) const {
417   if (OperandIdx >= MaxOperands)
418     return createStringError(errc::invalid_argument,
419                              "operand index %" PRIu32 " is not valid",
420                              OperandIdx);
421   OperandType Type = CFIP.getOperandTypes()[Opcode][OperandIdx];
422   uint64_t Operand = Ops[OperandIdx];
423   switch (Type) {
424   case OT_Unset:
425   case OT_None:
426   case OT_Expression:
427     return createStringError(errc::invalid_argument,
428                              "op[%" PRIu32 "] has type %s which has no value",
429                              OperandIdx, CFIProgram::operandTypeString(Type));
430 
431   case OT_Offset:
432   case OT_SignedFactDataOffset:
433   case OT_UnsignedFactDataOffset:
434     return createStringError(
435         errc::invalid_argument,
436         "op[%" PRIu32 "] has OperandType OT_Offset which produces a signed "
437         "result, call getOperandAsSigned instead",
438         OperandIdx);
439 
440   case OT_Address:
441   case OT_Register:
442   case OT_AddressSpace:
443     return Operand;
444 
445   case OT_FactoredCodeOffset: {
446     const uint64_t CodeAlignmentFactor = CFIP.codeAlign();
447     if (CodeAlignmentFactor == 0)
448       return createStringError(
449           errc::invalid_argument,
450           "op[%" PRIu32 "] has type OT_FactoredCodeOffset but code alignment "
451           "is zero",
452           OperandIdx);
453     return Operand * CodeAlignmentFactor;
454   }
455   }
456   llvm_unreachable("invalid operand type");
457 }
458 
459 llvm::Expected<int64_t>
460 CFIProgram::Instruction::getOperandAsSigned(const CFIProgram &CFIP,
461                                             uint32_t OperandIdx) const {
462   if (OperandIdx >= MaxOperands)
463     return createStringError(errc::invalid_argument,
464                              "operand index %" PRIu32 " is not valid",
465                              OperandIdx);
466   OperandType Type = CFIP.getOperandTypes()[Opcode][OperandIdx];
467   uint64_t Operand = Ops[OperandIdx];
468   switch (Type) {
469   case OT_Unset:
470   case OT_None:
471   case OT_Expression:
472     return createStringError(errc::invalid_argument,
473                              "op[%" PRIu32 "] has type %s which has no value",
474                              OperandIdx, CFIProgram::operandTypeString(Type));
475 
476   case OT_Address:
477   case OT_Register:
478   case OT_AddressSpace:
479     return createStringError(
480         errc::invalid_argument,
481         "op[%" PRIu32 "] has OperandType %s which produces an unsigned result, "
482         "call getOperandAsUnsigned instead",
483         OperandIdx, CFIProgram::operandTypeString(Type));
484 
485   case OT_Offset:
486     return (int64_t)Operand;
487 
488   case OT_FactoredCodeOffset:
489   case OT_SignedFactDataOffset: {
490     const int64_t DataAlignmentFactor = CFIP.dataAlign();
491     if (DataAlignmentFactor == 0)
492       return createStringError(errc::invalid_argument,
493                                "op[%" PRIu32 "] has type %s but data "
494                                "alignment is zero",
495                                OperandIdx, CFIProgram::operandTypeString(Type));
496     return int64_t(Operand) * DataAlignmentFactor;
497   }
498 
499   case OT_UnsignedFactDataOffset: {
500     const int64_t DataAlignmentFactor = CFIP.dataAlign();
501     if (DataAlignmentFactor == 0)
502       return createStringError(errc::invalid_argument,
503                                "op[%" PRIu32
504                                "] has type OT_UnsignedFactDataOffset but data "
505                                "alignment is zero",
506                                OperandIdx);
507     return Operand * DataAlignmentFactor;
508   }
509   }
510   llvm_unreachable("invalid operand type");
511 }
512 
513 Error UnwindTable::parseRows(const CFIProgram &CFIP, UnwindRow &Row,
514                              const RegisterLocations *InitialLocs) {
515   std::vector<RegisterLocations> RegisterStates;
516   for (const CFIProgram::Instruction &Inst : CFIP) {
517     switch (Inst.Opcode) {
518     case dwarf::DW_CFA_set_loc: {
519       // The DW_CFA_set_loc instruction takes a single operand that
520       // represents a target address. The required action is to create a new
521       // table row using the specified address as the location. All other
522       // values in the new row are initially identical to the current row.
523       // The new location value is always greater than the current one. If
524       // the segment_size field of this FDE's CIE is non- zero, the initial
525       // location is preceded by a segment selector of the given length
526       llvm::Expected<uint64_t> NewAddress = Inst.getOperandAsUnsigned(CFIP, 0);
527       if (!NewAddress)
528         return NewAddress.takeError();
529       if (*NewAddress <= Row.getAddress())
530         return createStringError(
531             errc::invalid_argument,
532             "%s with adrress 0x%" PRIx64 " which must be greater than the "
533             "current row address 0x%" PRIx64,
534             CFIP.callFrameString(Inst.Opcode).str().c_str(), *NewAddress,
535             Row.getAddress());
536       Rows.push_back(Row);
537       Row.setAddress(*NewAddress);
538       break;
539     }
540 
541     case dwarf::DW_CFA_advance_loc:
542     case dwarf::DW_CFA_advance_loc1:
543     case dwarf::DW_CFA_advance_loc2:
544     case dwarf::DW_CFA_advance_loc4: {
545       // The DW_CFA_advance instruction takes a single operand that
546       // represents a constant delta. The required action is to create a new
547       // table row with a location value that is computed by taking the
548       // current entry’s location value and adding the value of delta *
549       // code_alignment_factor. All other values in the new row are initially
550       // identical to the current row.
551       Rows.push_back(Row);
552       llvm::Expected<uint64_t> Offset = Inst.getOperandAsUnsigned(CFIP, 0);
553       if (!Offset)
554         return Offset.takeError();
555       Row.slideAddress(*Offset);
556       break;
557     }
558 
559     case dwarf::DW_CFA_restore:
560     case dwarf::DW_CFA_restore_extended: {
561       // The DW_CFA_restore instruction takes a single operand (encoded with
562       // the opcode) that represents a register number. The required action
563       // is to change the rule for the indicated register to the rule
564       // assigned it by the initial_instructions in the CIE.
565       if (InitialLocs == nullptr)
566         return createStringError(
567             errc::invalid_argument, "%s encountered while parsing a CIE",
568             CFIP.callFrameString(Inst.Opcode).str().c_str());
569       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
570       if (!RegNum)
571         return RegNum.takeError();
572       if (Optional<UnwindLocation> O =
573               InitialLocs->getRegisterLocation(*RegNum))
574         Row.getRegisterLocations().setRegisterLocation(*RegNum, *O);
575       else
576         Row.getRegisterLocations().removeRegisterLocation(*RegNum);
577       break;
578     }
579 
580     case dwarf::DW_CFA_offset:
581     case dwarf::DW_CFA_offset_extended:
582     case dwarf::DW_CFA_offset_extended_sf: {
583       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
584       if (!RegNum)
585         return RegNum.takeError();
586       llvm::Expected<int64_t> Offset = Inst.getOperandAsSigned(CFIP, 1);
587       if (!Offset)
588         return Offset.takeError();
589       Row.getRegisterLocations().setRegisterLocation(
590           *RegNum, UnwindLocation::createAtCFAPlusOffset(*Offset));
591       break;
592     }
593 
594     case dwarf::DW_CFA_nop:
595       break;
596 
597     case dwarf::DW_CFA_remember_state:
598       RegisterStates.push_back(Row.getRegisterLocations());
599       break;
600 
601     case dwarf::DW_CFA_restore_state:
602       if (RegisterStates.empty())
603         return createStringError(errc::invalid_argument,
604                                  "DW_CFA_restore_state without a matching "
605                                  "previous DW_CFA_remember_state");
606       Row.getRegisterLocations() = RegisterStates.back();
607       RegisterStates.pop_back();
608       break;
609 
610     case dwarf::DW_CFA_GNU_window_save:
611       switch (CFIP.triple()) {
612       case Triple::aarch64:
613       case Triple::aarch64_be:
614       case Triple::aarch64_32: {
615         // DW_CFA_GNU_window_save is used for different things on different
616         // architectures. For aarch64 it is known as
617         // DW_CFA_AARCH64_negate_ra_state. The action is to toggle the
618         // value of the return address state between 1 and 0. If there is
619         // no rule for the AARCH64_DWARF_PAUTH_RA_STATE register, then it
620         // should be initially set to 1.
621         constexpr uint32_t AArch64DWARFPAuthRaState = 34;
622         auto LRLoc = Row.getRegisterLocations().getRegisterLocation(
623             AArch64DWARFPAuthRaState);
624         if (LRLoc) {
625           if (LRLoc->getLocation() == UnwindLocation::Constant) {
626             // Toggle the constant value from 0 to 1 or 1 to 0.
627             LRLoc->setConstant(LRLoc->getConstant() ^ 1);
628           } else {
629             return createStringError(
630                 errc::invalid_argument,
631                 "%s encountered when existing rule for this register is not "
632                 "a constant",
633                 CFIP.callFrameString(Inst.Opcode).str().c_str());
634           }
635         } else {
636           Row.getRegisterLocations().setRegisterLocation(
637               AArch64DWARFPAuthRaState, UnwindLocation::createIsConstant(1));
638         }
639         break;
640       }
641 
642       case Triple::sparc:
643       case Triple::sparcv9:
644       case Triple::sparcel:
645         for (uint32_t RegNum = 16; RegNum < 32; ++RegNum) {
646           Row.getRegisterLocations().setRegisterLocation(
647               RegNum, UnwindLocation::createAtCFAPlusOffset((RegNum - 16) * 8));
648         }
649         break;
650 
651       default: {
652         return createStringError(
653             errc::not_supported,
654             "DW_CFA opcode %#x is not supported for architecture %s",
655             Inst.Opcode, Triple::getArchTypeName(CFIP.triple()).str().c_str());
656 
657         break;
658       }
659       }
660       break;
661 
662     case dwarf::DW_CFA_undefined: {
663       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
664       if (!RegNum)
665         return RegNum.takeError();
666       Row.getRegisterLocations().setRegisterLocation(
667           *RegNum, UnwindLocation::createUndefined());
668       break;
669     }
670 
671     case dwarf::DW_CFA_same_value: {
672       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
673       if (!RegNum)
674         return RegNum.takeError();
675       Row.getRegisterLocations().setRegisterLocation(
676           *RegNum, UnwindLocation::createSame());
677       break;
678     }
679 
680     case dwarf::DW_CFA_GNU_args_size:
681       break;
682 
683     case dwarf::DW_CFA_register: {
684       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
685       if (!RegNum)
686         return RegNum.takeError();
687       llvm::Expected<uint64_t> NewRegNum = Inst.getOperandAsUnsigned(CFIP, 1);
688       if (!NewRegNum)
689         return NewRegNum.takeError();
690       Row.getRegisterLocations().setRegisterLocation(
691           *RegNum, UnwindLocation::createIsRegisterPlusOffset(*NewRegNum, 0));
692       break;
693     }
694 
695     case dwarf::DW_CFA_val_offset:
696     case dwarf::DW_CFA_val_offset_sf: {
697       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
698       if (!RegNum)
699         return RegNum.takeError();
700       llvm::Expected<int64_t> Offset = Inst.getOperandAsSigned(CFIP, 1);
701       if (!Offset)
702         return Offset.takeError();
703       Row.getRegisterLocations().setRegisterLocation(
704           *RegNum, UnwindLocation::createIsCFAPlusOffset(*Offset));
705       break;
706     }
707 
708     case dwarf::DW_CFA_expression: {
709       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
710       if (!RegNum)
711         return RegNum.takeError();
712       Row.getRegisterLocations().setRegisterLocation(
713           *RegNum, UnwindLocation::createAtDWARFExpression(*Inst.Expression));
714       break;
715     }
716 
717     case dwarf::DW_CFA_val_expression: {
718       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
719       if (!RegNum)
720         return RegNum.takeError();
721       Row.getRegisterLocations().setRegisterLocation(
722           *RegNum, UnwindLocation::createIsDWARFExpression(*Inst.Expression));
723       break;
724     }
725 
726     case dwarf::DW_CFA_def_cfa_register: {
727       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
728       if (!RegNum)
729         return RegNum.takeError();
730       if (Row.getCFAValue().getLocation() != UnwindLocation::RegPlusOffset)
731         Row.getCFAValue() =
732             UnwindLocation::createIsRegisterPlusOffset(*RegNum, 0);
733       else
734         Row.getCFAValue().setRegister(*RegNum);
735       break;
736     }
737 
738     case dwarf::DW_CFA_def_cfa_offset:
739     case dwarf::DW_CFA_def_cfa_offset_sf: {
740       llvm::Expected<int64_t> Offset = Inst.getOperandAsSigned(CFIP, 0);
741       if (!Offset)
742         return Offset.takeError();
743       if (Row.getCFAValue().getLocation() != UnwindLocation::RegPlusOffset) {
744         return createStringError(
745             errc::invalid_argument,
746             "%s found when CFA rule was not RegPlusOffset",
747             CFIP.callFrameString(Inst.Opcode).str().c_str());
748       }
749       Row.getCFAValue().setOffset(*Offset);
750       break;
751     }
752 
753     case dwarf::DW_CFA_def_cfa:
754     case dwarf::DW_CFA_def_cfa_sf: {
755       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
756       if (!RegNum)
757         return RegNum.takeError();
758       llvm::Expected<int64_t> Offset = Inst.getOperandAsSigned(CFIP, 1);
759       if (!Offset)
760         return Offset.takeError();
761       Row.getCFAValue() =
762           UnwindLocation::createIsRegisterPlusOffset(*RegNum, *Offset);
763       break;
764     }
765 
766     case dwarf::DW_CFA_LLVM_def_aspace_cfa:
767     case dwarf::DW_CFA_LLVM_def_aspace_cfa_sf: {
768       llvm::Expected<uint64_t> RegNum = Inst.getOperandAsUnsigned(CFIP, 0);
769       if (!RegNum)
770         return RegNum.takeError();
771       llvm::Expected<int64_t> Offset = Inst.getOperandAsSigned(CFIP, 1);
772       if (!Offset)
773         return Offset.takeError();
774       llvm::Expected<uint32_t> CFAAddrSpace =
775           Inst.getOperandAsUnsigned(CFIP, 2);
776       if (!CFAAddrSpace)
777         return CFAAddrSpace.takeError();
778       Row.getCFAValue() = UnwindLocation::createIsRegisterPlusOffset(
779           *RegNum, *Offset, *CFAAddrSpace);
780       break;
781     }
782 
783     case dwarf::DW_CFA_def_cfa_expression:
784       Row.getCFAValue() =
785           UnwindLocation::createIsDWARFExpression(*Inst.Expression);
786       break;
787     }
788   }
789   return Error::success();
790 }
791 
792 ArrayRef<CFIProgram::OperandType[CFIProgram::MaxOperands]>
793 CFIProgram::getOperandTypes() {
794   static OperandType OpTypes[DW_CFA_restore + 1][MaxOperands];
795   static bool Initialized = false;
796   if (Initialized) {
797     return ArrayRef<OperandType[MaxOperands]>(&OpTypes[0], DW_CFA_restore + 1);
798   }
799   Initialized = true;
800 
801 #define DECLARE_OP3(OP, OPTYPE0, OPTYPE1, OPTYPE2)                             \
802   do {                                                                         \
803     OpTypes[OP][0] = OPTYPE0;                                                  \
804     OpTypes[OP][1] = OPTYPE1;                                                  \
805     OpTypes[OP][2] = OPTYPE2;                                                  \
806   } while (false)
807 #define DECLARE_OP2(OP, OPTYPE0, OPTYPE1)                                      \
808   DECLARE_OP3(OP, OPTYPE0, OPTYPE1, OT_None)
809 #define DECLARE_OP1(OP, OPTYPE0) DECLARE_OP2(OP, OPTYPE0, OT_None)
810 #define DECLARE_OP0(OP) DECLARE_OP1(OP, OT_None)
811 
812   DECLARE_OP1(DW_CFA_set_loc, OT_Address);
813   DECLARE_OP1(DW_CFA_advance_loc, OT_FactoredCodeOffset);
814   DECLARE_OP1(DW_CFA_advance_loc1, OT_FactoredCodeOffset);
815   DECLARE_OP1(DW_CFA_advance_loc2, OT_FactoredCodeOffset);
816   DECLARE_OP1(DW_CFA_advance_loc4, OT_FactoredCodeOffset);
817   DECLARE_OP1(DW_CFA_MIPS_advance_loc8, OT_FactoredCodeOffset);
818   DECLARE_OP2(DW_CFA_def_cfa, OT_Register, OT_Offset);
819   DECLARE_OP2(DW_CFA_def_cfa_sf, OT_Register, OT_SignedFactDataOffset);
820   DECLARE_OP1(DW_CFA_def_cfa_register, OT_Register);
821   DECLARE_OP3(DW_CFA_LLVM_def_aspace_cfa, OT_Register, OT_Offset,
822               OT_AddressSpace);
823   DECLARE_OP3(DW_CFA_LLVM_def_aspace_cfa_sf, OT_Register,
824               OT_SignedFactDataOffset, OT_AddressSpace);
825   DECLARE_OP1(DW_CFA_def_cfa_offset, OT_Offset);
826   DECLARE_OP1(DW_CFA_def_cfa_offset_sf, OT_SignedFactDataOffset);
827   DECLARE_OP1(DW_CFA_def_cfa_expression, OT_Expression);
828   DECLARE_OP1(DW_CFA_undefined, OT_Register);
829   DECLARE_OP1(DW_CFA_same_value, OT_Register);
830   DECLARE_OP2(DW_CFA_offset, OT_Register, OT_UnsignedFactDataOffset);
831   DECLARE_OP2(DW_CFA_offset_extended, OT_Register, OT_UnsignedFactDataOffset);
832   DECLARE_OP2(DW_CFA_offset_extended_sf, OT_Register, OT_SignedFactDataOffset);
833   DECLARE_OP2(DW_CFA_val_offset, OT_Register, OT_UnsignedFactDataOffset);
834   DECLARE_OP2(DW_CFA_val_offset_sf, OT_Register, OT_SignedFactDataOffset);
835   DECLARE_OP2(DW_CFA_register, OT_Register, OT_Register);
836   DECLARE_OP2(DW_CFA_expression, OT_Register, OT_Expression);
837   DECLARE_OP2(DW_CFA_val_expression, OT_Register, OT_Expression);
838   DECLARE_OP1(DW_CFA_restore, OT_Register);
839   DECLARE_OP1(DW_CFA_restore_extended, OT_Register);
840   DECLARE_OP0(DW_CFA_remember_state);
841   DECLARE_OP0(DW_CFA_restore_state);
842   DECLARE_OP0(DW_CFA_GNU_window_save);
843   DECLARE_OP1(DW_CFA_GNU_args_size, OT_Offset);
844   DECLARE_OP0(DW_CFA_nop);
845 
846 #undef DECLARE_OP0
847 #undef DECLARE_OP1
848 #undef DECLARE_OP2
849 
850   return ArrayRef<OperandType[MaxOperands]>(&OpTypes[0], DW_CFA_restore + 1);
851 }
852 
853 /// Print \p Opcode's operand number \p OperandIdx which has value \p Operand.
854 void CFIProgram::printOperand(raw_ostream &OS, DIDumpOptions DumpOpts,
855                               const MCRegisterInfo *MRI, bool IsEH,
856                               const Instruction &Instr, unsigned OperandIdx,
857                               uint64_t Operand) const {
858   assert(OperandIdx < MaxOperands);
859   uint8_t Opcode = Instr.Opcode;
860   OperandType Type = getOperandTypes()[Opcode][OperandIdx];
861 
862   switch (Type) {
863   case OT_Unset: {
864     OS << " Unsupported " << (OperandIdx ? "second" : "first") << " operand to";
865     auto OpcodeName = callFrameString(Opcode);
866     if (!OpcodeName.empty())
867       OS << " " << OpcodeName;
868     else
869       OS << format(" Opcode %x",  Opcode);
870     break;
871   }
872   case OT_None:
873     break;
874   case OT_Address:
875     OS << format(" %" PRIx64, Operand);
876     break;
877   case OT_Offset:
878     // The offsets are all encoded in a unsigned form, but in practice
879     // consumers use them signed. It's most certainly legacy due to
880     // the lack of signed variants in the first Dwarf standards.
881     OS << format(" %+" PRId64, int64_t(Operand));
882     break;
883   case OT_FactoredCodeOffset: // Always Unsigned
884     if (CodeAlignmentFactor)
885       OS << format(" %" PRId64, Operand * CodeAlignmentFactor);
886     else
887       OS << format(" %" PRId64 "*code_alignment_factor" , Operand);
888     break;
889   case OT_SignedFactDataOffset:
890     if (DataAlignmentFactor)
891       OS << format(" %" PRId64, int64_t(Operand) * DataAlignmentFactor);
892     else
893       OS << format(" %" PRId64 "*data_alignment_factor" , int64_t(Operand));
894     break;
895   case OT_UnsignedFactDataOffset:
896     if (DataAlignmentFactor)
897       OS << format(" %" PRId64, Operand * DataAlignmentFactor);
898     else
899       OS << format(" %" PRId64 "*data_alignment_factor" , Operand);
900     break;
901   case OT_Register:
902     OS << ' ';
903     printRegister(OS, MRI, IsEH, Operand);
904     break;
905   case OT_AddressSpace:
906     OS << format(" in addrspace%" PRId64, Operand);
907     break;
908   case OT_Expression:
909     assert(Instr.Expression && "missing DWARFExpression object");
910     OS << " ";
911     Instr.Expression->print(OS, DumpOpts, MRI, nullptr, IsEH);
912     break;
913   }
914 }
915 
916 void CFIProgram::dump(raw_ostream &OS, DIDumpOptions DumpOpts,
917                       const MCRegisterInfo *MRI, bool IsEH,
918                       unsigned IndentLevel) const {
919   for (const auto &Instr : Instructions) {
920     uint8_t Opcode = Instr.Opcode;
921     OS.indent(2 * IndentLevel);
922     OS << callFrameString(Opcode) << ":";
923     for (unsigned i = 0; i < Instr.Ops.size(); ++i)
924       printOperand(OS, DumpOpts, MRI, IsEH, Instr, i, Instr.Ops[i]);
925     OS << '\n';
926   }
927 }
928 
929 // Returns the CIE identifier to be used by the requested format.
930 // CIE ids for .debug_frame sections are defined in Section 7.24 of DWARFv5.
931 // For CIE ID in .eh_frame sections see
932 // https://refspecs.linuxfoundation.org/LSB_5.0.0/LSB-Core-generic/LSB-Core-generic/ehframechpt.html
933 constexpr uint64_t getCIEId(bool IsDWARF64, bool IsEH) {
934   if (IsEH)
935     return 0;
936   if (IsDWARF64)
937     return DW64_CIE_ID;
938   return DW_CIE_ID;
939 }
940 
941 void CIE::dump(raw_ostream &OS, DIDumpOptions DumpOpts,
942                const MCRegisterInfo *MRI, bool IsEH) const {
943   // A CIE with a zero length is a terminator entry in the .eh_frame section.
944   if (IsEH && Length == 0) {
945     OS << format("%08" PRIx64, Offset) << " ZERO terminator\n";
946     return;
947   }
948 
949   OS << format("%08" PRIx64, Offset)
950      << format(" %0*" PRIx64, IsDWARF64 ? 16 : 8, Length)
951      << format(" %0*" PRIx64, IsDWARF64 && !IsEH ? 16 : 8,
952                getCIEId(IsDWARF64, IsEH))
953      << " CIE\n"
954      << "  Format:                " << FormatString(IsDWARF64) << "\n";
955   if (IsEH && Version != 1)
956     OS << "WARNING: unsupported CIE version\n";
957   OS << format("  Version:               %d\n", Version)
958      << "  Augmentation:          \"" << Augmentation << "\"\n";
959   if (Version >= 4) {
960     OS << format("  Address size:          %u\n", (uint32_t)AddressSize);
961     OS << format("  Segment desc size:     %u\n",
962                  (uint32_t)SegmentDescriptorSize);
963   }
964   OS << format("  Code alignment factor: %u\n", (uint32_t)CodeAlignmentFactor);
965   OS << format("  Data alignment factor: %d\n", (int32_t)DataAlignmentFactor);
966   OS << format("  Return address column: %d\n", (int32_t)ReturnAddressRegister);
967   if (Personality)
968     OS << format("  Personality Address: %016" PRIx64 "\n", *Personality);
969   if (!AugmentationData.empty()) {
970     OS << "  Augmentation data:    ";
971     for (uint8_t Byte : AugmentationData)
972       OS << ' ' << hexdigit(Byte >> 4) << hexdigit(Byte & 0xf);
973     OS << "\n";
974   }
975   OS << "\n";
976   CFIs.dump(OS, DumpOpts, MRI, IsEH);
977   OS << "\n";
978 
979   if (Expected<UnwindTable> RowsOrErr = UnwindTable::create(this))
980     RowsOrErr->dump(OS, MRI, IsEH, 1);
981   else {
982     DumpOpts.RecoverableErrorHandler(joinErrors(
983         createStringError(errc::invalid_argument,
984                           "decoding the CIE opcodes into rows failed"),
985         RowsOrErr.takeError()));
986   }
987   OS << "\n";
988 }
989 
990 void FDE::dump(raw_ostream &OS, DIDumpOptions DumpOpts,
991                const MCRegisterInfo *MRI, bool IsEH) const {
992   OS << format("%08" PRIx64, Offset)
993      << format(" %0*" PRIx64, IsDWARF64 ? 16 : 8, Length)
994      << format(" %0*" PRIx64, IsDWARF64 && !IsEH ? 16 : 8, CIEPointer)
995      << " FDE cie=";
996   if (LinkedCIE)
997     OS << format("%08" PRIx64, LinkedCIE->getOffset());
998   else
999     OS << "<invalid offset>";
1000   OS << format(" pc=%08" PRIx64 "...%08" PRIx64 "\n", InitialLocation,
1001                InitialLocation + AddressRange);
1002   OS << "  Format:       " << FormatString(IsDWARF64) << "\n";
1003   if (LSDAAddress)
1004     OS << format("  LSDA Address: %016" PRIx64 "\n", *LSDAAddress);
1005   CFIs.dump(OS, DumpOpts, MRI, IsEH);
1006   OS << "\n";
1007 
1008   if (Expected<UnwindTable> RowsOrErr = UnwindTable::create(this))
1009     RowsOrErr->dump(OS, MRI, IsEH, 1);
1010   else {
1011     DumpOpts.RecoverableErrorHandler(joinErrors(
1012         createStringError(errc::invalid_argument,
1013                           "decoding the FDE opcodes into rows failed"),
1014         RowsOrErr.takeError()));
1015   }
1016   OS << "\n";
1017 }
1018 
1019 DWARFDebugFrame::DWARFDebugFrame(Triple::ArchType Arch,
1020     bool IsEH, uint64_t EHFrameAddress)
1021     : Arch(Arch), IsEH(IsEH), EHFrameAddress(EHFrameAddress) {}
1022 
1023 DWARFDebugFrame::~DWARFDebugFrame() = default;
1024 
1025 static void LLVM_ATTRIBUTE_UNUSED dumpDataAux(DataExtractor Data,
1026                                               uint64_t Offset, int Length) {
1027   errs() << "DUMP: ";
1028   for (int i = 0; i < Length; ++i) {
1029     uint8_t c = Data.getU8(&Offset);
1030     errs().write_hex(c); errs() << " ";
1031   }
1032   errs() << "\n";
1033 }
1034 
1035 Error DWARFDebugFrame::parse(DWARFDataExtractor Data) {
1036   uint64_t Offset = 0;
1037   DenseMap<uint64_t, CIE *> CIEs;
1038 
1039   while (Data.isValidOffset(Offset)) {
1040     uint64_t StartOffset = Offset;
1041 
1042     uint64_t Length;
1043     DwarfFormat Format;
1044     std::tie(Length, Format) = Data.getInitialLength(&Offset);
1045     bool IsDWARF64 = Format == DWARF64;
1046 
1047     // If the Length is 0, then this CIE is a terminator. We add it because some
1048     // dumper tools might need it to print something special for such entries
1049     // (e.g. llvm-objdump --dwarf=frames prints "ZERO terminator").
1050     if (Length == 0) {
1051       auto Cie = std::make_unique<CIE>(
1052           IsDWARF64, StartOffset, 0, 0, SmallString<8>(), 0, 0, 0, 0, 0,
1053           SmallString<8>(), 0, 0, None, None, Arch);
1054       CIEs[StartOffset] = Cie.get();
1055       Entries.push_back(std::move(Cie));
1056       break;
1057     }
1058 
1059     // At this point, Offset points to the next field after Length.
1060     // Length is the structure size excluding itself. Compute an offset one
1061     // past the end of the structure (needed to know how many instructions to
1062     // read).
1063     uint64_t StartStructureOffset = Offset;
1064     uint64_t EndStructureOffset = Offset + Length;
1065 
1066     // The Id field's size depends on the DWARF format
1067     Error Err = Error::success();
1068     uint64_t Id = Data.getRelocatedValue((IsDWARF64 && !IsEH) ? 8 : 4, &Offset,
1069                                          /*SectionIndex=*/nullptr, &Err);
1070     if (Err)
1071       return Err;
1072 
1073     if (Id == getCIEId(IsDWARF64, IsEH)) {
1074       uint8_t Version = Data.getU8(&Offset);
1075       const char *Augmentation = Data.getCStr(&Offset);
1076       StringRef AugmentationString(Augmentation ? Augmentation : "");
1077       uint8_t AddressSize = Version < 4 ? Data.getAddressSize() :
1078                                           Data.getU8(&Offset);
1079       Data.setAddressSize(AddressSize);
1080       uint8_t SegmentDescriptorSize = Version < 4 ? 0 : Data.getU8(&Offset);
1081       uint64_t CodeAlignmentFactor = Data.getULEB128(&Offset);
1082       int64_t DataAlignmentFactor = Data.getSLEB128(&Offset);
1083       uint64_t ReturnAddressRegister =
1084           Version == 1 ? Data.getU8(&Offset) : Data.getULEB128(&Offset);
1085 
1086       // Parse the augmentation data for EH CIEs
1087       StringRef AugmentationData("");
1088       uint32_t FDEPointerEncoding = DW_EH_PE_absptr;
1089       uint32_t LSDAPointerEncoding = DW_EH_PE_omit;
1090       Optional<uint64_t> Personality;
1091       Optional<uint32_t> PersonalityEncoding;
1092       if (IsEH) {
1093         Optional<uint64_t> AugmentationLength;
1094         uint64_t StartAugmentationOffset;
1095         uint64_t EndAugmentationOffset;
1096 
1097         // Walk the augmentation string to get all the augmentation data.
1098         for (unsigned i = 0, e = AugmentationString.size(); i != e; ++i) {
1099           switch (AugmentationString[i]) {
1100           default:
1101             return createStringError(
1102                 errc::invalid_argument,
1103                 "unknown augmentation character in entry at 0x%" PRIx64,
1104                 StartOffset);
1105           case 'L':
1106             LSDAPointerEncoding = Data.getU8(&Offset);
1107             break;
1108           case 'P': {
1109             if (Personality)
1110               return createStringError(
1111                   errc::invalid_argument,
1112                   "duplicate personality in entry at 0x%" PRIx64, StartOffset);
1113             PersonalityEncoding = Data.getU8(&Offset);
1114             Personality = Data.getEncodedPointer(
1115                 &Offset, *PersonalityEncoding,
1116                 EHFrameAddress ? EHFrameAddress + Offset : 0);
1117             break;
1118           }
1119           case 'R':
1120             FDEPointerEncoding = Data.getU8(&Offset);
1121             break;
1122           case 'S':
1123             // Current frame is a signal trampoline.
1124             break;
1125           case 'z':
1126             if (i)
1127               return createStringError(
1128                   errc::invalid_argument,
1129                   "'z' must be the first character at 0x%" PRIx64, StartOffset);
1130             // Parse the augmentation length first.  We only parse it if
1131             // the string contains a 'z'.
1132             AugmentationLength = Data.getULEB128(&Offset);
1133             StartAugmentationOffset = Offset;
1134             EndAugmentationOffset = Offset + *AugmentationLength;
1135             break;
1136           case 'B':
1137             // B-Key is used for signing functions associated with this
1138             // augmentation string
1139             break;
1140           }
1141         }
1142 
1143         if (AugmentationLength.hasValue()) {
1144           if (Offset != EndAugmentationOffset)
1145             return createStringError(errc::invalid_argument,
1146                                      "parsing augmentation data at 0x%" PRIx64
1147                                      " failed",
1148                                      StartOffset);
1149           AugmentationData = Data.getData().slice(StartAugmentationOffset,
1150                                                   EndAugmentationOffset);
1151         }
1152       }
1153 
1154       auto Cie = std::make_unique<CIE>(
1155           IsDWARF64, StartOffset, Length, Version, AugmentationString,
1156           AddressSize, SegmentDescriptorSize, CodeAlignmentFactor,
1157           DataAlignmentFactor, ReturnAddressRegister, AugmentationData,
1158           FDEPointerEncoding, LSDAPointerEncoding, Personality,
1159           PersonalityEncoding, Arch);
1160       CIEs[StartOffset] = Cie.get();
1161       Entries.emplace_back(std::move(Cie));
1162     } else {
1163       // FDE
1164       uint64_t CIEPointer = Id;
1165       uint64_t InitialLocation = 0;
1166       uint64_t AddressRange = 0;
1167       Optional<uint64_t> LSDAAddress;
1168       CIE *Cie = CIEs[IsEH ? (StartStructureOffset - CIEPointer) : CIEPointer];
1169 
1170       if (IsEH) {
1171         // The address size is encoded in the CIE we reference.
1172         if (!Cie)
1173           return createStringError(errc::invalid_argument,
1174                                    "parsing FDE data at 0x%" PRIx64
1175                                    " failed due to missing CIE",
1176                                    StartOffset);
1177         if (auto Val =
1178                 Data.getEncodedPointer(&Offset, Cie->getFDEPointerEncoding(),
1179                                        EHFrameAddress + Offset)) {
1180           InitialLocation = *Val;
1181         }
1182         if (auto Val = Data.getEncodedPointer(
1183                 &Offset, Cie->getFDEPointerEncoding(), 0)) {
1184           AddressRange = *Val;
1185         }
1186 
1187         StringRef AugmentationString = Cie->getAugmentationString();
1188         if (!AugmentationString.empty()) {
1189           // Parse the augmentation length and data for this FDE.
1190           uint64_t AugmentationLength = Data.getULEB128(&Offset);
1191 
1192           uint64_t EndAugmentationOffset = Offset + AugmentationLength;
1193 
1194           // Decode the LSDA if the CIE augmentation string said we should.
1195           if (Cie->getLSDAPointerEncoding() != DW_EH_PE_omit) {
1196             LSDAAddress = Data.getEncodedPointer(
1197                 &Offset, Cie->getLSDAPointerEncoding(),
1198                 EHFrameAddress ? Offset + EHFrameAddress : 0);
1199           }
1200 
1201           if (Offset != EndAugmentationOffset)
1202             return createStringError(errc::invalid_argument,
1203                                      "parsing augmentation data at 0x%" PRIx64
1204                                      " failed",
1205                                      StartOffset);
1206         }
1207       } else {
1208         InitialLocation = Data.getRelocatedAddress(&Offset);
1209         AddressRange = Data.getRelocatedAddress(&Offset);
1210       }
1211 
1212       Entries.emplace_back(new FDE(IsDWARF64, StartOffset, Length, CIEPointer,
1213                                    InitialLocation, AddressRange, Cie,
1214                                    LSDAAddress, Arch));
1215     }
1216 
1217     if (Error E =
1218             Entries.back()->cfis().parse(Data, &Offset, EndStructureOffset))
1219       return E;
1220 
1221     if (Offset != EndStructureOffset)
1222       return createStringError(
1223           errc::invalid_argument,
1224           "parsing entry instructions at 0x%" PRIx64 " failed", StartOffset);
1225   }
1226 
1227   return Error::success();
1228 }
1229 
1230 FrameEntry *DWARFDebugFrame::getEntryAtOffset(uint64_t Offset) const {
1231   auto It = partition_point(Entries, [=](const std::unique_ptr<FrameEntry> &E) {
1232     return E->getOffset() < Offset;
1233   });
1234   if (It != Entries.end() && (*It)->getOffset() == Offset)
1235     return It->get();
1236   return nullptr;
1237 }
1238 
1239 void DWARFDebugFrame::dump(raw_ostream &OS, DIDumpOptions DumpOpts,
1240                            const MCRegisterInfo *MRI,
1241                            Optional<uint64_t> Offset) const {
1242   if (Offset) {
1243     if (auto *Entry = getEntryAtOffset(*Offset))
1244       Entry->dump(OS, DumpOpts, MRI, IsEH);
1245     return;
1246   }
1247 
1248   OS << "\n";
1249   for (const auto &Entry : Entries)
1250     Entry->dump(OS, DumpOpts, MRI, IsEH);
1251 }
1252