DwarfLinkerForBinary.cpp source code [llvm/tools/dsymutil/DwarfLinkerForBinary.cpp]

1	//===- tools/dsymutil/DwarfLinkerForBinary.cpp ----------------------------===//
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 "DwarfLinkerForBinary.h"
10	#include "BinaryHolder.h"
11	#include "DebugMap.h"
12	#include "MachOUtils.h"
13	#include "dsymutil.h"
14	#include "llvm/ADT/ArrayRef.h"
15	#include "llvm/ADT/DenseMap.h"
16	#include "llvm/ADT/FoldingSet.h"
17	#include "llvm/ADT/Hashing.h"
18	#include "llvm/ADT/STLExtras.h"
19	#include "llvm/ADT/SmallString.h"
20	#include "llvm/ADT/StringRef.h"
21	#include "llvm/ADT/Twine.h"
22	#include "llvm/BinaryFormat/Dwarf.h"
23	#include "llvm/BinaryFormat/MachO.h"
24	#include "llvm/BinaryFormat/Swift.h"
25	#include "llvm/CodeGen/AccelTable.h"
26	#include "llvm/CodeGen/AsmPrinter.h"
27	#include "llvm/CodeGen/DIE.h"
28	#include "llvm/CodeGen/NonRelocatableStringpool.h"
29	#include "llvm/Config/config.h"
30	#include "llvm/DWARFLinker/Classic/DWARFLinker.h"
31	#include "llvm/DWARFLinker/Classic/DWARFStreamer.h"
32	#include "llvm/DWARFLinker/Parallel/DWARFLinker.h"
33	#include "llvm/DebugInfo/DIContext.h"
34	#include "llvm/DebugInfo/DWARF/DWARFAbbreviationDeclaration.h"
35	#include "llvm/DebugInfo/DWARF/DWARFContext.h"
36	#include "llvm/DebugInfo/DWARF/DWARFDataExtractor.h"
37	#include "llvm/DebugInfo/DWARF/DWARFDebugLine.h"
38	#include "llvm/DebugInfo/DWARF/DWARFDebugRangeList.h"
39	#include "llvm/DebugInfo/DWARF/DWARFDie.h"
40	#include "llvm/DebugInfo/DWARF/DWARFExpression.h"
41	#include "llvm/DebugInfo/DWARF/DWARFFormValue.h"
42	#include "llvm/DebugInfo/DWARF/DWARFSection.h"
43	#include "llvm/DebugInfo/DWARF/DWARFUnit.h"
44	#include "llvm/MC/MCAsmBackend.h"
45	#include "llvm/MC/MCAsmInfo.h"
46	#include "llvm/MC/MCCodeEmitter.h"
47	#include "llvm/MC/MCContext.h"
48	#include "llvm/MC/MCDwarf.h"
49	#include "llvm/MC/MCInstrInfo.h"
50	#include "llvm/MC/MCObjectFileInfo.h"
51	#include "llvm/MC/MCObjectWriter.h"
52	#include "llvm/MC/MCRegisterInfo.h"
53	#include "llvm/MC/MCSection.h"
54	#include "llvm/MC/MCStreamer.h"
55	#include "llvm/MC/MCSubtargetInfo.h"
56	#include "llvm/MC/MCTargetOptions.h"
57	#include "llvm/MC/MCTargetOptionsCommandFlags.h"
58	#include "llvm/MC/TargetRegistry.h"
59	#include "llvm/Object/MachO.h"
60	#include "llvm/Object/ObjectFile.h"
61	#include "llvm/Object/SymbolicFile.h"
62	#include "llvm/Support/Allocator.h"
63	#include "llvm/Support/Casting.h"
64	#include "llvm/Support/Compiler.h"
65	#include "llvm/Support/DJB.h"
66	#include "llvm/Support/DataExtractor.h"
67	#include "llvm/Support/Error.h"
68	#include "llvm/Support/ErrorHandling.h"
69	#include "llvm/Support/ErrorOr.h"
70	#include "llvm/Support/FileSystem.h"
71	#include "llvm/Support/Format.h"
72	#include "llvm/Support/LEB128.h"
73	#include "llvm/Support/MathExtras.h"
74	#include "llvm/Support/MemoryBuffer.h"
75	#include "llvm/Support/Path.h"
76	#include "llvm/Support/ThreadPool.h"
77	#include "llvm/Support/ToolOutputFile.h"
78	#include "llvm/Support/WithColor.h"
79	#include "llvm/Support/raw_ostream.h"
80	#include "llvm/Target/TargetMachine.h"
81	#include "llvm/Target/TargetOptions.h"
82	#include "llvm/TargetParser/Triple.h"
83	#include <algorithm>
84	#include <cassert>
85	#include <cinttypes>
86	#include <climits>
87	#include <cstdint>
88	#include <cstdlib>
89	#include <cstring>
90	#include <limits>
91	#include <map>
92	#include <memory>
93	#include <optional>
94	#include <string>
95	#include <system_error>
96	#include <tuple>
97	#include <utility>
98	#include <vector>
99
100	namespace llvm {
101
102	static mc::RegisterMCTargetOptionsFlags MOF;
103
104	using namespace dwarf_linker;
105
106	namespace dsymutil {
107
108	static void dumpDIE(const DWARFDie DIE, bool* Verbose) {
109	if (!DIE \|\| !Verbose)
110	return;
111
112	DIDumpOptions DumpOpts;
113	DumpOpts.ChildRecurseDepth = `0`;
114	DumpOpts.Verbose = Verbose;
115
116	WithColor::note() << " in DIE:\n";
117	DIE->dump(OS&: errs(), indent: `6` / Indent /, DumpOpts);
118	}
119
120	/// Report a warning to the user, optionally including information about a
121	/// specific \p DIE related to the warning.
122	void DwarfLinkerForBinary::reportWarning(Twine Warning, Twine Context,
123	const DWARFDie DIE) const* {
124	// FIXME: implement warning logging which does not block other threads.
125	if (ErrorHandlerMutex.try_lock()) {
126	warn(Warning, Context);
127	dumpDIE(DIE, Verbose: Options.Verbose);
128	ErrorHandlerMutex.unlock();
129	}
130	}
131
132	void DwarfLinkerForBinary::reportError(Twine Error, Twine Context,
133	const DWARFDie DIE) const* {
134	// FIXME: implement error logging which does not block other threads.
135	if (ErrorHandlerMutex.try_lock()) {
136	error(Error, Context);
137	dumpDIE(DIE, Verbose: Options.Verbose);
138	ErrorHandlerMutex.unlock();
139	}
140	}
141
142	ErrorOr<const object::ObjectFile &>
143	DwarfLinkerForBinary::loadObject(const DebugMapObject &Obj,
144	const Triple &Triple) {
145	auto ObjectEntry =
146	BinHolder.getObjectEntry(Filename: Obj.getObjectFilename(), Timestamp: Obj.getTimestamp());
147	if (!ObjectEntry) {
148	auto Err = ObjectEntry.takeError();
149	reportWarning(Warning: Twine (Obj.getObjectFilename()) + ": " +
150	toString(E: std::move(Err)),
151	Context: Obj.getObjectFilename());
152	return errorToErrorCode(Err: std::move(Err));
153	}
154
155	auto Object = ObjectEntry ->getObject(T: Triple);
156	if (!Object) {
157	auto Err = Object.takeError();
158	reportWarning(Warning: Twine (Obj.getObjectFilename()) + ": " +
159	toString(E: std::move(Err)),
160	Context: Obj.getObjectFilename());
161	return errorToErrorCode(Err: std::move(Err));
162	}
163
164	return *Object;
165	}
166
167	static Error remarksErrorHandler(const DebugMapObject &DMO,
168	DwarfLinkerForBinary &Linker,
169	std::unique_ptr<FileError> FE) {
170	bool IsArchive = DMO.getObjectFilename().ends_with(Suffix: ")");
171	// Don't report errors for missing remark files from static
172	// archives.
173	if (!IsArchive)
174	return Error (std::move(FE));
175
176	std::string Message = FE ->message();
177	Error E = FE ->takeError();
178	Error NewE = handleErrors(E: std::move(E), Hs: [&](std::unique_ptr<ECError> EC) {
179	if (EC ->convertToErrorCode() != std::errc::no_such_file_or_directory)
180	return Error (std::move(EC));
181
182	Linker.reportWarning(Warning: Message, Context: DMO.getObjectFilename());
183	return Error (Error::success());
184	});
185
186	if (!NewE)
187	return Error::success();
188
189	return createFileError(F: FE ->getFileName(), E: std::move(NewE));
190	}
191	Error DwarfLinkerForBinary::emitRelocations(
192	const DebugMap &DM, std::vector<ObjectWithRelocMap> &ObjectsForLinking) {
193	// Return early if the "Resources" directory is not being written to.
194	if (!Options.ResourceDir)
195	return Error::success();
196
197	RelocationMap RM(DM.getTriple(), DM.getBinaryPath());
198	for (auto &Obj : ObjectsForLinking) {
199	if (!Obj.OutRelocs ->isInitialized())
200	continue;
201	Obj.OutRelocs ->addValidRelocs(RM);
202	}
203
204	SmallString<`128`> InputPath;
205	SmallString<`128`> Path;
206	// Create the "Relocations" directory in the "Resources" directory, and
207	// create an architecture-specific directory in the "Relocations" directory.
208	StringRef ArchName = Triple::getArchName(Kind: RM.getTriple().getArch(),
209	SubArch: RM.getTriple().getSubArch());
210	sys::path::append(path&: Path, a: *Options.ResourceDir, b: "Relocations", c: ArchName);
211	if (std::error_code EC = sys::fs::create_directories(path: Path.str(), IgnoreExisting: true,
212	Perms: sys::fs::perms::all_all))
213	return errorCodeToError(EC);
214
215	// Append the file name.
216	sys::path::append(path&: Path, a: sys::path::filename(path: DM.getBinaryPath()));
217	Path.append(RHS: ".yml");
218
219	std::error_code EC;
220	raw_fd_ostream OS(Path.str(), EC, sys::fs::OF_Text);
221	if (EC)
222	return errorCodeToError(EC);
223
224	RM.print(OS);
225	return Error::success();
226	}
227
228	static Error emitRemarks(const LinkOptions &Options, StringRef BinaryPath,
229	StringRef ArchName, const remarks::RemarkLinker &RL) {
230	// Make sure we don't create the directories and the file if there is nothing
231	// to serialize.
232	if (RL.empty())
233	return Error::success();
234
235	SmallString<`128`> InputPath;
236	SmallString<`128`> Path;
237	// Create the "Remarks" directory in the "Resources" directory.
238	sys::path::append(path&: Path, a: *Options.ResourceDir, b: "Remarks");
239	if (std::error_code EC = sys::fs::create_directories(path: Path.str(), IgnoreExisting: true,
240	Perms: sys::fs::perms::all_all))
241	return errorCodeToError(EC);
242
243	// Append the file name.
244	// For fat binaries, also append a dash and the architecture name.
245	sys::path::append(path&: Path, a: sys::path::filename(path: BinaryPath));
246	if (Options.NumDebugMaps > `1`) {
247	// More than one debug map means we have a fat binary.
248	Path += `'-'`;
249	Path += ArchName;
250	}
251
252	std::error_code EC;
253	raw_fd_ostream OS(Options.NoOutput ? "-" : Path.str(), EC,
254	Options.RemarksFormat == remarks::Format::Bitstream
255	? sys::fs::OF_None
256	: sys::fs::OF_Text);
257	if (EC)
258	return errorCodeToError(EC);
259
260	if (Error E = RL.serialize(OS, RemarksFormat: Options.RemarksFormat))
261	return E;
262
263	return Error::success();
264	}
265
266	ErrorOr<std::unique_ptr<DWARFFile>> DwarfLinkerForBinary::loadObject(
267	const DebugMapObject &Obj, const DebugMap &DebugMap,
268	remarks::RemarkLinker &RL,
269	std::shared_ptr<DwarfLinkerForBinaryRelocationMap> DLBRM) {
270	auto ErrorOrObj = loadObject(Obj, Triple: DebugMap.getTriple());
271	std::unique_ptr<DWARFFile> Res;
272
273	if (ErrorOrObj) {
274	auto Context = DWARFContext::create(
275	Obj: ErrorOrObj, RelocAction: DWARFContext::ProcessDebugRelocations::Process, L: nullptr*,
276	DWPName: "",
277	RecoverableErrorHandler: [&](Error Err) {
278	handleAllErrors(E: std::move(Err), Handlers: [&](ErrorInfoBase &Info) {
279	reportError(Error: Info.message());
280	});
281	},
282	WarningHandler: [&](Error Warning) {
283	handleAllErrors(E: std::move(Warning), Handlers: [&](ErrorInfoBase &Info) {
284	reportWarning(Warning: Info.message());
285	});
286	});
287	DLBRM ->init(Context&: *Context);
288	Res = std::make_unique<DWARFFile>(
289	args: Obj.getObjectFilename(), args: std::move(Context),
290	args: std::make_unique<AddressManager>(args&: *this, args: *ErrorOrObj, args: Obj, args&: DLBRM),
291	args: [&](StringRef FileName) { BinHolder.eraseObjectEntry(Filename: FileName); });
292
293	Error E = RL.link(Obj: *ErrorOrObj);
294	if (Error NewE = handleErrors(
295	E: std::move(E), Hs: [&](std::unique_ptr<FileError> EC) -> Error {
296	return remarksErrorHandler(DMO: Obj, Linker&: *this, FE: std::move(EC));
297	}))
298	return errorToErrorCode(Err: std::move(NewE));
299
300	return std::move(Res);
301	}
302
303	return ErrorOrObj.getError();
304	}
305
306	static bool binaryHasStrippableSwiftReflectionSections(
307	const DebugMap &Map, const LinkOptions &Options, BinaryHolder &BinHolder) {
308	// If the input binary has strippable swift5 reflection sections, there is no
309	// need to copy them to the .dSYM. Only copy them for binaries where the
310	// linker omitted the reflection metadata.
311	if (!Map.getBinaryPath().empty() &&
312	Options.FileType == DWARFLinkerBase::OutputFileType::Object) {
313
314	auto ObjectEntry = BinHolder.getObjectEntry(Filename: Map.getBinaryPath());
315	// If ObjectEntry or Object has an error, no binary exists, therefore no
316	// reflection sections exist.
317	if (!ObjectEntry) {
318	// Any errors will be diagnosed later in the main loop, ignore them here.
319	llvm::consumeError(Err: ObjectEntry.takeError());
320	return false;
321	}
322
323	auto Object =
324	ObjectEntry ->getObjectAs<object::MachOObjectFile>(T: Map.getTriple());
325	if (!Object) {
326	// Any errors will be diagnosed later in the main loop, ignore them here.
327	llvm::consumeError(Err: Object.takeError());
328	return false;
329	}
330
331	for (auto &Section : Object ->sections()) {
332	llvm::Expected<llvm::StringRef> NameOrErr =
333	Object ->getSectionName(Sec: Section.getRawDataRefImpl());
334	if (!NameOrErr) {
335	llvm::consumeError(Err: NameOrErr.takeError());
336	continue;
337	}
338	NameOrErr ->consume_back(Suffix: "__TEXT");
339	auto ReflectionSectionKind =
340	Object ->mapReflectionSectionNameToEnumValue(SectionName: *NameOrErr);
341	if (Object ->isReflectionSectionStrippable(ReflectionSectionKind)) {
342	return true;
343	}
344	}
345	}
346	return false;
347	}
348
349	/// Calculate the start of the strippable swift reflection sections in Dwarf.
350	/// Note that there's an assumption that the reflection sections will appear
351	/// in alphabetic order.
352	static std::vector<uint64_t>
353	calculateStartOfStrippableReflectionSections(const DebugMap &Map) {
354	using llvm::binaryformat::Swift5ReflectionSectionKind;
355	uint64_t AssocTySize = `0`;
356	uint64_t FieldMdSize = `0`;
357	for (const auto &Obj : Map.objects()) {
358	auto OF =
359	llvm::object::ObjectFile::createObjectFile(ObjectPath: Obj ->getObjectFilename());
360	if (!OF) {
361	llvm::consumeError(Err: OF.takeError());
362	continue;
363	}
364	if (auto *MO = dyn_cast<llvm::object::MachOObjectFile>(Val: OF ->getBinary())) {
365	for (auto &Section : MO->sections()) {
366	llvm::Expected<llvm::StringRef> NameOrErr =
367	MO->getSectionName(Sec: Section.getRawDataRefImpl());
368	if (!NameOrErr) {
369	llvm::consumeError(Err: NameOrErr.takeError());
370	continue;
371	}
372	NameOrErr ->consume_back(Suffix: "__TEXT");
373	auto ReflSectionKind =
374	MO->mapReflectionSectionNameToEnumValue(SectionName: *NameOrErr);
375	switch (ReflSectionKind) {
376	case Swift5ReflectionSectionKind::assocty:
377	AssocTySize += Section.getSize();
378	break;
379	case Swift5ReflectionSectionKind::fieldmd:
380	FieldMdSize += Section.getSize();
381	break;
382	default:
383	break;
384	}
385	}
386	}
387	}
388	// Initialize the vector with enough space to fit every reflection section
389	// kind.
390	std::vector<uint64_t> SectionToOffset(Swift5ReflectionSectionKind::last, `0`);
391	SectionToOffset [Swift5ReflectionSectionKind::assocty] = `0`;
392	SectionToOffset [Swift5ReflectionSectionKind::fieldmd] =
393	llvm::alignTo(Value: AssocTySize, Align: `4`);
394	SectionToOffset [Swift5ReflectionSectionKind::reflstr] = llvm::alignTo(
395	Value: SectionToOffset [Swift5ReflectionSectionKind::fieldmd] + FieldMdSize, Align: `4`);
396
397	return SectionToOffset;
398	}
399
400	void DwarfLinkerForBinary::collectRelocationsToApplyToSwiftReflectionSections(
401	const object::SectionRef &Section, StringRef &Contents,
402	const llvm::object::MachOObjectFile *MO,
403	const std::vector<uint64_t> &SectionToOffsetInDwarf,
404	const llvm::dsymutil::DebugMapObject *Obj,
405	std::vector<MachOUtils::DwarfRelocationApplicationInfo> &RelocationsToApply)
406	const {
407	for (auto It = Section.relocation_begin(); It != Section.relocation_end();
408	++It) {
409	object::DataRefImpl RelocDataRef = It ->getRawDataRefImpl();
410	MachO::any_relocation_info MachOReloc = MO->getRelocation(Rel: RelocDataRef);
411
412	if (!object::MachOObjectFile::isMachOPairedReloc(
413	RelocType: MO->getAnyRelocationType(RE: MachOReloc), Arch: MO->getArch())) {
414	reportWarning(
415	Warning: "Unimplemented relocation type in strippable reflection section ",
416	Context: Obj->getObjectFilename());
417	continue;
418	}
419
420	auto CalculateAddressOfSymbolInDwarfSegment =
421	[&]() -> std::optional<int64_t> {
422	auto Symbol = It ->getSymbol();
423	auto SymbolAbsoluteAddress = Symbol ->getAddress();
424	if (!SymbolAbsoluteAddress)
425	return {};
426	auto Section = Symbol ->getSection();
427	if (!Section) {
428	llvm::consumeError(Err: Section.takeError());
429	return {};
430	}
431
432	if ((Section)->getObject()->section_end() == Section)
433	return {};
434
435	auto SectionStart = (*Section)->getAddress();
436	auto SymbolAddressInSection = *SymbolAbsoluteAddress - SectionStart;
437	auto SectionName = (*Section)->getName();
438	if (!SectionName)
439	return {};
440	auto ReflSectionKind =
441	MO->mapReflectionSectionNameToEnumValue(SectionName: *SectionName);
442
443	int64_t SectionStartInLinkedBinary =
444	SectionToOffsetInDwarf [ReflSectionKind];
445
446	auto Addr = SectionStartInLinkedBinary + SymbolAddressInSection;
447	return Addr;
448	};
449
450	// The first symbol should always be in the section we're currently
451	// iterating over.
452	auto FirstSymbolAddress = CalculateAddressOfSymbolInDwarfSegment ();
453	++It;
454
455	bool ShouldSubtractDwarfVM = false;
456	// For the second symbol there are two possibilities.
457	std::optional<int64_t> SecondSymbolAddress;
458	auto Sym = It ->getSymbol();
459	if (Sym != MO->symbol_end()) {
460	Expected<StringRef> SymbolName = Sym ->getName();
461	if (SymbolName) {
462	if (const auto Mapping = Obj->lookupSymbol(SymbolName: SymbolName)) {
463	// First possibility: the symbol exists in the binary, and exists in a
464	// non-strippable section (for example, typeref, or __TEXT,__const),
465	// in which case we look up its address in the binary, which dsymutil
466	// will copy verbatim.
467	SecondSymbolAddress = Mapping->getValue().BinaryAddress;
468	// Since the symbols live in different segments, we have to substract
469	// the start of the Dwarf's vmaddr so the value calculated points to
470	// the correct place.
471	ShouldSubtractDwarfVM = true;
472	}
473	}
474	}
475
476	if (!SecondSymbolAddress) {
477	// Second possibility, this symbol is not present in the main binary, and
478	// must be in one of the strippable sections (for example, reflstr).
479	// Calculate its address in the same way as we did the first one.
480	SecondSymbolAddress = CalculateAddressOfSymbolInDwarfSegment ();
481	}
482
483	if (!FirstSymbolAddress \|\| !SecondSymbolAddress)
484	continue;
485
486	auto SectionName = Section.getName();
487	if (!SectionName)
488	continue;
489
490	int32_t Addend;
491	memcpy(dest: &Addend, src: Contents.data() + It ->getOffset(), n: sizeof(int32_t));
492	int32_t Value = (SecondSymbolAddress + Addend) - FirstSymbolAddress;
493	auto ReflSectionKind =
494	MO->mapReflectionSectionNameToEnumValue(SectionName: *SectionName);
495	uint64_t AddressFromDwarfVM =
496	SectionToOffsetInDwarf [ReflSectionKind] + It ->getOffset();
497	RelocationsToApply.emplace_back(args&: AddressFromDwarfVM, args&: Value,
498	args&: ShouldSubtractDwarfVM);
499	}
500	}
501
502	Error DwarfLinkerForBinary::copySwiftInterfaces(StringRef Architecture) const {
503	std::error_code EC;
504	SmallString<`128`> InputPath;
505	SmallString<`128`> Path;
506	sys::path::append(path&: Path, a: *Options.ResourceDir, b: "Swift", c: Architecture);
507	if ((EC = sys::fs::create_directories(path: Path.str(), IgnoreExisting: true,
508	Perms: sys::fs::perms::all_all)))
509	return make_error<StringError>(
510	Args: "cannot create directory: " + toString(E: errorCodeToError(EC)), Args&: EC);
511	unsigned BaseLength = Path.size();
512
513	for (auto &I : ParseableSwiftInterfaces) {
514	StringRef ModuleName = I.first;
515	StringRef InterfaceFile = I.second;
516	if (!Options.PrependPath.empty()) {
517	InputPath.clear();
518	sys::path::append(path&: InputPath, a: Options.PrependPath, b: InterfaceFile);
519	InterfaceFile = InputPath;
520	}
521	sys::path::append(path&: Path, a: ModuleName);
522	Path.append(RHS: ".swiftinterface");
523	if (Options.Verbose)
524	outs() << "copy parseable Swift interface " << InterfaceFile << " -> "
525	<< Path.str() << `'\n'`;
526
527	// copy_file attempts an APFS clone first, so this should be cheap.
528	if ((EC = sys::fs::copy_file(From: InterfaceFile, To: Path.str())))
529	reportWarning(Warning: Twine ("cannot copy parseable Swift interface ") +
530	InterfaceFile + ": " + toString(E: errorCodeToError(EC)));
531	Path.resize(N: BaseLength);
532	}
533	return Error::success();
534	}
535
536	void DwarfLinkerForBinary::copySwiftReflectionMetadata(
537	const llvm::dsymutil::DebugMapObject Obj, classic::DwarfStreamer Streamer,
538	std::vector<uint64_t> &SectionToOffsetInDwarf,
539	std::vector<MachOUtils::DwarfRelocationApplicationInfo>
540	&RelocationsToApply) {
541	using binaryformat::Swift5ReflectionSectionKind;
542	auto OF =
543	llvm::object::ObjectFile::createObjectFile(ObjectPath: Obj->getObjectFilename());
544	if (!OF) {
545	llvm::consumeError(Err: OF.takeError());
546	return;
547	}
548	if (auto *MO = dyn_cast<llvm::object::MachOObjectFile>(Val: OF ->getBinary())) {
549	// Collect the swift reflection sections before emitting them. This is
550	// done so we control the order they're emitted.
551	std::array<std::optional<object::SectionRef>,
552	Swift5ReflectionSectionKind::last + `1`>
553	SwiftSections;
554	for (auto &Section : MO->sections()) {
555	llvm::Expected<llvm::StringRef> NameOrErr =
556	MO->getSectionName(Sec: Section.getRawDataRefImpl());
557	if (!NameOrErr) {
558	llvm::consumeError(Err: NameOrErr.takeError());
559	continue;
560	}
561	NameOrErr ->consume_back(Suffix: "__TEXT");
562	auto ReflSectionKind =
563	MO->mapReflectionSectionNameToEnumValue(SectionName: *NameOrErr);
564	if (MO->isReflectionSectionStrippable(ReflectionSectionKind: ReflSectionKind))
565	SwiftSections [ReflSectionKind] = Section;
566	}
567	// Make sure we copy the sections in alphabetic order.
568	auto SectionKindsToEmit = {Swift5ReflectionSectionKind::assocty,
569	Swift5ReflectionSectionKind::fieldmd,
570	Swift5ReflectionSectionKind::reflstr};
571	for (auto SectionKind : SectionKindsToEmit) {
572	if (!SwiftSections [SectionKind])
573	continue;
574	auto &Section = *SwiftSections [SectionKind];
575	llvm::Expected<llvm::StringRef> SectionContents = Section.getContents();
576	if (!SectionContents)
577	continue;
578	const auto *MO =
579	llvm::cast<llvm::object::MachOObjectFile>(Val: Section.getObject());
580	collectRelocationsToApplyToSwiftReflectionSections(
581	Section, Contents&: *SectionContents, MO, SectionToOffsetInDwarf, Obj,
582	RelocationsToApply);
583	// Update the section start with the current section's contribution, so
584	// the next section we copy from a different .o file points to the correct
585	// place.
586	SectionToOffsetInDwarf [SectionKind] += Section.getSize();
587	Streamer->emitSwiftReflectionSection(ReflSectionKind: SectionKind, Buffer: *SectionContents,
588	Alignment: Section.getAlignment().value(),
589	Size: Section.getSize());
590	}
591	}
592	}
593
594	bool DwarfLinkerForBinary::link(const DebugMap &Map) {
595	if (Options.DWARFLinkerType == DsymutilDWARFLinkerType::Parallel)
596	return linkImpl<parallel::DWARFLinker>(Map, ObjectType: Options.FileType);
597
598	return linkImpl<classic::DWARFLinker>(Map, ObjectType: Options.FileType);
599	}
600
601	template <typename Linker>
602	void setAcceleratorTables(Linker &GeneralLinker,
603	DsymutilAccelTableKind TableKind,
604	uint16_t MaxDWARFVersion) {
605	switch (TableKind) {
606	case DsymutilAccelTableKind::Apple:
607	GeneralLinker.addAccelTableKind(Linker::AccelTableKind::Apple);
608	return;
609	case DsymutilAccelTableKind::Dwarf:
610	GeneralLinker.addAccelTableKind(Linker::AccelTableKind::DebugNames);
611	return;
612	case DsymutilAccelTableKind::Pub:
613	GeneralLinker.addAccelTableKind(Linker::AccelTableKind::Pub);
614	return;
615	case DsymutilAccelTableKind::Default:
616	if (MaxDWARFVersion >= `5`)
617	GeneralLinker.addAccelTableKind(Linker::AccelTableKind::DebugNames);
618	else
619	GeneralLinker.addAccelTableKind(Linker::AccelTableKind::Apple);
620	return;
621	case DsymutilAccelTableKind::None:
622	// Nothing to do.
623	return;
624	}
625
626	llvm_unreachable("All cases handled above!");
627	}
628
629	template <typename Linker>
630	bool DwarfLinkerForBinary::linkImpl(
631	const DebugMap &Map, typename Linker::OutputFileType ObjectType) {
632
633	std::vector<ObjectWithRelocMap> ObjectsForLinking;
634
635	DebugMap DebugMap(Map.getTriple(), Map.getBinaryPath());
636
637	std::unique_ptr<Linker> GeneralLinker = Linker::createLinker(
638	[&](const Twine &Error, StringRef Context, const DWARFDie *DIE) {
639	reportError(Error, Context, DIE);
640	},
641	[&](const Twine &Warning, StringRef Context, const DWARFDie *DIE) {
642	reportWarning(Warning, Context, DIE);
643	});
644
645	std::unique_ptr<classic::DwarfStreamer> Streamer;
646	if (!Options.NoOutput) {
647	if (Expected<std::unique_ptr<classic::DwarfStreamer>> StreamerOrErr =
648	classic::DwarfStreamer::createStreamer(
649	TheTriple: Map.getTriple(), FileType: ObjectType, OutFile,
650	Warning: [&](const Twine &Warning, StringRef Context,
651	const DWARFDie *DIE) {
652	reportWarning(Warning, Context, DIE);
653	}))
654	Streamer = std::move(*StreamerOrErr);
655	else {
656	handleAllErrors(StreamerOrErr.takeError(), [&](const ErrorInfoBase &EI) {
657	reportError(Error: EI.message(), Context: "dwarf streamer init");
658	});
659	return false;
660	}
661
662	if constexpr (std::is_same<Linker, parallel::DWARFLinker>::value) {
663	GeneralLinker->setOutputDWARFHandler(
664	Map.getTriple(),
665	[&](std::shared_ptr<parallel::SectionDescriptorBase> Section) {
666	Streamer ->emitSectionContents(SecData: Section ->getContents(),
667	SecKind: Section ->getKind());
668	});
669	} else
670	GeneralLinker->setOutputDWARFEmitter(Streamer.get());
671	}
672
673	remarks::RemarkLinker RL;
674	if (!Options.RemarksPrependPath.empty())
675	RL.setExternalFilePrependPath(Options.RemarksPrependPath);
676	RL.setKeepAllRemarks(Options.RemarksKeepAll);
677	GeneralLinker->setObjectPrefixMap(&Options.ObjectPrefixMap);
678
679	GeneralLinker->setVerbosity(Options.Verbose);
680	GeneralLinker->setStatistics(Options.Statistics);
681	GeneralLinker->setVerifyInputDWARF(Options.VerifyInputDWARF);
682	GeneralLinker->setNoODR(Options.NoODR);
683	GeneralLinker->setUpdateIndexTablesOnly(Options.Update);
684	GeneralLinker->setNumThreads(Options.Threads);
685	GeneralLinker->setPrependPath(Options.PrependPath);
686	GeneralLinker->setKeepFunctionForStatic(Options.KeepFunctionForStatic);
687	GeneralLinker->setInputVerificationHandler(
688	[&](const DWARFFile &File, llvm::StringRef Output) {
689	std::lock_guard<std::mutex> Guard(ErrorHandlerMutex);
690	if (Options.Verbose)
691	errs() << Output;
692	warn(Warning: "input verification failed", Context: File.FileName);
693	HasVerificationErrors = true;
694	});
695	auto Loader = [&](StringRef ContainerName,
696	StringRef Path) -> ErrorOr<DWARFFile &> {
697	auto &Obj = DebugMap.addDebugMapObject(
698	ObjectFilePath: Path, Timestamp: sys::TimePoint<std::chrono::seconds>(), Type: MachO::N_OSO);
699
700	auto DLBRelocMap = std::make_shared<DwarfLinkerForBinaryRelocationMap>();
701	if (ErrorOr<std::unique_ptr<DWARFFile>> ErrorOrObj =
702	loadObject(Obj, DebugMap, RL, DLBRM: DLBRelocMap)) {
703	ObjectsForLinking.emplace_back(args: std::move(*ErrorOrObj), args&: DLBRelocMap);
704	return *ObjectsForLinking.back().Object;
705	} else {
706	// Try and emit more helpful warnings by applying some heuristics.
707	StringRef ObjFile = ContainerName;
708	bool IsClangModule = sys::path::extension(path: Path).equals(RHS: ".pcm");
709	bool IsArchive = ObjFile.ends_with(Suffix: ")");
710
711	if (IsClangModule) {
712	StringRef ModuleCacheDir = sys::path::parent_path(path: Path);
713	if (sys::fs::exists(Path: ModuleCacheDir)) {
714	// If the module's parent directory exists, we assume that the
715	// module cache has expired and was pruned by clang. A more
716	// adventurous dsymutil would invoke clang to rebuild the module
717	// now.
718	if (!ModuleCacheHintDisplayed) {
719	WithColor::note()
720	<< "The clang module cache may have expired since "
721	"this object file was built. Rebuilding the "
722	"object file will rebuild the module cache.\n";
723	ModuleCacheHintDisplayed = true;
724	}
725	} else if (IsArchive) {
726	// If the module cache directory doesn't exist at all and the
727	// object file is inside a static library, we assume that the
728	// static library was built on a different machine. We don't want
729	// to discourage module debugging for convenience libraries within
730	// a project though.
731	if (!ArchiveHintDisplayed) {
732	WithColor::note()
733	<< "Linking a static library that was built with "
734	"-gmodules, but the module cache was not found. "
735	"Redistributable static libraries should never be "
736	"built with module debugging enabled. The debug "
737	"experience will be degraded due to incomplete "
738	"debug information.\n";
739	ArchiveHintDisplayed = true;
740	}
741	}
742	}
743
744	return ErrorOrObj.getError();
745	}
746
747	llvm_unreachable("Unhandled DebugMap object");
748	};
749	GeneralLinker->setSwiftInterfacesMap(&ParseableSwiftInterfaces);
750	bool ReflectionSectionsPresentInBinary = false;
751	// If there is no output specified, no point in checking the binary for swift5
752	// reflection sections.
753	if (!Options.NoOutput) {
754	ReflectionSectionsPresentInBinary =
755	binaryHasStrippableSwiftReflectionSections(Map, Options, BinHolder);
756	}
757
758	std::vector<MachOUtils::DwarfRelocationApplicationInfo> RelocationsToApply;
759	if (!Options.NoOutput && !ReflectionSectionsPresentInBinary) {
760	auto SectionToOffsetInDwarf =
761	calculateStartOfStrippableReflectionSections(Map);
762	for (const auto &Obj : Map.objects())
763	copySwiftReflectionMetadata(Obj: Obj.get(), Streamer: Streamer.get(),
764	SectionToOffsetInDwarf, RelocationsToApply);
765	}
766
767	uint16_t MaxDWARFVersion = `0`;
768	std::function<void(const DWARFUnit &Unit)> OnCUDieLoaded =
769	[&MaxDWARFVersion](const DWARFUnit &Unit) {
770	MaxDWARFVersion = std::max(a: Unit.getVersion(), b: MaxDWARFVersion);
771	};
772
773	for (const auto &Obj : Map.objects()) {
774	// N_AST objects (swiftmodule files) should get dumped directly into the
775	// appropriate DWARF section.
776	if (Obj ->getType() == MachO::N_AST) {
777	if (Options.Verbose)
778	outs() << "DEBUG MAP OBJECT: " << Obj ->getObjectFilename() << "\n";
779
780	StringRef File = Obj ->getObjectFilename();
781	auto ErrorOrMem = MemoryBuffer::getFile(Filename: File);
782	if (!ErrorOrMem) {
783	reportWarning(Warning: "Could not open '" + File + "'");
784	continue;
785	}
786	sys::fs::file_status Stat;
787	if (auto Err = sys::fs::status(path: File, result&: Stat)) {
788	reportWarning(Warning: Err.message());
789	continue;
790	}
791	if (!Options.NoTimestamp) {
792	// The modification can have sub-second precision so we need to cast
793	// away the extra precision that's not present in the debug map.
794	auto ModificationTime =
795	std::chrono::time_point_cast<std::chrono::seconds>(
796	t: Stat.getLastModificationTime());
797	if (Obj ->getTimestamp() != sys::TimePoint<>() &&
798	ModificationTime != Obj ->getTimestamp()) {
799	// Not using the helper here as we can easily stream TimePoint<>.
800	WithColor::warning()
801	<< File << ": timestamp mismatch between swift interface file ("
802	<< sys::TimePoint<>(ModificationTime) << ") and debug map ("
803	<< sys::TimePoint<>(Obj ->getTimestamp()) << ")\n";
804	continue;
805	}
806	}
807
808	// Copy the module into the .swift_ast section.
809	if (!Options.NoOutput)
810	Streamer ->emitSwiftAST(Buffer: (*ErrorOrMem)->getBuffer());
811
812	continue;
813	}
814
815	auto DLBRelocMap = std::make_shared<DwarfLinkerForBinaryRelocationMap>();
816	if (ErrorOr<std::unique_ptr<DWARFFile>> ErrorOrObj =
817	loadObject(Obj: *Obj, DebugMap: Map, RL, DLBRM: DLBRelocMap)) {
818	ObjectsForLinking.emplace_back(args: std::move(*ErrorOrObj), args&: DLBRelocMap);
819	GeneralLinker->addObjectFile(*ObjectsForLinking.back().Object, Loader,
820	OnCUDieLoaded);
821	} else {
822	ObjectsForLinking.push_back(
823	x: {std::make_unique<DWARFFile>(args: Obj ->getObjectFilename(), args: nullptr,
824	args: nullptr),
825	DLBRelocMap});
826	GeneralLinker->addObjectFile(*ObjectsForLinking.back().Object);
827	}
828	}
829
830	// If we haven't seen any CUs, pick an arbitrary valid Dwarf version anyway.
831	if (MaxDWARFVersion == `0`)
832	MaxDWARFVersion = `3`;
833
834	if (Error E = GeneralLinker->setTargetDWARFVersion(MaxDWARFVersion))
835	return error(Error: toString(E: std::move(E)));
836
837	setAcceleratorTables<Linker>(*GeneralLinker, Options.TheAccelTableKind,
838	MaxDWARFVersion);
839
840	// link debug info for loaded object files.
841	if (Error E = GeneralLinker->link())
842	return error(Error: toString(E: std::move(E)));
843
844	StringRef ArchName = Map.getTriple().getArchName();
845	if (Error E = emitRemarks(Options, BinaryPath: Map.getBinaryPath(), ArchName, RL))
846	return error(Error: toString(E: std::move(E)));
847
848	if (Options.NoOutput)
849	return true;
850
851	if (Error E = emitRelocations(DM: Map, ObjectsForLinking))
852	return error(Error: toString(E: std::move(E)));
853
854	if (Options.ResourceDir && !ParseableSwiftInterfaces.empty()) {
855	StringRef ArchName = Triple::getArchTypeName(Kind: Map.getTriple().getArch());
856	if (auto E = copySwiftInterfaces(Architecture: ArchName))
857	return error(Error: toString(E: std::move(E)));
858	}
859
860	auto MapTriple = Map.getTriple();
861	if ((MapTriple.isOSDarwin() \|\| MapTriple.isOSBinFormatMachO()) &&
862	!Map.getBinaryPath().empty() &&
863	ObjectType == Linker::OutputFileType::Object)
864	return MachOUtils::generateDsymCompanion(
865	VFS: Options.VFS, DM: Map, MS&: *Streamer ->getAsmPrinter().OutStreamer, OutFile,
866	RelocationsToApply);
867
868	Streamer ->finish();
869	return true;
870	}
871
872	/// Iterate over the relocations of the given \p Section and
873	/// store the ones that correspond to debug map entries into the
874	/// ValidRelocs array.
875	void DwarfLinkerForBinary::AddressManager::findValidRelocsMachO(
876	const object::SectionRef &Section, const object::MachOObjectFile &Obj,
877	const DebugMapObject &DMO, std::vector<ValidReloc> &ValidRelocs) {
878	Expected<StringRef> ContentsOrErr = Section.getContents();
879	if (!ContentsOrErr) {
880	consumeError(Err: ContentsOrErr.takeError());
881	Linker.reportWarning(Warning: "error reading section", Context: DMO.getObjectFilename());
882	return;
883	}
884	DataExtractor Data(*ContentsOrErr, Obj.isLittleEndian(), `0`);
885	bool SkipNext = false;
886
887	for (const object::RelocationRef &Reloc : Section.relocations()) {
888	if (SkipNext) {
889	SkipNext = false;
890	continue;
891	}
892
893	object::DataRefImpl RelocDataRef = Reloc.getRawDataRefImpl();
894	MachO::any_relocation_info MachOReloc = Obj.getRelocation(Rel: RelocDataRef);
895
896	if (object::MachOObjectFile::isMachOPairedReloc(RelocType: Obj.getAnyRelocationType(RE: MachOReloc),
897	Arch: Obj.getArch())) {
898	SkipNext = true;
899	Linker.reportWarning(Warning: "unsupported relocation in " + *Section.getName() +
900	" section.",
901	Context: DMO.getObjectFilename());
902	continue;
903	}
904
905	unsigned RelocSize = `1` << Obj.getAnyRelocationLength(RE: MachOReloc);
906	uint64_t Offset64 = Reloc.getOffset();
907	if ((RelocSize != `4` && RelocSize != `8`)) {
908	Linker.reportWarning(Warning: "unsupported relocation in " + *Section.getName() +
909	" section.",
910	Context: DMO.getObjectFilename());
911	continue;
912	}
913	uint64_t OffsetCopy = Offset64;
914	// Mach-o uses REL relocations, the addend is at the relocation offset.
915	uint64_t Addend = Data.getUnsigned(offset_ptr: &OffsetCopy, byte_size: RelocSize);
916	uint64_t SymAddress;
917	int64_t SymOffset;
918
919	if (Obj.isRelocationScattered(RE: MachOReloc)) {
920	// The address of the base symbol for scattered relocations is
921	// stored in the reloc itself. The actual addend will store the
922	// base address plus the offset.
923	SymAddress = Obj.getScatteredRelocationValue(RE: MachOReloc);
924	SymOffset = int64_t(Addend) - SymAddress;
925	} else {
926	SymAddress = Addend;
927	SymOffset = `0`;
928	}
929
930	auto Sym = Reloc.getSymbol();
931	if (Sym != Obj.symbol_end()) {
932	Expected<StringRef> SymbolName = Sym ->getName();
933	if (!SymbolName) {
934	consumeError(Err: SymbolName.takeError());
935	Linker.reportWarning(Warning: "error getting relocation symbol name.",
936	Context: DMO.getObjectFilename());
937	continue;
938	}
939	if (const auto Mapping = DMO.lookupSymbol(SymbolName: SymbolName))
940	ValidRelocs.emplace_back(args&: Offset64, args&: RelocSize, args&: Addend, args: Mapping->getKey(),
941	args: Mapping->getValue());
942	} else if (const auto *Mapping = DMO.lookupObjectAddress(Address: SymAddress)) {
943	// Do not store the addend. The addend was the address of the symbol in
944	// the object file, the address in the binary that is stored in the debug
945	// map doesn't need to be offset.
946	ValidRelocs.emplace_back(args&: Offset64, args&: RelocSize, args&: SymOffset,
947	args: Mapping->getKey(), args: Mapping->getValue());
948	}
949	}
950	}
951
952	/// Dispatch the valid relocation finding logic to the
953	/// appropriate handler depending on the object file format.
954	bool DwarfLinkerForBinary::AddressManager::findValidRelocs(
955	const object::SectionRef &Section, const object::ObjectFile &Obj,
956	const DebugMapObject &DMO, std::vector<ValidReloc> &Relocs) {
957	// Dispatch to the right handler depending on the file type.
958	if (auto *MachOObj = dyn_cast<object::MachOObjectFile>(Val: &Obj))
959	findValidRelocsMachO(Section, Obj: *MachOObj, DMO, ValidRelocs&: Relocs);
960	else
961	Linker.reportWarning(Warning: Twine ("unsupported object file type: ") +
962	Obj.getFileName(),
963	Context: DMO.getObjectFilename());
964	if (Relocs.empty())
965	return false;
966
967	// Sort the relocations by offset. We will walk the DIEs linearly in
968	// the file, this allows us to just keep an index in the relocation
969	// array that we advance during our walk, rather than resorting to
970	// some associative container. See DwarfLinkerForBinary::NextValidReloc.
971	llvm::sort(C&: Relocs);
972	return true;
973	}
974
975	/// Look for relocations in the debug_info and debug_addr section that match
976	/// entries in the debug map. These relocations will drive the Dwarf link by
977	/// indicating which DIEs refer to symbols present in the linked binary.
978	/// \returns whether there are any valid relocations in the debug info.
979	bool DwarfLinkerForBinary::AddressManager::findValidRelocsInDebugSections(
980	const object::ObjectFile &Obj, const DebugMapObject &DMO) {
981	// Find the debug_info section.
982	bool FoundValidRelocs = false;
983	for (const object::SectionRef &Section : Obj.sections()) {
984	StringRef SectionName;
985	if (Expected<StringRef> NameOrErr = Section.getName())
986	SectionName = *NameOrErr;
987	else
988	consumeError(Err: NameOrErr.takeError());
989
990	SectionName = SectionName.substr(Start: SectionName.find_first_not_of(Chars: "._"));
991	if (SectionName == "debug_info")
992	FoundValidRelocs \|=
993	findValidRelocs(Section, Obj, DMO, Relocs&: ValidDebugInfoRelocs);
994	if (SectionName == "debug_addr")
995	FoundValidRelocs \|=
996	findValidRelocs(Section, Obj, DMO, Relocs&: ValidDebugAddrRelocs);
997	}
998	return FoundValidRelocs;
999	}
1000
1001	std::vector<ValidReloc> DwarfLinkerForBinary::AddressManager::getRelocations(
1002	const std::vector<ValidReloc> &Relocs, uint64_t StartPos, uint64_t EndPos) {
1003	std::vector<ValidReloc> Res;
1004
1005	auto CurReloc = partition_point(Range: Relocs, P: [StartPos](const ValidReloc &Reloc) {
1006	return (uint64_t)Reloc.Offset < StartPos;
1007	});
1008
1009	while (CurReloc != Relocs.end() && CurReloc ->Offset >= StartPos &&
1010	(uint64_t)CurReloc ->Offset < EndPos) {
1011	Res.push_back(x: *CurReloc);
1012	CurReloc ++;
1013	}
1014
1015	return Res;
1016	}
1017
1018	void DwarfLinkerForBinary::AddressManager::printReloc(const ValidReloc &Reloc) {
1019	const auto &Mapping = Reloc.SymbolMapping;
1020	const uint64_t ObjectAddress = Mapping.ObjectAddress
1021	? uint64_t(*Mapping.ObjectAddress)
1022	: std::numeric_limits<uint64_t>::max();
1023
1024	outs() << "Found valid debug map entry: " << Reloc.SymbolName << "\t"
1025	<< format(Fmt: "0x%016" PRIx64 " => 0x%016" PRIx64 "\n", Vals: ObjectAddress,
1026	Vals: uint64_t(Mapping.BinaryAddress));
1027	}
1028
1029	int64_t
1030	DwarfLinkerForBinary::AddressManager::getRelocValue(const ValidReloc &Reloc) {
1031	int64_t AddrAdjust = relocate(Reloc);
1032	if (Reloc.SymbolMapping.ObjectAddress)
1033	AddrAdjust -= uint64_t(*Reloc.SymbolMapping.ObjectAddress);
1034	return AddrAdjust;
1035	}
1036
1037	std::optional<int64_t>
1038	DwarfLinkerForBinary::AddressManager::hasValidRelocationAt(
1039	const std::vector<ValidReloc> &AllRelocs, uint64_t StartOffset,
1040	uint64_t EndOffset, bool Verbose) {
1041	std::vector<ValidReloc> Relocs =
1042	getRelocations(Relocs: AllRelocs, StartPos: StartOffset, EndPos: EndOffset);
1043	if (Relocs.size() == `0`)
1044	return std::nullopt;
1045
1046	if (Verbose)
1047	printReloc(Reloc: Relocs [`0`]);
1048
1049	return getRelocValue(Reloc: Relocs [`0`]);
1050	}
1051
1052	/// Get the starting and ending (exclusive) offset for the
1053	/// attribute with index \p Idx descibed by \p Abbrev. \p Offset is
1054	/// supposed to point to the position of the first attribute described
1055	/// by \p Abbrev.
1056	/// \return [StartOffset, EndOffset) as a pair.
1057	static std::pair<uint64_t, uint64_t>
1058	getAttributeOffsets(const DWARFAbbreviationDeclaration Abbrev, unsigned* Idx,
1059	uint64_t Offset, const DWARFUnit &Unit) {
1060	DataExtractor Data = Unit.getDebugInfoExtractor();
1061
1062	for (unsigned I = `0`; I < Idx; ++I)
1063	DWARFFormValue::skipValue(Form: Abbrev->getFormByIndex(idx: I), DebugInfoData: Data, OffsetPtr: &Offset,
1064	FormParams: Unit.getFormParams());
1065
1066	uint64_t End = Offset;
1067	DWARFFormValue::skipValue(Form: Abbrev->getFormByIndex(idx: Idx), DebugInfoData: Data, OffsetPtr: &End,
1068	FormParams: Unit.getFormParams());
1069
1070	return std::make_pair(x&: Offset, y&: End);
1071	}
1072
1073	std::optional<int64_t>
1074	DwarfLinkerForBinary::AddressManager::getExprOpAddressRelocAdjustment(
1075	DWARFUnit &U, const DWARFExpression::Operation &Op, uint64_t StartOffset,
1076	uint64_t EndOffset, bool Verbose) {
1077	switch (Op.getCode()) {
1078	default: {
1079	assert(false && "Specified operation does not have address operand");
1080	} break;
1081	case dwarf::DW_OP_const2u:
1082	case dwarf::DW_OP_const4u:
1083	case dwarf::DW_OP_const8u:
1084	case dwarf::DW_OP_const2s:
1085	case dwarf::DW_OP_const4s:
1086	case dwarf::DW_OP_const8s:
1087	case dwarf::DW_OP_addr: {
1088	return hasValidRelocationAt(AllRelocs: ValidDebugInfoRelocs, StartOffset, EndOffset,
1089	Verbose);
1090	} break;
1091	case dwarf::DW_OP_constx:
1092	case dwarf::DW_OP_addrx: {
1093	return hasValidRelocationAt(AllRelocs: ValidDebugAddrRelocs, StartOffset, EndOffset,
1094	Verbose);
1095	} break;
1096	}
1097
1098	return std::nullopt;
1099	}
1100
1101	std::optional<int64_t>
1102	DwarfLinkerForBinary::AddressManager::getSubprogramRelocAdjustment(
1103	const DWARFDie &DIE, bool Verbose) {
1104	const auto *Abbrev = DIE.getAbbreviationDeclarationPtr();
1105
1106	std::optional<uint32_t> LowPcIdx =
1107	Abbrev->findAttributeIndex(attr: dwarf::DW_AT_low_pc);
1108	if (!LowPcIdx)
1109	return std::nullopt;
1110
1111	dwarf::Form Form = Abbrev->getFormByIndex(idx: *LowPcIdx);
1112
1113	switch (Form) {
1114	case dwarf::DW_FORM_addr: {
1115	uint64_t Offset = DIE.getOffset() + getULEB128Size(Value: Abbrev->getCode());
1116	uint64_t LowPcOffset, LowPcEndOffset;
1117	std::tie(args&: LowPcOffset, args&: LowPcEndOffset) =
1118	getAttributeOffsets(Abbrev, Idx: LowPcIdx, Offset, Unit: DIE.getDwarfUnit());
1119	return hasValidRelocationAt(AllRelocs: ValidDebugInfoRelocs, StartOffset: LowPcOffset,
1120	EndOffset: LowPcEndOffset, Verbose);
1121	}
1122	case dwarf::DW_FORM_addrx:
1123	case dwarf::DW_FORM_addrx1:
1124	case dwarf::DW_FORM_addrx2:
1125	case dwarf::DW_FORM_addrx3:
1126	case dwarf::DW_FORM_addrx4: {
1127	std::optional<DWARFFormValue> AddrValue = DIE.find(Attr: dwarf::DW_AT_low_pc);
1128	if (std::optional<uint64_t> AddressOffset =
1129	DIE.getDwarfUnit()->getIndexedAddressOffset(
1130	Index: AddrValue ->getRawUValue()))
1131	return hasValidRelocationAt(
1132	AllRelocs: ValidDebugAddrRelocs, StartOffset: *AddressOffset,
1133	EndOffset: *AddressOffset + DIE.getDwarfUnit()->getAddressByteSize(), Verbose);
1134
1135	Linker.reportWarning(Warning: "no base offset for address table", Context: SrcFileName);
1136	return std::nullopt;
1137	}
1138	default:
1139	return std::nullopt;
1140	}
1141	}
1142
1143	std::optional<StringRef>
1144	DwarfLinkerForBinary::AddressManager::getLibraryInstallName() {
1145	return LibInstallName;
1146	}
1147
1148	uint64_t
1149	DwarfLinkerForBinary::AddressManager::relocate(const ValidReloc &Reloc) const {
1150	return Reloc.SymbolMapping.BinaryAddress + Reloc.Addend;
1151	}
1152
1153	void DwarfLinkerForBinary::AddressManager::updateAndSaveValidRelocs(
1154	bool IsDWARF5, uint64_t OriginalUnitOffset, int64_t LinkedOffset,
1155	uint64_t StartOffset, uint64_t EndOffset) {
1156	std::vector<ValidReloc> InRelocs =
1157	getRelocations(Relocs: ValidDebugInfoRelocs, StartPos: StartOffset, EndPos: EndOffset);
1158	if (IsDWARF5)
1159	InRelocs = getRelocations(Relocs: ValidDebugAddrRelocs, StartPos: StartOffset, EndPos: EndOffset);
1160	DwarfLinkerRelocMap ->updateAndSaveValidRelocs(
1161	IsDWARF5, InRelocs, UnitOffset: OriginalUnitOffset, LinkedOffset);
1162	}
1163
1164	void DwarfLinkerForBinary::AddressManager::updateRelocationsWithUnitOffset(
1165	uint64_t OriginalUnitOffset, uint64_t OutputUnitOffset) {
1166	DwarfLinkerRelocMap ->updateRelocationsWithUnitOffset(OriginalUnitOffset,
1167	OutputUnitOffset);
1168	}
1169	/// Apply the valid relocations found by findValidRelocs() to
1170	/// the buffer \p Data, taking into account that Data is at \p BaseOffset
1171	/// in the debug_info section.
1172	///
1173	/// Like for findValidRelocs(), this function must be called with
1174	/// monotonic \p BaseOffset values.
1175	///
1176	/// \returns whether any reloc has been applied.
1177	bool DwarfLinkerForBinary::AddressManager::applyValidRelocs(
1178	MutableArrayRef<char> Data, uint64_t BaseOffset, bool IsLittleEndian) {
1179
1180	std::vector<ValidReloc> Relocs = getRelocations(
1181	Relocs: ValidDebugInfoRelocs, StartPos: BaseOffset, EndPos: BaseOffset + Data.size());
1182
1183	for (const ValidReloc &CurReloc : Relocs) {
1184	assert(CurReloc.Offset - BaseOffset < Data.size());
1185	assert(CurReloc.Offset - BaseOffset + CurReloc.Size <= Data.size());
1186	char Buf[`8`];
1187	uint64_t Value = relocate(Reloc: CurReloc);
1188	for (unsigned I = `0`; I != CurReloc.Size; ++I) {
1189	unsigned Index = IsLittleEndian ? I : (CurReloc.Size - I - `1`);
1190	Buf[I] = uint8_t(Value >> (Index * `8`));
1191	}
1192	assert(CurReloc.Size <= sizeof(Buf));
1193	memcpy(dest: &Data [CurReloc.Offset - BaseOffset], src: Buf, n: CurReloc.Size);
1194	}
1195	return Relocs.size() > `0`;
1196	}
1197
1198	void DwarfLinkerForBinaryRelocationMap::init(DWARFContext &Context) {
1199	for (const std::unique_ptr<DWARFUnit> &CU : Context.compile_units())
1200	StoredValidDebugInfoRelocsMap.insert(
1201	KV: std::make_pair(x: CU ->getOffset(), y: std::vector<ValidReloc>()));
1202	// FIXME: Support relocations debug_addr (DWARF5).
1203	}
1204
1205	void DwarfLinkerForBinaryRelocationMap::addValidRelocs(RelocationMap &RM) {
1206	for (const auto &DebugInfoRelocs : StoredValidDebugInfoRelocsMap) {
1207	for (const auto &InfoReloc : DebugInfoRelocs.second)
1208	RM.addRelocationMapEntry(Relocation: InfoReloc);
1209	}
1210	// FIXME: Support relocations debug_addr (DWARF5).
1211	}
1212
1213	void DwarfLinkerForBinaryRelocationMap::updateRelocationsWithUnitOffset(
1214	uint64_t OriginalUnitOffset, uint64_t OutputUnitOffset) {
1215	std::vector<ValidReloc> &StoredValidDebugInfoRelocs =
1216	StoredValidDebugInfoRelocsMap [OriginalUnitOffset];
1217	for (ValidReloc &R : StoredValidDebugInfoRelocs) {
1218	R.Offset = (uint64_t)R.Offset + OutputUnitOffset;
1219	}
1220	// FIXME: Support relocations debug_addr (DWARF5).
1221	}
1222
1223	void DwarfLinkerForBinaryRelocationMap::updateAndSaveValidRelocs(
1224	bool IsDWARF5, std::vector<ValidReloc> &InRelocs, uint64_t UnitOffset,
1225	int64_t LinkedOffset) {
1226	std::vector<ValidReloc> &OutRelocs =
1227	StoredValidDebugInfoRelocsMap [UnitOffset];
1228	if (IsDWARF5)
1229	OutRelocs = StoredValidDebugAddrRelocsMap [UnitOffset];
1230
1231	for (ValidReloc &R : InRelocs) {
1232	OutRelocs.emplace_back(args: R.Offset + LinkedOffset, args&: R.Size, args&: R.Addend,
1233	args&: R.SymbolName, args&: R.SymbolMapping);
1234	}
1235	}
1236
1237	} // namespace dsymutil
1238	} // namespace llvm
1239

source code of llvm/tools/dsymutil/DwarfLinkerForBinary.cpp