ClangOffloadBundler.cpp
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//===-- clang-offload-bundler/ClangOffloadBundler.cpp ---------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
///
/// \file
/// This file implements a clang-offload-bundler that bundles different
/// files that relate with the same source code but different targets into a
/// single one. Also the implements the opposite functionality, i.e. unbundle
/// files previous created by this tool.
///
//===----------------------------------------------------------------------===//
#include "clang/Basic/Version.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/ADT/Triple.h"
#include "llvm/Object/Binary.h"
#include "llvm/Object/ObjectFile.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/ErrorOr.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/Program.h"
#include "llvm/Support/Signals.h"
#include "llvm/Support/StringSaver.h"
#include "llvm/Support/WithColor.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cassert>
#include <cstddef>
#include <cstdint>
#include <memory>
#include <string>
#include <system_error>
#include <utility>
using namespace llvm;
using namespace llvm::object;
static cl::opt<bool> Help("h", cl::desc("Alias for -help"), cl::Hidden);
// Mark all our options with this category, everything else (except for -version
// and -help) will be hidden.
static cl::OptionCategory
ClangOffloadBundlerCategory("clang-offload-bundler options");
static cl::list<std::string>
InputFileNames("inputs", cl::CommaSeparated, cl::OneOrMore,
cl::desc("[<input file>,...]"),
cl::cat(ClangOffloadBundlerCategory));
static cl::list<std::string>
OutputFileNames("outputs", cl::CommaSeparated, cl::OneOrMore,
cl::desc("[<output file>,...]"),
cl::cat(ClangOffloadBundlerCategory));
static cl::list<std::string>
TargetNames("targets", cl::CommaSeparated, cl::OneOrMore,
cl::desc("[<offload kind>-<target triple>,...]"),
cl::cat(ClangOffloadBundlerCategory));
static cl::opt<std::string>
FilesType("type", cl::Required,
cl::desc("Type of the files to be bundled/unbundled.\n"
"Current supported types are:\n"
" i - cpp-output\n"
" ii - c++-cpp-output\n"
" cui - cuda/hip-output\n"
" d - dependency\n"
" ll - llvm\n"
" bc - llvm-bc\n"
" s - assembler\n"
" o - object\n"
" gch - precompiled-header\n"
" ast - clang AST file"),
cl::cat(ClangOffloadBundlerCategory));
static cl::opt<bool>
Unbundle("unbundle",
cl::desc("Unbundle bundled file into several output files.\n"),
cl::init(false), cl::cat(ClangOffloadBundlerCategory));
static cl::opt<bool> PrintExternalCommands(
"###",
cl::desc("Print any external commands that are to be executed "
"instead of actually executing them - for testing purposes.\n"),
cl::init(false), cl::cat(ClangOffloadBundlerCategory));
/// Magic string that marks the existence of offloading data.
#define OFFLOAD_BUNDLER_MAGIC_STR "__CLANG_OFFLOAD_BUNDLE__"
/// The index of the host input in the list of inputs.
static unsigned HostInputIndex = ~0u;
/// Path to the current binary.
static std::string BundlerExecutable;
/// Obtain the offload kind and real machine triple out of the target
/// information specified by the user.
static void getOffloadKindAndTriple(StringRef Target, StringRef &OffloadKind,
StringRef &Triple) {
auto KindTriplePair = Target.split('-');
OffloadKind = KindTriplePair.first;
Triple = KindTriplePair.second;
}
static bool hasHostKind(StringRef Target) {
StringRef OffloadKind;
StringRef Triple;
getOffloadKindAndTriple(Target, OffloadKind, Triple);
return OffloadKind == "host";
}
/// Generic file handler interface.
class FileHandler {
public:
FileHandler() {}
virtual ~FileHandler() {}
/// Update the file handler with information from the header of the bundled
/// file.
virtual Error ReadHeader(MemoryBuffer &Input) = 0;
/// Read the marker of the next bundled to be read in the file. The bundle
/// name is returned if there is one in the file, or `None` if there are no
/// more bundles to be read.
virtual Expected<Optional<StringRef>>
ReadBundleStart(MemoryBuffer &Input) = 0;
/// Read the marker that closes the current bundle.
virtual Error ReadBundleEnd(MemoryBuffer &Input) = 0;
/// Read the current bundle and write the result into the stream \a OS.
virtual Error ReadBundle(raw_fd_ostream &OS, MemoryBuffer &Input) = 0;
/// Write the header of the bundled file to \a OS based on the information
/// gathered from \a Inputs.
virtual Error WriteHeader(raw_fd_ostream &OS,
ArrayRef<std::unique_ptr<MemoryBuffer>> Inputs) = 0;
/// Write the marker that initiates a bundle for the triple \a TargetTriple to
/// \a OS.
virtual Error WriteBundleStart(raw_fd_ostream &OS,
StringRef TargetTriple) = 0;
/// Write the marker that closes a bundle for the triple \a TargetTriple to \a
/// OS.
virtual Error WriteBundleEnd(raw_fd_ostream &OS, StringRef TargetTriple) = 0;
/// Write the bundle from \a Input into \a OS.
virtual Error WriteBundle(raw_fd_ostream &OS, MemoryBuffer &Input) = 0;
};
/// Handler for binary files. The bundled file will have the following format
/// (all integers are stored in little-endian format):
///
/// "OFFLOAD_BUNDLER_MAGIC_STR" (ASCII encoding of the string)
///
/// NumberOfOffloadBundles (8-byte integer)
///
/// OffsetOfBundle1 (8-byte integer)
/// SizeOfBundle1 (8-byte integer)
/// NumberOfBytesInTripleOfBundle1 (8-byte integer)
/// TripleOfBundle1 (byte length defined before)
///
/// ...
///
/// OffsetOfBundleN (8-byte integer)
/// SizeOfBundleN (8-byte integer)
/// NumberOfBytesInTripleOfBundleN (8-byte integer)
/// TripleOfBundleN (byte length defined before)
///
/// Bundle1
/// ...
/// BundleN
/// Read 8-byte integers from a buffer in little-endian format.
static uint64_t Read8byteIntegerFromBuffer(StringRef Buffer, size_t pos) {
uint64_t Res = 0;
const char *Data = Buffer.data();
for (unsigned i = 0; i < 8; ++i) {
Res <<= 8;
uint64_t Char = (uint64_t)Data[pos + 7 - i];
Res |= 0xffu & Char;
}
return Res;
}
/// Write 8-byte integers to a buffer in little-endian format.
static void Write8byteIntegerToBuffer(raw_fd_ostream &OS, uint64_t Val) {
for (unsigned i = 0; i < 8; ++i) {
char Char = (char)(Val & 0xffu);
OS.write(&Char, 1);
Val >>= 8;
}
}
class BinaryFileHandler final : public FileHandler {
/// Information about the bundles extracted from the header.
struct BundleInfo final {
/// Size of the bundle.
uint64_t Size = 0u;
/// Offset at which the bundle starts in the bundled file.
uint64_t Offset = 0u;
BundleInfo() {}
BundleInfo(uint64_t Size, uint64_t Offset) : Size(Size), Offset(Offset) {}
};
/// Map between a triple and the corresponding bundle information.
StringMap<BundleInfo> BundlesInfo;
/// Iterator for the bundle information that is being read.
StringMap<BundleInfo>::iterator CurBundleInfo;
StringMap<BundleInfo>::iterator NextBundleInfo;
public:
BinaryFileHandler() : FileHandler() {}
~BinaryFileHandler() final {}
Error ReadHeader(MemoryBuffer &Input) final {
StringRef FC = Input.getBuffer();
// Initialize the current bundle with the end of the container.
CurBundleInfo = BundlesInfo.end();
// Check if buffer is smaller than magic string.
size_t ReadChars = sizeof(OFFLOAD_BUNDLER_MAGIC_STR) - 1;
if (ReadChars > FC.size())
return Error::success();
// Check if no magic was found.
StringRef Magic(FC.data(), sizeof(OFFLOAD_BUNDLER_MAGIC_STR) - 1);
if (!Magic.equals(OFFLOAD_BUNDLER_MAGIC_STR))
return Error::success();
// Read number of bundles.
if (ReadChars + 8 > FC.size())
return Error::success();
uint64_t NumberOfBundles = Read8byteIntegerFromBuffer(FC, ReadChars);
ReadChars += 8;
// Read bundle offsets, sizes and triples.
for (uint64_t i = 0; i < NumberOfBundles; ++i) {
// Read offset.
if (ReadChars + 8 > FC.size())
return Error::success();
uint64_t Offset = Read8byteIntegerFromBuffer(FC, ReadChars);
ReadChars += 8;
// Read size.
if (ReadChars + 8 > FC.size())
return Error::success();
uint64_t Size = Read8byteIntegerFromBuffer(FC, ReadChars);
ReadChars += 8;
// Read triple size.
if (ReadChars + 8 > FC.size())
return Error::success();
uint64_t TripleSize = Read8byteIntegerFromBuffer(FC, ReadChars);
ReadChars += 8;
// Read triple.
if (ReadChars + TripleSize > FC.size())
return Error::success();
StringRef Triple(&FC.data()[ReadChars], TripleSize);
ReadChars += TripleSize;
// Check if the offset and size make sense.
if (!Offset || Offset + Size > FC.size())
return Error::success();
assert(BundlesInfo.find(Triple) == BundlesInfo.end() &&
"Triple is duplicated??");
BundlesInfo[Triple] = BundleInfo(Size, Offset);
}
// Set the iterator to where we will start to read.
CurBundleInfo = BundlesInfo.end();
NextBundleInfo = BundlesInfo.begin();
return Error::success();
}
Expected<Optional<StringRef>> ReadBundleStart(MemoryBuffer &Input) final {
if (NextBundleInfo == BundlesInfo.end())
return None;
CurBundleInfo = NextBundleInfo++;
return CurBundleInfo->first();
}
Error ReadBundleEnd(MemoryBuffer &Input) final {
assert(CurBundleInfo != BundlesInfo.end() && "Invalid reader info!");
return Error::success();
}
Error ReadBundle(raw_fd_ostream &OS, MemoryBuffer &Input) final {
assert(CurBundleInfo != BundlesInfo.end() && "Invalid reader info!");
StringRef FC = Input.getBuffer();
OS.write(FC.data() + CurBundleInfo->second.Offset,
CurBundleInfo->second.Size);
return Error::success();
}
Error WriteHeader(raw_fd_ostream &OS,
ArrayRef<std::unique_ptr<MemoryBuffer>> Inputs) final {
// Compute size of the header.
uint64_t HeaderSize = 0;
HeaderSize += sizeof(OFFLOAD_BUNDLER_MAGIC_STR) - 1;
HeaderSize += 8; // Number of Bundles
for (auto &T : TargetNames) {
HeaderSize += 3 * 8; // Bundle offset, Size of bundle and size of triple.
HeaderSize += T.size(); // The triple.
}
// Write to the buffer the header.
OS << OFFLOAD_BUNDLER_MAGIC_STR;
Write8byteIntegerToBuffer(OS, TargetNames.size());
unsigned Idx = 0;
for (auto &T : TargetNames) {
MemoryBuffer &MB = *Inputs[Idx++];
// Bundle offset.
Write8byteIntegerToBuffer(OS, HeaderSize);
// Size of the bundle (adds to the next bundle's offset)
Write8byteIntegerToBuffer(OS, MB.getBufferSize());
HeaderSize += MB.getBufferSize();
// Size of the triple
Write8byteIntegerToBuffer(OS, T.size());
// Triple
OS << T;
}
return Error::success();
}
Error WriteBundleStart(raw_fd_ostream &OS, StringRef TargetTriple) final {
return Error::success();
}
Error WriteBundleEnd(raw_fd_ostream &OS, StringRef TargetTriple) final {
return Error::success();
}
Error WriteBundle(raw_fd_ostream &OS, MemoryBuffer &Input) final {
OS.write(Input.getBufferStart(), Input.getBufferSize());
return Error::success();
}
};
/// Handler for object files. The bundles are organized by sections with a
/// designated name.
///
/// To unbundle, we just copy the contents of the designated section.
class ObjectFileHandler final : public FileHandler {
/// The object file we are currently dealing with.
std::unique_ptr<ObjectFile> Obj;
/// Return the input file contents.
StringRef getInputFileContents() const { return Obj->getData(); }
/// Return bundle name (<kind>-<triple>) if the provided section is an offload
/// section.
static Expected<Optional<StringRef>> IsOffloadSection(SectionRef CurSection) {
Expected<StringRef> NameOrErr = CurSection.getName();
if (!NameOrErr)
return NameOrErr.takeError();
// If it does not start with the reserved suffix, just skip this section.
if (!NameOrErr->startswith(OFFLOAD_BUNDLER_MAGIC_STR))
return None;
// Return the triple that is right after the reserved prefix.
return NameOrErr->substr(sizeof(OFFLOAD_BUNDLER_MAGIC_STR) - 1);
}
/// Total number of inputs.
unsigned NumberOfInputs = 0;
/// Total number of processed inputs, i.e, inputs that were already
/// read from the buffers.
unsigned NumberOfProcessedInputs = 0;
/// Iterator of the current and next section.
section_iterator CurrentSection;
section_iterator NextSection;
public:
ObjectFileHandler(std::unique_ptr<ObjectFile> ObjIn)
: FileHandler(), Obj(std::move(ObjIn)),
CurrentSection(Obj->section_begin()),
NextSection(Obj->section_begin()) {}
~ObjectFileHandler() final {}
Error ReadHeader(MemoryBuffer &Input) final { return Error::success(); }
Expected<Optional<StringRef>> ReadBundleStart(MemoryBuffer &Input) final {
while (NextSection != Obj->section_end()) {
CurrentSection = NextSection;
++NextSection;
// Check if the current section name starts with the reserved prefix. If
// so, return the triple.
Expected<Optional<StringRef>> TripleOrErr =
IsOffloadSection(*CurrentSection);
if (!TripleOrErr)
return TripleOrErr.takeError();
if (*TripleOrErr)
return **TripleOrErr;
}
return None;
}
Error ReadBundleEnd(MemoryBuffer &Input) final { return Error::success(); }
Error ReadBundle(raw_fd_ostream &OS, MemoryBuffer &Input) final {
Expected<StringRef> Content = CurrentSection->getContents();
if (!Content)
return Content.takeError();
OS.write(Content->data(), Content->size());
return Error::success();
}
Error WriteHeader(raw_fd_ostream &OS,
ArrayRef<std::unique_ptr<MemoryBuffer>> Inputs) final {
assert(HostInputIndex != ~0u && "Host input index not defined.");
// Record number of inputs.
NumberOfInputs = Inputs.size();
return Error::success();
}
Error WriteBundleStart(raw_fd_ostream &OS, StringRef TargetTriple) final {
++NumberOfProcessedInputs;
return Error::success();
}
Error WriteBundleEnd(raw_fd_ostream &OS, StringRef TargetTriple) final {
assert(NumberOfProcessedInputs <= NumberOfInputs &&
"Processing more inputs that actually exist!");
assert(HostInputIndex != ~0u && "Host input index not defined.");
// If this is not the last output, we don't have to do anything.
if (NumberOfProcessedInputs != NumberOfInputs)
return Error::success();
// Find llvm-objcopy in order to create the bundle binary.
ErrorOr<std::string> Objcopy = sys::findProgramByName(
"llvm-objcopy", sys::path::parent_path(BundlerExecutable));
if (!Objcopy)
Objcopy = sys::findProgramByName("llvm-objcopy");
if (!Objcopy)
return createStringError(Objcopy.getError(),
"unable to find 'llvm-objcopy' in path");
// We write to the output file directly. So, we close it and use the name
// to pass down to llvm-objcopy.
OS.close();
// Compose command line for the objcopy tool.
BumpPtrAllocator Alloc;
StringSaver SS{Alloc};
SmallVector<StringRef, 8u> ObjcopyArgs{"llvm-objcopy"};
for (unsigned I = 0; I < NumberOfInputs; ++I)
ObjcopyArgs.push_back(SS.save(Twine("--add-section=") +
OFFLOAD_BUNDLER_MAGIC_STR + TargetNames[I] +
"=" + InputFileNames[I]));
ObjcopyArgs.push_back(InputFileNames[HostInputIndex]);
ObjcopyArgs.push_back(OutputFileNames.front());
// If the user asked for the commands to be printed out, we do that instead
// of executing it.
if (PrintExternalCommands) {
errs() << "\"" << *Objcopy << "\"";
for (StringRef Arg : drop_begin(ObjcopyArgs, 1))
errs() << " \"" << Arg << "\"";
errs() << "\n";
} else {
if (sys::ExecuteAndWait(*Objcopy, ObjcopyArgs))
return createStringError(inconvertibleErrorCode(),
"'llvm-objcopy' tool failed");
}
return Error::success();
}
Error WriteBundle(raw_fd_ostream &OS, MemoryBuffer &Input) final {
return Error::success();
}
};
/// Handler for text files. The bundled file will have the following format.
///
/// "Comment OFFLOAD_BUNDLER_MAGIC_STR__START__ triple"
/// Bundle 1
/// "Comment OFFLOAD_BUNDLER_MAGIC_STR__END__ triple"
/// ...
/// "Comment OFFLOAD_BUNDLER_MAGIC_STR__START__ triple"
/// Bundle N
/// "Comment OFFLOAD_BUNDLER_MAGIC_STR__END__ triple"
class TextFileHandler final : public FileHandler {
/// String that begins a line comment.
StringRef Comment;
/// String that initiates a bundle.
std::string BundleStartString;
/// String that closes a bundle.
std::string BundleEndString;
/// Number of chars read from input.
size_t ReadChars = 0u;
protected:
Error ReadHeader(MemoryBuffer &Input) final { return Error::success(); }
Expected<Optional<StringRef>> ReadBundleStart(MemoryBuffer &Input) final {
StringRef FC = Input.getBuffer();
// Find start of the bundle.
ReadChars = FC.find(BundleStartString, ReadChars);
if (ReadChars == FC.npos)
return None;
// Get position of the triple.
size_t TripleStart = ReadChars = ReadChars + BundleStartString.size();
// Get position that closes the triple.
size_t TripleEnd = ReadChars = FC.find("\n", ReadChars);
if (TripleEnd == FC.npos)
return None;
// Next time we read after the new line.
++ReadChars;
return StringRef(&FC.data()[TripleStart], TripleEnd - TripleStart);
}
Error ReadBundleEnd(MemoryBuffer &Input) final {
StringRef FC = Input.getBuffer();
// Read up to the next new line.
assert(FC[ReadChars] == '\n' && "The bundle should end with a new line.");
size_t TripleEnd = ReadChars = FC.find("\n", ReadChars + 1);
if (TripleEnd != FC.npos)
// Next time we read after the new line.
++ReadChars;
return Error::success();
}
Error ReadBundle(raw_fd_ostream &OS, MemoryBuffer &Input) final {
StringRef FC = Input.getBuffer();
size_t BundleStart = ReadChars;
// Find end of the bundle.
size_t BundleEnd = ReadChars = FC.find(BundleEndString, ReadChars);
StringRef Bundle(&FC.data()[BundleStart], BundleEnd - BundleStart);
OS << Bundle;
return Error::success();
}
Error WriteHeader(raw_fd_ostream &OS,
ArrayRef<std::unique_ptr<MemoryBuffer>> Inputs) final {
return Error::success();
}
Error WriteBundleStart(raw_fd_ostream &OS, StringRef TargetTriple) final {
OS << BundleStartString << TargetTriple << "\n";
return Error::success();
}
Error WriteBundleEnd(raw_fd_ostream &OS, StringRef TargetTriple) final {
OS << BundleEndString << TargetTriple << "\n";
return Error::success();
}
Error WriteBundle(raw_fd_ostream &OS, MemoryBuffer &Input) final {
OS << Input.getBuffer();
return Error::success();
}
public:
TextFileHandler(StringRef Comment)
: FileHandler(), Comment(Comment), ReadChars(0) {
BundleStartString =
"\n" + Comment.str() + " " OFFLOAD_BUNDLER_MAGIC_STR "__START__ ";
BundleEndString =
"\n" + Comment.str() + " " OFFLOAD_BUNDLER_MAGIC_STR "__END__ ";
}
};
/// Return an appropriate object file handler. We use the specific object
/// handler if we know how to deal with that format, otherwise we use a default
/// binary file handler.
static std::unique_ptr<FileHandler>
CreateObjectFileHandler(MemoryBuffer &FirstInput) {
// Check if the input file format is one that we know how to deal with.
Expected<std::unique_ptr<Binary>> BinaryOrErr = createBinary(FirstInput);
// We only support regular object files. If failed to open the input as a
// known binary or this is not an object file use the default binary handler.
if (errorToBool(BinaryOrErr.takeError()) || !isa<ObjectFile>(*BinaryOrErr))
return std::make_unique<BinaryFileHandler>();
// Otherwise create an object file handler. The handler will be owned by the
// client of this function.
return std::make_unique<ObjectFileHandler>(
std::unique_ptr<ObjectFile>(cast<ObjectFile>(BinaryOrErr->release())));
}
/// Return an appropriate handler given the input files and options.
static Expected<std::unique_ptr<FileHandler>>
CreateFileHandler(MemoryBuffer &FirstInput) {
if (FilesType == "i")
return std::make_unique<TextFileHandler>(/*Comment=*/"//");
if (FilesType == "ii")
return std::make_unique<TextFileHandler>(/*Comment=*/"//");
if (FilesType == "cui")
return std::make_unique<TextFileHandler>(/*Comment=*/"//");
// TODO: `.d` should be eventually removed once `-M` and its variants are
// handled properly in offload compilation.
if (FilesType == "d")
return std::make_unique<TextFileHandler>(/*Comment=*/"#");
if (FilesType == "ll")
return std::make_unique<TextFileHandler>(/*Comment=*/";");
if (FilesType == "bc")
return std::make_unique<BinaryFileHandler>();
if (FilesType == "s")
return std::make_unique<TextFileHandler>(/*Comment=*/"#");
if (FilesType == "o")
return CreateObjectFileHandler(FirstInput);
if (FilesType == "gch")
return std::make_unique<BinaryFileHandler>();
if (FilesType == "ast")
return std::make_unique<BinaryFileHandler>();
return createStringError(errc::invalid_argument,
"'" + FilesType + "': invalid file type specified");
}
/// Bundle the files. Return true if an error was found.
static Error BundleFiles() {
std::error_code EC;
// Create output file.
raw_fd_ostream OutputFile(OutputFileNames.front(), EC, sys::fs::OF_None);
if (EC)
return createFileError(OutputFileNames.front(), EC);
// Open input files.
SmallVector<std::unique_ptr<MemoryBuffer>, 8u> InputBuffers;
InputBuffers.reserve(InputFileNames.size());
for (auto &I : InputFileNames) {
ErrorOr<std::unique_ptr<MemoryBuffer>> CodeOrErr =
MemoryBuffer::getFileOrSTDIN(I);
if (std::error_code EC = CodeOrErr.getError())
return createFileError(I, EC);
InputBuffers.emplace_back(std::move(*CodeOrErr));
}
// Get the file handler. We use the host buffer as reference.
assert(HostInputIndex != ~0u && "Host input index undefined??");
Expected<std::unique_ptr<FileHandler>> FileHandlerOrErr =
CreateFileHandler(*InputBuffers[HostInputIndex]);
if (!FileHandlerOrErr)
return FileHandlerOrErr.takeError();
std::unique_ptr<FileHandler> &FH = *FileHandlerOrErr;
assert(FH);
// Write header.
if (Error Err = FH->WriteHeader(OutputFile, InputBuffers))
return Err;
// Write all bundles along with the start/end markers. If an error was found
// writing the end of the bundle component, abort the bundle writing.
auto Input = InputBuffers.begin();
for (auto &Triple : TargetNames) {
if (Error Err = FH->WriteBundleStart(OutputFile, Triple))
return Err;
if (Error Err = FH->WriteBundle(OutputFile, **Input))
return Err;
if (Error Err = FH->WriteBundleEnd(OutputFile, Triple))
return Err;
++Input;
}
return Error::success();
}
// Unbundle the files. Return true if an error was found.
static Error UnbundleFiles() {
// Open Input file.
ErrorOr<std::unique_ptr<MemoryBuffer>> CodeOrErr =
MemoryBuffer::getFileOrSTDIN(InputFileNames.front());
if (std::error_code EC = CodeOrErr.getError())
return createFileError(InputFileNames.front(), EC);
MemoryBuffer &Input = **CodeOrErr;
// Select the right files handler.
Expected<std::unique_ptr<FileHandler>> FileHandlerOrErr =
CreateFileHandler(Input);
if (!FileHandlerOrErr)
return FileHandlerOrErr.takeError();
std::unique_ptr<FileHandler> &FH = *FileHandlerOrErr;
assert(FH);
// Read the header of the bundled file.
if (Error Err = FH->ReadHeader(Input))
return Err;
// Create a work list that consist of the map triple/output file.
StringMap<StringRef> Worklist;
auto Output = OutputFileNames.begin();
for (auto &Triple : TargetNames) {
Worklist[Triple] = *Output;
++Output;
}
// Read all the bundles that are in the work list. If we find no bundles we
// assume the file is meant for the host target.
bool FoundHostBundle = false;
while (!Worklist.empty()) {
Expected<Optional<StringRef>> CurTripleOrErr = FH->ReadBundleStart(Input);
if (!CurTripleOrErr)
return CurTripleOrErr.takeError();
// We don't have more bundles.
if (!*CurTripleOrErr)
break;
StringRef CurTriple = **CurTripleOrErr;
assert(!CurTriple.empty());
auto Output = Worklist.find(CurTriple);
// The file may have more bundles for other targets, that we don't care
// about. Therefore, move on to the next triple
if (Output == Worklist.end())
continue;
// Check if the output file can be opened and copy the bundle to it.
std::error_code EC;
raw_fd_ostream OutputFile(Output->second, EC, sys::fs::OF_None);
if (EC)
return createFileError(Output->second, EC);
if (Error Err = FH->ReadBundle(OutputFile, Input))
return Err;
if (Error Err = FH->ReadBundleEnd(Input))
return Err;
Worklist.erase(Output);
// Record if we found the host bundle.
if (hasHostKind(CurTriple))
FoundHostBundle = true;
}
// If no bundles were found, assume the input file is the host bundle and
// create empty files for the remaining targets.
if (Worklist.size() == TargetNames.size()) {
for (auto &E : Worklist) {
std::error_code EC;
raw_fd_ostream OutputFile(E.second, EC, sys::fs::OF_None);
if (EC)
return createFileError(E.second, EC);
// If this entry has a host kind, copy the input file to the output file.
if (hasHostKind(E.first()))
OutputFile.write(Input.getBufferStart(), Input.getBufferSize());
}
return Error::success();
}
// If we found elements, we emit an error if none of those were for the host
// in case host bundle name was provided in command line.
if (!FoundHostBundle && HostInputIndex != ~0u)
return createStringError(inconvertibleErrorCode(),
"Can't find bundle for the host target");
// If we still have any elements in the worklist, create empty files for them.
for (auto &E : Worklist) {
std::error_code EC;
raw_fd_ostream OutputFile(E.second, EC, sys::fs::OF_None);
if (EC)
return createFileError(E.second, EC);
}
return Error::success();
}
static void PrintVersion(raw_ostream &OS) {
OS << clang::getClangToolFullVersion("clang-offload-bundler") << '\n';
}
int main(int argc, const char **argv) {
sys::PrintStackTraceOnErrorSignal(argv[0]);
cl::HideUnrelatedOptions(ClangOffloadBundlerCategory);
cl::SetVersionPrinter(PrintVersion);
cl::ParseCommandLineOptions(
argc, argv,
"A tool to bundle several input files of the specified type <type> \n"
"referring to the same source file but different targets into a single \n"
"one. The resulting file can also be unbundled into different files by \n"
"this tool if -unbundle is provided.\n");
if (Help) {
cl::PrintHelpMessage();
return 0;
}
auto reportError = [argv](Error E) {
logAllUnhandledErrors(std::move(E), WithColor::error(errs(), argv[0]));
};
bool Error = false;
if (Unbundle) {
if (InputFileNames.size() != 1) {
Error = true;
reportError(createStringError(
errc::invalid_argument,
"only one input file supported in unbundling mode"));
}
if (OutputFileNames.size() != TargetNames.size()) {
Error = true;
reportError(createStringError(errc::invalid_argument,
"number of output files and targets should "
"match in unbundling mode"));
}
} else {
if (OutputFileNames.size() != 1) {
Error = true;
reportError(createStringError(
errc::invalid_argument,
"only one output file supported in bundling mode"));
}
if (InputFileNames.size() != TargetNames.size()) {
Error = true;
reportError(createStringError(
errc::invalid_argument,
"number of input files and targets should match in bundling mode"));
}
}
// Verify that the offload kinds and triples are known. We also check that we
// have exactly one host target.
unsigned Index = 0u;
unsigned HostTargetNum = 0u;
for (StringRef Target : TargetNames) {
StringRef Kind;
StringRef Triple;
getOffloadKindAndTriple(Target, Kind, Triple);
bool KindIsValid = !Kind.empty();
KindIsValid = KindIsValid && StringSwitch<bool>(Kind)
.Case("host", true)
.Case("openmp", true)
.Case("hip", true)
.Default(false);
bool TripleIsValid = !Triple.empty();
llvm::Triple T(Triple);
TripleIsValid &= T.getArch() != Triple::UnknownArch;
if (!KindIsValid || !TripleIsValid) {
Error = true;
SmallVector<char, 128u> Buf;
raw_svector_ostream Msg(Buf);
Msg << "invalid target '" << Target << "'";
if (!KindIsValid)
Msg << ", unknown offloading kind '" << Kind << "'";
if (!TripleIsValid)
Msg << ", unknown target triple '" << Triple << "'";
reportError(createStringError(errc::invalid_argument, Msg.str()));
}
if (KindIsValid && Kind == "host") {
++HostTargetNum;
// Save the index of the input that refers to the host.
HostInputIndex = Index;
}
++Index;
}
// Host triple is not really needed for unbundling operation, so do not
// treat missing host triple as error if we do unbundling.
if ((Unbundle && HostTargetNum > 1) || (!Unbundle && HostTargetNum != 1)) {
Error = true;
reportError(createStringError(errc::invalid_argument,
"expecting exactly one host target but got " +
Twine(HostTargetNum)));
}
if (Error)
return 1;
// Save the current executable directory as it will be useful to find other
// tools.
BundlerExecutable = sys::fs::getMainExecutable(argv[0], &BundlerExecutable);
if (llvm::Error Err = Unbundle ? UnbundleFiles() : BundleFiles()) {
reportError(std::move(Err));
return 1;
}
return 0;
}