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09e5af7d61
Have the InstrProfWriter return a MemoryBuffer instead of a std::string. This fixes the alignment issues the reader would hit, and it's a more appropriate type for this anyway. I've also removed an ugly helper function that's not needed since we're allowing initializer lists now, and updated some error code checks based on MSVC's issues with r229473. This reverts r229483, reapplying r229478. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@229602 91177308-0d34-0410-b5e6-96231b3b80d8
160 lines
5.0 KiB
C++
160 lines
5.0 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 "InstrProfIndexed.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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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::CounterData *const data_type;
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typedef const InstrProfWriter::CounterData *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 &Counts : *V)
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M += (2 + Counts.second.size()) * sizeof(uint64_t);
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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 &Counts : *V) {
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LE.write<uint64_t>(Counts.first);
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LE.write<uint64_t>(Counts.second.size());
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for (uint64_t I : Counts.second)
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LE.write<uint64_t>(I);
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}
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}
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};
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}
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std::error_code
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InstrProfWriter::addFunctionCounts(StringRef FunctionName,
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uint64_t FunctionHash,
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ArrayRef<uint64_t> Counters) {
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auto &CounterData = FunctionData[FunctionName];
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auto Where = CounterData.find(FunctionHash);
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if (Where == CounterData.end()) {
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// We've never seen a function with this name and hash, add it.
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CounterData[FunctionHash] = Counters;
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// We keep track of the max function count as we go for simplicity.
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if (Counters[0] > MaxFunctionCount)
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MaxFunctionCount = Counters[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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auto &FoundCounters = Where->second;
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// If the number of counters doesn't match we either have bad data or a hash
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// collision.
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if (FoundCounters.size() != Counters.size())
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return instrprof_error::count_mismatch;
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for (size_t I = 0, E = Counters.size(); I < E; ++I) {
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if (FoundCounters[I] + Counters[I] < FoundCounters[I])
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return instrprof_error::counter_overflow;
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FoundCounters[I] += Counters[I];
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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 (FoundCounters[0] > MaxFunctionCount)
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MaxFunctionCount = FoundCounters[0];
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return instrprof_error::success;
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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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LE.write<uint64_t>(IndexedInstrProf::Magic);
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LE.write<uint64_t>(IndexedInstrProf::Version);
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LE.write<uint64_t>(MaxFunctionCount);
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LE.write<uint64_t>(static_cast<uint64_t>(IndexedInstrProf::HashType));
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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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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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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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