clang 20.0.0git
OffloadBundler.cpp
Go to the documentation of this file.
1//===- OffloadBundler.cpp - File Bundling and Unbundling ------------------===//
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/// \file
10/// This file implements an offload bundling API that bundles different files
11/// that relate with the same source code but different targets into a single
12/// one. Also the implements the opposite functionality, i.e. unbundle files
13/// previous created by this API.
14///
15//===----------------------------------------------------------------------===//
16
18#include "clang/Basic/Cuda.h"
20#include "clang/Basic/Version.h"
21#include "llvm/ADT/ArrayRef.h"
22#include "llvm/ADT/SmallString.h"
23#include "llvm/ADT/SmallVector.h"
24#include "llvm/ADT/StringExtras.h"
25#include "llvm/ADT/StringMap.h"
26#include "llvm/ADT/StringRef.h"
27#include "llvm/BinaryFormat/Magic.h"
28#include "llvm/Object/Archive.h"
29#include "llvm/Object/ArchiveWriter.h"
30#include "llvm/Object/Binary.h"
31#include "llvm/Object/ObjectFile.h"
32#include "llvm/Support/Casting.h"
33#include "llvm/Support/Compression.h"
34#include "llvm/Support/Debug.h"
35#include "llvm/Support/EndianStream.h"
36#include "llvm/Support/Errc.h"
37#include "llvm/Support/Error.h"
38#include "llvm/Support/ErrorOr.h"
39#include "llvm/Support/FileSystem.h"
40#include "llvm/Support/MD5.h"
41#include "llvm/Support/MemoryBuffer.h"
42#include "llvm/Support/Path.h"
43#include "llvm/Support/Program.h"
44#include "llvm/Support/Signals.h"
45#include "llvm/Support/StringSaver.h"
46#include "llvm/Support/Timer.h"
47#include "llvm/Support/WithColor.h"
48#include "llvm/Support/raw_ostream.h"
49#include "llvm/TargetParser/Host.h"
50#include "llvm/TargetParser/Triple.h"
51#include <algorithm>
52#include <cassert>
53#include <cstddef>
54#include <cstdint>
55#include <forward_list>
56#include <llvm/Support/Process.h>
57#include <memory>
58#include <set>
59#include <string>
60#include <system_error>
61#include <utility>
62
63using namespace llvm;
64using namespace llvm::object;
65using namespace clang;
66
67static llvm::TimerGroup
68 ClangOffloadBundlerTimerGroup("Clang Offload Bundler Timer Group",
69 "Timer group for clang offload bundler");
70
71/// Magic string that marks the existence of offloading data.
72#define OFFLOAD_BUNDLER_MAGIC_STR "__CLANG_OFFLOAD_BUNDLE__"
73
75 const OffloadBundlerConfig &BC)
76 : BundlerConfig(BC) {
77
78 // TODO: Add error checking from ClangOffloadBundler.cpp
79 auto TargetFeatures = Target.split(':');
80 auto TripleOrGPU = TargetFeatures.first.rsplit('-');
81
82 if (clang::StringToOffloadArch(TripleOrGPU.second) !=
84 auto KindTriple = TripleOrGPU.first.split('-');
85 this->OffloadKind = KindTriple.first;
86
87 // Enforce optional env field to standardize bundles
88 llvm::Triple t = llvm::Triple(KindTriple.second);
89 this->Triple = llvm::Triple(t.getArchName(), t.getVendorName(),
90 t.getOSName(), t.getEnvironmentName());
91
92 this->TargetID = Target.substr(Target.find(TripleOrGPU.second));
93 } else {
94 auto KindTriple = TargetFeatures.first.split('-');
95 this->OffloadKind = KindTriple.first;
96
97 // Enforce optional env field to standardize bundles
98 llvm::Triple t = llvm::Triple(KindTriple.second);
99 this->Triple = llvm::Triple(t.getArchName(), t.getVendorName(),
100 t.getOSName(), t.getEnvironmentName());
101
102 this->TargetID = "";
103 }
104}
105
107 return this->OffloadKind == "host";
108}
109
111 return OffloadKind == "host" || OffloadKind == "openmp" ||
112 OffloadKind == "hip" || OffloadKind == "hipv4";
113}
114
116 const StringRef TargetOffloadKind) const {
117 if ((OffloadKind == TargetOffloadKind) ||
118 (OffloadKind == "hip" && TargetOffloadKind == "hipv4") ||
119 (OffloadKind == "hipv4" && TargetOffloadKind == "hip"))
120 return true;
121
123 bool HIPCompatibleWithOpenMP = OffloadKind.starts_with_insensitive("hip") &&
124 TargetOffloadKind == "openmp";
125 bool OpenMPCompatibleWithHIP =
126 OffloadKind == "openmp" &&
127 TargetOffloadKind.starts_with_insensitive("hip");
128 return HIPCompatibleWithOpenMP || OpenMPCompatibleWithHIP;
129 }
130 return false;
131}
132
134 return !Triple.str().empty() && Triple.getArch() != Triple::UnknownArch;
135}
136
138 return OffloadKind == Target.OffloadKind &&
139 Triple.isCompatibleWith(Target.Triple) && TargetID == Target.TargetID;
140}
141
142std::string OffloadTargetInfo::str() const {
143 return Twine(OffloadKind + "-" + Triple.str() + "-" + TargetID).str();
144}
145
146static StringRef getDeviceFileExtension(StringRef Device,
147 StringRef BundleFileName) {
148 if (Device.contains("gfx"))
149 return ".bc";
150 if (Device.contains("sm_"))
151 return ".cubin";
152 return sys::path::extension(BundleFileName);
153}
154
155static std::string getDeviceLibraryFileName(StringRef BundleFileName,
156 StringRef Device) {
157 StringRef LibName = sys::path::stem(BundleFileName);
158 StringRef Extension = getDeviceFileExtension(Device, BundleFileName);
159
160 std::string Result;
161 Result += LibName;
162 Result += Extension;
163 return Result;
164}
165
166namespace {
167/// Generic file handler interface.
168class FileHandler {
169public:
170 struct BundleInfo {
171 StringRef BundleID;
172 };
173
174 FileHandler() {}
175
176 virtual ~FileHandler() {}
177
178 /// Update the file handler with information from the header of the bundled
179 /// file.
180 virtual Error ReadHeader(MemoryBuffer &Input) = 0;
181
182 /// Read the marker of the next bundled to be read in the file. The bundle
183 /// name is returned if there is one in the file, or `std::nullopt` if there
184 /// are no more bundles to be read.
186 ReadBundleStart(MemoryBuffer &Input) = 0;
187
188 /// Read the marker that closes the current bundle.
189 virtual Error ReadBundleEnd(MemoryBuffer &Input) = 0;
190
191 /// Read the current bundle and write the result into the stream \a OS.
192 virtual Error ReadBundle(raw_ostream &OS, MemoryBuffer &Input) = 0;
193
194 /// Write the header of the bundled file to \a OS based on the information
195 /// gathered from \a Inputs.
196 virtual Error WriteHeader(raw_ostream &OS,
197 ArrayRef<std::unique_ptr<MemoryBuffer>> Inputs) = 0;
198
199 /// Write the marker that initiates a bundle for the triple \a TargetTriple to
200 /// \a OS.
201 virtual Error WriteBundleStart(raw_ostream &OS, StringRef TargetTriple) = 0;
202
203 /// Write the marker that closes a bundle for the triple \a TargetTriple to \a
204 /// OS.
205 virtual Error WriteBundleEnd(raw_ostream &OS, StringRef TargetTriple) = 0;
206
207 /// Write the bundle from \a Input into \a OS.
208 virtual Error WriteBundle(raw_ostream &OS, MemoryBuffer &Input) = 0;
209
210 /// Finalize output file.
211 virtual Error finalizeOutputFile() { return Error::success(); }
212
213 /// List bundle IDs in \a Input.
214 virtual Error listBundleIDs(MemoryBuffer &Input) {
215 if (Error Err = ReadHeader(Input))
216 return Err;
217 return forEachBundle(Input, [&](const BundleInfo &Info) -> Error {
218 llvm::outs() << Info.BundleID << '\n';
219 Error Err = listBundleIDsCallback(Input, Info);
220 if (Err)
221 return Err;
222 return Error::success();
223 });
224 }
225
226 /// Get bundle IDs in \a Input in \a BundleIds.
227 virtual Error getBundleIDs(MemoryBuffer &Input,
228 std::set<StringRef> &BundleIds) {
229 if (Error Err = ReadHeader(Input))
230 return Err;
231 return forEachBundle(Input, [&](const BundleInfo &Info) -> Error {
232 BundleIds.insert(Info.BundleID);
233 Error Err = listBundleIDsCallback(Input, Info);
234 if (Err)
235 return Err;
236 return Error::success();
237 });
238 }
239
240 /// For each bundle in \a Input, do \a Func.
241 Error forEachBundle(MemoryBuffer &Input,
242 std::function<Error(const BundleInfo &)> Func) {
243 while (true) {
244 Expected<std::optional<StringRef>> CurTripleOrErr =
245 ReadBundleStart(Input);
246 if (!CurTripleOrErr)
247 return CurTripleOrErr.takeError();
248
249 // No more bundles.
250 if (!*CurTripleOrErr)
251 break;
252
253 StringRef CurTriple = **CurTripleOrErr;
254 assert(!CurTriple.empty());
255
256 BundleInfo Info{CurTriple};
257 if (Error Err = Func(Info))
258 return Err;
259 }
260 return Error::success();
261 }
262
263protected:
264 virtual Error listBundleIDsCallback(MemoryBuffer &Input,
265 const BundleInfo &Info) {
266 return Error::success();
267 }
268};
269
270/// Handler for binary files. The bundled file will have the following format
271/// (all integers are stored in little-endian format):
272///
273/// "OFFLOAD_BUNDLER_MAGIC_STR" (ASCII encoding of the string)
274///
275/// NumberOfOffloadBundles (8-byte integer)
276///
277/// OffsetOfBundle1 (8-byte integer)
278/// SizeOfBundle1 (8-byte integer)
279/// NumberOfBytesInTripleOfBundle1 (8-byte integer)
280/// TripleOfBundle1 (byte length defined before)
281///
282/// ...
283///
284/// OffsetOfBundleN (8-byte integer)
285/// SizeOfBundleN (8-byte integer)
286/// NumberOfBytesInTripleOfBundleN (8-byte integer)
287/// TripleOfBundleN (byte length defined before)
288///
289/// Bundle1
290/// ...
291/// BundleN
292
293/// Read 8-byte integers from a buffer in little-endian format.
294static uint64_t Read8byteIntegerFromBuffer(StringRef Buffer, size_t pos) {
295 return llvm::support::endian::read64le(Buffer.data() + pos);
296}
297
298/// Write 8-byte integers to a buffer in little-endian format.
299static void Write8byteIntegerToBuffer(raw_ostream &OS, uint64_t Val) {
300 llvm::support::endian::write(OS, Val, llvm::endianness::little);
301}
302
303class BinaryFileHandler final : public FileHandler {
304 /// Information about the bundles extracted from the header.
305 struct BinaryBundleInfo final : public BundleInfo {
306 /// Size of the bundle.
307 uint64_t Size = 0u;
308 /// Offset at which the bundle starts in the bundled file.
309 uint64_t Offset = 0u;
310
311 BinaryBundleInfo() {}
312 BinaryBundleInfo(uint64_t Size, uint64_t Offset)
313 : Size(Size), Offset(Offset) {}
314 };
315
316 /// Map between a triple and the corresponding bundle information.
317 StringMap<BinaryBundleInfo> BundlesInfo;
318
319 /// Iterator for the bundle information that is being read.
320 StringMap<BinaryBundleInfo>::iterator CurBundleInfo;
321 StringMap<BinaryBundleInfo>::iterator NextBundleInfo;
322
323 /// Current bundle target to be written.
324 std::string CurWriteBundleTarget;
325
326 /// Configuration options and arrays for this bundler job
327 const OffloadBundlerConfig &BundlerConfig;
328
329public:
330 // TODO: Add error checking from ClangOffloadBundler.cpp
331 BinaryFileHandler(const OffloadBundlerConfig &BC) : BundlerConfig(BC) {}
332
333 ~BinaryFileHandler() final {}
334
335 Error ReadHeader(MemoryBuffer &Input) final {
336 StringRef FC = Input.getBuffer();
337
338 // Initialize the current bundle with the end of the container.
339 CurBundleInfo = BundlesInfo.end();
340
341 // Check if buffer is smaller than magic string.
342 size_t ReadChars = sizeof(OFFLOAD_BUNDLER_MAGIC_STR) - 1;
343 if (ReadChars > FC.size())
344 return Error::success();
345
346 // Check if no magic was found.
347 if (llvm::identify_magic(FC) != llvm::file_magic::offload_bundle)
348 return Error::success();
349
350 // Read number of bundles.
351 if (ReadChars + 8 > FC.size())
352 return Error::success();
353
354 uint64_t NumberOfBundles = Read8byteIntegerFromBuffer(FC, ReadChars);
355 ReadChars += 8;
356
357 // Read bundle offsets, sizes and triples.
358 for (uint64_t i = 0; i < NumberOfBundles; ++i) {
359
360 // Read offset.
361 if (ReadChars + 8 > FC.size())
362 return Error::success();
363
364 uint64_t Offset = Read8byteIntegerFromBuffer(FC, ReadChars);
365 ReadChars += 8;
366
367 // Read size.
368 if (ReadChars + 8 > FC.size())
369 return Error::success();
370
371 uint64_t Size = Read8byteIntegerFromBuffer(FC, ReadChars);
372 ReadChars += 8;
373
374 // Read triple size.
375 if (ReadChars + 8 > FC.size())
376 return Error::success();
377
378 uint64_t TripleSize = Read8byteIntegerFromBuffer(FC, ReadChars);
379 ReadChars += 8;
380
381 // Read triple.
382 if (ReadChars + TripleSize > FC.size())
383 return Error::success();
384
385 StringRef Triple(&FC.data()[ReadChars], TripleSize);
386 ReadChars += TripleSize;
387
388 // Check if the offset and size make sense.
389 if (!Offset || Offset + Size > FC.size())
390 return Error::success();
391
392 assert(!BundlesInfo.contains(Triple) && "Triple is duplicated??");
393 BundlesInfo[Triple] = BinaryBundleInfo(Size, Offset);
394 }
395 // Set the iterator to where we will start to read.
396 CurBundleInfo = BundlesInfo.end();
397 NextBundleInfo = BundlesInfo.begin();
398 return Error::success();
399 }
400
402 ReadBundleStart(MemoryBuffer &Input) final {
403 if (NextBundleInfo == BundlesInfo.end())
404 return std::nullopt;
405 CurBundleInfo = NextBundleInfo++;
406 return CurBundleInfo->first();
407 }
408
409 Error ReadBundleEnd(MemoryBuffer &Input) final {
410 assert(CurBundleInfo != BundlesInfo.end() && "Invalid reader info!");
411 return Error::success();
412 }
413
414 Error ReadBundle(raw_ostream &OS, MemoryBuffer &Input) final {
415 assert(CurBundleInfo != BundlesInfo.end() && "Invalid reader info!");
416 StringRef FC = Input.getBuffer();
417 OS.write(FC.data() + CurBundleInfo->second.Offset,
418 CurBundleInfo->second.Size);
419 return Error::success();
420 }
421
422 Error WriteHeader(raw_ostream &OS,
423 ArrayRef<std::unique_ptr<MemoryBuffer>> Inputs) final {
424
425 // Compute size of the header.
426 uint64_t HeaderSize = 0;
427
428 HeaderSize += sizeof(OFFLOAD_BUNDLER_MAGIC_STR) - 1;
429 HeaderSize += 8; // Number of Bundles
430
431 for (auto &T : BundlerConfig.TargetNames) {
432 HeaderSize += 3 * 8; // Bundle offset, Size of bundle and size of triple.
433 HeaderSize += T.size(); // The triple.
434 }
435
436 // Write to the buffer the header.
438
439 Write8byteIntegerToBuffer(OS, BundlerConfig.TargetNames.size());
440
441 unsigned Idx = 0;
442 for (auto &T : BundlerConfig.TargetNames) {
443 MemoryBuffer &MB = *Inputs[Idx++];
444 HeaderSize = alignTo(HeaderSize, BundlerConfig.BundleAlignment);
445 // Bundle offset.
446 Write8byteIntegerToBuffer(OS, HeaderSize);
447 // Size of the bundle (adds to the next bundle's offset)
448 Write8byteIntegerToBuffer(OS, MB.getBufferSize());
449 BundlesInfo[T] = BinaryBundleInfo(MB.getBufferSize(), HeaderSize);
450 HeaderSize += MB.getBufferSize();
451 // Size of the triple
452 Write8byteIntegerToBuffer(OS, T.size());
453 // Triple
454 OS << T;
455 }
456 return Error::success();
457 }
458
459 Error WriteBundleStart(raw_ostream &OS, StringRef TargetTriple) final {
460 CurWriteBundleTarget = TargetTriple.str();
461 return Error::success();
462 }
463
464 Error WriteBundleEnd(raw_ostream &OS, StringRef TargetTriple) final {
465 return Error::success();
466 }
467
468 Error WriteBundle(raw_ostream &OS, MemoryBuffer &Input) final {
469 auto BI = BundlesInfo[CurWriteBundleTarget];
470
471 // Pad with 0 to reach specified offset.
472 size_t CurrentPos = OS.tell();
473 size_t PaddingSize = BI.Offset > CurrentPos ? BI.Offset - CurrentPos : 0;
474 for (size_t I = 0; I < PaddingSize; ++I)
475 OS.write('\0');
476 assert(OS.tell() == BI.Offset);
477
478 OS.write(Input.getBufferStart(), Input.getBufferSize());
479
480 return Error::success();
481 }
482};
483
484// This class implements a list of temporary files that are removed upon
485// object destruction.
486class TempFileHandlerRAII {
487public:
488 ~TempFileHandlerRAII() {
489 for (const auto &File : Files)
490 sys::fs::remove(File);
491 }
492
493 // Creates temporary file with given contents.
494 Expected<StringRef> Create(std::optional<ArrayRef<char>> Contents) {
496 if (std::error_code EC =
497 sys::fs::createTemporaryFile("clang-offload-bundler", "tmp", File))
498 return createFileError(File, EC);
499 Files.push_front(File);
500
501 if (Contents) {
502 std::error_code EC;
503 raw_fd_ostream OS(File, EC);
504 if (EC)
505 return createFileError(File, EC);
506 OS.write(Contents->data(), Contents->size());
507 }
508 return Files.front().str();
509 }
510
511private:
512 std::forward_list<SmallString<128u>> Files;
513};
514
515/// Handler for object files. The bundles are organized by sections with a
516/// designated name.
517///
518/// To unbundle, we just copy the contents of the designated section.
519class ObjectFileHandler final : public FileHandler {
520
521 /// The object file we are currently dealing with.
522 std::unique_ptr<ObjectFile> Obj;
523
524 /// Return the input file contents.
525 StringRef getInputFileContents() const { return Obj->getData(); }
526
527 /// Return bundle name (<kind>-<triple>) if the provided section is an offload
528 /// section.
530 IsOffloadSection(SectionRef CurSection) {
531 Expected<StringRef> NameOrErr = CurSection.getName();
532 if (!NameOrErr)
533 return NameOrErr.takeError();
534
535 // If it does not start with the reserved suffix, just skip this section.
536 if (llvm::identify_magic(*NameOrErr) != llvm::file_magic::offload_bundle)
537 return std::nullopt;
538
539 // Return the triple that is right after the reserved prefix.
540 return NameOrErr->substr(sizeof(OFFLOAD_BUNDLER_MAGIC_STR) - 1);
541 }
542
543 /// Total number of inputs.
544 unsigned NumberOfInputs = 0;
545
546 /// Total number of processed inputs, i.e, inputs that were already
547 /// read from the buffers.
548 unsigned NumberOfProcessedInputs = 0;
549
550 /// Iterator of the current and next section.
551 section_iterator CurrentSection;
552 section_iterator NextSection;
553
554 /// Configuration options and arrays for this bundler job
555 const OffloadBundlerConfig &BundlerConfig;
556
557public:
558 // TODO: Add error checking from ClangOffloadBundler.cpp
559 ObjectFileHandler(std::unique_ptr<ObjectFile> ObjIn,
560 const OffloadBundlerConfig &BC)
561 : Obj(std::move(ObjIn)), CurrentSection(Obj->section_begin()),
562 NextSection(Obj->section_begin()), BundlerConfig(BC) {}
563
564 ~ObjectFileHandler() final {}
565
566 Error ReadHeader(MemoryBuffer &Input) final { return Error::success(); }
567
569 ReadBundleStart(MemoryBuffer &Input) final {
570 while (NextSection != Obj->section_end()) {
571 CurrentSection = NextSection;
572 ++NextSection;
573
574 // Check if the current section name starts with the reserved prefix. If
575 // so, return the triple.
577 IsOffloadSection(*CurrentSection);
578 if (!TripleOrErr)
579 return TripleOrErr.takeError();
580 if (*TripleOrErr)
581 return **TripleOrErr;
582 }
583 return std::nullopt;
584 }
585
586 Error ReadBundleEnd(MemoryBuffer &Input) final { return Error::success(); }
587
588 Error ReadBundle(raw_ostream &OS, MemoryBuffer &Input) final {
589 Expected<StringRef> ContentOrErr = CurrentSection->getContents();
590 if (!ContentOrErr)
591 return ContentOrErr.takeError();
592 StringRef Content = *ContentOrErr;
593
594 // Copy fat object contents to the output when extracting host bundle.
595 std::string ModifiedContent;
596 if (Content.size() == 1u && Content.front() == 0) {
597 auto HostBundleOrErr = getHostBundle(
598 StringRef(Input.getBufferStart(), Input.getBufferSize()));
599 if (!HostBundleOrErr)
600 return HostBundleOrErr.takeError();
601
602 ModifiedContent = std::move(*HostBundleOrErr);
603 Content = ModifiedContent;
604 }
605
606 OS.write(Content.data(), Content.size());
607 return Error::success();
608 }
609
610 Error WriteHeader(raw_ostream &OS,
611 ArrayRef<std::unique_ptr<MemoryBuffer>> Inputs) final {
612 assert(BundlerConfig.HostInputIndex != ~0u &&
613 "Host input index not defined.");
614
615 // Record number of inputs.
616 NumberOfInputs = Inputs.size();
617 return Error::success();
618 }
619
620 Error WriteBundleStart(raw_ostream &OS, StringRef TargetTriple) final {
621 ++NumberOfProcessedInputs;
622 return Error::success();
623 }
624
625 Error WriteBundleEnd(raw_ostream &OS, StringRef TargetTriple) final {
626 return Error::success();
627 }
628
629 Error finalizeOutputFile() final {
630 assert(NumberOfProcessedInputs <= NumberOfInputs &&
631 "Processing more inputs that actually exist!");
632 assert(BundlerConfig.HostInputIndex != ~0u &&
633 "Host input index not defined.");
634
635 // If this is not the last output, we don't have to do anything.
636 if (NumberOfProcessedInputs != NumberOfInputs)
637 return Error::success();
638
639 // We will use llvm-objcopy to add target objects sections to the output
640 // fat object. These sections should have 'exclude' flag set which tells
641 // link editor to remove them from linker inputs when linking executable or
642 // shared library.
643
644 assert(BundlerConfig.ObjcopyPath != "" &&
645 "llvm-objcopy path not specified");
646
647 // Temporary files that need to be removed.
648 TempFileHandlerRAII TempFiles;
649
650 // Compose llvm-objcopy command line for add target objects' sections with
651 // appropriate flags.
652 BumpPtrAllocator Alloc;
653 StringSaver SS{Alloc};
654 SmallVector<StringRef, 8u> ObjcopyArgs{"llvm-objcopy"};
655
656 for (unsigned I = 0; I < NumberOfInputs; ++I) {
657 StringRef InputFile = BundlerConfig.InputFileNames[I];
658 if (I == BundlerConfig.HostInputIndex) {
659 // Special handling for the host bundle. We do not need to add a
660 // standard bundle for the host object since we are going to use fat
661 // object as a host object. Therefore use dummy contents (one zero byte)
662 // when creating section for the host bundle.
663 Expected<StringRef> TempFileOrErr = TempFiles.Create(ArrayRef<char>(0));
664 if (!TempFileOrErr)
665 return TempFileOrErr.takeError();
666 InputFile = *TempFileOrErr;
667 }
668
669 ObjcopyArgs.push_back(
670 SS.save(Twine("--add-section=") + OFFLOAD_BUNDLER_MAGIC_STR +
671 BundlerConfig.TargetNames[I] + "=" + InputFile));
672 ObjcopyArgs.push_back(
673 SS.save(Twine("--set-section-flags=") + OFFLOAD_BUNDLER_MAGIC_STR +
674 BundlerConfig.TargetNames[I] + "=readonly,exclude"));
675 }
676 ObjcopyArgs.push_back("--");
677 ObjcopyArgs.push_back(
678 BundlerConfig.InputFileNames[BundlerConfig.HostInputIndex]);
679 ObjcopyArgs.push_back(BundlerConfig.OutputFileNames.front());
680
681 if (Error Err = executeObjcopy(BundlerConfig.ObjcopyPath, ObjcopyArgs))
682 return Err;
683
684 return Error::success();
685 }
686
687 Error WriteBundle(raw_ostream &OS, MemoryBuffer &Input) final {
688 return Error::success();
689 }
690
691private:
692 Error executeObjcopy(StringRef Objcopy, ArrayRef<StringRef> Args) {
693 // If the user asked for the commands to be printed out, we do that
694 // instead of executing it.
695 if (BundlerConfig.PrintExternalCommands) {
696 errs() << "\"" << Objcopy << "\"";
697 for (StringRef Arg : drop_begin(Args, 1))
698 errs() << " \"" << Arg << "\"";
699 errs() << "\n";
700 } else {
701 if (sys::ExecuteAndWait(Objcopy, Args))
702 return createStringError(inconvertibleErrorCode(),
703 "'llvm-objcopy' tool failed");
704 }
705 return Error::success();
706 }
707
708 Expected<std::string> getHostBundle(StringRef Input) {
709 TempFileHandlerRAII TempFiles;
710
711 auto ModifiedObjPathOrErr = TempFiles.Create(std::nullopt);
712 if (!ModifiedObjPathOrErr)
713 return ModifiedObjPathOrErr.takeError();
714 StringRef ModifiedObjPath = *ModifiedObjPathOrErr;
715
716 BumpPtrAllocator Alloc;
717 StringSaver SS{Alloc};
718 SmallVector<StringRef, 16> ObjcopyArgs{"llvm-objcopy"};
719
720 ObjcopyArgs.push_back("--regex");
721 ObjcopyArgs.push_back("--remove-section=__CLANG_OFFLOAD_BUNDLE__.*");
722 ObjcopyArgs.push_back("--");
723
724 StringRef ObjcopyInputFileName;
725 // When unbundling an archive, the content of each object file in the
726 // archive is passed to this function by parameter Input, which is different
727 // from the content of the original input archive file, therefore it needs
728 // to be saved to a temporary file before passed to llvm-objcopy. Otherwise,
729 // Input is the same as the content of the original input file, therefore
730 // temporary file is not needed.
731 if (StringRef(BundlerConfig.FilesType).starts_with("a")) {
732 auto InputFileOrErr =
733 TempFiles.Create(ArrayRef<char>(Input.data(), Input.size()));
734 if (!InputFileOrErr)
735 return InputFileOrErr.takeError();
736 ObjcopyInputFileName = *InputFileOrErr;
737 } else
738 ObjcopyInputFileName = BundlerConfig.InputFileNames.front();
739
740 ObjcopyArgs.push_back(ObjcopyInputFileName);
741 ObjcopyArgs.push_back(ModifiedObjPath);
742
743 if (Error Err = executeObjcopy(BundlerConfig.ObjcopyPath, ObjcopyArgs))
744 return std::move(Err);
745
746 auto BufOrErr = MemoryBuffer::getFile(ModifiedObjPath);
747 if (!BufOrErr)
748 return createStringError(BufOrErr.getError(),
749 "Failed to read back the modified object file");
750
751 return BufOrErr->get()->getBuffer().str();
752 }
753};
754
755/// Handler for text files. The bundled file will have the following format.
756///
757/// "Comment OFFLOAD_BUNDLER_MAGIC_STR__START__ triple"
758/// Bundle 1
759/// "Comment OFFLOAD_BUNDLER_MAGIC_STR__END__ triple"
760/// ...
761/// "Comment OFFLOAD_BUNDLER_MAGIC_STR__START__ triple"
762/// Bundle N
763/// "Comment OFFLOAD_BUNDLER_MAGIC_STR__END__ triple"
764class TextFileHandler final : public FileHandler {
765 /// String that begins a line comment.
766 StringRef Comment;
767
768 /// String that initiates a bundle.
769 std::string BundleStartString;
770
771 /// String that closes a bundle.
772 std::string BundleEndString;
773
774 /// Number of chars read from input.
775 size_t ReadChars = 0u;
776
777protected:
778 Error ReadHeader(MemoryBuffer &Input) final { return Error::success(); }
779
781 ReadBundleStart(MemoryBuffer &Input) final {
782 StringRef FC = Input.getBuffer();
783
784 // Find start of the bundle.
785 ReadChars = FC.find(BundleStartString, ReadChars);
786 if (ReadChars == FC.npos)
787 return std::nullopt;
788
789 // Get position of the triple.
790 size_t TripleStart = ReadChars = ReadChars + BundleStartString.size();
791
792 // Get position that closes the triple.
793 size_t TripleEnd = ReadChars = FC.find("\n", ReadChars);
794 if (TripleEnd == FC.npos)
795 return std::nullopt;
796
797 // Next time we read after the new line.
798 ++ReadChars;
799
800 return StringRef(&FC.data()[TripleStart], TripleEnd - TripleStart);
801 }
802
803 Error ReadBundleEnd(MemoryBuffer &Input) final {
804 StringRef FC = Input.getBuffer();
805
806 // Read up to the next new line.
807 assert(FC[ReadChars] == '\n' && "The bundle should end with a new line.");
808
809 size_t TripleEnd = ReadChars = FC.find("\n", ReadChars + 1);
810 if (TripleEnd != FC.npos)
811 // Next time we read after the new line.
812 ++ReadChars;
813
814 return Error::success();
815 }
816
817 Error ReadBundle(raw_ostream &OS, MemoryBuffer &Input) final {
818 StringRef FC = Input.getBuffer();
819 size_t BundleStart = ReadChars;
820
821 // Find end of the bundle.
822 size_t BundleEnd = ReadChars = FC.find(BundleEndString, ReadChars);
823
824 StringRef Bundle(&FC.data()[BundleStart], BundleEnd - BundleStart);
825 OS << Bundle;
826
827 return Error::success();
828 }
829
830 Error WriteHeader(raw_ostream &OS,
831 ArrayRef<std::unique_ptr<MemoryBuffer>> Inputs) final {
832 return Error::success();
833 }
834
835 Error WriteBundleStart(raw_ostream &OS, StringRef TargetTriple) final {
836 OS << BundleStartString << TargetTriple << "\n";
837 return Error::success();
838 }
839
840 Error WriteBundleEnd(raw_ostream &OS, StringRef TargetTriple) final {
841 OS << BundleEndString << TargetTriple << "\n";
842 return Error::success();
843 }
844
845 Error WriteBundle(raw_ostream &OS, MemoryBuffer &Input) final {
846 OS << Input.getBuffer();
847 return Error::success();
848 }
849
850public:
851 TextFileHandler(StringRef Comment) : Comment(Comment), ReadChars(0) {
852 BundleStartString =
853 "\n" + Comment.str() + " " OFFLOAD_BUNDLER_MAGIC_STR "__START__ ";
854 BundleEndString =
855 "\n" + Comment.str() + " " OFFLOAD_BUNDLER_MAGIC_STR "__END__ ";
856 }
857
858 Error listBundleIDsCallback(MemoryBuffer &Input,
859 const BundleInfo &Info) final {
860 // TODO: To list bundle IDs in a bundled text file we need to go through
861 // all bundles. The format of bundled text file may need to include a
862 // header if the performance of listing bundle IDs of bundled text file is
863 // important.
864 ReadChars = Input.getBuffer().find(BundleEndString, ReadChars);
865 if (Error Err = ReadBundleEnd(Input))
866 return Err;
867 return Error::success();
868 }
869};
870} // namespace
871
872/// Return an appropriate object file handler. We use the specific object
873/// handler if we know how to deal with that format, otherwise we use a default
874/// binary file handler.
875static std::unique_ptr<FileHandler>
876CreateObjectFileHandler(MemoryBuffer &FirstInput,
877 const OffloadBundlerConfig &BundlerConfig) {
878 // Check if the input file format is one that we know how to deal with.
879 Expected<std::unique_ptr<Binary>> BinaryOrErr = createBinary(FirstInput);
880
881 // We only support regular object files. If failed to open the input as a
882 // known binary or this is not an object file use the default binary handler.
883 if (errorToBool(BinaryOrErr.takeError()) || !isa<ObjectFile>(*BinaryOrErr))
884 return std::make_unique<BinaryFileHandler>(BundlerConfig);
885
886 // Otherwise create an object file handler. The handler will be owned by the
887 // client of this function.
888 return std::make_unique<ObjectFileHandler>(
889 std::unique_ptr<ObjectFile>(cast<ObjectFile>(BinaryOrErr->release())),
890 BundlerConfig);
891}
892
893/// Return an appropriate handler given the input files and options.
895CreateFileHandler(MemoryBuffer &FirstInput,
896 const OffloadBundlerConfig &BundlerConfig) {
897 std::string FilesType = BundlerConfig.FilesType;
898
899 if (FilesType == "i")
900 return std::make_unique<TextFileHandler>(/*Comment=*/"//");
901 if (FilesType == "ii")
902 return std::make_unique<TextFileHandler>(/*Comment=*/"//");
903 if (FilesType == "cui")
904 return std::make_unique<TextFileHandler>(/*Comment=*/"//");
905 if (FilesType == "hipi")
906 return std::make_unique<TextFileHandler>(/*Comment=*/"//");
907 // TODO: `.d` should be eventually removed once `-M` and its variants are
908 // handled properly in offload compilation.
909 if (FilesType == "d")
910 return std::make_unique<TextFileHandler>(/*Comment=*/"#");
911 if (FilesType == "ll")
912 return std::make_unique<TextFileHandler>(/*Comment=*/";");
913 if (FilesType == "bc")
914 return std::make_unique<BinaryFileHandler>(BundlerConfig);
915 if (FilesType == "s")
916 return std::make_unique<TextFileHandler>(/*Comment=*/"#");
917 if (FilesType == "o")
918 return CreateObjectFileHandler(FirstInput, BundlerConfig);
919 if (FilesType == "a")
920 return CreateObjectFileHandler(FirstInput, BundlerConfig);
921 if (FilesType == "gch")
922 return std::make_unique<BinaryFileHandler>(BundlerConfig);
923 if (FilesType == "ast")
924 return std::make_unique<BinaryFileHandler>(BundlerConfig);
925
926 return createStringError(errc::invalid_argument,
927 "'" + FilesType + "': invalid file type specified");
928}
929
931 if (llvm::compression::zstd::isAvailable()) {
932 CompressionFormat = llvm::compression::Format::Zstd;
933 // Compression level 3 is usually sufficient for zstd since long distance
934 // matching is enabled.
936 } else if (llvm::compression::zlib::isAvailable()) {
937 CompressionFormat = llvm::compression::Format::Zlib;
938 // Use default level for zlib since higher level does not have significant
939 // improvement.
940 CompressionLevel = llvm::compression::zlib::DefaultCompression;
941 }
942 auto IgnoreEnvVarOpt =
943 llvm::sys::Process::GetEnv("OFFLOAD_BUNDLER_IGNORE_ENV_VAR");
944 if (IgnoreEnvVarOpt.has_value() && IgnoreEnvVarOpt.value() == "1")
945 return;
946
947 auto VerboseEnvVarOpt = llvm::sys::Process::GetEnv("OFFLOAD_BUNDLER_VERBOSE");
948 if (VerboseEnvVarOpt.has_value())
949 Verbose = VerboseEnvVarOpt.value() == "1";
950
951 auto CompressEnvVarOpt =
952 llvm::sys::Process::GetEnv("OFFLOAD_BUNDLER_COMPRESS");
953 if (CompressEnvVarOpt.has_value())
954 Compress = CompressEnvVarOpt.value() == "1";
955
956 auto CompressionLevelEnvVarOpt =
957 llvm::sys::Process::GetEnv("OFFLOAD_BUNDLER_COMPRESSION_LEVEL");
958 if (CompressionLevelEnvVarOpt.has_value()) {
959 llvm::StringRef CompressionLevelStr = CompressionLevelEnvVarOpt.value();
960 int Level;
961 if (!CompressionLevelStr.getAsInteger(10, Level))
962 CompressionLevel = Level;
963 else
964 llvm::errs()
965 << "Warning: Invalid value for OFFLOAD_BUNDLER_COMPRESSION_LEVEL: "
966 << CompressionLevelStr.str() << ". Ignoring it.\n";
967 }
968}
969
970// Utility function to format numbers with commas
971static std::string formatWithCommas(unsigned long long Value) {
972 std::string Num = std::to_string(Value);
973 int InsertPosition = Num.length() - 3;
974 while (InsertPosition > 0) {
975 Num.insert(InsertPosition, ",");
976 InsertPosition -= 3;
977 }
978 return Num;
979}
980
982CompressedOffloadBundle::compress(llvm::compression::Params P,
983 const llvm::MemoryBuffer &Input,
984 bool Verbose) {
985 if (!llvm::compression::zstd::isAvailable() &&
986 !llvm::compression::zlib::isAvailable())
987 return createStringError(llvm::inconvertibleErrorCode(),
988 "Compression not supported");
989
990 llvm::Timer HashTimer("Hash Calculation Timer", "Hash calculation time",
992 if (Verbose)
993 HashTimer.startTimer();
994 llvm::MD5 Hash;
995 llvm::MD5::MD5Result Result;
996 Hash.update(Input.getBuffer());
997 Hash.final(Result);
998 uint64_t TruncatedHash = Result.low();
999 if (Verbose)
1000 HashTimer.stopTimer();
1001
1002 SmallVector<uint8_t, 0> CompressedBuffer;
1003 auto BufferUint8 = llvm::ArrayRef<uint8_t>(
1004 reinterpret_cast<const uint8_t *>(Input.getBuffer().data()),
1005 Input.getBuffer().size());
1006
1007 llvm::Timer CompressTimer("Compression Timer", "Compression time",
1009 if (Verbose)
1010 CompressTimer.startTimer();
1011 llvm::compression::compress(P, BufferUint8, CompressedBuffer);
1012 if (Verbose)
1013 CompressTimer.stopTimer();
1014
1015 uint16_t CompressionMethod = static_cast<uint16_t>(P.format);
1016 uint32_t UncompressedSize = Input.getBuffer().size();
1017 uint32_t TotalFileSize = MagicNumber.size() + sizeof(TotalFileSize) +
1018 sizeof(Version) + sizeof(CompressionMethod) +
1019 sizeof(UncompressedSize) + sizeof(TruncatedHash) +
1020 CompressedBuffer.size();
1021
1022 SmallVector<char, 0> FinalBuffer;
1023 llvm::raw_svector_ostream OS(FinalBuffer);
1024 OS << MagicNumber;
1025 OS.write(reinterpret_cast<const char *>(&Version), sizeof(Version));
1026 OS.write(reinterpret_cast<const char *>(&CompressionMethod),
1027 sizeof(CompressionMethod));
1028 OS.write(reinterpret_cast<const char *>(&TotalFileSize),
1029 sizeof(TotalFileSize));
1030 OS.write(reinterpret_cast<const char *>(&UncompressedSize),
1031 sizeof(UncompressedSize));
1032 OS.write(reinterpret_cast<const char *>(&TruncatedHash),
1033 sizeof(TruncatedHash));
1034 OS.write(reinterpret_cast<const char *>(CompressedBuffer.data()),
1035 CompressedBuffer.size());
1036
1037 if (Verbose) {
1038 auto MethodUsed =
1039 P.format == llvm::compression::Format::Zstd ? "zstd" : "zlib";
1040 double CompressionRate =
1041 static_cast<double>(UncompressedSize) / CompressedBuffer.size();
1042 double CompressionTimeSeconds = CompressTimer.getTotalTime().getWallTime();
1043 double CompressionSpeedMBs =
1044 (UncompressedSize / (1024.0 * 1024.0)) / CompressionTimeSeconds;
1045
1046 llvm::errs() << "Compressed bundle format version: " << Version << "\n"
1047 << "Total file size (including headers): "
1048 << formatWithCommas(TotalFileSize) << " bytes\n"
1049 << "Compression method used: " << MethodUsed << "\n"
1050 << "Compression level: " << P.level << "\n"
1051 << "Binary size before compression: "
1052 << formatWithCommas(UncompressedSize) << " bytes\n"
1053 << "Binary size after compression: "
1054 << formatWithCommas(CompressedBuffer.size()) << " bytes\n"
1055 << "Compression rate: "
1056 << llvm::format("%.2lf", CompressionRate) << "\n"
1057 << "Compression ratio: "
1058 << llvm::format("%.2lf%%", 100.0 / CompressionRate) << "\n"
1059 << "Compression speed: "
1060 << llvm::format("%.2lf MB/s", CompressionSpeedMBs) << "\n"
1061 << "Truncated MD5 hash: "
1062 << llvm::format_hex(TruncatedHash, 16) << "\n";
1063 }
1064 return llvm::MemoryBuffer::getMemBufferCopy(
1065 llvm::StringRef(FinalBuffer.data(), FinalBuffer.size()));
1066}
1067
1069CompressedOffloadBundle::decompress(const llvm::MemoryBuffer &Input,
1070 bool Verbose) {
1071
1072 StringRef Blob = Input.getBuffer();
1073
1074 if (Blob.size() < V1HeaderSize)
1075 return llvm::MemoryBuffer::getMemBufferCopy(Blob);
1076
1077 if (llvm::identify_magic(Blob) !=
1078 llvm::file_magic::offload_bundle_compressed) {
1079 if (Verbose)
1080 llvm::errs() << "Uncompressed bundle.\n";
1081 return llvm::MemoryBuffer::getMemBufferCopy(Blob);
1082 }
1083
1084 size_t CurrentOffset = MagicSize;
1085
1086 uint16_t ThisVersion;
1087 memcpy(&ThisVersion, Blob.data() + CurrentOffset, sizeof(uint16_t));
1088 CurrentOffset += VersionFieldSize;
1089
1090 uint16_t CompressionMethod;
1091 memcpy(&CompressionMethod, Blob.data() + CurrentOffset, sizeof(uint16_t));
1092 CurrentOffset += MethodFieldSize;
1093
1094 uint32_t TotalFileSize;
1095 if (ThisVersion >= 2) {
1096 if (Blob.size() < V2HeaderSize)
1097 return createStringError(inconvertibleErrorCode(),
1098 "Compressed bundle header size too small");
1099 memcpy(&TotalFileSize, Blob.data() + CurrentOffset, sizeof(uint32_t));
1100 CurrentOffset += FileSizeFieldSize;
1101 }
1102
1103 uint32_t UncompressedSize;
1104 memcpy(&UncompressedSize, Blob.data() + CurrentOffset, sizeof(uint32_t));
1105 CurrentOffset += UncompressedSizeFieldSize;
1106
1107 uint64_t StoredHash;
1108 memcpy(&StoredHash, Blob.data() + CurrentOffset, sizeof(uint64_t));
1109 CurrentOffset += HashFieldSize;
1110
1111 llvm::compression::Format CompressionFormat;
1112 if (CompressionMethod ==
1113 static_cast<uint16_t>(llvm::compression::Format::Zlib))
1114 CompressionFormat = llvm::compression::Format::Zlib;
1115 else if (CompressionMethod ==
1116 static_cast<uint16_t>(llvm::compression::Format::Zstd))
1117 CompressionFormat = llvm::compression::Format::Zstd;
1118 else
1119 return createStringError(inconvertibleErrorCode(),
1120 "Unknown compressing method");
1121
1122 llvm::Timer DecompressTimer("Decompression Timer", "Decompression time",
1124 if (Verbose)
1125 DecompressTimer.startTimer();
1126
1127 SmallVector<uint8_t, 0> DecompressedData;
1128 StringRef CompressedData = Blob.substr(CurrentOffset);
1129 if (llvm::Error DecompressionError = llvm::compression::decompress(
1130 CompressionFormat, llvm::arrayRefFromStringRef(CompressedData),
1131 DecompressedData, UncompressedSize))
1132 return createStringError(inconvertibleErrorCode(),
1133 "Could not decompress embedded file contents: " +
1134 llvm::toString(std::move(DecompressionError)));
1135
1136 if (Verbose) {
1137 DecompressTimer.stopTimer();
1138
1139 double DecompressionTimeSeconds =
1140 DecompressTimer.getTotalTime().getWallTime();
1141
1142 // Recalculate MD5 hash for integrity check
1143 llvm::Timer HashRecalcTimer("Hash Recalculation Timer",
1144 "Hash recalculation time",
1146 HashRecalcTimer.startTimer();
1147 llvm::MD5 Hash;
1148 llvm::MD5::MD5Result Result;
1149 Hash.update(llvm::ArrayRef<uint8_t>(DecompressedData.data(),
1150 DecompressedData.size()));
1151 Hash.final(Result);
1152 uint64_t RecalculatedHash = Result.low();
1153 HashRecalcTimer.stopTimer();
1154 bool HashMatch = (StoredHash == RecalculatedHash);
1155
1156 double CompressionRate =
1157 static_cast<double>(UncompressedSize) / CompressedData.size();
1158 double DecompressionSpeedMBs =
1159 (UncompressedSize / (1024.0 * 1024.0)) / DecompressionTimeSeconds;
1160
1161 llvm::errs() << "Compressed bundle format version: " << ThisVersion << "\n";
1162 if (ThisVersion >= 2)
1163 llvm::errs() << "Total file size (from header): "
1164 << formatWithCommas(TotalFileSize) << " bytes\n";
1165 llvm::errs() << "Decompression method: "
1166 << (CompressionFormat == llvm::compression::Format::Zlib
1167 ? "zlib"
1168 : "zstd")
1169 << "\n"
1170 << "Size before decompression: "
1171 << formatWithCommas(CompressedData.size()) << " bytes\n"
1172 << "Size after decompression: "
1173 << formatWithCommas(UncompressedSize) << " bytes\n"
1174 << "Compression rate: "
1175 << llvm::format("%.2lf", CompressionRate) << "\n"
1176 << "Compression ratio: "
1177 << llvm::format("%.2lf%%", 100.0 / CompressionRate) << "\n"
1178 << "Decompression speed: "
1179 << llvm::format("%.2lf MB/s", DecompressionSpeedMBs) << "\n"
1180 << "Stored hash: " << llvm::format_hex(StoredHash, 16) << "\n"
1181 << "Recalculated hash: "
1182 << llvm::format_hex(RecalculatedHash, 16) << "\n"
1183 << "Hashes match: " << (HashMatch ? "Yes" : "No") << "\n";
1184 }
1185
1186 return llvm::MemoryBuffer::getMemBufferCopy(
1187 llvm::toStringRef(DecompressedData));
1188}
1189
1190// List bundle IDs. Return true if an error was found.
1192 StringRef InputFileName, const OffloadBundlerConfig &BundlerConfig) {
1193 // Open Input file.
1194 ErrorOr<std::unique_ptr<MemoryBuffer>> CodeOrErr =
1195 MemoryBuffer::getFileOrSTDIN(InputFileName);
1196 if (std::error_code EC = CodeOrErr.getError())
1197 return createFileError(InputFileName, EC);
1198
1199 // Decompress the input if necessary.
1200 Expected<std::unique_ptr<MemoryBuffer>> DecompressedBufferOrErr =
1202 if (!DecompressedBufferOrErr)
1203 return createStringError(
1204 inconvertibleErrorCode(),
1205 "Failed to decompress input: " +
1206 llvm::toString(DecompressedBufferOrErr.takeError()));
1207
1208 MemoryBuffer &DecompressedInput = **DecompressedBufferOrErr;
1209
1210 // Select the right files handler.
1211 Expected<std::unique_ptr<FileHandler>> FileHandlerOrErr =
1212 CreateFileHandler(DecompressedInput, BundlerConfig);
1213 if (!FileHandlerOrErr)
1214 return FileHandlerOrErr.takeError();
1215
1216 std::unique_ptr<FileHandler> &FH = *FileHandlerOrErr;
1217 assert(FH);
1218 return FH->listBundleIDs(DecompressedInput);
1219}
1220
1221/// @brief Checks if a code object \p CodeObjectInfo is compatible with a given
1222/// target \p TargetInfo.
1223/// @link https://clang.llvm.org/docs/ClangOffloadBundler.html#bundle-entry-id
1226
1227 // Compatible in case of exact match.
1228 if (CodeObjectInfo == TargetInfo) {
1229 DEBUG_WITH_TYPE("CodeObjectCompatibility",
1230 dbgs() << "Compatible: Exact match: \t[CodeObject: "
1231 << CodeObjectInfo.str()
1232 << "]\t:\t[Target: " << TargetInfo.str() << "]\n");
1233 return true;
1234 }
1235
1236 // Incompatible if Kinds or Triples mismatch.
1237 if (!CodeObjectInfo.isOffloadKindCompatible(TargetInfo.OffloadKind) ||
1238 !CodeObjectInfo.Triple.isCompatibleWith(TargetInfo.Triple)) {
1239 DEBUG_WITH_TYPE(
1240 "CodeObjectCompatibility",
1241 dbgs() << "Incompatible: Kind/Triple mismatch \t[CodeObject: "
1242 << CodeObjectInfo.str() << "]\t:\t[Target: " << TargetInfo.str()
1243 << "]\n");
1244 return false;
1245 }
1246
1247 // Incompatible if Processors mismatch.
1248 llvm::StringMap<bool> CodeObjectFeatureMap, TargetFeatureMap;
1249 std::optional<StringRef> CodeObjectProc = clang::parseTargetID(
1250 CodeObjectInfo.Triple, CodeObjectInfo.TargetID, &CodeObjectFeatureMap);
1251 std::optional<StringRef> TargetProc = clang::parseTargetID(
1252 TargetInfo.Triple, TargetInfo.TargetID, &TargetFeatureMap);
1253
1254 // Both TargetProc and CodeObjectProc can't be empty here.
1255 if (!TargetProc || !CodeObjectProc ||
1256 CodeObjectProc.value() != TargetProc.value()) {
1257 DEBUG_WITH_TYPE("CodeObjectCompatibility",
1258 dbgs() << "Incompatible: Processor mismatch \t[CodeObject: "
1259 << CodeObjectInfo.str()
1260 << "]\t:\t[Target: " << TargetInfo.str() << "]\n");
1261 return false;
1262 }
1263
1264 // Incompatible if CodeObject has more features than Target, irrespective of
1265 // type or sign of features.
1266 if (CodeObjectFeatureMap.getNumItems() > TargetFeatureMap.getNumItems()) {
1267 DEBUG_WITH_TYPE("CodeObjectCompatibility",
1268 dbgs() << "Incompatible: CodeObject has more features "
1269 "than target \t[CodeObject: "
1270 << CodeObjectInfo.str()
1271 << "]\t:\t[Target: " << TargetInfo.str() << "]\n");
1272 return false;
1273 }
1274
1275 // Compatible if each target feature specified by target is compatible with
1276 // target feature of code object. The target feature is compatible if the
1277 // code object does not specify it (meaning Any), or if it specifies it
1278 // with the same value (meaning On or Off).
1279 for (const auto &CodeObjectFeature : CodeObjectFeatureMap) {
1280 auto TargetFeature = TargetFeatureMap.find(CodeObjectFeature.getKey());
1281 if (TargetFeature == TargetFeatureMap.end()) {
1282 DEBUG_WITH_TYPE(
1283 "CodeObjectCompatibility",
1284 dbgs()
1285 << "Incompatible: Value of CodeObject's non-ANY feature is "
1286 "not matching with Target feature's ANY value \t[CodeObject: "
1287 << CodeObjectInfo.str() << "]\t:\t[Target: " << TargetInfo.str()
1288 << "]\n");
1289 return false;
1290 } else if (TargetFeature->getValue() != CodeObjectFeature.getValue()) {
1291 DEBUG_WITH_TYPE(
1292 "CodeObjectCompatibility",
1293 dbgs() << "Incompatible: Value of CodeObject's non-ANY feature is "
1294 "not matching with Target feature's non-ANY value "
1295 "\t[CodeObject: "
1296 << CodeObjectInfo.str()
1297 << "]\t:\t[Target: " << TargetInfo.str() << "]\n");
1298 return false;
1299 }
1300 }
1301
1302 // CodeObject is compatible if all features of Target are:
1303 // - either, present in the Code Object's features map with the same sign,
1304 // - or, the feature is missing from CodeObjects's features map i.e. it is
1305 // set to ANY
1306 DEBUG_WITH_TYPE(
1307 "CodeObjectCompatibility",
1308 dbgs() << "Compatible: Target IDs are compatible \t[CodeObject: "
1309 << CodeObjectInfo.str() << "]\t:\t[Target: " << TargetInfo.str()
1310 << "]\n");
1311 return true;
1312}
1313
1314/// Bundle the files. Return true if an error was found.
1316 std::error_code EC;
1317
1318 // Create a buffer to hold the content before compressing.
1319 SmallVector<char, 0> Buffer;
1320 llvm::raw_svector_ostream BufferStream(Buffer);
1321
1322 // Open input files.
1324 InputBuffers.reserve(BundlerConfig.InputFileNames.size());
1325 for (auto &I : BundlerConfig.InputFileNames) {
1326 ErrorOr<std::unique_ptr<MemoryBuffer>> CodeOrErr =
1327 MemoryBuffer::getFileOrSTDIN(I);
1328 if (std::error_code EC = CodeOrErr.getError())
1329 return createFileError(I, EC);
1330 InputBuffers.emplace_back(std::move(*CodeOrErr));
1331 }
1332
1333 // Get the file handler. We use the host buffer as reference.
1335 "Host input index undefined??");
1337 *InputBuffers[BundlerConfig.AllowNoHost ? 0
1340 if (!FileHandlerOrErr)
1341 return FileHandlerOrErr.takeError();
1342
1343 std::unique_ptr<FileHandler> &FH = *FileHandlerOrErr;
1344 assert(FH);
1345
1346 // Write header.
1347 if (Error Err = FH->WriteHeader(BufferStream, InputBuffers))
1348 return Err;
1349
1350 // Write all bundles along with the start/end markers. If an error was found
1351 // writing the end of the bundle component, abort the bundle writing.
1352 auto Input = InputBuffers.begin();
1353 for (auto &Triple : BundlerConfig.TargetNames) {
1354 if (Error Err = FH->WriteBundleStart(BufferStream, Triple))
1355 return Err;
1356 if (Error Err = FH->WriteBundle(BufferStream, **Input))
1357 return Err;
1358 if (Error Err = FH->WriteBundleEnd(BufferStream, Triple))
1359 return Err;
1360 ++Input;
1361 }
1362
1363 raw_fd_ostream OutputFile(BundlerConfig.OutputFileNames.front(), EC,
1364 sys::fs::OF_None);
1365 if (EC)
1366 return createFileError(BundlerConfig.OutputFileNames.front(), EC);
1367
1368 SmallVector<char, 0> CompressedBuffer;
1369 if (BundlerConfig.Compress) {
1370 std::unique_ptr<llvm::MemoryBuffer> BufferMemory =
1371 llvm::MemoryBuffer::getMemBufferCopy(
1372 llvm::StringRef(Buffer.data(), Buffer.size()));
1373 auto CompressionResult = CompressedOffloadBundle::compress(
1375 /*zstdEnableLdm=*/true},
1376 *BufferMemory, BundlerConfig.Verbose);
1377 if (auto Error = CompressionResult.takeError())
1378 return Error;
1379
1380 auto CompressedMemBuffer = std::move(CompressionResult.get());
1381 CompressedBuffer.assign(CompressedMemBuffer->getBufferStart(),
1382 CompressedMemBuffer->getBufferEnd());
1383 } else
1384 CompressedBuffer = Buffer;
1385
1386 OutputFile.write(CompressedBuffer.data(), CompressedBuffer.size());
1387
1388 return FH->finalizeOutputFile();
1389}
1390
1391// Unbundle the files. Return true if an error was found.
1393 // Open Input file.
1394 ErrorOr<std::unique_ptr<MemoryBuffer>> CodeOrErr =
1395 MemoryBuffer::getFileOrSTDIN(BundlerConfig.InputFileNames.front());
1396 if (std::error_code EC = CodeOrErr.getError())
1397 return createFileError(BundlerConfig.InputFileNames.front(), EC);
1398
1399 // Decompress the input if necessary.
1400 Expected<std::unique_ptr<MemoryBuffer>> DecompressedBufferOrErr =
1402 if (!DecompressedBufferOrErr)
1403 return createStringError(
1404 inconvertibleErrorCode(),
1405 "Failed to decompress input: " +
1406 llvm::toString(DecompressedBufferOrErr.takeError()));
1407
1408 MemoryBuffer &Input = **DecompressedBufferOrErr;
1409
1410 // Select the right files handler.
1411 Expected<std::unique_ptr<FileHandler>> FileHandlerOrErr =
1413 if (!FileHandlerOrErr)
1414 return FileHandlerOrErr.takeError();
1415
1416 std::unique_ptr<FileHandler> &FH = *FileHandlerOrErr;
1417 assert(FH);
1418
1419 // Read the header of the bundled file.
1420 if (Error Err = FH->ReadHeader(Input))
1421 return Err;
1422
1423 // Create a work list that consist of the map triple/output file.
1424 StringMap<StringRef> Worklist;
1425 auto Output = BundlerConfig.OutputFileNames.begin();
1426 for (auto &Triple : BundlerConfig.TargetNames) {
1427 Worklist[Triple] = *Output;
1428 ++Output;
1429 }
1430
1431 // Read all the bundles that are in the work list. If we find no bundles we
1432 // assume the file is meant for the host target.
1433 bool FoundHostBundle = false;
1434 while (!Worklist.empty()) {
1435 Expected<std::optional<StringRef>> CurTripleOrErr =
1436 FH->ReadBundleStart(Input);
1437 if (!CurTripleOrErr)
1438 return CurTripleOrErr.takeError();
1439
1440 // We don't have more bundles.
1441 if (!*CurTripleOrErr)
1442 break;
1443
1444 StringRef CurTriple = **CurTripleOrErr;
1445 assert(!CurTriple.empty());
1446
1447 auto Output = Worklist.begin();
1448 for (auto E = Worklist.end(); Output != E; Output++) {
1450 OffloadTargetInfo(CurTriple, BundlerConfig),
1451 OffloadTargetInfo((*Output).first(), BundlerConfig))) {
1452 break;
1453 }
1454 }
1455
1456 if (Output == Worklist.end())
1457 continue;
1458 // Check if the output file can be opened and copy the bundle to it.
1459 std::error_code EC;
1460 raw_fd_ostream OutputFile((*Output).second, EC, sys::fs::OF_None);
1461 if (EC)
1462 return createFileError((*Output).second, EC);
1463 if (Error Err = FH->ReadBundle(OutputFile, Input))
1464 return Err;
1465 if (Error Err = FH->ReadBundleEnd(Input))
1466 return Err;
1467 Worklist.erase(Output);
1468
1469 // Record if we found the host bundle.
1470 auto OffloadInfo = OffloadTargetInfo(CurTriple, BundlerConfig);
1471 if (OffloadInfo.hasHostKind())
1472 FoundHostBundle = true;
1473 }
1474
1475 if (!BundlerConfig.AllowMissingBundles && !Worklist.empty()) {
1476 std::string ErrMsg = "Can't find bundles for";
1477 std::set<StringRef> Sorted;
1478 for (auto &E : Worklist)
1479 Sorted.insert(E.first());
1480 unsigned I = 0;
1481 unsigned Last = Sorted.size() - 1;
1482 for (auto &E : Sorted) {
1483 if (I != 0 && Last > 1)
1484 ErrMsg += ",";
1485 ErrMsg += " ";
1486 if (I == Last && I != 0)
1487 ErrMsg += "and ";
1488 ErrMsg += E.str();
1489 ++I;
1490 }
1491 return createStringError(inconvertibleErrorCode(), ErrMsg);
1492 }
1493
1494 // If no bundles were found, assume the input file is the host bundle and
1495 // create empty files for the remaining targets.
1496 if (Worklist.size() == BundlerConfig.TargetNames.size()) {
1497 for (auto &E : Worklist) {
1498 std::error_code EC;
1499 raw_fd_ostream OutputFile(E.second, EC, sys::fs::OF_None);
1500 if (EC)
1501 return createFileError(E.second, EC);
1502
1503 // If this entry has a host kind, copy the input file to the output file.
1504 auto OffloadInfo = OffloadTargetInfo(E.getKey(), BundlerConfig);
1505 if (OffloadInfo.hasHostKind())
1506 OutputFile.write(Input.getBufferStart(), Input.getBufferSize());
1507 }
1508 return Error::success();
1509 }
1510
1511 // If we found elements, we emit an error if none of those were for the host
1512 // in case host bundle name was provided in command line.
1513 if (!(FoundHostBundle || BundlerConfig.HostInputIndex == ~0u ||
1515 return createStringError(inconvertibleErrorCode(),
1516 "Can't find bundle for the host target");
1517
1518 // If we still have any elements in the worklist, create empty files for them.
1519 for (auto &E : Worklist) {
1520 std::error_code EC;
1521 raw_fd_ostream OutputFile(E.second, EC, sys::fs::OF_None);
1522 if (EC)
1523 return createFileError(E.second, EC);
1524 }
1525
1526 return Error::success();
1527}
1528
1529static Archive::Kind getDefaultArchiveKindForHost() {
1530 return Triple(sys::getDefaultTargetTriple()).isOSDarwin() ? Archive::K_DARWIN
1531 : Archive::K_GNU;
1532}
1533
1534/// @brief Computes a list of targets among all given targets which are
1535/// compatible with this code object
1536/// @param [in] CodeObjectInfo Code Object
1537/// @param [out] CompatibleTargets List of all compatible targets among all
1538/// given targets
1539/// @return false, if no compatible target is found.
1540static bool
1542 SmallVectorImpl<StringRef> &CompatibleTargets,
1543 const OffloadBundlerConfig &BundlerConfig) {
1544 if (!CompatibleTargets.empty()) {
1545 DEBUG_WITH_TYPE("CodeObjectCompatibility",
1546 dbgs() << "CompatibleTargets list should be empty\n");
1547 return false;
1548 }
1549 for (auto &Target : BundlerConfig.TargetNames) {
1550 auto TargetInfo = OffloadTargetInfo(Target, BundlerConfig);
1551 if (isCodeObjectCompatible(CodeObjectInfo, TargetInfo))
1552 CompatibleTargets.push_back(Target);
1553 }
1554 return !CompatibleTargets.empty();
1555}
1556
1557// Check that each code object file in the input archive conforms to following
1558// rule: for a specific processor, a feature either shows up in all target IDs,
1559// or does not show up in any target IDs. Otherwise the target ID combination is
1560// invalid.
1561static Error
1562CheckHeterogeneousArchive(StringRef ArchiveName,
1563 const OffloadBundlerConfig &BundlerConfig) {
1564 std::vector<std::unique_ptr<MemoryBuffer>> ArchiveBuffers;
1565 ErrorOr<std::unique_ptr<MemoryBuffer>> BufOrErr =
1566 MemoryBuffer::getFileOrSTDIN(ArchiveName, true, false);
1567 if (std::error_code EC = BufOrErr.getError())
1568 return createFileError(ArchiveName, EC);
1569
1570 ArchiveBuffers.push_back(std::move(*BufOrErr));
1572 Archive::create(ArchiveBuffers.back()->getMemBufferRef());
1573 if (!LibOrErr)
1574 return LibOrErr.takeError();
1575
1576 auto Archive = std::move(*LibOrErr);
1577
1578 Error ArchiveErr = Error::success();
1579 auto ChildEnd = Archive->child_end();
1580
1581 /// Iterate over all bundled code object files in the input archive.
1582 for (auto ArchiveIter = Archive->child_begin(ArchiveErr);
1583 ArchiveIter != ChildEnd; ++ArchiveIter) {
1584 if (ArchiveErr)
1585 return ArchiveErr;
1586 auto ArchiveChildNameOrErr = (*ArchiveIter).getName();
1587 if (!ArchiveChildNameOrErr)
1588 return ArchiveChildNameOrErr.takeError();
1589
1590 auto CodeObjectBufferRefOrErr = (*ArchiveIter).getMemoryBufferRef();
1591 if (!CodeObjectBufferRefOrErr)
1592 return CodeObjectBufferRefOrErr.takeError();
1593
1594 auto CodeObjectBuffer =
1595 MemoryBuffer::getMemBuffer(*CodeObjectBufferRefOrErr, false);
1596
1597 Expected<std::unique_ptr<FileHandler>> FileHandlerOrErr =
1598 CreateFileHandler(*CodeObjectBuffer, BundlerConfig);
1599 if (!FileHandlerOrErr)
1600 return FileHandlerOrErr.takeError();
1601
1602 std::unique_ptr<FileHandler> &FileHandler = *FileHandlerOrErr;
1603 assert(FileHandler);
1604
1605 std::set<StringRef> BundleIds;
1606 auto CodeObjectFileError =
1607 FileHandler->getBundleIDs(*CodeObjectBuffer, BundleIds);
1608 if (CodeObjectFileError)
1609 return CodeObjectFileError;
1610
1611 auto &&ConflictingArchs = clang::getConflictTargetIDCombination(BundleIds);
1612 if (ConflictingArchs) {
1613 std::string ErrMsg =
1614 Twine("conflicting TargetIDs [" + ConflictingArchs.value().first +
1615 ", " + ConflictingArchs.value().second + "] found in " +
1616 ArchiveChildNameOrErr.get() + " of " + ArchiveName)
1617 .str();
1618 return createStringError(inconvertibleErrorCode(), ErrMsg);
1619 }
1620 }
1621
1622 return ArchiveErr;
1623}
1624
1625/// UnbundleArchive takes an archive file (".a") as input containing bundled
1626/// code object files, and a list of offload targets (not host), and extracts
1627/// the code objects into a new archive file for each offload target. Each
1628/// resulting archive file contains all code object files corresponding to that
1629/// particular offload target. The created archive file does not
1630/// contain an index of the symbols and code object files are named as
1631/// <<Parent Bundle Name>-<CodeObject's TargetID>>, with ':' replaced with '_'.
1633 std::vector<std::unique_ptr<MemoryBuffer>> ArchiveBuffers;
1634
1635 /// Map of target names with list of object files that will form the device
1636 /// specific archive for that target
1637 StringMap<std::vector<NewArchiveMember>> OutputArchivesMap;
1638
1639 // Map of target names and output archive filenames
1640 StringMap<StringRef> TargetOutputFileNameMap;
1641
1642 auto Output = BundlerConfig.OutputFileNames.begin();
1643 for (auto &Target : BundlerConfig.TargetNames) {
1644 TargetOutputFileNameMap[Target] = *Output;
1645 ++Output;
1646 }
1647
1648 StringRef IFName = BundlerConfig.InputFileNames.front();
1649
1651 // For a specific processor, a feature either shows up in all target IDs, or
1652 // does not show up in any target IDs. Otherwise the target ID combination
1653 // is invalid.
1654 auto ArchiveError = CheckHeterogeneousArchive(IFName, BundlerConfig);
1655 if (ArchiveError) {
1656 return ArchiveError;
1657 }
1658 }
1659
1660 ErrorOr<std::unique_ptr<MemoryBuffer>> BufOrErr =
1661 MemoryBuffer::getFileOrSTDIN(IFName, true, false);
1662 if (std::error_code EC = BufOrErr.getError())
1663 return createFileError(BundlerConfig.InputFileNames.front(), EC);
1664
1665 ArchiveBuffers.push_back(std::move(*BufOrErr));
1667 Archive::create(ArchiveBuffers.back()->getMemBufferRef());
1668 if (!LibOrErr)
1669 return LibOrErr.takeError();
1670
1671 auto Archive = std::move(*LibOrErr);
1672
1673 Error ArchiveErr = Error::success();
1674 auto ChildEnd = Archive->child_end();
1675
1676 /// Iterate over all bundled code object files in the input archive.
1677 for (auto ArchiveIter = Archive->child_begin(ArchiveErr);
1678 ArchiveIter != ChildEnd; ++ArchiveIter) {
1679 if (ArchiveErr)
1680 return ArchiveErr;
1681 auto ArchiveChildNameOrErr = (*ArchiveIter).getName();
1682 if (!ArchiveChildNameOrErr)
1683 return ArchiveChildNameOrErr.takeError();
1684
1685 StringRef BundledObjectFile = sys::path::filename(*ArchiveChildNameOrErr);
1686
1687 auto CodeObjectBufferRefOrErr = (*ArchiveIter).getMemoryBufferRef();
1688 if (!CodeObjectBufferRefOrErr)
1689 return CodeObjectBufferRefOrErr.takeError();
1690
1691 auto TempCodeObjectBuffer =
1692 MemoryBuffer::getMemBuffer(*CodeObjectBufferRefOrErr, false);
1693
1694 // Decompress the buffer if necessary.
1695 Expected<std::unique_ptr<MemoryBuffer>> DecompressedBufferOrErr =
1696 CompressedOffloadBundle::decompress(*TempCodeObjectBuffer,
1698 if (!DecompressedBufferOrErr)
1699 return createStringError(
1700 inconvertibleErrorCode(),
1701 "Failed to decompress code object: " +
1702 llvm::toString(DecompressedBufferOrErr.takeError()));
1703
1704 MemoryBuffer &CodeObjectBuffer = **DecompressedBufferOrErr;
1705
1706 Expected<std::unique_ptr<FileHandler>> FileHandlerOrErr =
1707 CreateFileHandler(CodeObjectBuffer, BundlerConfig);
1708 if (!FileHandlerOrErr)
1709 return FileHandlerOrErr.takeError();
1710
1711 std::unique_ptr<FileHandler> &FileHandler = *FileHandlerOrErr;
1712 assert(FileHandler &&
1713 "FileHandle creation failed for file in the archive!");
1714
1715 if (Error ReadErr = FileHandler->ReadHeader(CodeObjectBuffer))
1716 return ReadErr;
1717
1718 Expected<std::optional<StringRef>> CurBundleIDOrErr =
1719 FileHandler->ReadBundleStart(CodeObjectBuffer);
1720 if (!CurBundleIDOrErr)
1721 return CurBundleIDOrErr.takeError();
1722
1723 std::optional<StringRef> OptionalCurBundleID = *CurBundleIDOrErr;
1724 // No device code in this child, skip.
1725 if (!OptionalCurBundleID)
1726 continue;
1727 StringRef CodeObject = *OptionalCurBundleID;
1728
1729 // Process all bundle entries (CodeObjects) found in this child of input
1730 // archive.
1731 while (!CodeObject.empty()) {
1732 SmallVector<StringRef> CompatibleTargets;
1733 auto CodeObjectInfo = OffloadTargetInfo(CodeObject, BundlerConfig);
1734 if (getCompatibleOffloadTargets(CodeObjectInfo, CompatibleTargets,
1735 BundlerConfig)) {
1736 std::string BundleData;
1737 raw_string_ostream DataStream(BundleData);
1738 if (Error Err = FileHandler->ReadBundle(DataStream, CodeObjectBuffer))
1739 return Err;
1740
1741 for (auto &CompatibleTarget : CompatibleTargets) {
1742 SmallString<128> BundledObjectFileName;
1743 BundledObjectFileName.assign(BundledObjectFile);
1744 auto OutputBundleName =
1745 Twine(llvm::sys::path::stem(BundledObjectFileName) + "-" +
1746 CodeObject +
1747 getDeviceLibraryFileName(BundledObjectFileName,
1748 CodeObjectInfo.TargetID))
1749 .str();
1750 // Replace ':' in optional target feature list with '_' to ensure
1751 // cross-platform validity.
1752 std::replace(OutputBundleName.begin(), OutputBundleName.end(), ':',
1753 '_');
1754
1755 std::unique_ptr<MemoryBuffer> MemBuf = MemoryBuffer::getMemBufferCopy(
1756 DataStream.str(), OutputBundleName);
1757 ArchiveBuffers.push_back(std::move(MemBuf));
1758 llvm::MemoryBufferRef MemBufRef =
1759 MemoryBufferRef(*(ArchiveBuffers.back()));
1760
1761 // For inserting <CompatibleTarget, list<CodeObject>> entry in
1762 // OutputArchivesMap.
1763 if (!OutputArchivesMap.contains(CompatibleTarget)) {
1764
1765 std::vector<NewArchiveMember> ArchiveMembers;
1766 ArchiveMembers.push_back(NewArchiveMember(MemBufRef));
1767 OutputArchivesMap.insert_or_assign(CompatibleTarget,
1768 std::move(ArchiveMembers));
1769 } else {
1770 OutputArchivesMap[CompatibleTarget].push_back(
1771 NewArchiveMember(MemBufRef));
1772 }
1773 }
1774 }
1775
1776 if (Error Err = FileHandler->ReadBundleEnd(CodeObjectBuffer))
1777 return Err;
1778
1779 Expected<std::optional<StringRef>> NextTripleOrErr =
1780 FileHandler->ReadBundleStart(CodeObjectBuffer);
1781 if (!NextTripleOrErr)
1782 return NextTripleOrErr.takeError();
1783
1784 CodeObject = ((*NextTripleOrErr).has_value()) ? **NextTripleOrErr : "";
1785 } // End of processing of all bundle entries of this child of input archive.
1786 } // End of while over children of input archive.
1787
1788 assert(!ArchiveErr && "Error occurred while reading archive!");
1789
1790 /// Write out an archive for each target
1791 for (auto &Target : BundlerConfig.TargetNames) {
1792 StringRef FileName = TargetOutputFileNameMap[Target];
1793 StringMapIterator<std::vector<llvm::NewArchiveMember>> CurArchiveMembers =
1794 OutputArchivesMap.find(Target);
1795 if (CurArchiveMembers != OutputArchivesMap.end()) {
1796 if (Error WriteErr = writeArchive(FileName, CurArchiveMembers->getValue(),
1797 SymtabWritingMode::NormalSymtab,
1799 false, nullptr))
1800 return WriteErr;
1801 } else if (!BundlerConfig.AllowMissingBundles) {
1802 std::string ErrMsg =
1803 Twine("no compatible code object found for the target '" + Target +
1804 "' in heterogeneous archive library: " + IFName)
1805 .str();
1806 return createStringError(inconvertibleErrorCode(), ErrMsg);
1807 } else { // Create an empty archive file if no compatible code object is
1808 // found and "allow-missing-bundles" is enabled. It ensures that
1809 // the linker using output of this step doesn't complain about
1810 // the missing input file.
1811 std::vector<llvm::NewArchiveMember> EmptyArchive;
1812 EmptyArchive.clear();
1813 if (Error WriteErr = writeArchive(
1814 FileName, EmptyArchive, SymtabWritingMode::NormalSymtab,
1815 getDefaultArchiveKindForHost(), true, false, nullptr))
1816 return WriteErr;
1817 }
1818 }
1819
1820 return Error::success();
1821}
StringRef P
Expr * E
llvm::MachO::Target Target
Definition: MachO.h:51
static std::string getDeviceLibraryFileName(StringRef BundleFileName, StringRef Device)
static StringRef getDeviceFileExtension(StringRef Device, StringRef BundleFileName)
static Expected< std::unique_ptr< FileHandler > > CreateFileHandler(MemoryBuffer &FirstInput, const OffloadBundlerConfig &BundlerConfig)
Return an appropriate handler given the input files and options.
#define OFFLOAD_BUNDLER_MAGIC_STR
Magic string that marks the existence of offloading data.
bool isCodeObjectCompatible(const OffloadTargetInfo &CodeObjectInfo, const OffloadTargetInfo &TargetInfo)
Checks if a code object CodeObjectInfo is compatible with a given target TargetInfo.
static llvm::TimerGroup ClangOffloadBundlerTimerGroup("Clang Offload Bundler Timer Group", "Timer group for clang offload bundler")
static Error CheckHeterogeneousArchive(StringRef ArchiveName, const OffloadBundlerConfig &BundlerConfig)
static std::unique_ptr< FileHandler > CreateObjectFileHandler(MemoryBuffer &FirstInput, const OffloadBundlerConfig &BundlerConfig)
Return an appropriate object file handler.
static Archive::Kind getDefaultArchiveKindForHost()
static std::string formatWithCommas(unsigned long long Value)
static bool getCompatibleOffloadTargets(OffloadTargetInfo &CodeObjectInfo, SmallVectorImpl< StringRef > &CompatibleTargets, const OffloadBundlerConfig &BundlerConfig)
Computes a list of targets among all given targets which are compatible with this code object.
This file defines an offload bundling API that bundles different files that relate with the same sour...
Defines version macros and version-related utility functions for Clang.
__DEVICE__ void * memcpy(void *__a, const void *__b, size_t __c)
static llvm::Expected< std::unique_ptr< llvm::MemoryBuffer > > compress(llvm::compression::Params P, const llvm::MemoryBuffer &Input, bool Verbose=false)
static llvm::Expected< std::unique_ptr< llvm::MemoryBuffer > > decompress(const llvm::MemoryBuffer &Input, bool Verbose=false)
llvm::compression::Format CompressionFormat
std::vector< std::string > OutputFileNames
std::vector< std::string > TargetNames
std::vector< std::string > InputFileNames
llvm::Error BundleFiles()
Bundle the files. Return true if an error was found.
llvm::Error UnbundleArchive()
UnbundleArchive takes an archive file (".a") as input containing bundled code object files,...
static llvm::Error ListBundleIDsInFile(llvm::StringRef InputFileName, const OffloadBundlerConfig &BundlerConfig)
const OffloadBundlerConfig & BundlerConfig
Exposes information about the current target.
Definition: TargetInfo.h:218
bool Alloc(InterpState &S, CodePtr OpPC, const Descriptor *Desc)
Definition: Interp.h:2964
The JSON file list parser is used to communicate input to InstallAPI.
@ Create
'create' clause, allowed on Compute and Combined constructs, plus 'data', 'enter data',...
std::optional< llvm::StringRef > parseTargetID(const llvm::Triple &T, llvm::StringRef OffloadArch, llvm::StringMap< bool > *FeatureMap)
Parse a target ID to get processor and feature map.
Definition: TargetID.cpp:105
std::optional< std::pair< llvm::StringRef, llvm::StringRef > > getConflictTargetIDCombination(const std::set< llvm::StringRef > &TargetIDs)
Get the conflicted pair of target IDs for a compilation or a bundled code object, assuming TargetIDs ...
Definition: TargetID.cpp:145
@ Result
The result type of a method or function.
OffloadArch StringToOffloadArch(llvm::StringRef S)
Definition: Cuda.cpp:175
const FunctionProtoType * T
unsigned long uint64_t
Diagnostic wrappers for TextAPI types for error reporting.
Definition: Dominators.h:30
Obtain the offload kind, real machine triple, and an optional TargetID out of the target information ...
bool operator==(const OffloadTargetInfo &Target) const
bool isOffloadKindCompatible(const llvm::StringRef TargetOffloadKind) const
OffloadTargetInfo(const llvm::StringRef Target, const OffloadBundlerConfig &BC)
llvm::StringRef OffloadKind
std::string str() const
llvm::StringRef TargetID
const OffloadBundlerConfig & BundlerConfig