/*===-- InstrProfData.inc - instr profiling runtime structures -*- 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 is the main file that defines all the data structure, signature, * constant literals that are shared across profiling runtime library, * compiler (instrumentation), and host tools (reader/writer). The entities * defined in this file affect the profile runtime ABI, the raw profile format, * or both. * * The file has two identical copies. The primary copy lives in LLVM and * the other one sits in compiler-rt/lib/profile directory. To make changes * in this file, first modify the primary copy and copy it over to compiler-rt. * Testing of any change in this file can start only after the two copies are * synced up. * * The first part of the file includes macros that defines types, names, and * initializers for the member fields of the core data structures. The field * declarations for one structure is enabled by defining the field activation * macro associated with that structure. Only one field activation record * can be defined at one time and the rest definitions will be filtered out by * the preprocessor. * * Examples of how the template is used to instantiate structure definition: * 1. To declare a structure: * * struct ProfData { * #define INSTR_PROF_DATA(Type, LLVMType, Name, Initializer) \ * Type Name; * #include "llvm/ProfileData/InstrProfData.inc" * }; * * 2. To construct LLVM type arrays for the struct type: * * Type *DataTypes[] = { * #define INSTR_PROF_DATA(Type, LLVMType, Name, Initializer) \ * LLVMType, * #include "llvm/ProfileData/InstrProfData.inc" * }; * * 4. To construct constant array for the initializers: * #define INSTR_PROF_DATA(Type, LLVMType, Name, Initializer) \ * Initializer, * Constant *ConstantVals[] = { * #include "llvm/ProfileData/InstrProfData.inc" * }; * * * The second part of the file includes definitions all other entities that * are related to runtime ABI and format. When no field activation macro is * defined, this file can be included to introduce the definitions. * \*===----------------------------------------------------------------------===*/ /* Functions marked with INSTR_PROF_VISIBILITY must have hidden visibility in * the compiler runtime. */ #ifndef INSTR_PROF_VISIBILITY #define INSTR_PROF_VISIBILITY #endif /* INSTR_PROF_DATA start. */ /* Definition of member fields of the per-function control structure. */ #ifndef INSTR_PROF_DATA #define INSTR_PROF_DATA(Type, LLVMType, Name, Initializer) #else #define INSTR_PROF_DATA_DEFINED #endif INSTR_PROF_DATA(const uint64_t, llvm::Type::getInt64Ty(Ctx), NameRef, \ ConstantInt::get(llvm::Type::getInt64Ty(Ctx), \ IndexedInstrProf::ComputeHash(getPGOFuncNameVarInitializer(Inc->getName())))) INSTR_PROF_DATA(const uint64_t, llvm::Type::getInt64Ty(Ctx), FuncHash, \ ConstantInt::get(llvm::Type::getInt64Ty(Ctx), \ Inc->getHash()->getZExtValue())) INSTR_PROF_DATA(const IntPtrT, IntPtrTy, CounterPtr, RelativeCounterPtr) INSTR_PROF_DATA(const IntPtrT, IntPtrTy, BitmapPtr, RelativeBitmapPtr) /* This is used to map function pointers for the indirect call targets to * function name hashes during the conversion from raw to merged profile * data. */ INSTR_PROF_DATA(const IntPtrT, llvm::PointerType::getUnqual(Ctx), FunctionPointer, \ FunctionAddr) INSTR_PROF_DATA(IntPtrT, llvm::PointerType::getUnqual(Ctx), Values, \ ValuesPtrExpr) INSTR_PROF_DATA(const uint32_t, llvm::Type::getInt32Ty(Ctx), NumCounters, \ ConstantInt::get(llvm::Type::getInt32Ty(Ctx), NumCounters)) INSTR_PROF_DATA(const uint16_t, Int16ArrayTy, NumValueSites[IPVK_Last+1], \ ConstantArray::get(Int16ArrayTy, Int16ArrayVals)) \ INSTR_PROF_DATA(const uint32_t, llvm::Type::getInt32Ty(Ctx), NumBitmapBytes, \ ConstantInt::get(llvm::Type::getInt32Ty(Ctx), NumBitmapBytes)) #undef INSTR_PROF_DATA /* INSTR_PROF_DATA end. */ /* This is an internal data structure used by value profiler. It * is defined here to allow serialization code sharing by LLVM * to be used in unit test. * * typedef struct ValueProfNode { * // InstrProfValueData VData; * uint64_t Value; * uint64_t Count; * struct ValueProfNode *Next; * } ValueProfNode; */ /* INSTR_PROF_VALUE_NODE start. */ #ifndef INSTR_PROF_VALUE_NODE #define INSTR_PROF_VALUE_NODE(Type, LLVMType, Name, Initializer) #else #define INSTR_PROF_DATA_DEFINED #endif INSTR_PROF_VALUE_NODE(uint64_t, llvm::Type::getInt64Ty(Ctx), Value, \ ConstantInt::get(llvm::Type::GetInt64Ty(Ctx), 0)) INSTR_PROF_VALUE_NODE(uint64_t, llvm::Type::getInt64Ty(Ctx), Count, \ ConstantInt::get(llvm::Type::GetInt64Ty(Ctx), 0)) INSTR_PROF_VALUE_NODE(PtrToNodeT, llvm::PointerType::getUnqual(Ctx), Next, \ ConstantInt::get(llvm::Type::GetInt8PtrTy(Ctx), 0)) #undef INSTR_PROF_VALUE_NODE /* INSTR_PROF_VALUE_NODE end. */ /* INSTR_PROF_RAW_HEADER start */ /* Definition of member fields of the raw profile header data structure. */ /* Please update llvm/docs/InstrProfileFormat.rst as appropriate when updating raw profile format. */ #ifndef INSTR_PROF_RAW_HEADER #define INSTR_PROF_RAW_HEADER(Type, Name, Initializer) #else #define INSTR_PROF_DATA_DEFINED #endif INSTR_PROF_RAW_HEADER(uint64_t, Magic, __llvm_profile_get_magic()) INSTR_PROF_RAW_HEADER(uint64_t, Version, __llvm_profile_get_version()) INSTR_PROF_RAW_HEADER(uint64_t, BinaryIdsSize, __llvm_write_binary_ids(NULL)) INSTR_PROF_RAW_HEADER(uint64_t, NumData, NumData) INSTR_PROF_RAW_HEADER(uint64_t, PaddingBytesBeforeCounters, PaddingBytesBeforeCounters) INSTR_PROF_RAW_HEADER(uint64_t, NumCounters, NumCounters) INSTR_PROF_RAW_HEADER(uint64_t, PaddingBytesAfterCounters, PaddingBytesAfterCounters) INSTR_PROF_RAW_HEADER(uint64_t, NumBitmapBytes, NumBitmapBytes) INSTR_PROF_RAW_HEADER(uint64_t, PaddingBytesAfterBitmapBytes, PaddingBytesAfterBitmapBytes) INSTR_PROF_RAW_HEADER(uint64_t, NamesSize, NamesSize) INSTR_PROF_RAW_HEADER(uint64_t, CountersDelta, (uintptr_t)CountersBegin - (uintptr_t)DataBegin) INSTR_PROF_RAW_HEADER(uint64_t, BitmapDelta, (uintptr_t)BitmapBegin - (uintptr_t)DataBegin) INSTR_PROF_RAW_HEADER(uint64_t, NamesDelta, (uintptr_t)NamesBegin) INSTR_PROF_RAW_HEADER(uint64_t, ValueKindLast, IPVK_Last) #undef INSTR_PROF_RAW_HEADER /* INSTR_PROF_RAW_HEADER end */ /* VALUE_PROF_FUNC_PARAM start */ /* Definition of parameter types of the runtime API used to do value profiling * for a given value site. */ #ifndef VALUE_PROF_FUNC_PARAM #define VALUE_PROF_FUNC_PARAM(ArgType, ArgName, ArgLLVMType) #define INSTR_PROF_COMMA #else #define INSTR_PROF_DATA_DEFINED #define INSTR_PROF_COMMA , #endif VALUE_PROF_FUNC_PARAM(uint64_t, TargetValue, Type::getInt64Ty(Ctx)) \ INSTR_PROF_COMMA VALUE_PROF_FUNC_PARAM(void *, Data, PointerType::getUnqual(Ctx)) INSTR_PROF_COMMA VALUE_PROF_FUNC_PARAM(uint32_t, CounterIndex, Type::getInt32Ty(Ctx)) #undef VALUE_PROF_FUNC_PARAM #undef INSTR_PROF_COMMA /* VALUE_PROF_FUNC_PARAM end */ /* VALUE_PROF_KIND start */ #ifndef VALUE_PROF_KIND #define VALUE_PROF_KIND(Enumerator, Value, Descr) #else #define INSTR_PROF_DATA_DEFINED #endif /* For indirect function call value profiling, the addresses of the target * functions are profiled by the instrumented code. The target addresses are * written in the raw profile data and converted to target function name's MD5 * hash by the profile reader during deserialization. Typically, this happens * when the raw profile data is read during profile merging. * * For this remapping the ProfData is used. ProfData contains both the function * name hash and the function address. */ VALUE_PROF_KIND(IPVK_IndirectCallTarget, 0, "indirect call target") /* For memory intrinsic functions size profiling. */ VALUE_PROF_KIND(IPVK_MemOPSize, 1, "memory intrinsic functions size") /* These two kinds must be the last to be * declared. This is to make sure the string * array created with the template can be * indexed with the kind value. */ VALUE_PROF_KIND(IPVK_First, IPVK_IndirectCallTarget, "first") VALUE_PROF_KIND(IPVK_Last, IPVK_MemOPSize, "last") #undef VALUE_PROF_KIND /* VALUE_PROF_KIND end */ #undef COVMAP_V2_OR_V3 #ifdef COVMAP_V2 #define COVMAP_V2_OR_V3 #endif #ifdef COVMAP_V3 #define COVMAP_V2_OR_V3 #endif /* COVMAP_FUNC_RECORD start */ /* Definition of member fields of the function record structure in coverage * map. */ #ifndef COVMAP_FUNC_RECORD #define COVMAP_FUNC_RECORD(Type, LLVMType, Name, Initializer) #else #define INSTR_PROF_DATA_DEFINED #endif #ifdef COVMAP_V1 COVMAP_FUNC_RECORD(const IntPtrT, llvm::PointerType::getUnqual(Ctx), \ NamePtr, llvm::ConstantExpr::getBitCast(NamePtr, \ llvm::PointerType::getUnqual(Ctx))) COVMAP_FUNC_RECORD(const uint32_t, llvm::Type::getInt32Ty(Ctx), NameSize, \ llvm::ConstantInt::get(llvm::Type::getInt32Ty(Ctx), \ NameValue.size())) #endif #ifdef COVMAP_V2_OR_V3 COVMAP_FUNC_RECORD(const int64_t, llvm::Type::getInt64Ty(Ctx), NameRef, \ llvm::ConstantInt::get( \ llvm::Type::getInt64Ty(Ctx), NameHash)) #endif COVMAP_FUNC_RECORD(const uint32_t, llvm::Type::getInt32Ty(Ctx), DataSize, \ llvm::ConstantInt::get( \ llvm::Type::getInt32Ty(Ctx), CoverageMapping.size())) COVMAP_FUNC_RECORD(const uint64_t, llvm::Type::getInt64Ty(Ctx), FuncHash, \ llvm::ConstantInt::get( \ llvm::Type::getInt64Ty(Ctx), FuncHash)) #ifdef COVMAP_V3 COVMAP_FUNC_RECORD(const uint64_t, llvm::Type::getInt64Ty(Ctx), FilenamesRef, \ llvm::ConstantInt::get( \ llvm::Type::getInt64Ty(Ctx), FilenamesRef)) COVMAP_FUNC_RECORD(const char, \ llvm::ArrayType::get(llvm::Type::getInt8Ty(Ctx), \ CoverageMapping.size()), \ CoverageMapping, llvm::ConstantDataArray::getRaw( \ CoverageMapping, CoverageMapping.size(), \ llvm::Type::getInt8Ty(Ctx))) #endif #undef COVMAP_FUNC_RECORD /* COVMAP_FUNC_RECORD end. */ /* COVMAP_HEADER start */ /* Definition of member fields of coverage map header. */ #ifndef COVMAP_HEADER #define COVMAP_HEADER(Type, LLVMType, Name, Initializer) #else #define INSTR_PROF_DATA_DEFINED #endif COVMAP_HEADER(uint32_t, Int32Ty, NRecords, \ llvm::ConstantInt::get(Int32Ty, NRecords)) COVMAP_HEADER(uint32_t, Int32Ty, FilenamesSize, \ llvm::ConstantInt::get(Int32Ty, FilenamesSize)) COVMAP_HEADER(uint32_t, Int32Ty, CoverageSize, \ llvm::ConstantInt::get(Int32Ty, CoverageMappingSize)) COVMAP_HEADER(uint32_t, Int32Ty, Version, \ llvm::ConstantInt::get(Int32Ty, CovMapVersion::CurrentVersion)) #undef COVMAP_HEADER /* COVMAP_HEADER end. */ #ifdef INSTR_PROF_SECT_ENTRY #define INSTR_PROF_DATA_DEFINED INSTR_PROF_SECT_ENTRY(IPSK_data, \ INSTR_PROF_QUOTE(INSTR_PROF_DATA_COMMON), \ INSTR_PROF_DATA_COFF, "__DATA,") INSTR_PROF_SECT_ENTRY(IPSK_cnts, \ INSTR_PROF_QUOTE(INSTR_PROF_CNTS_COMMON), \ INSTR_PROF_CNTS_COFF, "__DATA,") INSTR_PROF_SECT_ENTRY(IPSK_bitmap, \ INSTR_PROF_QUOTE(INSTR_PROF_BITS_COMMON), \ INSTR_PROF_BITS_COFF, "__DATA,") INSTR_PROF_SECT_ENTRY(IPSK_name, \ INSTR_PROF_QUOTE(INSTR_PROF_NAME_COMMON), \ INSTR_PROF_NAME_COFF, "__DATA,") INSTR_PROF_SECT_ENTRY(IPSK_vals, \ INSTR_PROF_QUOTE(INSTR_PROF_VALS_COMMON), \ INSTR_PROF_VALS_COFF, "__DATA,") INSTR_PROF_SECT_ENTRY(IPSK_vnodes, \ INSTR_PROF_QUOTE(INSTR_PROF_VNODES_COMMON), \ INSTR_PROF_VNODES_COFF, "__DATA,") INSTR_PROF_SECT_ENTRY(IPSK_covmap, \ INSTR_PROF_QUOTE(INSTR_PROF_COVMAP_COMMON), \ INSTR_PROF_COVMAP_COFF, "__LLVM_COV,") INSTR_PROF_SECT_ENTRY(IPSK_covfun, \ INSTR_PROF_QUOTE(INSTR_PROF_COVFUN_COMMON), \ INSTR_PROF_COVFUN_COFF, "__LLVM_COV,") INSTR_PROF_SECT_ENTRY(IPSK_orderfile, \ INSTR_PROF_QUOTE(INSTR_PROF_ORDERFILE_COMMON), \ INSTR_PROF_QUOTE(INSTR_PROF_ORDERFILE_COFF), "__DATA,") INSTR_PROF_SECT_ENTRY(IPSK_covdata, \ INSTR_PROF_QUOTE(INSTR_PROF_COVDATA_COMMON), \ INSTR_PROF_COVDATA_COFF, "__LLVM_COV,") INSTR_PROF_SECT_ENTRY(IPSK_covname, \ INSTR_PROF_QUOTE(INSTR_PROF_COVNAME_COMMON), \ INSTR_PROF_COVNAME_COFF, "__LLVM_COV,") #undef INSTR_PROF_SECT_ENTRY #endif #ifdef INSTR_PROF_VALUE_PROF_DATA #define INSTR_PROF_DATA_DEFINED #define INSTR_PROF_MAX_NUM_VAL_PER_SITE 255 /*! * This is the header of the data structure that defines the on-disk * layout of the value profile data of a particular kind for one function. */ typedef struct ValueProfRecord { /* The kind of the value profile record. */ uint32_t Kind; /* * The number of value profile sites. It is guaranteed to be non-zero; * otherwise the record for this kind won't be emitted. */ uint32_t NumValueSites; /* * The first element of the array that stores the number of profiled * values for each value site. The size of the array is NumValueSites. * Since NumValueSites is greater than zero, there is at least one * element in the array. */ uint8_t SiteCountArray[1]; /* * The fake declaration is for documentation purpose only. * Align the start of next field to be on 8 byte boundaries. uint8_t Padding[X]; */ /* The array of value profile data. The size of the array is the sum * of all elements in SiteCountArray[]. InstrProfValueData ValueData[]; */ #ifdef __cplusplus /*! * Return the number of value sites. */ uint32_t getNumValueSites() const { return NumValueSites; } /*! * Read data from this record and save it to Record. */ void deserializeTo(InstrProfRecord &Record, InstrProfSymtab *SymTab); /* * In-place byte swap: * Do byte swap for this instance. \c Old is the original order before * the swap, and \c New is the New byte order. */ void swapBytes(llvm::endianness Old, llvm::endianness New); #endif } ValueProfRecord; /*! * Per-function header/control data structure for value profiling * data in indexed format. */ typedef struct ValueProfData { /* * Total size in bytes including this field. It must be a multiple * of sizeof(uint64_t). */ uint32_t TotalSize; /* *The number of value profile kinds that has value profile data. * In this implementation, a value profile kind is considered to * have profile data if the number of value profile sites for the * kind is not zero. More aggressively, the implementation can * choose to check the actual data value: if none of the value sites * has any profiled values, the kind can be skipped. */ uint32_t NumValueKinds; /* * Following are a sequence of variable length records. The prefix/header * of each record is defined by ValueProfRecord type. The number of * records is NumValueKinds. * ValueProfRecord Record_1; * ValueProfRecord Record_N; */ #if __cplusplus /*! * Return the total size in bytes of the on-disk value profile data * given the data stored in Record. */ static uint32_t getSize(const InstrProfRecord &Record); /*! * Return a pointer to \c ValueProfData instance ready to be streamed. */ static std::unique_ptr serializeFrom(const InstrProfRecord &Record); /*! * Check the integrity of the record. */ Error checkIntegrity(); /*! * Return a pointer to \c ValueProfileData instance ready to be read. * All data in the instance are properly byte swapped. The input * data is assumed to be in little endian order. */ static Expected> getValueProfData(const unsigned char *SrcBuffer, const unsigned char *const SrcBufferEnd, llvm::endianness SrcDataEndianness); /*! * Swap byte order from \c Endianness order to host byte order. */ void swapBytesToHost(llvm::endianness Endianness); /*! * Swap byte order from host byte order to \c Endianness order. */ void swapBytesFromHost(llvm::endianness Endianness); /*! * Return the total size of \c ValueProfileData. */ uint32_t getSize() const { return TotalSize; } /*! * Read data from this data and save it to \c Record. */ void deserializeTo(InstrProfRecord &Record, InstrProfSymtab *SymTab); void operator delete(void *ptr) { ::operator delete(ptr); } #endif } ValueProfData; /* * The closure is designed to abstact away two types of value profile data: * - InstrProfRecord which is the primary data structure used to * represent profile data in host tools (reader, writer, and profile-use) * - value profile runtime data structure suitable to be used by C * runtime library. * * Both sources of data need to serialize to disk/memory-buffer in common * format: ValueProfData. The abstraction allows compiler-rt's raw profiler * writer to share the same format and code with indexed profile writer. * * For documentation of the member methods below, refer to corresponding methods * in class InstrProfRecord. */ typedef struct ValueProfRecordClosure { const void *Record; uint32_t (*GetNumValueKinds)(const void *Record); uint32_t (*GetNumValueSites)(const void *Record, uint32_t VKind); uint32_t (*GetNumValueData)(const void *Record, uint32_t VKind); uint32_t (*GetNumValueDataForSite)(const void *R, uint32_t VK, uint32_t S); /* * After extracting the value profile data from the value profile record, * this method is used to map the in-memory value to on-disk value. If * the method is null, value will be written out untranslated. */ uint64_t (*RemapValueData)(uint32_t, uint64_t Value); void (*GetValueForSite)(const void *R, InstrProfValueData *Dst, uint32_t K, uint32_t S); ValueProfData *(*AllocValueProfData)(size_t TotalSizeInBytes); } ValueProfRecordClosure; INSTR_PROF_VISIBILITY ValueProfRecord * getFirstValueProfRecord(ValueProfData *VPD); INSTR_PROF_VISIBILITY ValueProfRecord * getValueProfRecordNext(ValueProfRecord *VPR); INSTR_PROF_VISIBILITY InstrProfValueData * getValueProfRecordValueData(ValueProfRecord *VPR); INSTR_PROF_VISIBILITY uint32_t getValueProfRecordHeaderSize(uint32_t NumValueSites); #undef INSTR_PROF_VALUE_PROF_DATA #endif /* INSTR_PROF_VALUE_PROF_DATA */ #ifdef INSTR_PROF_COMMON_API_IMPL #define INSTR_PROF_DATA_DEFINED #ifdef __cplusplus #define INSTR_PROF_INLINE inline #define INSTR_PROF_NULLPTR nullptr #else #define INSTR_PROF_INLINE #define INSTR_PROF_NULLPTR NULL #endif #ifndef offsetof #define offsetof(TYPE, MEMBER) ((size_t) &((TYPE *)0)->MEMBER) #endif /*! * Return the \c ValueProfRecord header size including the * padding bytes. */ INSTR_PROF_VISIBILITY INSTR_PROF_INLINE uint32_t getValueProfRecordHeaderSize(uint32_t NumValueSites) { uint32_t Size = offsetof(ValueProfRecord, SiteCountArray) + sizeof(uint8_t) * NumValueSites; /* Round the size to multiple of 8 bytes. */ Size = (Size + 7) & ~7; return Size; } /*! * Return the total size of the value profile record including the * header and the value data. */ INSTR_PROF_VISIBILITY INSTR_PROF_INLINE uint32_t getValueProfRecordSize(uint32_t NumValueSites, uint32_t NumValueData) { return getValueProfRecordHeaderSize(NumValueSites) + sizeof(InstrProfValueData) * NumValueData; } /*! * Return the pointer to the start of value data array. */ INSTR_PROF_VISIBILITY INSTR_PROF_INLINE InstrProfValueData *getValueProfRecordValueData(ValueProfRecord *This) { return (InstrProfValueData *)((char *)This + getValueProfRecordHeaderSize( This->NumValueSites)); } /*! * Return the total number of value data for \c This record. */ INSTR_PROF_VISIBILITY INSTR_PROF_INLINE uint32_t getValueProfRecordNumValueData(ValueProfRecord *This) { uint32_t NumValueData = 0; uint32_t I; for (I = 0; I < This->NumValueSites; I++) NumValueData += This->SiteCountArray[I]; return NumValueData; } /*! * Use this method to advance to the next \c This \c ValueProfRecord. */ INSTR_PROF_VISIBILITY INSTR_PROF_INLINE ValueProfRecord *getValueProfRecordNext(ValueProfRecord *This) { uint32_t NumValueData = getValueProfRecordNumValueData(This); return (ValueProfRecord *)((char *)This + getValueProfRecordSize(This->NumValueSites, NumValueData)); } /*! * Return the first \c ValueProfRecord instance. */ INSTR_PROF_VISIBILITY INSTR_PROF_INLINE ValueProfRecord *getFirstValueProfRecord(ValueProfData *This) { return (ValueProfRecord *)((char *)This + sizeof(ValueProfData)); } /* Closure based interfaces. */ /*! * Return the total size in bytes of the on-disk value profile data * given the data stored in Record. */ INSTR_PROF_VISIBILITY uint32_t getValueProfDataSize(ValueProfRecordClosure *Closure) { uint32_t Kind; uint32_t TotalSize = sizeof(ValueProfData); const void *Record = Closure->Record; for (Kind = IPVK_First; Kind <= IPVK_Last; Kind++) { uint32_t NumValueSites = Closure->GetNumValueSites(Record, Kind); if (!NumValueSites) continue; TotalSize += getValueProfRecordSize(NumValueSites, Closure->GetNumValueData(Record, Kind)); } return TotalSize; } /*! * Extract value profile data of a function for the profile kind \c ValueKind * from the \c Closure and serialize the data into \c This record instance. */ INSTR_PROF_VISIBILITY void serializeValueProfRecordFrom(ValueProfRecord *This, ValueProfRecordClosure *Closure, uint32_t ValueKind, uint32_t NumValueSites) { uint32_t S; const void *Record = Closure->Record; This->Kind = ValueKind; This->NumValueSites = NumValueSites; InstrProfValueData *DstVD = getValueProfRecordValueData(This); for (S = 0; S < NumValueSites; S++) { uint32_t ND = Closure->GetNumValueDataForSite(Record, ValueKind, S); This->SiteCountArray[S] = ND; Closure->GetValueForSite(Record, DstVD, ValueKind, S); DstVD += ND; } } /*! * Extract value profile data of a function from the \c Closure * and serialize the data into \c DstData if it is not NULL or heap * memory allocated by the \c Closure's allocator method. If \c * DstData is not null, the caller is expected to set the TotalSize * in DstData. */ INSTR_PROF_VISIBILITY ValueProfData * serializeValueProfDataFrom(ValueProfRecordClosure *Closure, ValueProfData *DstData) { uint32_t Kind; uint32_t TotalSize = DstData ? DstData->TotalSize : getValueProfDataSize(Closure); ValueProfData *VPD = DstData ? DstData : Closure->AllocValueProfData(TotalSize); VPD->TotalSize = TotalSize; VPD->NumValueKinds = Closure->GetNumValueKinds(Closure->Record); ValueProfRecord *VR = getFirstValueProfRecord(VPD); for (Kind = IPVK_First; Kind <= IPVK_Last; Kind++) { uint32_t NumValueSites = Closure->GetNumValueSites(Closure->Record, Kind); if (!NumValueSites) continue; serializeValueProfRecordFrom(VR, Closure, Kind, NumValueSites); VR = getValueProfRecordNext(VR); } return VPD; } #undef INSTR_PROF_COMMON_API_IMPL #endif /* INSTR_PROF_COMMON_API_IMPL */ /*============================================================================*/ #ifndef INSTR_PROF_DATA_DEFINED #ifndef INSTR_PROF_DATA_INC #define INSTR_PROF_DATA_INC /* Helper macros. */ #define INSTR_PROF_SIMPLE_QUOTE(x) #x #define INSTR_PROF_QUOTE(x) INSTR_PROF_SIMPLE_QUOTE(x) #define INSTR_PROF_SIMPLE_CONCAT(x,y) x ## y #define INSTR_PROF_CONCAT(x,y) INSTR_PROF_SIMPLE_CONCAT(x,y) /* Magic number to detect file format and endianness. * Use 255 at one end, since no UTF-8 file can use that character. Avoid 0, * so that utilities, like strings, don't grab it as a string. 129 is also * invalid UTF-8, and high enough to be interesting. * Use "lprofr" in the centre to stand for "LLVM Profile Raw", or "lprofR" * for 32-bit platforms. */ #define INSTR_PROF_RAW_MAGIC_64 (uint64_t)255 << 56 | (uint64_t)'l' << 48 | \ (uint64_t)'p' << 40 | (uint64_t)'r' << 32 | (uint64_t)'o' << 24 | \ (uint64_t)'f' << 16 | (uint64_t)'r' << 8 | (uint64_t)129 #define INSTR_PROF_RAW_MAGIC_32 (uint64_t)255 << 56 | (uint64_t)'l' << 48 | \ (uint64_t)'p' << 40 | (uint64_t)'r' << 32 | (uint64_t)'o' << 24 | \ (uint64_t)'f' << 16 | (uint64_t)'R' << 8 | (uint64_t)129 /* Raw profile format version (start from 1). */ #define INSTR_PROF_RAW_VERSION 9 /* Indexed profile format version (start from 1). */ #define INSTR_PROF_INDEX_VERSION 11 /* Coverage mapping format version (start from 0). */ #define INSTR_PROF_COVMAP_VERSION 6 /* Profile version is always of type uint64_t. Reserve the upper 32 bits in the * version for other variants of profile. We set the 8th most significant bit * (i.e. bit 56) to 1 to indicate if this is an IR-level instrumentation * generated profile, and 0 if this is a Clang FE generated profile. * 1 in bit 57 indicates there are context-sensitive records in the profile. * The 59th bit indicates whether to use debug info to correlate profiles. * The 60th bit indicates single byte coverage instrumentation. * The 61st bit indicates function entry instrumentation only. * The 62nd bit indicates whether memory profile information is present. * The 63rd bit indicates if this is a temporal profile. */ #define VARIANT_MASKS_ALL 0xffffffff00000000ULL #define GET_VERSION(V) ((V) & ~VARIANT_MASKS_ALL) #define VARIANT_MASK_IR_PROF (0x1ULL << 56) #define VARIANT_MASK_CSIR_PROF (0x1ULL << 57) #define VARIANT_MASK_INSTR_ENTRY (0x1ULL << 58) #define VARIANT_MASK_DBG_CORRELATE (0x1ULL << 59) #define VARIANT_MASK_BYTE_COVERAGE (0x1ULL << 60) #define VARIANT_MASK_FUNCTION_ENTRY_ONLY (0x1ULL << 61) #define VARIANT_MASK_MEMPROF (0x1ULL << 62) #define VARIANT_MASK_TEMPORAL_PROF (0x1ULL << 63) #define INSTR_PROF_RAW_VERSION_VAR __llvm_profile_raw_version #define INSTR_PROF_PROFILE_RUNTIME_VAR __llvm_profile_runtime #define INSTR_PROF_PROFILE_COUNTER_BIAS_VAR __llvm_profile_counter_bias #define INSTR_PROF_PROFILE_SET_TIMESTAMP __llvm_profile_set_timestamp /* The variable that holds the name of the profile data * specified via command line. */ #define INSTR_PROF_PROFILE_NAME_VAR __llvm_profile_filename /* section name strings common to all targets other than WIN32 */ #define INSTR_PROF_DATA_COMMON __llvm_prf_data #define INSTR_PROF_NAME_COMMON __llvm_prf_names #define INSTR_PROF_CNTS_COMMON __llvm_prf_cnts #define INSTR_PROF_BITS_COMMON __llvm_prf_bits #define INSTR_PROF_VALS_COMMON __llvm_prf_vals #define INSTR_PROF_VNODES_COMMON __llvm_prf_vnds #define INSTR_PROF_COVMAP_COMMON __llvm_covmap #define INSTR_PROF_COVFUN_COMMON __llvm_covfun #define INSTR_PROF_COVDATA_COMMON __llvm_covdata #define INSTR_PROF_COVNAME_COMMON __llvm_covnames #define INSTR_PROF_ORDERFILE_COMMON __llvm_orderfile /* Windows section names. Because these section names contain dollar characters, * they must be quoted. */ #define INSTR_PROF_DATA_COFF ".lprfd$M" #define INSTR_PROF_NAME_COFF ".lprfn$M" #define INSTR_PROF_CNTS_COFF ".lprfc$M" #define INSTR_PROF_BITS_COFF ".lprfb$M" #define INSTR_PROF_VALS_COFF ".lprfv$M" #define INSTR_PROF_VNODES_COFF ".lprfnd$M" #define INSTR_PROF_COVMAP_COFF ".lcovmap$M" #define INSTR_PROF_COVFUN_COFF ".lcovfun$M" /* Since cov data and cov names sections are not allocated, we don't need to * access them at runtime. */ #define INSTR_PROF_COVDATA_COFF ".lcovd" #define INSTR_PROF_COVNAME_COFF ".lcovn" #define INSTR_PROF_ORDERFILE_COFF ".lorderfile$M" #ifdef _WIN32 /* Runtime section names and name strings. */ #define INSTR_PROF_DATA_SECT_NAME INSTR_PROF_DATA_COFF #define INSTR_PROF_NAME_SECT_NAME INSTR_PROF_NAME_COFF #define INSTR_PROF_CNTS_SECT_NAME INSTR_PROF_CNTS_COFF #define INSTR_PROF_BITS_SECT_NAME INSTR_PROF_BITS_COFF /* Array of pointers. Each pointer points to a list * of value nodes associated with one value site. */ #define INSTR_PROF_VALS_SECT_NAME INSTR_PROF_VALS_COFF /* Value profile nodes section. */ #define INSTR_PROF_VNODES_SECT_NAME INSTR_PROF_VNODES_COFF #define INSTR_PROF_COVMAP_SECT_NAME INSTR_PROF_COVMAP_COFF #define INSTR_PROF_COVFUN_SECT_NAME INSTR_PROF_COVFUN_COFF #define INSTR_PROF_COVDATA_SECT_NAME INSTR_PROF_COVDATA_COFF #define INSTR_PROF_COVNAME_SECT_NAME INSTR_PROF_COVNAME_COFF #define INSTR_PROF_ORDERFILE_SECT_NAME INSTR_PROF_ORDERFILE_COFF #else /* Runtime section names and name strings. */ #define INSTR_PROF_DATA_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_DATA_COMMON) #define INSTR_PROF_NAME_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_NAME_COMMON) #define INSTR_PROF_CNTS_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_CNTS_COMMON) #define INSTR_PROF_BITS_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_BITS_COMMON) /* Array of pointers. Each pointer points to a list * of value nodes associated with one value site. */ #define INSTR_PROF_VALS_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_VALS_COMMON) /* Value profile nodes section. */ #define INSTR_PROF_VNODES_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_VNODES_COMMON) #define INSTR_PROF_COVMAP_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_COVMAP_COMMON) #define INSTR_PROF_COVFUN_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_COVFUN_COMMON) #define INSTR_PROF_COVDATA_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_COVDATA_COMMON) #define INSTR_PROF_COVNAME_SECT_NAME INSTR_PROF_QUOTE(INSTR_PROF_COVNAME_COMMON) /* Order file instrumentation. */ #define INSTR_PROF_ORDERFILE_SECT_NAME \ INSTR_PROF_QUOTE(INSTR_PROF_ORDERFILE_COMMON) #endif #define INSTR_PROF_ORDERFILE_BUFFER_NAME _llvm_order_file_buffer #define INSTR_PROF_ORDERFILE_BUFFER_NAME_STR \ INSTR_PROF_QUOTE(INSTR_PROF_ORDERFILE_BUFFER_NAME) #define INSTR_PROF_ORDERFILE_BUFFER_IDX_NAME _llvm_order_file_buffer_idx #define INSTR_PROF_ORDERFILE_BUFFER_IDX_NAME_STR \ INSTR_PROF_QUOTE(INSTR_PROF_ORDERFILE_BUFFER_IDX_NAME) /* Macros to define start/stop section symbol for a given * section on Linux. For instance * INSTR_PROF_SECT_START(INSTR_PROF_DATA_SECT_NAME) will * expand to __start___llvm_prof_data */ #define INSTR_PROF_SECT_START(Sect) \ INSTR_PROF_CONCAT(__start_,Sect) #define INSTR_PROF_SECT_STOP(Sect) \ INSTR_PROF_CONCAT(__stop_,Sect) /* Value Profiling API linkage name. */ #define INSTR_PROF_VALUE_PROF_FUNC __llvm_profile_instrument_target #define INSTR_PROF_VALUE_PROF_FUNC_STR \ INSTR_PROF_QUOTE(INSTR_PROF_VALUE_PROF_FUNC) #define INSTR_PROF_VALUE_PROF_MEMOP_FUNC __llvm_profile_instrument_memop #define INSTR_PROF_VALUE_PROF_MEMOP_FUNC_STR \ INSTR_PROF_QUOTE(INSTR_PROF_VALUE_PROF_MEMOP_FUNC) /* InstrProfile per-function control data alignment. */ #define INSTR_PROF_DATA_ALIGNMENT 8 /* The data structure that represents a tracked value by the * value profiler. */ typedef struct InstrProfValueData { /* Profiled value. */ uint64_t Value; /* Number of times the value appears in the training run. */ uint64_t Count; } InstrProfValueData; #endif /* INSTR_PROF_DATA_INC */ #ifndef INSTR_ORDER_FILE_INC /* The maximal # of functions: 128*1024 (the buffer size will be 128*4 KB). */ #define INSTR_ORDER_FILE_BUFFER_SIZE 131072 #define INSTR_ORDER_FILE_BUFFER_BITS 17 #define INSTR_ORDER_FILE_BUFFER_MASK 0x1ffff #endif /* INSTR_ORDER_FILE_INC */ #else #undef INSTR_PROF_DATA_DEFINED #endif #undef COVMAP_V2_OR_V3 #ifdef INSTR_PROF_VALUE_PROF_MEMOP_API #ifdef __cplusplus #define INSTR_PROF_INLINE inline #else #define INSTR_PROF_INLINE #endif /* The value range buckets (22 buckets) for the memop size value profiling looks * like: * * [0, 0] * [1, 1] * [2, 2] * [3, 3] * [4, 4] * [5, 5] * [6, 6] * [7, 7] * [8, 8] * [9, 15] * [16, 16] * [17, 31] * [32, 32] * [33, 63] * [64, 64] * [65, 127] * [128, 128] * [129, 255] * [256, 256] * [257, 511] * [512, 512] * [513, UINT64_MAX] * * Each range has a 'representative value' which is the lower end value of the * range and used to store in the runtime profile data records and the VP * metadata. For example, it's 2 for [2, 2] and 64 for [65, 127]. */ #define INSTR_PROF_NUM_BUCKETS 22 /* * Clz and Popcount. This code was copied from * compiler-rt/lib/fuzzer/{FuzzerBuiltins.h,FuzzerBuiltinsMsvc.h} and * llvm/include/llvm/Support/MathExtras.h. */ #if defined(_MSC_VER) && !defined(__clang__) #include INSTR_PROF_VISIBILITY INSTR_PROF_INLINE int InstProfClzll(unsigned long long X) { unsigned long LeadZeroIdx = 0; #if !defined(_M_ARM64) && !defined(_M_X64) // Scan the high 32 bits. if (_BitScanReverse(&LeadZeroIdx, (unsigned long)(X >> 32))) return (int)(63 - (LeadZeroIdx + 32)); // Create a bit offset // from the MSB. // Scan the low 32 bits. if (_BitScanReverse(&LeadZeroIdx, (unsigned long)(X))) return (int)(63 - LeadZeroIdx); #else if (_BitScanReverse64(&LeadZeroIdx, X)) return 63 - LeadZeroIdx; #endif return 64; } INSTR_PROF_VISIBILITY INSTR_PROF_INLINE int InstProfPopcountll(unsigned long long X) { // This code originates from https://reviews.llvm.org/rG30626254510f. unsigned long long v = X; v = v - ((v >> 1) & 0x5555555555555555ULL); v = (v & 0x3333333333333333ULL) + ((v >> 2) & 0x3333333333333333ULL); v = (v + (v >> 4)) & 0x0F0F0F0F0F0F0F0FULL; return (int)((unsigned long long)(v * 0x0101010101010101ULL) >> 56); } #else INSTR_PROF_VISIBILITY INSTR_PROF_INLINE int InstProfClzll(unsigned long long X) { return __builtin_clzll(X); } INSTR_PROF_VISIBILITY INSTR_PROF_INLINE int InstProfPopcountll(unsigned long long X) { return __builtin_popcountll(X); } #endif /* defined(_MSC_VER) && !defined(__clang__) */ /* Map an (observed) memop size value to the representative value of its range. * For example, 5 -> 5, 22 -> 17, 99 -> 65, 256 -> 256, 1001 -> 513. */ INSTR_PROF_VISIBILITY INSTR_PROF_INLINE uint64_t InstrProfGetRangeRepValue(uint64_t Value) { if (Value <= 8) // The first ranges are individually tracked. Use the value as is. return Value; else if (Value >= 513) // The last range is mapped to its lowest value. return 513; else if (InstProfPopcountll(Value) == 1) // If it's a power of two, use it as is. return Value; else // Otherwise, take to the previous power of two + 1. return (UINT64_C(1) << (64 - InstProfClzll(Value) - 1)) + 1; } /* Return true if the range that an (observed) memop size value belongs to has * only a single value in the range. For example, 0 -> true, 8 -> true, 10 -> * false, 64 -> true, 100 -> false, 513 -> false. */ INSTR_PROF_VISIBILITY INSTR_PROF_INLINE unsigned InstrProfIsSingleValRange(uint64_t Value) { if (Value <= 8) // The first ranges are individually tracked. return 1; else if (InstProfPopcountll(Value) == 1) // If it's a power of two, there's only one value. return 1; else // Otherwise, there's more than one value in the range. return 0; } #endif /* INSTR_PROF_VALUE_PROF_MEMOP_API */