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9ef1dbba85
- Make indexed value profile data more compact by peeling out the per-site value count field into its own smaller sized array. - Introduced formal data structure definitions to specify value profile data layout in indexed format. Previously the layout of the data is only assumed in the client code (scattered in three different places : size computation, EmitData, and ReadData - The new data structure serves as a central place for layout documentation. - Add interfaces to force BE output for value profile data (testing purpose) - Add byte swap unit tests Differential Revision: http://reviews.llvm.org/D14401 llvm-svn: 252563
207 lines
6.7 KiB
C++
207 lines
6.7 KiB
C++
//=-- InstrProfWriter.cpp - Instrumented profiling writer -------------------=//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file contains support for writing profiling data for clang's
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// instrumentation based PGO and coverage.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ProfileData/InstrProfWriter.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/Support/EndianStream.h"
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#include "llvm/Support/OnDiskHashTable.h"
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using namespace llvm;
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namespace {
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static support::endianness ValueProfDataEndianness = support::little;
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class InstrProfRecordTrait {
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public:
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typedef StringRef key_type;
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typedef StringRef key_type_ref;
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typedef const InstrProfWriter::ProfilingData *const data_type;
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typedef const InstrProfWriter::ProfilingData *const data_type_ref;
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typedef uint64_t hash_value_type;
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typedef uint64_t offset_type;
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static hash_value_type ComputeHash(key_type_ref K) {
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return IndexedInstrProf::ComputeHash(IndexedInstrProf::HashType, K);
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}
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static std::pair<offset_type, offset_type>
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EmitKeyDataLength(raw_ostream &Out, key_type_ref K, data_type_ref V) {
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using namespace llvm::support;
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endian::Writer<little> LE(Out);
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offset_type N = K.size();
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LE.write<offset_type>(N);
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offset_type M = 0;
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for (const auto &ProfileData : *V) {
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const InstrProfRecord &ProfRecord = ProfileData.second;
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M += sizeof(uint64_t); // The function hash
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M += sizeof(uint64_t); // The size of the Counts vector
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M += ProfRecord.Counts.size() * sizeof(uint64_t);
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// Value data
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M += IndexedInstrProf::ValueProfData::getSize(ProfileData.second);
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}
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LE.write<offset_type>(M);
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return std::make_pair(N, M);
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}
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static void EmitKey(raw_ostream &Out, key_type_ref K, offset_type N){
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Out.write(K.data(), N);
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}
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static void EmitData(raw_ostream &Out, key_type_ref, data_type_ref V,
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offset_type) {
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using namespace llvm::support;
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endian::Writer<little> LE(Out);
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for (const auto &ProfileData : *V) {
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const InstrProfRecord &ProfRecord = ProfileData.second;
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LE.write<uint64_t>(ProfileData.first); // Function hash
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LE.write<uint64_t>(ProfRecord.Counts.size());
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for (uint64_t I : ProfRecord.Counts)
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LE.write<uint64_t>(I);
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// Write value data
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std::unique_ptr<IndexedInstrProf::ValueProfData> VDataPtr =
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IndexedInstrProf::ValueProfData::serializeFrom(ProfileData.second);
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uint32_t S = VDataPtr->getSize();
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VDataPtr->swapBytesFromHost(ValueProfDataEndianness);
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Out.write((const char *)VDataPtr.get(), S);
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}
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}
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};
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}
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static std::error_code combineInstrProfRecords(InstrProfRecord &Dest,
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InstrProfRecord &Source,
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uint64_t &MaxFunctionCount) {
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// If the number of counters doesn't match we either have bad data
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// or a hash collision.
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if (Dest.Counts.size() != Source.Counts.size())
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return instrprof_error::count_mismatch;
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for (size_t I = 0, E = Source.Counts.size(); I < E; ++I) {
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if (Dest.Counts[I] + Source.Counts[I] < Dest.Counts[I])
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return instrprof_error::counter_overflow;
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Dest.Counts[I] += Source.Counts[I];
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}
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for (uint32_t Kind = IPVK_First; Kind <= IPVK_Last; ++Kind) {
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if (std::error_code EC = Dest.mergeValueProfData(Kind, Source))
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return EC;
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}
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// We keep track of the max function count as we go for simplicity.
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if (Dest.Counts[0] > MaxFunctionCount)
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MaxFunctionCount = Dest.Counts[0];
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return instrprof_error::success;
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}
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// Internal interface for testing purpose only.
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void InstrProfWriter::setValueProfDataEndianness(
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support::endianness Endianness) {
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ValueProfDataEndianness = Endianness;
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}
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void InstrProfWriter::updateStringTableReferences(InstrProfRecord &I) {
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I.updateStrings(&StringTable);
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}
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std::error_code InstrProfWriter::addRecord(InstrProfRecord &&I) {
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updateStringTableReferences(I);
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auto &ProfileDataMap = FunctionData[I.Name];
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auto Where = ProfileDataMap.find(I.Hash);
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if (Where == ProfileDataMap.end()) {
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// We've never seen a function with this name and hash, add it.
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ProfileDataMap[I.Hash] = I;
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// We keep track of the max function count as we go for simplicity.
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if (I.Counts[0] > MaxFunctionCount)
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MaxFunctionCount = I.Counts[0];
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return instrprof_error::success;
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}
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// We're updating a function we've seen before.
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return combineInstrProfRecords(Where->second, I, MaxFunctionCount);
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}
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std::pair<uint64_t, uint64_t> InstrProfWriter::writeImpl(raw_ostream &OS) {
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OnDiskChainedHashTableGenerator<InstrProfRecordTrait> Generator;
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// Populate the hash table generator.
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for (const auto &I : FunctionData)
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Generator.insert(I.getKey(), &I.getValue());
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using namespace llvm::support;
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endian::Writer<little> LE(OS);
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// Write the header.
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IndexedInstrProf::Header Header;
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Header.Magic = IndexedInstrProf::Magic;
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Header.Version = IndexedInstrProf::Version;
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Header.MaxFunctionCount = MaxFunctionCount;
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Header.HashType = static_cast<uint64_t>(IndexedInstrProf::HashType);
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Header.HashOffset = 0;
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int N = sizeof(IndexedInstrProf::Header) / sizeof(uint64_t);
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// Only write out all the fields execpt 'HashOffset'. We need
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// to remember the offset of that field to allow back patching
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// later.
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for (int I = 0; I < N - 1; I++)
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LE.write<uint64_t>(reinterpret_cast<uint64_t *>(&Header)[I]);
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// Save a space to write the hash table start location.
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uint64_t HashTableStartLoc = OS.tell();
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// Reserve the space for HashOffset field.
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LE.write<uint64_t>(0);
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// Write the hash table.
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uint64_t HashTableStart = Generator.Emit(OS);
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return std::make_pair(HashTableStartLoc, HashTableStart);
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}
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void InstrProfWriter::write(raw_fd_ostream &OS) {
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// Write the hash table.
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auto TableStart = writeImpl(OS);
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// Go back and fill in the hash table start.
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using namespace support;
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OS.seek(TableStart.first);
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// Now patch the HashOffset field previously reserved.
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endian::Writer<little>(OS).write<uint64_t>(TableStart.second);
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}
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std::unique_ptr<MemoryBuffer> InstrProfWriter::writeBuffer() {
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std::string Data;
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llvm::raw_string_ostream OS(Data);
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// Write the hash table.
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auto TableStart = writeImpl(OS);
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OS.flush();
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// Go back and fill in the hash table start.
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using namespace support;
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uint64_t Bytes = endian::byte_swap<uint64_t, little>(TableStart.second);
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Data.replace(TableStart.first, sizeof(uint64_t), (const char *)&Bytes,
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sizeof(uint64_t));
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// Return this in an aligned memory buffer.
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return MemoryBuffer::getMemBufferCopy(Data);
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}
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