xref: /freebsd/contrib/llvm-project/llvm/lib/Object/ArchiveWriter.cpp (revision da477bcdc0c335171bb0ed3813f570026de6df85)
1 //===- ArchiveWriter.cpp - ar File Format implementation --------*- C++ -*-===//
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 // This file defines the writeArchive function.
10 //
11 //===----------------------------------------------------------------------===//
12 
13 #include "llvm/Object/ArchiveWriter.h"
14 #include "llvm/ADT/ArrayRef.h"
15 #include "llvm/ADT/StringMap.h"
16 #include "llvm/ADT/StringRef.h"
17 #include "llvm/BinaryFormat/Magic.h"
18 #include "llvm/IR/LLVMContext.h"
19 #include "llvm/Object/Archive.h"
20 #include "llvm/Object/Error.h"
21 #include "llvm/Object/ObjectFile.h"
22 #include "llvm/Object/SymbolicFile.h"
23 #include "llvm/Support/Alignment.h"
24 #include "llvm/Support/EndianStream.h"
25 #include "llvm/Support/Errc.h"
26 #include "llvm/Support/ErrorHandling.h"
27 #include "llvm/Support/Format.h"
28 #include "llvm/Support/Path.h"
29 #include "llvm/Support/ToolOutputFile.h"
30 #include "llvm/Support/raw_ostream.h"
31 
32 #include <map>
33 
34 #if !defined(_MSC_VER) && !defined(__MINGW32__)
35 #include <unistd.h>
36 #else
37 #include <io.h>
38 #endif
39 
40 using namespace llvm;
41 
42 NewArchiveMember::NewArchiveMember(MemoryBufferRef BufRef)
43     : Buf(MemoryBuffer::getMemBuffer(BufRef, false)),
44       MemberName(BufRef.getBufferIdentifier()) {}
45 
46 Expected<NewArchiveMember>
47 NewArchiveMember::getOldMember(const object::Archive::Child &OldMember,
48                                bool Deterministic) {
49   Expected<llvm::MemoryBufferRef> BufOrErr = OldMember.getMemoryBufferRef();
50   if (!BufOrErr)
51     return BufOrErr.takeError();
52 
53   NewArchiveMember M;
54   M.Buf = MemoryBuffer::getMemBuffer(*BufOrErr, false);
55   M.MemberName = M.Buf->getBufferIdentifier();
56   if (!Deterministic) {
57     auto ModTimeOrErr = OldMember.getLastModified();
58     if (!ModTimeOrErr)
59       return ModTimeOrErr.takeError();
60     M.ModTime = ModTimeOrErr.get();
61     Expected<unsigned> UIDOrErr = OldMember.getUID();
62     if (!UIDOrErr)
63       return UIDOrErr.takeError();
64     M.UID = UIDOrErr.get();
65     Expected<unsigned> GIDOrErr = OldMember.getGID();
66     if (!GIDOrErr)
67       return GIDOrErr.takeError();
68     M.GID = GIDOrErr.get();
69     Expected<sys::fs::perms> AccessModeOrErr = OldMember.getAccessMode();
70     if (!AccessModeOrErr)
71       return AccessModeOrErr.takeError();
72     M.Perms = AccessModeOrErr.get();
73   }
74   return std::move(M);
75 }
76 
77 Expected<NewArchiveMember> NewArchiveMember::getFile(StringRef FileName,
78                                                      bool Deterministic) {
79   sys::fs::file_status Status;
80   auto FDOrErr = sys::fs::openNativeFileForRead(FileName);
81   if (!FDOrErr)
82     return FDOrErr.takeError();
83   sys::fs::file_t FD = *FDOrErr;
84   assert(FD != sys::fs::kInvalidFile);
85 
86   if (auto EC = sys::fs::status(FD, Status))
87     return errorCodeToError(EC);
88 
89   // Opening a directory doesn't make sense. Let it fail.
90   // Linux cannot open directories with open(2), although
91   // cygwin and *bsd can.
92   if (Status.type() == sys::fs::file_type::directory_file)
93     return errorCodeToError(make_error_code(errc::is_a_directory));
94 
95   ErrorOr<std::unique_ptr<MemoryBuffer>> MemberBufferOrErr =
96       MemoryBuffer::getOpenFile(FD, FileName, Status.getSize(), false);
97   if (!MemberBufferOrErr)
98     return errorCodeToError(MemberBufferOrErr.getError());
99 
100   if (auto EC = sys::fs::closeFile(FD))
101     return errorCodeToError(EC);
102 
103   NewArchiveMember M;
104   M.Buf = std::move(*MemberBufferOrErr);
105   M.MemberName = M.Buf->getBufferIdentifier();
106   if (!Deterministic) {
107     M.ModTime = std::chrono::time_point_cast<std::chrono::seconds>(
108         Status.getLastModificationTime());
109     M.UID = Status.getUser();
110     M.GID = Status.getGroup();
111     M.Perms = Status.permissions();
112   }
113   return std::move(M);
114 }
115 
116 template <typename T>
117 static void printWithSpacePadding(raw_ostream &OS, T Data, unsigned Size) {
118   uint64_t OldPos = OS.tell();
119   OS << Data;
120   unsigned SizeSoFar = OS.tell() - OldPos;
121   assert(SizeSoFar <= Size && "Data doesn't fit in Size");
122   OS.indent(Size - SizeSoFar);
123 }
124 
125 static bool isDarwin(object::Archive::Kind Kind) {
126   return Kind == object::Archive::K_DARWIN ||
127          Kind == object::Archive::K_DARWIN64;
128 }
129 
130 static bool isBSDLike(object::Archive::Kind Kind) {
131   switch (Kind) {
132   case object::Archive::K_GNU:
133   case object::Archive::K_GNU64:
134     return false;
135   case object::Archive::K_BSD:
136   case object::Archive::K_DARWIN:
137   case object::Archive::K_DARWIN64:
138     return true;
139   case object::Archive::K_COFF:
140     break;
141   }
142   llvm_unreachable("not supported for writting");
143 }
144 
145 template <class T>
146 static void print(raw_ostream &Out, object::Archive::Kind Kind, T Val) {
147   support::endian::write(Out, Val,
148                          isBSDLike(Kind) ? support::little : support::big);
149 }
150 
151 static void printRestOfMemberHeader(
152     raw_ostream &Out, const sys::TimePoint<std::chrono::seconds> &ModTime,
153     unsigned UID, unsigned GID, unsigned Perms, uint64_t Size) {
154   printWithSpacePadding(Out, sys::toTimeT(ModTime), 12);
155 
156   // The format has only 6 chars for uid and gid. Truncate if the provided
157   // values don't fit.
158   printWithSpacePadding(Out, UID % 1000000, 6);
159   printWithSpacePadding(Out, GID % 1000000, 6);
160 
161   printWithSpacePadding(Out, format("%o", Perms), 8);
162   printWithSpacePadding(Out, Size, 10);
163   Out << "`\n";
164 }
165 
166 static void
167 printGNUSmallMemberHeader(raw_ostream &Out, StringRef Name,
168                           const sys::TimePoint<std::chrono::seconds> &ModTime,
169                           unsigned UID, unsigned GID, unsigned Perms,
170                           uint64_t Size) {
171   printWithSpacePadding(Out, Twine(Name) + "/", 16);
172   printRestOfMemberHeader(Out, ModTime, UID, GID, Perms, Size);
173 }
174 
175 static void
176 printBSDMemberHeader(raw_ostream &Out, uint64_t Pos, StringRef Name,
177                      const sys::TimePoint<std::chrono::seconds> &ModTime,
178                      unsigned UID, unsigned GID, unsigned Perms, uint64_t Size) {
179   uint64_t PosAfterHeader = Pos + 60 + Name.size();
180   // Pad so that even 64 bit object files are aligned.
181   unsigned Pad = offsetToAlignment(PosAfterHeader, Align(8));
182   unsigned NameWithPadding = Name.size() + Pad;
183   printWithSpacePadding(Out, Twine("#1/") + Twine(NameWithPadding), 16);
184   printRestOfMemberHeader(Out, ModTime, UID, GID, Perms,
185                           NameWithPadding + Size);
186   Out << Name;
187   while (Pad--)
188     Out.write(uint8_t(0));
189 }
190 
191 static bool useStringTable(bool Thin, StringRef Name) {
192   return Thin || Name.size() >= 16 || Name.contains('/');
193 }
194 
195 static bool is64BitKind(object::Archive::Kind Kind) {
196   switch (Kind) {
197   case object::Archive::K_GNU:
198   case object::Archive::K_BSD:
199   case object::Archive::K_DARWIN:
200   case object::Archive::K_COFF:
201     return false;
202   case object::Archive::K_DARWIN64:
203   case object::Archive::K_GNU64:
204     return true;
205   }
206   llvm_unreachable("not supported for writting");
207 }
208 
209 static void
210 printMemberHeader(raw_ostream &Out, uint64_t Pos, raw_ostream &StringTable,
211                   StringMap<uint64_t> &MemberNames, object::Archive::Kind Kind,
212                   bool Thin, const NewArchiveMember &M,
213                   sys::TimePoint<std::chrono::seconds> ModTime, uint64_t Size) {
214   if (isBSDLike(Kind))
215     return printBSDMemberHeader(Out, Pos, M.MemberName, ModTime, M.UID, M.GID,
216                                 M.Perms, Size);
217   if (!useStringTable(Thin, M.MemberName))
218     return printGNUSmallMemberHeader(Out, M.MemberName, ModTime, M.UID, M.GID,
219                                      M.Perms, Size);
220   Out << '/';
221   uint64_t NamePos;
222   if (Thin) {
223     NamePos = StringTable.tell();
224     StringTable << M.MemberName << "/\n";
225   } else {
226     auto Insertion = MemberNames.insert({M.MemberName, uint64_t(0)});
227     if (Insertion.second) {
228       Insertion.first->second = StringTable.tell();
229       StringTable << M.MemberName << "/\n";
230     }
231     NamePos = Insertion.first->second;
232   }
233   printWithSpacePadding(Out, NamePos, 15);
234   printRestOfMemberHeader(Out, ModTime, M.UID, M.GID, M.Perms, Size);
235 }
236 
237 namespace {
238 struct MemberData {
239   std::vector<unsigned> Symbols;
240   std::string Header;
241   StringRef Data;
242   StringRef Padding;
243 };
244 } // namespace
245 
246 static MemberData computeStringTable(StringRef Names) {
247   unsigned Size = Names.size();
248   unsigned Pad = offsetToAlignment(Size, Align(2));
249   std::string Header;
250   raw_string_ostream Out(Header);
251   printWithSpacePadding(Out, "//", 48);
252   printWithSpacePadding(Out, Size + Pad, 10);
253   Out << "`\n";
254   Out.flush();
255   return {{}, std::move(Header), Names, Pad ? "\n" : ""};
256 }
257 
258 static sys::TimePoint<std::chrono::seconds> now(bool Deterministic) {
259   using namespace std::chrono;
260 
261   if (!Deterministic)
262     return time_point_cast<seconds>(system_clock::now());
263   return sys::TimePoint<seconds>();
264 }
265 
266 static bool isArchiveSymbol(const object::BasicSymbolRef &S) {
267   Expected<uint32_t> SymFlagsOrErr = S.getFlags();
268   if (!SymFlagsOrErr)
269     // TODO: Actually report errors helpfully.
270     report_fatal_error(SymFlagsOrErr.takeError());
271   if (*SymFlagsOrErr & object::SymbolRef::SF_FormatSpecific)
272     return false;
273   if (!(*SymFlagsOrErr & object::SymbolRef::SF_Global))
274     return false;
275   if (*SymFlagsOrErr & object::SymbolRef::SF_Undefined)
276     return false;
277   return true;
278 }
279 
280 static void printNBits(raw_ostream &Out, object::Archive::Kind Kind,
281                        uint64_t Val) {
282   if (is64BitKind(Kind))
283     print<uint64_t>(Out, Kind, Val);
284   else
285     print<uint32_t>(Out, Kind, Val);
286 }
287 
288 static void writeSymbolTable(raw_ostream &Out, object::Archive::Kind Kind,
289                              bool Deterministic, ArrayRef<MemberData> Members,
290                              StringRef StringTable) {
291   // We don't write a symbol table on an archive with no members -- except on
292   // Darwin, where the linker will abort unless the archive has a symbol table.
293   if (StringTable.empty() && !isDarwin(Kind))
294     return;
295 
296   unsigned NumSyms = 0;
297   for (const MemberData &M : Members)
298     NumSyms += M.Symbols.size();
299 
300   unsigned Size = 0;
301   unsigned OffsetSize = is64BitKind(Kind) ? sizeof(uint64_t) : sizeof(uint32_t);
302 
303   Size += OffsetSize; // Number of entries
304   if (isBSDLike(Kind))
305     Size += NumSyms * OffsetSize * 2; // Table
306   else
307     Size += NumSyms * OffsetSize; // Table
308   if (isBSDLike(Kind))
309     Size += OffsetSize; // byte count
310   Size += StringTable.size();
311   // ld64 expects the members to be 8-byte aligned for 64-bit content and at
312   // least 4-byte aligned for 32-bit content.  Opt for the larger encoding
313   // uniformly.
314   // We do this for all bsd formats because it simplifies aligning members.
315   const Align Alignment(isBSDLike(Kind) ? 8 : 2);
316   unsigned Pad = offsetToAlignment(Size, Alignment);
317   Size += Pad;
318 
319   if (isBSDLike(Kind)) {
320     const char *Name = is64BitKind(Kind) ? "__.SYMDEF_64" : "__.SYMDEF";
321     printBSDMemberHeader(Out, Out.tell(), Name, now(Deterministic), 0, 0, 0,
322                          Size);
323   } else {
324     const char *Name = is64BitKind(Kind) ? "/SYM64" : "";
325     printGNUSmallMemberHeader(Out, Name, now(Deterministic), 0, 0, 0, Size);
326   }
327 
328   uint64_t Pos = Out.tell() + Size;
329 
330   if (isBSDLike(Kind))
331     printNBits(Out, Kind, NumSyms * 2 * OffsetSize);
332   else
333     printNBits(Out, Kind, NumSyms);
334 
335   for (const MemberData &M : Members) {
336     for (unsigned StringOffset : M.Symbols) {
337       if (isBSDLike(Kind))
338         printNBits(Out, Kind, StringOffset);
339       printNBits(Out, Kind, Pos); // member offset
340     }
341     Pos += M.Header.size() + M.Data.size() + M.Padding.size();
342   }
343 
344   if (isBSDLike(Kind))
345     // byte count of the string table
346     printNBits(Out, Kind, StringTable.size());
347   Out << StringTable;
348 
349   while (Pad--)
350     Out.write(uint8_t(0));
351 }
352 
353 static Expected<std::vector<unsigned>>
354 getSymbols(MemoryBufferRef Buf, raw_ostream &SymNames, bool &HasObject) {
355   std::vector<unsigned> Ret;
356 
357   // In the scenario when LLVMContext is populated SymbolicFile will contain a
358   // reference to it, thus SymbolicFile should be destroyed first.
359   LLVMContext Context;
360   std::unique_ptr<object::SymbolicFile> Obj;
361   if (identify_magic(Buf.getBuffer()) == file_magic::bitcode) {
362     auto ObjOrErr = object::SymbolicFile::createSymbolicFile(
363         Buf, file_magic::bitcode, &Context);
364     if (!ObjOrErr) {
365       // FIXME: check only for "not an object file" errors.
366       consumeError(ObjOrErr.takeError());
367       return Ret;
368     }
369     Obj = std::move(*ObjOrErr);
370   } else {
371     auto ObjOrErr = object::SymbolicFile::createSymbolicFile(Buf);
372     if (!ObjOrErr) {
373       // FIXME: check only for "not an object file" errors.
374       consumeError(ObjOrErr.takeError());
375       return Ret;
376     }
377     Obj = std::move(*ObjOrErr);
378   }
379 
380   HasObject = true;
381   for (const object::BasicSymbolRef &S : Obj->symbols()) {
382     if (!isArchiveSymbol(S))
383       continue;
384     Ret.push_back(SymNames.tell());
385     if (Error E = S.printName(SymNames))
386       return std::move(E);
387     SymNames << '\0';
388   }
389   return Ret;
390 }
391 
392 static Expected<std::vector<MemberData>>
393 computeMemberData(raw_ostream &StringTable, raw_ostream &SymNames,
394                   object::Archive::Kind Kind, bool Thin, bool Deterministic,
395                   ArrayRef<NewArchiveMember> NewMembers) {
396   static char PaddingData[8] = {'\n', '\n', '\n', '\n', '\n', '\n', '\n', '\n'};
397 
398   // This ignores the symbol table, but we only need the value mod 8 and the
399   // symbol table is aligned to be a multiple of 8 bytes
400   uint64_t Pos = 0;
401 
402   std::vector<MemberData> Ret;
403   bool HasObject = false;
404 
405   // Deduplicate long member names in the string table and reuse earlier name
406   // offsets. This especially saves space for COFF Import libraries where all
407   // members have the same name.
408   StringMap<uint64_t> MemberNames;
409 
410   // UniqueTimestamps is a special case to improve debugging on Darwin:
411   //
412   // The Darwin linker does not link debug info into the final
413   // binary. Instead, it emits entries of type N_OSO in in the output
414   // binary's symbol table, containing references to the linked-in
415   // object files. Using that reference, the debugger can read the
416   // debug data directly from the object files. Alternatively, an
417   // invocation of 'dsymutil' will link the debug data from the object
418   // files into a dSYM bundle, which can be loaded by the debugger,
419   // instead of the object files.
420   //
421   // For an object file, the N_OSO entries contain the absolute path
422   // path to the file, and the file's timestamp. For an object
423   // included in an archive, the path is formatted like
424   // "/absolute/path/to/archive.a(member.o)", and the timestamp is the
425   // archive member's timestamp, rather than the archive's timestamp.
426   //
427   // However, this doesn't always uniquely identify an object within
428   // an archive -- an archive file can have multiple entries with the
429   // same filename. (This will happen commonly if the original object
430   // files started in different directories.) The only way they get
431   // distinguished, then, is via the timestamp. But this process is
432   // unable to find the correct object file in the archive when there
433   // are two files of the same name and timestamp.
434   //
435   // Additionally, timestamp==0 is treated specially, and causes the
436   // timestamp to be ignored as a match criteria.
437   //
438   // That will "usually" work out okay when creating an archive not in
439   // deterministic timestamp mode, because the objects will probably
440   // have been created at different timestamps.
441   //
442   // To ameliorate this problem, in deterministic archive mode (which
443   // is the default), on Darwin we will emit a unique non-zero
444   // timestamp for each entry with a duplicated name. This is still
445   // deterministic: the only thing affecting that timestamp is the
446   // order of the files in the resultant archive.
447   //
448   // See also the functions that handle the lookup:
449   // in lldb: ObjectContainerBSDArchive::Archive::FindObject()
450   // in llvm/tools/dsymutil: BinaryHolder::GetArchiveMemberBuffers().
451   bool UniqueTimestamps = Deterministic && isDarwin(Kind);
452   std::map<StringRef, unsigned> FilenameCount;
453   if (UniqueTimestamps) {
454     for (const NewArchiveMember &M : NewMembers)
455       FilenameCount[M.MemberName]++;
456     for (auto &Entry : FilenameCount)
457       Entry.second = Entry.second > 1 ? 1 : 0;
458   }
459 
460   for (const NewArchiveMember &M : NewMembers) {
461     std::string Header;
462     raw_string_ostream Out(Header);
463 
464     MemoryBufferRef Buf = M.Buf->getMemBufferRef();
465     StringRef Data = Thin ? "" : Buf.getBuffer();
466 
467     // ld64 expects the members to be 8-byte aligned for 64-bit content and at
468     // least 4-byte aligned for 32-bit content.  Opt for the larger encoding
469     // uniformly.  This matches the behaviour with cctools and ensures that ld64
470     // is happy with archives that we generate.
471     unsigned MemberPadding =
472         isDarwin(Kind) ? offsetToAlignment(Data.size(), Align(8)) : 0;
473     unsigned TailPadding =
474         offsetToAlignment(Data.size() + MemberPadding, Align(2));
475     StringRef Padding = StringRef(PaddingData, MemberPadding + TailPadding);
476 
477     sys::TimePoint<std::chrono::seconds> ModTime;
478     if (UniqueTimestamps)
479       // Increment timestamp for each file of a given name.
480       ModTime = sys::toTimePoint(FilenameCount[M.MemberName]++);
481     else
482       ModTime = M.ModTime;
483 
484     uint64_t Size = Buf.getBufferSize() + MemberPadding;
485     if (Size > object::Archive::MaxMemberSize) {
486       std::string StringMsg =
487           "File " + M.MemberName.str() + " exceeds size limit";
488       return make_error<object::GenericBinaryError>(
489           std::move(StringMsg), object::object_error::parse_failed);
490     }
491 
492     printMemberHeader(Out, Pos, StringTable, MemberNames, Kind, Thin, M,
493                       ModTime, Size);
494     Out.flush();
495 
496     Expected<std::vector<unsigned>> Symbols =
497         getSymbols(Buf, SymNames, HasObject);
498     if (auto E = Symbols.takeError())
499       return std::move(E);
500 
501     Pos += Header.size() + Data.size() + Padding.size();
502     Ret.push_back({std::move(*Symbols), std::move(Header), Data, Padding});
503   }
504   // If there are no symbols, emit an empty symbol table, to satisfy Solaris
505   // tools, older versions of which expect a symbol table in a non-empty
506   // archive, regardless of whether there are any symbols in it.
507   if (HasObject && SymNames.tell() == 0)
508     SymNames << '\0' << '\0' << '\0';
509   return Ret;
510 }
511 
512 namespace llvm {
513 
514 static ErrorOr<SmallString<128>> canonicalizePath(StringRef P) {
515   SmallString<128> Ret = P;
516   std::error_code Err = sys::fs::make_absolute(Ret);
517   if (Err)
518     return Err;
519   sys::path::remove_dots(Ret, /*removedotdot*/ true);
520   return Ret;
521 }
522 
523 // Compute the relative path from From to To.
524 Expected<std::string> computeArchiveRelativePath(StringRef From, StringRef To) {
525   ErrorOr<SmallString<128>> PathToOrErr = canonicalizePath(To);
526   ErrorOr<SmallString<128>> DirFromOrErr = canonicalizePath(From);
527   if (!PathToOrErr || !DirFromOrErr)
528     return errorCodeToError(std::error_code(errno, std::generic_category()));
529 
530   const SmallString<128> &PathTo = *PathToOrErr;
531   const SmallString<128> &DirFrom = sys::path::parent_path(*DirFromOrErr);
532 
533   // Can't construct a relative path between different roots
534   if (sys::path::root_name(PathTo) != sys::path::root_name(DirFrom))
535     return sys::path::convert_to_slash(PathTo);
536 
537   // Skip common prefixes
538   auto FromTo =
539       std::mismatch(sys::path::begin(DirFrom), sys::path::end(DirFrom),
540                     sys::path::begin(PathTo));
541   auto FromI = FromTo.first;
542   auto ToI = FromTo.second;
543 
544   // Construct relative path
545   SmallString<128> Relative;
546   for (auto FromE = sys::path::end(DirFrom); FromI != FromE; ++FromI)
547     sys::path::append(Relative, sys::path::Style::posix, "..");
548 
549   for (auto ToE = sys::path::end(PathTo); ToI != ToE; ++ToI)
550     sys::path::append(Relative, sys::path::Style::posix, *ToI);
551 
552   return std::string(Relative.str());
553 }
554 
555 Error writeArchive(StringRef ArcName, ArrayRef<NewArchiveMember> NewMembers,
556                    bool WriteSymtab, object::Archive::Kind Kind,
557                    bool Deterministic, bool Thin,
558                    std::unique_ptr<MemoryBuffer> OldArchiveBuf) {
559   assert((!Thin || !isBSDLike(Kind)) && "Only the gnu format has a thin mode");
560 
561   SmallString<0> SymNamesBuf;
562   raw_svector_ostream SymNames(SymNamesBuf);
563   SmallString<0> StringTableBuf;
564   raw_svector_ostream StringTable(StringTableBuf);
565 
566   Expected<std::vector<MemberData>> DataOrErr = computeMemberData(
567       StringTable, SymNames, Kind, Thin, Deterministic, NewMembers);
568   if (Error E = DataOrErr.takeError())
569     return E;
570   std::vector<MemberData> &Data = *DataOrErr;
571 
572   if (!StringTableBuf.empty())
573     Data.insert(Data.begin(), computeStringTable(StringTableBuf));
574 
575   // We would like to detect if we need to switch to a 64-bit symbol table.
576   if (WriteSymtab) {
577     uint64_t MaxOffset = 0;
578     uint64_t LastOffset = MaxOffset;
579     for (const auto &M : Data) {
580       // Record the start of the member's offset
581       LastOffset = MaxOffset;
582       // Account for the size of each part associated with the member.
583       MaxOffset += M.Header.size() + M.Data.size() + M.Padding.size();
584       // We assume 32-bit symbols to see if 32-bit symbols are possible or not.
585       MaxOffset += M.Symbols.size() * 4;
586     }
587 
588     // The SYM64 format is used when an archive's member offsets are larger than
589     // 32-bits can hold. The need for this shift in format is detected by
590     // writeArchive. To test this we need to generate a file with a member that
591     // has an offset larger than 32-bits but this demands a very slow test. To
592     // speed the test up we use this environment variable to pretend like the
593     // cutoff happens before 32-bits and instead happens at some much smaller
594     // value.
595     const char *Sym64Env = std::getenv("SYM64_THRESHOLD");
596     int Sym64Threshold = 32;
597     if (Sym64Env)
598       StringRef(Sym64Env).getAsInteger(10, Sym64Threshold);
599 
600     // If LastOffset isn't going to fit in a 32-bit varible we need to switch
601     // to 64-bit. Note that the file can be larger than 4GB as long as the last
602     // member starts before the 4GB offset.
603     if (LastOffset >= (1ULL << Sym64Threshold)) {
604       if (Kind == object::Archive::K_DARWIN)
605         Kind = object::Archive::K_DARWIN64;
606       else
607         Kind = object::Archive::K_GNU64;
608     }
609   }
610 
611   Expected<sys::fs::TempFile> Temp =
612       sys::fs::TempFile::create(ArcName + ".temp-archive-%%%%%%%.a");
613   if (!Temp)
614     return Temp.takeError();
615 
616   raw_fd_ostream Out(Temp->FD, false);
617   if (Thin)
618     Out << "!<thin>\n";
619   else
620     Out << "!<arch>\n";
621 
622   if (WriteSymtab)
623     writeSymbolTable(Out, Kind, Deterministic, Data, SymNamesBuf);
624 
625   for (const MemberData &M : Data)
626     Out << M.Header << M.Data << M.Padding;
627 
628   Out.flush();
629 
630   // At this point, we no longer need whatever backing memory
631   // was used to generate the NewMembers. On Windows, this buffer
632   // could be a mapped view of the file we want to replace (if
633   // we're updating an existing archive, say). In that case, the
634   // rename would still succeed, but it would leave behind a
635   // temporary file (actually the original file renamed) because
636   // a file cannot be deleted while there's a handle open on it,
637   // only renamed. So by freeing this buffer, this ensures that
638   // the last open handle on the destination file, if any, is
639   // closed before we attempt to rename.
640   OldArchiveBuf.reset();
641 
642   return Temp->keep(ArcName);
643 }
644 
645 } // namespace llvm
646