//===- SampleProfWriter.h - Write LLVM sample profile data ------*- C++ -*-===// // // 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 contains definitions needed for writing sample profiles. // //===----------------------------------------------------------------------===// #ifndef LLVM_PROFILEDATA_SAMPLEPROFWRITER_H #define LLVM_PROFILEDATA_SAMPLEPROFWRITER_H #include "llvm/ADT/MapVector.h" #include "llvm/ADT/StringRef.h" #include "llvm/IR/ProfileSummary.h" #include "llvm/ProfileData/SampleProf.h" #include "llvm/Support/ErrorOr.h" #include "llvm/Support/raw_ostream.h" #include #include #include #include namespace llvm { namespace sampleprof { enum SectionLayout { DefaultLayout, // The layout splits profile with context information from profile without // context information. When Thinlto is enabled, ThinLTO postlink phase only // has to load profile with context information and can skip the other part. CtxSplitLayout, NumOfLayout, }; /// When writing a profile with size limit, user may want to use a different /// strategy to reduce function count other than dropping functions with fewest /// samples first. In this case a class implementing the same interfaces should /// be provided to SampleProfileWriter::writeWithSizeLimit(). class FunctionPruningStrategy { protected: SampleProfileMap &ProfileMap; size_t OutputSizeLimit; public: /// \p ProfileMap A reference to the original profile map. It will be modified /// by Erase(). /// \p OutputSizeLimit Size limit in bytes of the output profile. This is /// necessary to estimate how many functions to remove. FunctionPruningStrategy(SampleProfileMap &ProfileMap, size_t OutputSizeLimit) : ProfileMap(ProfileMap), OutputSizeLimit(OutputSizeLimit) {} virtual ~FunctionPruningStrategy() = default; /// SampleProfileWriter::writeWithSizeLimit() calls this after every write /// iteration if the output size still exceeds the limit. This function /// should erase some functions from the profile map so that the writer tries /// to write the profile again with fewer functions. At least 1 entry from the /// profile map must be erased. /// /// \p CurrentOutputSize Number of bytes in the output if current profile map /// is written. virtual void Erase(size_t CurrentOutputSize) = 0; }; class DefaultFunctionPruningStrategy : public FunctionPruningStrategy { std::vector SortedFunctions; public: DefaultFunctionPruningStrategy(SampleProfileMap &ProfileMap, size_t OutputSizeLimit); /// In this default implementation, functions with fewest samples are dropped /// first. Since the exact size of the output cannot be easily calculated due /// to compression, we use a heuristic to remove as many functions as /// necessary but not too many, aiming to minimize the number of write /// iterations. /// Empirically, functions with larger total sample count contain linearly /// more sample entries, meaning it takes linearly more space to write them. /// The cumulative length is therefore quadratic if all functions are sorted /// by total sample count. /// TODO: Find better heuristic. void Erase(size_t CurrentOutputSize) override; }; /// Sample-based profile writer. Base class. class SampleProfileWriter { public: virtual ~SampleProfileWriter() = default; /// Write sample profiles in \p S. /// /// \returns status code of the file update operation. virtual std::error_code writeSample(const FunctionSamples &S) = 0; /// Write all the sample profiles in the given map of samples. /// /// \returns status code of the file update operation. virtual std::error_code write(const SampleProfileMap &ProfileMap); /// Write sample profiles up to given size limit, using the pruning strategy /// to drop some functions if necessary. /// /// \returns status code of the file update operation. template std::error_code writeWithSizeLimit(SampleProfileMap &ProfileMap, size_t OutputSizeLimit) { FunctionPruningStrategy Strategy(ProfileMap, OutputSizeLimit); return writeWithSizeLimitInternal(ProfileMap, OutputSizeLimit, &Strategy); } raw_ostream &getOutputStream() { return *OutputStream; } /// Profile writer factory. /// /// Create a new file writer based on the value of \p Format. static ErrorOr> create(StringRef Filename, SampleProfileFormat Format); /// Create a new stream writer based on the value of \p Format. /// For testing. static ErrorOr> create(std::unique_ptr &OS, SampleProfileFormat Format); virtual void setProfileSymbolList(ProfileSymbolList *PSL) {} virtual void setToCompressAllSections() {} virtual void setUseMD5() {} virtual void setPartialProfile() {} virtual void resetSecLayout(SectionLayout SL) {} protected: SampleProfileWriter(std::unique_ptr &OS) : OutputStream(std::move(OS)) {} /// Write a file header for the profile file. virtual std::error_code writeHeader(const SampleProfileMap &ProfileMap) = 0; // Write function profiles to the profile file. virtual std::error_code writeFuncProfiles(const SampleProfileMap &ProfileMap); std::error_code writeWithSizeLimitInternal(SampleProfileMap &ProfileMap, size_t OutputSizeLimit, FunctionPruningStrategy *Strategy); /// For writeWithSizeLimit in text mode, each newline takes 1 additional byte /// on Windows when actually written to the file, but not written to a memory /// buffer. This needs to be accounted for when rewriting the profile. size_t LineCount; /// Output stream where to emit the profile to. std::unique_ptr OutputStream; /// Profile summary. std::unique_ptr Summary; /// Compute summary for this profile. void computeSummary(const SampleProfileMap &ProfileMap); /// Profile format. SampleProfileFormat Format = SPF_None; }; /// Sample-based profile writer (text format). class SampleProfileWriterText : public SampleProfileWriter { public: std::error_code writeSample(const FunctionSamples &S) override; protected: SampleProfileWriterText(std::unique_ptr &OS) : SampleProfileWriter(OS), Indent(0) {} std::error_code writeHeader(const SampleProfileMap &ProfileMap) override { LineCount = 0; return sampleprof_error::success; } private: /// Indent level to use when writing. /// /// This is used when printing inlined callees. unsigned Indent; friend ErrorOr> SampleProfileWriter::create(std::unique_ptr &OS, SampleProfileFormat Format); }; /// Sample-based profile writer (binary format). class SampleProfileWriterBinary : public SampleProfileWriter { public: SampleProfileWriterBinary(std::unique_ptr &OS) : SampleProfileWriter(OS) {} std::error_code writeSample(const FunctionSamples &S) override; protected: virtual MapVector &getNameTable() { return NameTable; } virtual std::error_code writeMagicIdent(SampleProfileFormat Format); virtual std::error_code writeNameTable(); std::error_code writeHeader(const SampleProfileMap &ProfileMap) override; std::error_code writeSummary(); virtual std::error_code writeContextIdx(const SampleContext &Context); std::error_code writeNameIdx(FunctionId FName); std::error_code writeBody(const FunctionSamples &S); inline void stablizeNameTable(MapVector &NameTable, std::set &V); MapVector NameTable; void addName(FunctionId FName); virtual void addContext(const SampleContext &Context); void addNames(const FunctionSamples &S); private: friend ErrorOr> SampleProfileWriter::create(std::unique_ptr &OS, SampleProfileFormat Format); }; class SampleProfileWriterRawBinary : public SampleProfileWriterBinary { using SampleProfileWriterBinary::SampleProfileWriterBinary; }; const std::array, NumOfLayout> ExtBinaryHdrLayoutTable = { // Note that SecFuncOffsetTable section is written after SecLBRProfile // in the profile, but is put before SecLBRProfile in SectionHdrLayout. // This is because sample reader follows the order in SectionHdrLayout // to read each section. To read function profiles on demand, sample // reader need to get the offset of each function profile first. // // DefaultLayout SmallVector({{SecProfSummary, 0, 0, 0, 0}, {SecNameTable, 0, 0, 0, 0}, {SecCSNameTable, 0, 0, 0, 0}, {SecFuncOffsetTable, 0, 0, 0, 0}, {SecLBRProfile, 0, 0, 0, 0}, {SecProfileSymbolList, 0, 0, 0, 0}, {SecFuncMetadata, 0, 0, 0, 0}}), // CtxSplitLayout SmallVector({{SecProfSummary, 0, 0, 0, 0}, {SecNameTable, 0, 0, 0, 0}, // profile with context // for next two sections {SecFuncOffsetTable, 0, 0, 0, 0}, {SecLBRProfile, 0, 0, 0, 0}, // profile without context // for next two sections {SecFuncOffsetTable, 0, 0, 0, 0}, {SecLBRProfile, 0, 0, 0, 0}, {SecProfileSymbolList, 0, 0, 0, 0}, {SecFuncMetadata, 0, 0, 0, 0}}), }; class SampleProfileWriterExtBinaryBase : public SampleProfileWriterBinary { using SampleProfileWriterBinary::SampleProfileWriterBinary; public: std::error_code write(const SampleProfileMap &ProfileMap) override; void setToCompressAllSections() override; void setToCompressSection(SecType Type); std::error_code writeSample(const FunctionSamples &S) override; // Set to use MD5 to represent string in NameTable. void setUseMD5() override { UseMD5 = true; addSectionFlag(SecNameTable, SecNameTableFlags::SecFlagMD5Name); // MD5 will be stored as plain uint64_t instead of variable-length // quantity format in NameTable section. addSectionFlag(SecNameTable, SecNameTableFlags::SecFlagFixedLengthMD5); } // Set the profile to be partial. It means the profile is for // common/shared code. The common profile is usually merged from // profiles collected from running other targets. void setPartialProfile() override { addSectionFlag(SecProfSummary, SecProfSummaryFlags::SecFlagPartial); } void setProfileSymbolList(ProfileSymbolList *PSL) override { ProfSymList = PSL; }; void resetSecLayout(SectionLayout SL) override { verifySecLayout(SL); #ifndef NDEBUG // Make sure resetSecLayout is called before any flag setting. for (auto &Entry : SectionHdrLayout) { assert(Entry.Flags == 0 && "resetSecLayout has to be called before any flag setting"); } #endif SecLayout = SL; SectionHdrLayout = ExtBinaryHdrLayoutTable[SL]; } protected: uint64_t markSectionStart(SecType Type, uint32_t LayoutIdx); std::error_code addNewSection(SecType Sec, uint32_t LayoutIdx, uint64_t SectionStart); template void addSectionFlag(SecType Type, SecFlagType Flag) { for (auto &Entry : SectionHdrLayout) { if (Entry.Type == Type) addSecFlag(Entry, Flag); } } template void addSectionFlag(uint32_t SectionIdx, SecFlagType Flag) { addSecFlag(SectionHdrLayout[SectionIdx], Flag); } void addContext(const SampleContext &Context) override; // placeholder for subclasses to dispatch their own section writers. virtual std::error_code writeCustomSection(SecType Type) = 0; // Verify the SecLayout is supported by the format. virtual void verifySecLayout(SectionLayout SL) = 0; // specify the order to write sections. virtual std::error_code writeSections(const SampleProfileMap &ProfileMap) = 0; // Dispatch section writer for each section. \p LayoutIdx is the sequence // number indicating where the section is located in SectionHdrLayout. virtual std::error_code writeOneSection(SecType Type, uint32_t LayoutIdx, const SampleProfileMap &ProfileMap); // Helper function to write name table. std::error_code writeNameTable() override; std::error_code writeContextIdx(const SampleContext &Context) override; std::error_code writeCSNameIdx(const SampleContext &Context); std::error_code writeCSNameTableSection(); std::error_code writeFuncMetadata(const SampleProfileMap &Profiles); std::error_code writeFuncMetadata(const FunctionSamples &Profile); // Functions to write various kinds of sections. std::error_code writeNameTableSection(const SampleProfileMap &ProfileMap); std::error_code writeFuncOffsetTable(); std::error_code writeProfileSymbolListSection(); SectionLayout SecLayout = DefaultLayout; // Specifiy the order of sections in section header table. Note // the order of sections in SecHdrTable may be different that the // order in SectionHdrLayout. sample Reader will follow the order // in SectionHdrLayout to read each section. SmallVector SectionHdrLayout = ExtBinaryHdrLayoutTable[DefaultLayout]; // Save the start of SecLBRProfile so we can compute the offset to the // start of SecLBRProfile for each Function's Profile and will keep it // in FuncOffsetTable. uint64_t SecLBRProfileStart = 0; private: void allocSecHdrTable(); std::error_code writeSecHdrTable(); std::error_code writeHeader(const SampleProfileMap &ProfileMap) override; std::error_code compressAndOutput(); // We will swap the raw_ostream held by LocalBufStream and that // held by OutputStream if we try to add a section which needs // compression. After the swap, all the data written to output // will be temporarily buffered into the underlying raw_string_ostream // originally held by LocalBufStream. After the data writing for the // section is completed, compress the data in the local buffer, // swap the raw_ostream back and write the compressed data to the // real output. std::unique_ptr LocalBufStream; // The location where the output stream starts. uint64_t FileStart; // The location in the output stream where the SecHdrTable should be // written to. uint64_t SecHdrTableOffset; // The table contains SecHdrTableEntry entries in order of how they are // populated in the writer. It may be different from the order in // SectionHdrLayout which specifies the sequence in which sections will // be read. std::vector SecHdrTable; // FuncOffsetTable maps function context to its profile offset in // SecLBRProfile section. It is used to load function profile on demand. MapVector FuncOffsetTable; // Whether to use MD5 to represent string. bool UseMD5 = false; /// CSNameTable maps function context to its offset in SecCSNameTable section. /// The offset will be used everywhere where the context is referenced. MapVector CSNameTable; ProfileSymbolList *ProfSymList = nullptr; }; class SampleProfileWriterExtBinary : public SampleProfileWriterExtBinaryBase { public: SampleProfileWriterExtBinary(std::unique_ptr &OS) : SampleProfileWriterExtBinaryBase(OS) {} private: std::error_code writeDefaultLayout(const SampleProfileMap &ProfileMap); std::error_code writeCtxSplitLayout(const SampleProfileMap &ProfileMap); std::error_code writeSections(const SampleProfileMap &ProfileMap) override; std::error_code writeCustomSection(SecType Type) override { return sampleprof_error::success; }; void verifySecLayout(SectionLayout SL) override { assert((SL == DefaultLayout || SL == CtxSplitLayout) && "Unsupported layout"); } }; } // end namespace sampleprof } // end namespace llvm #endif // LLVM_PROFILEDATA_SAMPLEPROFWRITER_H