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Diffstat (limited to 'llvm/lib/ProfileData/SampleProfReader.cpp')
| -rw-r--r-- | llvm/lib/ProfileData/SampleProfReader.cpp | 1377 |
1 files changed, 1377 insertions, 0 deletions
diff --git a/llvm/lib/ProfileData/SampleProfReader.cpp b/llvm/lib/ProfileData/SampleProfReader.cpp new file mode 100644 index 000000000000..001aafce7bfd --- /dev/null +++ b/llvm/lib/ProfileData/SampleProfReader.cpp @@ -0,0 +1,1377 @@ +//===- SampleProfReader.cpp - Read LLVM sample profile data ---------------===// +// +// 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 +// +//===----------------------------------------------------------------------===// +// +// This file implements the class that reads LLVM sample profiles. It +// supports three file formats: text, binary and gcov. +// +// The textual representation is useful for debugging and testing purposes. The +// binary representation is more compact, resulting in smaller file sizes. +// +// The gcov encoding is the one generated by GCC's AutoFDO profile creation +// tool (https://github.com/google/autofdo) +// +// All three encodings can be used interchangeably as an input sample profile. +// +//===----------------------------------------------------------------------===// + +#include "llvm/ProfileData/SampleProfReader.h" +#include "llvm/ADT/DenseMap.h" +#include "llvm/ADT/STLExtras.h" +#include "llvm/ADT/StringRef.h" +#include "llvm/IR/ProfileSummary.h" +#include "llvm/ProfileData/ProfileCommon.h" +#include "llvm/ProfileData/SampleProf.h" +#include "llvm/Support/Compression.h" +#include "llvm/Support/ErrorOr.h" +#include "llvm/Support/LEB128.h" +#include "llvm/Support/LineIterator.h" +#include "llvm/Support/MD5.h" +#include "llvm/Support/MemoryBuffer.h" +#include "llvm/Support/raw_ostream.h" +#include <algorithm> +#include <cstddef> +#include <cstdint> +#include <limits> +#include <memory> +#include <system_error> +#include <vector> + +using namespace llvm; +using namespace sampleprof; + +/// Dump the function profile for \p FName. +/// +/// \param FName Name of the function to print. +/// \param OS Stream to emit the output to. +void SampleProfileReader::dumpFunctionProfile(StringRef FName, + raw_ostream &OS) { + OS << "Function: " << FName << ": " << Profiles[FName]; +} + +/// Dump all the function profiles found on stream \p OS. +void SampleProfileReader::dump(raw_ostream &OS) { + for (const auto &I : Profiles) + dumpFunctionProfile(I.getKey(), OS); +} + +/// Parse \p Input as function head. +/// +/// Parse one line of \p Input, and update function name in \p FName, +/// function's total sample count in \p NumSamples, function's entry +/// count in \p NumHeadSamples. +/// +/// \returns true if parsing is successful. +static bool ParseHead(const StringRef &Input, StringRef &FName, + uint64_t &NumSamples, uint64_t &NumHeadSamples) { + if (Input[0] == ' ') + return false; + size_t n2 = Input.rfind(':'); + size_t n1 = Input.rfind(':', n2 - 1); + FName = Input.substr(0, n1); + if (Input.substr(n1 + 1, n2 - n1 - 1).getAsInteger(10, NumSamples)) + return false; + if (Input.substr(n2 + 1).getAsInteger(10, NumHeadSamples)) + return false; + return true; +} + +/// Returns true if line offset \p L is legal (only has 16 bits). +static bool isOffsetLegal(unsigned L) { return (L & 0xffff) == L; } + +/// Parse \p Input as line sample. +/// +/// \param Input input line. +/// \param IsCallsite true if the line represents an inlined callsite. +/// \param Depth the depth of the inline stack. +/// \param NumSamples total samples of the line/inlined callsite. +/// \param LineOffset line offset to the start of the function. +/// \param Discriminator discriminator of the line. +/// \param TargetCountMap map from indirect call target to count. +/// +/// returns true if parsing is successful. +static bool ParseLine(const StringRef &Input, bool &IsCallsite, uint32_t &Depth, + uint64_t &NumSamples, uint32_t &LineOffset, + uint32_t &Discriminator, StringRef &CalleeName, + DenseMap<StringRef, uint64_t> &TargetCountMap) { + for (Depth = 0; Input[Depth] == ' '; Depth++) + ; + if (Depth == 0) + return false; + + size_t n1 = Input.find(':'); + StringRef Loc = Input.substr(Depth, n1 - Depth); + size_t n2 = Loc.find('.'); + if (n2 == StringRef::npos) { + if (Loc.getAsInteger(10, LineOffset) || !isOffsetLegal(LineOffset)) + return false; + Discriminator = 0; + } else { + if (Loc.substr(0, n2).getAsInteger(10, LineOffset)) + return false; + if (Loc.substr(n2 + 1).getAsInteger(10, Discriminator)) + return false; + } + + StringRef Rest = Input.substr(n1 + 2); + if (Rest[0] >= '0' && Rest[0] <= '9') { + IsCallsite = false; + size_t n3 = Rest.find(' '); + if (n3 == StringRef::npos) { + if (Rest.getAsInteger(10, NumSamples)) + return false; + } else { + if (Rest.substr(0, n3).getAsInteger(10, NumSamples)) + return false; + } + // Find call targets and their sample counts. + // Note: In some cases, there are symbols in the profile which are not + // mangled. To accommodate such cases, use colon + integer pairs as the + // anchor points. + // An example: + // _M_construct<char *>:1000 string_view<std::allocator<char> >:437 + // ":1000" and ":437" are used as anchor points so the string above will + // be interpreted as + // target: _M_construct<char *> + // count: 1000 + // target: string_view<std::allocator<char> > + // count: 437 + while (n3 != StringRef::npos) { + n3 += Rest.substr(n3).find_first_not_of(' '); + Rest = Rest.substr(n3); + n3 = Rest.find_first_of(':'); + if (n3 == StringRef::npos || n3 == 0) + return false; + + StringRef Target; + uint64_t count, n4; + while (true) { + // Get the segment after the current colon. + StringRef AfterColon = Rest.substr(n3 + 1); + // Get the target symbol before the current colon. + Target = Rest.substr(0, n3); + // Check if the word after the current colon is an integer. + n4 = AfterColon.find_first_of(' '); + n4 = (n4 != StringRef::npos) ? n3 + n4 + 1 : Rest.size(); + StringRef WordAfterColon = Rest.substr(n3 + 1, n4 - n3 - 1); + if (!WordAfterColon.getAsInteger(10, count)) + break; + + // Try to find the next colon. + uint64_t n5 = AfterColon.find_first_of(':'); + if (n5 == StringRef::npos) + return false; + n3 += n5 + 1; + } + + // An anchor point is found. Save the {target, count} pair + TargetCountMap[Target] = count; + if (n4 == Rest.size()) + break; + // Change n3 to the next blank space after colon + integer pair. + n3 = n4; + } + } else { + IsCallsite = true; + size_t n3 = Rest.find_last_of(':'); + CalleeName = Rest.substr(0, n3); + if (Rest.substr(n3 + 1).getAsInteger(10, NumSamples)) + return false; + } + return true; +} + +/// Load samples from a text file. +/// +/// See the documentation at the top of the file for an explanation of +/// the expected format. +/// +/// \returns true if the file was loaded successfully, false otherwise. +std::error_code SampleProfileReaderText::readImpl() { + line_iterator LineIt(*Buffer, /*SkipBlanks=*/true, '#'); + sampleprof_error Result = sampleprof_error::success; + + InlineCallStack InlineStack; + + for (; !LineIt.is_at_eof(); ++LineIt) { + if ((*LineIt)[(*LineIt).find_first_not_of(' ')] == '#') + continue; + // Read the header of each function. + // + // Note that for function identifiers we are actually expecting + // mangled names, but we may not always get them. This happens when + // the compiler decides not to emit the function (e.g., it was inlined + // and removed). In this case, the binary will not have the linkage + // name for the function, so the profiler will emit the function's + // unmangled name, which may contain characters like ':' and '>' in its + // name (member functions, templates, etc). + // + // The only requirement we place on the identifier, then, is that it + // should not begin with a number. + if ((*LineIt)[0] != ' ') { + uint64_t NumSamples, NumHeadSamples; + StringRef FName; + if (!ParseHead(*LineIt, FName, NumSamples, NumHeadSamples)) { + reportError(LineIt.line_number(), + "Expected 'mangled_name:NUM:NUM', found " + *LineIt); + return sampleprof_error::malformed; + } + Profiles[FName] = FunctionSamples(); + FunctionSamples &FProfile = Profiles[FName]; + FProfile.setName(FName); + MergeResult(Result, FProfile.addTotalSamples(NumSamples)); + MergeResult(Result, FProfile.addHeadSamples(NumHeadSamples)); + InlineStack.clear(); + InlineStack.push_back(&FProfile); + } else { + uint64_t NumSamples; + StringRef FName; + DenseMap<StringRef, uint64_t> TargetCountMap; + bool IsCallsite; + uint32_t Depth, LineOffset, Discriminator; + if (!ParseLine(*LineIt, IsCallsite, Depth, NumSamples, LineOffset, + Discriminator, FName, TargetCountMap)) { + reportError(LineIt.line_number(), + "Expected 'NUM[.NUM]: NUM[ mangled_name:NUM]*', found " + + *LineIt); + return sampleprof_error::malformed; + } + if (IsCallsite) { + while (InlineStack.size() > Depth) { + InlineStack.pop_back(); + } + FunctionSamples &FSamples = InlineStack.back()->functionSamplesAt( + LineLocation(LineOffset, Discriminator))[FName]; + FSamples.setName(FName); + MergeResult(Result, FSamples.addTotalSamples(NumSamples)); + InlineStack.push_back(&FSamples); + } else { + while (InlineStack.size() > Depth) { + InlineStack.pop_back(); + } + FunctionSamples &FProfile = *InlineStack.back(); + for (const auto &name_count : TargetCountMap) { + MergeResult(Result, FProfile.addCalledTargetSamples( + LineOffset, Discriminator, name_count.first, + name_count.second)); + } + MergeResult(Result, FProfile.addBodySamples(LineOffset, Discriminator, + NumSamples)); + } + } + } + if (Result == sampleprof_error::success) + computeSummary(); + + return Result; +} + +bool SampleProfileReaderText::hasFormat(const MemoryBuffer &Buffer) { + bool result = false; + + // Check that the first non-comment line is a valid function header. + line_iterator LineIt(Buffer, /*SkipBlanks=*/true, '#'); + if (!LineIt.is_at_eof()) { + if ((*LineIt)[0] != ' ') { + uint64_t NumSamples, NumHeadSamples; + StringRef FName; + result = ParseHead(*LineIt, FName, NumSamples, NumHeadSamples); + } + } + + return result; +} + +template <typename T> ErrorOr<T> SampleProfileReaderBinary::readNumber() { + unsigned NumBytesRead = 0; + std::error_code EC; + uint64_t Val = decodeULEB128(Data, &NumBytesRead); + + if (Val > std::numeric_limits<T>::max()) + EC = sampleprof_error::malformed; + else if (Data + NumBytesRead > End) + EC = sampleprof_error::truncated; + else + EC = sampleprof_error::success; + + if (EC) { + reportError(0, EC.message()); + return EC; + } + + Data += NumBytesRead; + return static_cast<T>(Val); +} + +ErrorOr<StringRef> SampleProfileReaderBinary::readString() { + std::error_code EC; + StringRef Str(reinterpret_cast<const char *>(Data)); + if (Data + Str.size() + 1 > End) { + EC = sampleprof_error::truncated; + reportError(0, EC.message()); + return EC; + } + + Data += Str.size() + 1; + return Str; +} + +template <typename T> +ErrorOr<T> SampleProfileReaderBinary::readUnencodedNumber() { + std::error_code EC; + + if (Data + sizeof(T) > End) { + EC = sampleprof_error::truncated; + reportError(0, EC.message()); + return EC; + } + + using namespace support; + T Val = endian::readNext<T, little, unaligned>(Data); + return Val; +} + +template <typename T> +inline ErrorOr<uint32_t> SampleProfileReaderBinary::readStringIndex(T &Table) { + std::error_code EC; + auto Idx = readNumber<uint32_t>(); + if (std::error_code EC = Idx.getError()) + return EC; + if (*Idx >= Table.size()) + return sampleprof_error::truncated_name_table; + return *Idx; +} + +ErrorOr<StringRef> SampleProfileReaderBinary::readStringFromTable() { + auto Idx = readStringIndex(NameTable); + if (std::error_code EC = Idx.getError()) + return EC; + + return NameTable[*Idx]; +} + +ErrorOr<StringRef> SampleProfileReaderCompactBinary::readStringFromTable() { + auto Idx = readStringIndex(NameTable); + if (std::error_code EC = Idx.getError()) + return EC; + + return StringRef(NameTable[*Idx]); +} + +std::error_code +SampleProfileReaderBinary::readProfile(FunctionSamples &FProfile) { + auto NumSamples = readNumber<uint64_t>(); + if (std::error_code EC = NumSamples.getError()) + return EC; + FProfile.addTotalSamples(*NumSamples); + + // Read the samples in the body. + auto NumRecords = readNumber<uint32_t>(); + if (std::error_code EC = NumRecords.getError()) + return EC; + + for (uint32_t I = 0; I < *NumRecords; ++I) { + auto LineOffset = readNumber<uint64_t>(); + if (std::error_code EC = LineOffset.getError()) + return EC; + + if (!isOffsetLegal(*LineOffset)) { + return std::error_code(); + } + + auto Discriminator = readNumber<uint64_t>(); + if (std::error_code EC = Discriminator.getError()) + return EC; + + auto NumSamples = readNumber<uint64_t>(); + if (std::error_code EC = NumSamples.getError()) + return EC; + + auto NumCalls = readNumber<uint32_t>(); + if (std::error_code EC = NumCalls.getError()) + return EC; + + for (uint32_t J = 0; J < *NumCalls; ++J) { + auto CalledFunction(readStringFromTable()); + if (std::error_code EC = CalledFunction.getError()) + return EC; + + auto CalledFunctionSamples = readNumber<uint64_t>(); + if (std::error_code EC = CalledFunctionSamples.getError()) + return EC; + + FProfile.addCalledTargetSamples(*LineOffset, *Discriminator, + *CalledFunction, *CalledFunctionSamples); + } + + FProfile.addBodySamples(*LineOffset, *Discriminator, *NumSamples); + } + + // Read all the samples for inlined function calls. + auto NumCallsites = readNumber<uint32_t>(); + if (std::error_code EC = NumCallsites.getError()) + return EC; + + for (uint32_t J = 0; J < *NumCallsites; ++J) { + auto LineOffset = readNumber<uint64_t>(); + if (std::error_code EC = LineOffset.getError()) + return EC; + + auto Discriminator = readNumber<uint64_t>(); + if (std::error_code EC = Discriminator.getError()) + return EC; + + auto FName(readStringFromTable()); + if (std::error_code EC = FName.getError()) + return EC; + + FunctionSamples &CalleeProfile = FProfile.functionSamplesAt( + LineLocation(*LineOffset, *Discriminator))[*FName]; + CalleeProfile.setName(*FName); + if (std::error_code EC = readProfile(CalleeProfile)) + return EC; + } + + return sampleprof_error::success; +} + +std::error_code +SampleProfileReaderBinary::readFuncProfile(const uint8_t *Start) { + Data = Start; + auto NumHeadSamples = readNumber<uint64_t>(); + if (std::error_code EC = NumHeadSamples.getError()) + return EC; + + auto FName(readStringFromTable()); + if (std::error_code EC = FName.getError()) + return EC; + + Profiles[*FName] = FunctionSamples(); + FunctionSamples &FProfile = Profiles[*FName]; + FProfile.setName(*FName); + + FProfile.addHeadSamples(*NumHeadSamples); + + if (std::error_code EC = readProfile(FProfile)) + return EC; + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderBinary::readImpl() { + while (!at_eof()) { + if (std::error_code EC = readFuncProfile(Data)) + return EC; + } + + return sampleprof_error::success; +} + +std::error_code +SampleProfileReaderExtBinary::readOneSection(const uint8_t *Start, + uint64_t Size, SecType Type) { + Data = Start; + End = Start + Size; + switch (Type) { + case SecProfSummary: + if (std::error_code EC = readSummary()) + return EC; + break; + case SecNameTable: + if (std::error_code EC = readNameTable()) + return EC; + break; + case SecLBRProfile: + if (std::error_code EC = readFuncProfiles()) + return EC; + break; + case SecProfileSymbolList: + if (std::error_code EC = readProfileSymbolList()) + return EC; + break; + case SecFuncOffsetTable: + if (std::error_code EC = readFuncOffsetTable()) + return EC; + break; + default: + break; + } + return sampleprof_error::success; +} + +void SampleProfileReaderExtBinary::collectFuncsFrom(const Module &M) { + UseAllFuncs = false; + FuncsToUse.clear(); + for (auto &F : M) + FuncsToUse.insert(FunctionSamples::getCanonicalFnName(F)); +} + +std::error_code SampleProfileReaderExtBinary::readFuncOffsetTable() { + auto Size = readNumber<uint64_t>(); + if (std::error_code EC = Size.getError()) + return EC; + + FuncOffsetTable.reserve(*Size); + for (uint32_t I = 0; I < *Size; ++I) { + auto FName(readStringFromTable()); + if (std::error_code EC = FName.getError()) + return EC; + + auto Offset = readNumber<uint64_t>(); + if (std::error_code EC = Offset.getError()) + return EC; + + FuncOffsetTable[*FName] = *Offset; + } + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderExtBinary::readFuncProfiles() { + const uint8_t *Start = Data; + if (UseAllFuncs) { + while (Data < End) { + if (std::error_code EC = readFuncProfile(Data)) + return EC; + } + assert(Data == End && "More data is read than expected"); + return sampleprof_error::success; + } + + if (Remapper) { + for (auto Name : FuncsToUse) { + Remapper->insert(Name); + } + } + + for (auto NameOffset : FuncOffsetTable) { + auto FuncName = NameOffset.first; + if (!FuncsToUse.count(FuncName) && + (!Remapper || !Remapper->exist(FuncName))) + continue; + const uint8_t *FuncProfileAddr = Start + NameOffset.second; + assert(FuncProfileAddr < End && "out of LBRProfile section"); + if (std::error_code EC = readFuncProfile(FuncProfileAddr)) + return EC; + } + + Data = End; + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderExtBinary::readProfileSymbolList() { + if (!ProfSymList) + ProfSymList = std::make_unique<ProfileSymbolList>(); + + if (std::error_code EC = ProfSymList->read(Data, End - Data)) + return EC; + + Data = End; + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderExtBinaryBase::decompressSection( + const uint8_t *SecStart, const uint64_t SecSize, + const uint8_t *&DecompressBuf, uint64_t &DecompressBufSize) { + Data = SecStart; + End = SecStart + SecSize; + auto DecompressSize = readNumber<uint64_t>(); + if (std::error_code EC = DecompressSize.getError()) + return EC; + DecompressBufSize = *DecompressSize; + + auto CompressSize = readNumber<uint64_t>(); + if (std::error_code EC = CompressSize.getError()) + return EC; + + if (!llvm::zlib::isAvailable()) + return sampleprof_error::zlib_unavailable; + + StringRef CompressedStrings(reinterpret_cast<const char *>(Data), + *CompressSize); + char *Buffer = Allocator.Allocate<char>(DecompressBufSize); + size_t UCSize = DecompressBufSize; + llvm::Error E = + zlib::uncompress(CompressedStrings, Buffer, UCSize); + if (E) + return sampleprof_error::uncompress_failed; + DecompressBuf = reinterpret_cast<const uint8_t *>(Buffer); + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderExtBinaryBase::readImpl() { + const uint8_t *BufStart = + reinterpret_cast<const uint8_t *>(Buffer->getBufferStart()); + + for (auto &Entry : SecHdrTable) { + // Skip empty section. + if (!Entry.Size) + continue; + + const uint8_t *SecStart = BufStart + Entry.Offset; + uint64_t SecSize = Entry.Size; + + // If the section is compressed, decompress it into a buffer + // DecompressBuf before reading the actual data. The pointee of + // 'Data' will be changed to buffer hold by DecompressBuf + // temporarily when reading the actual data. + bool isCompressed = hasSecFlag(Entry, SecFlagCompress); + if (isCompressed) { + const uint8_t *DecompressBuf; + uint64_t DecompressBufSize; + if (std::error_code EC = decompressSection( + SecStart, SecSize, DecompressBuf, DecompressBufSize)) + return EC; + SecStart = DecompressBuf; + SecSize = DecompressBufSize; + } + + if (std::error_code EC = readOneSection(SecStart, SecSize, Entry.Type)) + return EC; + if (Data != SecStart + SecSize) + return sampleprof_error::malformed; + + // Change the pointee of 'Data' from DecompressBuf to original Buffer. + if (isCompressed) { + Data = BufStart + Entry.Offset; + End = BufStart + Buffer->getBufferSize(); + } + } + + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderCompactBinary::readImpl() { + std::vector<uint64_t> OffsetsToUse; + if (UseAllFuncs) { + for (auto FuncEntry : FuncOffsetTable) { + OffsetsToUse.push_back(FuncEntry.second); + } + } + else { + for (auto Name : FuncsToUse) { + auto GUID = std::to_string(MD5Hash(Name)); + auto iter = FuncOffsetTable.find(StringRef(GUID)); + if (iter == FuncOffsetTable.end()) + continue; + OffsetsToUse.push_back(iter->second); + } + } + + for (auto Offset : OffsetsToUse) { + const uint8_t *SavedData = Data; + if (std::error_code EC = readFuncProfile( + reinterpret_cast<const uint8_t *>(Buffer->getBufferStart()) + + Offset)) + return EC; + Data = SavedData; + } + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderRawBinary::verifySPMagic(uint64_t Magic) { + if (Magic == SPMagic()) + return sampleprof_error::success; + return sampleprof_error::bad_magic; +} + +std::error_code SampleProfileReaderExtBinary::verifySPMagic(uint64_t Magic) { + if (Magic == SPMagic(SPF_Ext_Binary)) + return sampleprof_error::success; + return sampleprof_error::bad_magic; +} + +std::error_code +SampleProfileReaderCompactBinary::verifySPMagic(uint64_t Magic) { + if (Magic == SPMagic(SPF_Compact_Binary)) + return sampleprof_error::success; + return sampleprof_error::bad_magic; +} + +std::error_code SampleProfileReaderBinary::readNameTable() { + auto Size = readNumber<uint32_t>(); + if (std::error_code EC = Size.getError()) + return EC; + NameTable.reserve(*Size); + for (uint32_t I = 0; I < *Size; ++I) { + auto Name(readString()); + if (std::error_code EC = Name.getError()) + return EC; + NameTable.push_back(*Name); + } + + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderCompactBinary::readNameTable() { + auto Size = readNumber<uint64_t>(); + if (std::error_code EC = Size.getError()) + return EC; + NameTable.reserve(*Size); + for (uint32_t I = 0; I < *Size; ++I) { + auto FID = readNumber<uint64_t>(); + if (std::error_code EC = FID.getError()) + return EC; + NameTable.push_back(std::to_string(*FID)); + } + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderExtBinaryBase::readSecHdrTableEntry() { + SecHdrTableEntry Entry; + auto Type = readUnencodedNumber<uint64_t>(); + if (std::error_code EC = Type.getError()) + return EC; + Entry.Type = static_cast<SecType>(*Type); + + auto Flags = readUnencodedNumber<uint64_t>(); + if (std::error_code EC = Flags.getError()) + return EC; + Entry.Flags = *Flags; + + auto Offset = readUnencodedNumber<uint64_t>(); + if (std::error_code EC = Offset.getError()) + return EC; + Entry.Offset = *Offset; + + auto Size = readUnencodedNumber<uint64_t>(); + if (std::error_code EC = Size.getError()) + return EC; + Entry.Size = *Size; + + SecHdrTable.push_back(std::move(Entry)); + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderExtBinaryBase::readSecHdrTable() { + auto EntryNum = readUnencodedNumber<uint64_t>(); + if (std::error_code EC = EntryNum.getError()) + return EC; + + for (uint32_t i = 0; i < (*EntryNum); i++) + if (std::error_code EC = readSecHdrTableEntry()) + return EC; + + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderExtBinaryBase::readHeader() { + const uint8_t *BufStart = + reinterpret_cast<const uint8_t *>(Buffer->getBufferStart()); + Data = BufStart; + End = BufStart + Buffer->getBufferSize(); + + if (std::error_code EC = readMagicIdent()) + return EC; + + if (std::error_code EC = readSecHdrTable()) + return EC; + + return sampleprof_error::success; +} + +uint64_t SampleProfileReaderExtBinaryBase::getSectionSize(SecType Type) { + for (auto &Entry : SecHdrTable) { + if (Entry.Type == Type) + return Entry.Size; + } + return 0; +} + +uint64_t SampleProfileReaderExtBinaryBase::getFileSize() { + // Sections in SecHdrTable is not necessarily in the same order as + // sections in the profile because section like FuncOffsetTable needs + // to be written after section LBRProfile but needs to be read before + // section LBRProfile, so we cannot simply use the last entry in + // SecHdrTable to calculate the file size. + uint64_t FileSize = 0; + for (auto &Entry : SecHdrTable) { + FileSize = std::max(Entry.Offset + Entry.Size, FileSize); + } + return FileSize; +} + +bool SampleProfileReaderExtBinaryBase::dumpSectionInfo(raw_ostream &OS) { + uint64_t TotalSecsSize = 0; + for (auto &Entry : SecHdrTable) { + OS << getSecName(Entry.Type) << " - Offset: " << Entry.Offset + << ", Size: " << Entry.Size << "\n"; + TotalSecsSize += getSectionSize(Entry.Type); + } + uint64_t HeaderSize = SecHdrTable.front().Offset; + assert(HeaderSize + TotalSecsSize == getFileSize() && + "Size of 'header + sections' doesn't match the total size of profile"); + + OS << "Header Size: " << HeaderSize << "\n"; + OS << "Total Sections Size: " << TotalSecsSize << "\n"; + OS << "File Size: " << getFileSize() << "\n"; + return true; +} + +std::error_code SampleProfileReaderBinary::readMagicIdent() { + // Read and check the magic identifier. + auto Magic = readNumber<uint64_t>(); + if (std::error_code EC = Magic.getError()) + return EC; + else if (std::error_code EC = verifySPMagic(*Magic)) + return EC; + + // Read the version number. + auto Version = readNumber<uint64_t>(); + if (std::error_code EC = Version.getError()) + return EC; + else if (*Version != SPVersion()) + return sampleprof_error::unsupported_version; + + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderBinary::readHeader() { + Data = reinterpret_cast<const uint8_t *>(Buffer->getBufferStart()); + End = Data + Buffer->getBufferSize(); + + if (std::error_code EC = readMagicIdent()) + return EC; + + if (std::error_code EC = readSummary()) + return EC; + + if (std::error_code EC = readNameTable()) + return EC; + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderCompactBinary::readHeader() { + SampleProfileReaderBinary::readHeader(); + if (std::error_code EC = readFuncOffsetTable()) + return EC; + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderCompactBinary::readFuncOffsetTable() { + auto TableOffset = readUnencodedNumber<uint64_t>(); + if (std::error_code EC = TableOffset.getError()) + return EC; + + const uint8_t *SavedData = Data; + const uint8_t *TableStart = + reinterpret_cast<const uint8_t *>(Buffer->getBufferStart()) + + *TableOffset; + Data = TableStart; + + auto Size = readNumber<uint64_t>(); + if (std::error_code EC = Size.getError()) + return EC; + + FuncOffsetTable.reserve(*Size); + for (uint32_t I = 0; I < *Size; ++I) { + auto FName(readStringFromTable()); + if (std::error_code EC = FName.getError()) + return EC; + + auto Offset = readNumber<uint64_t>(); + if (std::error_code EC = Offset.getError()) + return EC; + + FuncOffsetTable[*FName] = *Offset; + } + End = TableStart; + Data = SavedData; + return sampleprof_error::success; +} + +void SampleProfileReaderCompactBinary::collectFuncsFrom(const Module &M) { + UseAllFuncs = false; + FuncsToUse.clear(); + for (auto &F : M) + FuncsToUse.insert(FunctionSamples::getCanonicalFnName(F)); +} + +std::error_code SampleProfileReaderBinary::readSummaryEntry( + std::vector<ProfileSummaryEntry> &Entries) { + auto Cutoff = readNumber<uint64_t>(); + if (std::error_code EC = Cutoff.getError()) + return EC; + + auto MinBlockCount = readNumber<uint64_t>(); + if (std::error_code EC = MinBlockCount.getError()) + return EC; + + auto NumBlocks = readNumber<uint64_t>(); + if (std::error_code EC = NumBlocks.getError()) + return EC; + + Entries.emplace_back(*Cutoff, *MinBlockCount, *NumBlocks); + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderBinary::readSummary() { + auto TotalCount = readNumber<uint64_t>(); + if (std::error_code EC = TotalCount.getError()) + return EC; + + auto MaxBlockCount = readNumber<uint64_t>(); + if (std::error_code EC = MaxBlockCount.getError()) + return EC; + + auto MaxFunctionCount = readNumber<uint64_t>(); + if (std::error_code EC = MaxFunctionCount.getError()) + return EC; + + auto NumBlocks = readNumber<uint64_t>(); + if (std::error_code EC = NumBlocks.getError()) + return EC; + + auto NumFunctions = readNumber<uint64_t>(); + if (std::error_code EC = NumFunctions.getError()) + return EC; + + auto NumSummaryEntries = readNumber<uint64_t>(); + if (std::error_code EC = NumSummaryEntries.getError()) + return EC; + + std::vector<ProfileSummaryEntry> Entries; + for (unsigned i = 0; i < *NumSummaryEntries; i++) { + std::error_code EC = readSummaryEntry(Entries); + if (EC != sampleprof_error::success) + return EC; + } + Summary = std::make_unique<ProfileSummary>( + ProfileSummary::PSK_Sample, Entries, *TotalCount, *MaxBlockCount, 0, + *MaxFunctionCount, *NumBlocks, *NumFunctions); + + return sampleprof_error::success; +} + +bool SampleProfileReaderRawBinary::hasFormat(const MemoryBuffer &Buffer) { + const uint8_t *Data = + reinterpret_cast<const uint8_t *>(Buffer.getBufferStart()); + uint64_t Magic = decodeULEB128(Data); + return Magic == SPMagic(); +} + +bool SampleProfileReaderExtBinary::hasFormat(const MemoryBuffer &Buffer) { + const uint8_t *Data = + reinterpret_cast<const uint8_t *>(Buffer.getBufferStart()); + uint64_t Magic = decodeULEB128(Data); + return Magic == SPMagic(SPF_Ext_Binary); +} + +bool SampleProfileReaderCompactBinary::hasFormat(const MemoryBuffer &Buffer) { + const uint8_t *Data = + reinterpret_cast<const uint8_t *>(Buffer.getBufferStart()); + uint64_t Magic = decodeULEB128(Data); + return Magic == SPMagic(SPF_Compact_Binary); +} + +std::error_code SampleProfileReaderGCC::skipNextWord() { + uint32_t dummy; + if (!GcovBuffer.readInt(dummy)) + return sampleprof_error::truncated; + return sampleprof_error::success; +} + +template <typename T> ErrorOr<T> SampleProfileReaderGCC::readNumber() { + if (sizeof(T) <= sizeof(uint32_t)) { + uint32_t Val; + if (GcovBuffer.readInt(Val) && Val <= std::numeric_limits<T>::max()) + return static_cast<T>(Val); + } else if (sizeof(T) <= sizeof(uint64_t)) { + uint64_t Val; + if (GcovBuffer.readInt64(Val) && Val <= std::numeric_limits<T>::max()) + return static_cast<T>(Val); + } + + std::error_code EC = sampleprof_error::malformed; + reportError(0, EC.message()); + return EC; +} + +ErrorOr<StringRef> SampleProfileReaderGCC::readString() { + StringRef Str; + if (!GcovBuffer.readString(Str)) + return sampleprof_error::truncated; + return Str; +} + +std::error_code SampleProfileReaderGCC::readHeader() { + // Read the magic identifier. + if (!GcovBuffer.readGCDAFormat()) + return sampleprof_error::unrecognized_format; + + // Read the version number. Note - the GCC reader does not validate this + // version, but the profile creator generates v704. + GCOV::GCOVVersion version; + if (!GcovBuffer.readGCOVVersion(version)) + return sampleprof_error::unrecognized_format; + + if (version != GCOV::V704) + return sampleprof_error::unsupported_version; + + // Skip the empty integer. + if (std::error_code EC = skipNextWord()) + return EC; + + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderGCC::readSectionTag(uint32_t Expected) { + uint32_t Tag; + if (!GcovBuffer.readInt(Tag)) + return sampleprof_error::truncated; + + if (Tag != Expected) + return sampleprof_error::malformed; + + if (std::error_code EC = skipNextWord()) + return EC; + + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderGCC::readNameTable() { + if (std::error_code EC = readSectionTag(GCOVTagAFDOFileNames)) + return EC; + + uint32_t Size; + if (!GcovBuffer.readInt(Size)) + return sampleprof_error::truncated; + + for (uint32_t I = 0; I < Size; ++I) { + StringRef Str; + if (!GcovBuffer.readString(Str)) + return sampleprof_error::truncated; + Names.push_back(Str); + } + + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderGCC::readFunctionProfiles() { + if (std::error_code EC = readSectionTag(GCOVTagAFDOFunction)) + return EC; + + uint32_t NumFunctions; + if (!GcovBuffer.readInt(NumFunctions)) + return sampleprof_error::truncated; + + InlineCallStack Stack; + for (uint32_t I = 0; I < NumFunctions; ++I) + if (std::error_code EC = readOneFunctionProfile(Stack, true, 0)) + return EC; + + computeSummary(); + return sampleprof_error::success; +} + +std::error_code SampleProfileReaderGCC::readOneFunctionProfile( + const InlineCallStack &InlineStack, bool Update, uint32_t Offset) { + uint64_t HeadCount = 0; + if (InlineStack.size() == 0) + if (!GcovBuffer.readInt64(HeadCount)) + return sampleprof_error::truncated; + + uint32_t NameIdx; + if (!GcovBuffer.readInt(NameIdx)) + return sampleprof_error::truncated; + + StringRef Name(Names[NameIdx]); + + uint32_t NumPosCounts; + if (!GcovBuffer.readInt(NumPosCounts)) + return sampleprof_error::truncated; + + uint32_t NumCallsites; + if (!GcovBuffer.readInt(NumCallsites)) + return sampleprof_error::truncated; + + FunctionSamples *FProfile = nullptr; + if (InlineStack.size() == 0) { + // If this is a top function that we have already processed, do not + // update its profile again. This happens in the presence of + // function aliases. Since these aliases share the same function + // body, there will be identical replicated profiles for the + // original function. In this case, we simply not bother updating + // the profile of the original function. + FProfile = &Profiles[Name]; + FProfile->addHeadSamples(HeadCount); + if (FProfile->getTotalSamples() > 0) + Update = false; + } else { + // Otherwise, we are reading an inlined instance. The top of the + // inline stack contains the profile of the caller. Insert this + // callee in the caller's CallsiteMap. + FunctionSamples *CallerProfile = InlineStack.front(); + uint32_t LineOffset = Offset >> 16; + uint32_t Discriminator = Offset & 0xffff; + FProfile = &CallerProfile->functionSamplesAt( + LineLocation(LineOffset, Discriminator))[Name]; + } + FProfile->setName(Name); + + for (uint32_t I = 0; I < NumPosCounts; ++I) { + uint32_t Offset; + if (!GcovBuffer.readInt(Offset)) + return sampleprof_error::truncated; + + uint32_t NumTargets; + if (!GcovBuffer.readInt(NumTargets)) + return sampleprof_error::truncated; + + uint64_t Count; + if (!GcovBuffer.readInt64(Count)) + return sampleprof_error::truncated; + + // The line location is encoded in the offset as: + // high 16 bits: line offset to the start of the function. + // low 16 bits: discriminator. + uint32_t LineOffset = Offset >> 16; + uint32_t Discriminator = Offset & 0xffff; + + InlineCallStack NewStack; + NewStack.push_back(FProfile); + NewStack.insert(NewStack.end(), InlineStack.begin(), InlineStack.end()); + if (Update) { + // Walk up the inline stack, adding the samples on this line to + // the total sample count of the callers in the chain. + for (auto CallerProfile : NewStack) + CallerProfile->addTotalSamples(Count); + + // Update the body samples for the current profile. + FProfile->addBodySamples(LineOffset, Discriminator, Count); + } + + // Process the list of functions called at an indirect call site. + // These are all the targets that a function pointer (or virtual + // function) resolved at runtime. + for (uint32_t J = 0; J < NumTargets; J++) { + uint32_t HistVal; + if (!GcovBuffer.readInt(HistVal)) + return sampleprof_error::truncated; + + if (HistVal != HIST_TYPE_INDIR_CALL_TOPN) + return sampleprof_error::malformed; + + uint64_t TargetIdx; + if (!GcovBuffer.readInt64(TargetIdx)) + return sampleprof_error::truncated; + StringRef TargetName(Names[TargetIdx]); + + uint64_t TargetCount; + if (!GcovBuffer.readInt64(TargetCount)) + return sampleprof_error::truncated; + + if (Update) + FProfile->addCalledTargetSamples(LineOffset, Discriminator, + TargetName, TargetCount); + } + } + + // Process all the inlined callers into the current function. These + // are all the callsites that were inlined into this function. + for (uint32_t I = 0; I < NumCallsites; I++) { + // The offset is encoded as: + // high 16 bits: line offset to the start of the function. + // low 16 bits: discriminator. + uint32_t Offset; + if (!GcovBuffer.readInt(Offset)) + return sampleprof_error::truncated; + InlineCallStack NewStack; + NewStack.push_back(FProfile); + NewStack.insert(NewStack.end(), InlineStack.begin(), InlineStack.end()); + if (std::error_code EC = readOneFunctionProfile(NewStack, Update, Offset)) + return EC; + } + + return sampleprof_error::success; +} + +/// Read a GCC AutoFDO profile. +/// +/// This format is generated by the Linux Perf conversion tool at +/// https://github.com/google/autofdo. +std::error_code SampleProfileReaderGCC::readImpl() { + // Read the string table. + if (std::error_code EC = readNameTable()) + return EC; + + // Read the source profile. + if (std::error_code EC = readFunctionProfiles()) + return EC; + + return sampleprof_error::success; +} + +bool SampleProfileReaderGCC::hasFormat(const MemoryBuffer &Buffer) { + StringRef Magic(reinterpret_cast<const char *>(Buffer.getBufferStart())); + return Magic == "adcg*704"; +} + +void SampleProfileReaderItaniumRemapper::applyRemapping(LLVMContext &Ctx) { + // If the reader is in compact format, we can't remap it because + // we don't know what the original function names were. + if (Reader.getFormat() == SPF_Compact_Binary) { + Ctx.diagnose(DiagnosticInfoSampleProfile( + Reader.getBuffer()->getBufferIdentifier(), + "Profile data remapping cannot be applied to profile data " + "in compact format (original mangled names are not available).", + DS_Warning)); + return; + } + + assert(Remappings && "should be initialized while creating remapper"); + for (auto &Sample : Reader.getProfiles()) + if (auto Key = Remappings->insert(Sample.first())) + SampleMap.insert({Key, &Sample.second}); + + RemappingApplied = true; +} + +FunctionSamples * +SampleProfileReaderItaniumRemapper::getSamplesFor(StringRef Fname) { + if (auto Key = Remappings->lookup(Fname)) + return SampleMap.lookup(Key); + return nullptr; +} + +/// Prepare a memory buffer for the contents of \p Filename. +/// +/// \returns an error code indicating the status of the buffer. +static ErrorOr<std::unique_ptr<MemoryBuffer>> +setupMemoryBuffer(const Twine &Filename) { + auto BufferOrErr = MemoryBuffer::getFileOrSTDIN(Filename); + if (std::error_code EC = BufferOrErr.getError()) + return EC; + auto Buffer = std::move(BufferOrErr.get()); + + // Sanity check the file. + if (uint64_t(Buffer->getBufferSize()) > std::numeric_limits<uint32_t>::max()) + return sampleprof_error::too_large; + + return std::move(Buffer); +} + +/// Create a sample profile reader based on the format of the input file. +/// +/// \param Filename The file to open. +/// +/// \param C The LLVM context to use to emit diagnostics. +/// +/// \param RemapFilename The file used for profile remapping. +/// +/// \returns an error code indicating the status of the created reader. +ErrorOr<std::unique_ptr<SampleProfileReader>> +SampleProfileReader::create(const std::string Filename, LLVMContext &C, + const std::string RemapFilename) { + auto BufferOrError = setupMemoryBuffer(Filename); + if (std::error_code EC = BufferOrError.getError()) + return EC; + return create(BufferOrError.get(), C, RemapFilename); +} + +/// Create a sample profile remapper from the given input, to remap the +/// function names in the given profile data. +/// +/// \param Filename The file to open. +/// +/// \param Reader The profile reader the remapper is going to be applied to. +/// +/// \param C The LLVM context to use to emit diagnostics. +/// +/// \returns an error code indicating the status of the created reader. +ErrorOr<std::unique_ptr<SampleProfileReaderItaniumRemapper>> +SampleProfileReaderItaniumRemapper::create(const std::string Filename, + SampleProfileReader &Reader, + LLVMContext &C) { + auto BufferOrError = setupMemoryBuffer(Filename); + if (std::error_code EC = BufferOrError.getError()) + return EC; + return create(BufferOrError.get(), Reader, C); +} + +/// Create a sample profile remapper from the given input, to remap the +/// function names in the given profile data. +/// +/// \param B The memory buffer to create the reader from (assumes ownership). +/// +/// \param C The LLVM context to use to emit diagnostics. +/// +/// \param Reader The profile reader the remapper is going to be applied to. +/// +/// \returns an error code indicating the status of the created reader. +ErrorOr<std::unique_ptr<SampleProfileReaderItaniumRemapper>> +SampleProfileReaderItaniumRemapper::create(std::unique_ptr<MemoryBuffer> &B, + SampleProfileReader &Reader, + LLVMContext &C) { + auto Remappings = std::make_unique<SymbolRemappingReader>(); + if (Error E = Remappings->read(*B.get())) { + handleAllErrors( + std::move(E), [&](const SymbolRemappingParseError &ParseError) { + C.diagnose(DiagnosticInfoSampleProfile(B->getBufferIdentifier(), + ParseError.getLineNum(), + ParseError.getMessage())); + }); + return sampleprof_error::malformed; + } + + return std::make_unique<SampleProfileReaderItaniumRemapper>( + std::move(B), std::move(Remappings), Reader); +} + +/// Create a sample profile reader based on the format of the input data. +/// +/// \param B The memory buffer to create the reader from (assumes ownership). +/// +/// \param C The LLVM context to use to emit diagnostics. +/// +/// \param RemapFilename The file used for profile remapping. +/// +/// \returns an error code indicating the status of the created reader. +ErrorOr<std::unique_ptr<SampleProfileReader>> +SampleProfileReader::create(std::unique_ptr<MemoryBuffer> &B, LLVMContext &C, + const std::string RemapFilename) { + std::unique_ptr<SampleProfileReader> Reader; + if (SampleProfileReaderRawBinary::hasFormat(*B)) + Reader.reset(new SampleProfileReaderRawBinary(std::move(B), C)); + else if (SampleProfileReaderExtBinary::hasFormat(*B)) + Reader.reset(new SampleProfileReaderExtBinary(std::move(B), C)); + else if (SampleProfileReaderCompactBinary::hasFormat(*B)) + Reader.reset(new SampleProfileReaderCompactBinary(std::move(B), C)); + else if (SampleProfileReaderGCC::hasFormat(*B)) + Reader.reset(new SampleProfileReaderGCC(std::move(B), C)); + else if (SampleProfileReaderText::hasFormat(*B)) + Reader.reset(new SampleProfileReaderText(std::move(B), C)); + else + return sampleprof_error::unrecognized_format; + + if (!RemapFilename.empty()) { + auto ReaderOrErr = + SampleProfileReaderItaniumRemapper::create(RemapFilename, *Reader, C); + if (std::error_code EC = ReaderOrErr.getError()) { + std::string Msg = "Could not create remapper: " + EC.message(); + C.diagnose(DiagnosticInfoSampleProfile(RemapFilename, Msg)); + return EC; + } + Reader->Remapper = std::move(ReaderOrErr.get()); + } + + FunctionSamples::Format = Reader->getFormat(); + if (std::error_code EC = Reader->readHeader()) { + return EC; + } + + return std::move(Reader); +} + +// For text and GCC file formats, we compute the summary after reading the +// profile. Binary format has the profile summary in its header. +void SampleProfileReader::computeSummary() { + SampleProfileSummaryBuilder Builder(ProfileSummaryBuilder::DefaultCutoffs); + for (const auto &I : Profiles) { + const FunctionSamples &Profile = I.second; + Builder.addRecord(Profile); + } + Summary = Builder.getSummary(); +} |