2021-12-17 06:45:54 +08:00
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//===-- InstrProfCorrelator.cpp -------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ProfileData/InstrProfCorrelator.h"
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2022-02-24 05:18:20 +08:00
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#include "llvm/DebugInfo/DIContext.h"
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#include "llvm/DebugInfo/DWARF/DWARFContext.h"
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#include "llvm/DebugInfo/DWARF/DWARFDie.h"
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2022-02-14 23:27:04 +08:00
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#include "llvm/DebugInfo/DWARF/DWARFExpression.h"
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2022-02-24 05:18:20 +08:00
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#include "llvm/DebugInfo/DWARF/DWARFFormValue.h"
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#include "llvm/DebugInfo/DWARF/DWARFLocationExpression.h"
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#include "llvm/DebugInfo/DWARF/DWARFUnit.h"
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2021-12-17 06:45:54 +08:00
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#include "llvm/Object/MachO.h"
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#include "llvm/Support/Debug.h"
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#define DEBUG_TYPE "correlator"
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using namespace llvm;
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/// Get the __llvm_prf_cnts section.
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Expected<object::SectionRef> getCountersSection(const object::ObjectFile &Obj) {
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for (auto &Section : Obj.sections())
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if (auto SectionName = Section.getName())
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if (SectionName.get() == INSTR_PROF_CNTS_SECT_NAME)
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return Section;
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return make_error<InstrProfError>(
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2022-01-26 04:35:23 +08:00
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instrprof_error::unable_to_correlate_profile,
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"could not find counter section (" INSTR_PROF_CNTS_SECT_NAME ")");
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2021-12-17 06:45:54 +08:00
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}
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const char *InstrProfCorrelator::FunctionNameAttributeName = "Function Name";
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const char *InstrProfCorrelator::CFGHashAttributeName = "CFG Hash";
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const char *InstrProfCorrelator::NumCountersAttributeName = "Num Counters";
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llvm::Expected<std::unique_ptr<InstrProfCorrelator::Context>>
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InstrProfCorrelator::Context::get(std::unique_ptr<MemoryBuffer> Buffer,
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const object::ObjectFile &Obj) {
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auto CountersSection = getCountersSection(Obj);
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if (auto Err = CountersSection.takeError())
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return std::move(Err);
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auto C = std::make_unique<Context>();
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C->Buffer = std::move(Buffer);
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C->CountersSectionStart = CountersSection->getAddress();
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C->CountersSectionEnd = C->CountersSectionStart + CountersSection->getSize();
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C->ShouldSwapBytes = Obj.isLittleEndian() != sys::IsLittleEndianHost;
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return Expected<std::unique_ptr<Context>>(std::move(C));
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}
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llvm::Expected<std::unique_ptr<InstrProfCorrelator>>
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InstrProfCorrelator::get(StringRef DebugInfoFilename) {
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auto DsymObjectsOrErr =
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object::MachOObjectFile::findDsymObjectMembers(DebugInfoFilename);
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if (auto Err = DsymObjectsOrErr.takeError())
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return std::move(Err);
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if (!DsymObjectsOrErr->empty()) {
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// TODO: Enable profile correlation when there are multiple objects in a
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// dSYM bundle.
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if (DsymObjectsOrErr->size() > 1)
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2022-01-26 04:35:23 +08:00
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return make_error<InstrProfError>(
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instrprof_error::unable_to_correlate_profile,
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"using multiple objects is not yet supported");
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2021-12-17 06:45:54 +08:00
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DebugInfoFilename = *DsymObjectsOrErr->begin();
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}
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auto BufferOrErr =
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errorOrToExpected(MemoryBuffer::getFile(DebugInfoFilename));
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if (auto Err = BufferOrErr.takeError())
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return std::move(Err);
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return get(std::move(*BufferOrErr));
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}
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llvm::Expected<std::unique_ptr<InstrProfCorrelator>>
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InstrProfCorrelator::get(std::unique_ptr<MemoryBuffer> Buffer) {
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auto BinOrErr = object::createBinary(*Buffer);
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if (auto Err = BinOrErr.takeError())
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return std::move(Err);
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if (auto *Obj = dyn_cast<object::ObjectFile>(BinOrErr->get())) {
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auto CtxOrErr = Context::get(std::move(Buffer), *Obj);
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if (auto Err = CtxOrErr.takeError())
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return std::move(Err);
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auto T = Obj->makeTriple();
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if (T.isArch64Bit())
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return InstrProfCorrelatorImpl<uint64_t>::get(std::move(*CtxOrErr), *Obj);
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if (T.isArch32Bit())
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return InstrProfCorrelatorImpl<uint32_t>::get(std::move(*CtxOrErr), *Obj);
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}
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return make_error<InstrProfError>(
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2022-01-26 04:35:23 +08:00
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instrprof_error::unable_to_correlate_profile, "not an object file");
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2021-12-17 06:45:54 +08:00
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}
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2022-01-27 01:59:57 +08:00
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Optional<size_t> InstrProfCorrelator::getDataSize() const {
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if (auto *C = dyn_cast<InstrProfCorrelatorImpl<uint32_t>>(this)) {
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return C->getDataSize();
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} else if (auto *C = dyn_cast<InstrProfCorrelatorImpl<uint64_t>>(this)) {
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return C->getDataSize();
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}
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return {};
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}
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2021-12-17 06:45:54 +08:00
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namespace llvm {
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template <>
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InstrProfCorrelatorImpl<uint32_t>::InstrProfCorrelatorImpl(
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std::unique_ptr<InstrProfCorrelator::Context> Ctx)
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: InstrProfCorrelatorImpl(InstrProfCorrelatorKind::CK_32Bit,
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std::move(Ctx)) {}
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template <>
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InstrProfCorrelatorImpl<uint64_t>::InstrProfCorrelatorImpl(
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std::unique_ptr<InstrProfCorrelator::Context> Ctx)
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: InstrProfCorrelatorImpl(InstrProfCorrelatorKind::CK_64Bit,
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std::move(Ctx)) {}
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template <>
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bool InstrProfCorrelatorImpl<uint32_t>::classof(const InstrProfCorrelator *C) {
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return C->getKind() == InstrProfCorrelatorKind::CK_32Bit;
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}
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template <>
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bool InstrProfCorrelatorImpl<uint64_t>::classof(const InstrProfCorrelator *C) {
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return C->getKind() == InstrProfCorrelatorKind::CK_64Bit;
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}
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} // end namespace llvm
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template <class IntPtrT>
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llvm::Expected<std::unique_ptr<InstrProfCorrelatorImpl<IntPtrT>>>
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InstrProfCorrelatorImpl<IntPtrT>::get(
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std::unique_ptr<InstrProfCorrelator::Context> Ctx,
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const object::ObjectFile &Obj) {
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if (Obj.isELF() || Obj.isMachO()) {
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auto DICtx = DWARFContext::create(Obj);
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return std::make_unique<DwarfInstrProfCorrelator<IntPtrT>>(std::move(DICtx),
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std::move(Ctx));
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}
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2022-01-26 04:35:23 +08:00
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return make_error<InstrProfError>(
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instrprof_error::unable_to_correlate_profile,
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"unsupported debug info format (only DWARF is supported)");
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2021-12-17 06:45:54 +08:00
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}
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template <class IntPtrT>
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Error InstrProfCorrelatorImpl<IntPtrT>::correlateProfileData() {
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2022-01-26 04:29:11 +08:00
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assert(Data.empty() && Names.empty() && NamesVec.empty());
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2021-12-17 06:45:54 +08:00
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correlateProfileDataImpl();
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2022-01-26 04:35:23 +08:00
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if (Data.empty() || NamesVec.empty())
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return make_error<InstrProfError>(
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instrprof_error::unable_to_correlate_profile,
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"could not find any profile metadata in debug info");
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2021-12-17 06:45:54 +08:00
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auto Result =
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2022-01-26 04:29:11 +08:00
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collectPGOFuncNameStrings(NamesVec, /*doCompression=*/false, Names);
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2021-12-29 05:34:36 +08:00
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CounterOffsets.clear();
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2022-01-26 04:29:11 +08:00
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NamesVec.clear();
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2021-12-17 06:45:54 +08:00
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return Result;
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}
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template <class IntPtrT>
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void InstrProfCorrelatorImpl<IntPtrT>::addProbe(StringRef FunctionName,
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uint64_t CFGHash,
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IntPtrT CounterOffset,
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IntPtrT FunctionPtr,
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uint32_t NumCounters) {
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2021-12-29 05:34:36 +08:00
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// Check if a probe was already added for this counter offset.
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if (!CounterOffsets.insert(CounterOffset).second)
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return;
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2021-12-17 06:45:54 +08:00
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Data.push_back({
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maybeSwap<uint64_t>(IndexedInstrProf::ComputeHash(FunctionName)),
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maybeSwap<uint64_t>(CFGHash),
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// In this mode, CounterPtr actually stores the section relative address
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// of the counter.
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maybeSwap<IntPtrT>(CounterOffset),
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maybeSwap<IntPtrT>(FunctionPtr),
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// TODO: Value profiling is not yet supported.
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/*ValuesPtr=*/maybeSwap<IntPtrT>(0),
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maybeSwap<uint32_t>(NumCounters),
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/*NumValueSites=*/{maybeSwap<uint16_t>(0), maybeSwap<uint16_t>(0)},
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});
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2022-01-26 04:29:11 +08:00
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NamesVec.push_back(FunctionName.str());
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2021-12-17 06:45:54 +08:00
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}
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template <class IntPtrT>
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llvm::Optional<uint64_t>
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DwarfInstrProfCorrelator<IntPtrT>::getLocation(const DWARFDie &Die) const {
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auto Locations = Die.getLocations(dwarf::DW_AT_location);
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if (!Locations) {
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consumeError(Locations.takeError());
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return {};
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}
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auto &DU = *Die.getDwarfUnit();
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2022-01-25 12:08:35 +08:00
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auto AddressSize = DU.getAddressByteSize();
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2021-12-17 06:45:54 +08:00
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for (auto &Location : *Locations) {
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DataExtractor Data(Location.Expr, DICtx->isLittleEndian(), AddressSize);
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DWARFExpression Expr(Data, AddressSize);
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2022-01-25 12:08:35 +08:00
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for (auto &Op : Expr) {
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if (Op.getCode() == dwarf::DW_OP_addr) {
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2021-12-17 06:45:54 +08:00
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return Op.getRawOperand(0);
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2022-01-25 12:08:35 +08:00
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} else if (Op.getCode() == dwarf::DW_OP_addrx) {
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uint64_t Index = Op.getRawOperand(0);
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if (auto SA = DU.getAddrOffsetSectionItem(Index))
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return SA->Address;
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}
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}
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2021-12-17 06:45:54 +08:00
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}
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return {};
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}
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template <class IntPtrT>
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bool DwarfInstrProfCorrelator<IntPtrT>::isDIEOfProbe(const DWARFDie &Die) {
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const auto &ParentDie = Die.getParent();
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if (!Die.isValid() || !ParentDie.isValid() || Die.isNULL())
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return false;
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if (Die.getTag() != dwarf::DW_TAG_variable)
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return false;
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if (!ParentDie.isSubprogramDIE())
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return false;
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if (!Die.hasChildren())
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return false;
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if (const char *Name = Die.getName(DINameKind::ShortName))
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return StringRef(Name).startswith(getInstrProfCountersVarPrefix());
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return false;
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}
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template <class IntPtrT>
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void DwarfInstrProfCorrelator<IntPtrT>::correlateProfileDataImpl() {
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auto maybeAddProbe = [&](DWARFDie Die) {
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if (!isDIEOfProbe(Die))
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return;
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Optional<const char *> FunctionName;
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Optional<uint64_t> CFGHash;
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Optional<uint64_t> CounterPtr = getLocation(Die);
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auto FunctionPtr =
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dwarf::toAddress(Die.getParent().find(dwarf::DW_AT_low_pc));
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Optional<uint64_t> NumCounters;
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for (const DWARFDie &Child : Die.children()) {
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if (Child.getTag() != dwarf::DW_TAG_LLVM_annotation)
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continue;
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auto AnnotationFormName = Child.find(dwarf::DW_AT_name);
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auto AnnotationFormValue = Child.find(dwarf::DW_AT_const_value);
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if (!AnnotationFormName || !AnnotationFormValue)
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continue;
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auto AnnotationNameOrErr = AnnotationFormName->getAsCString();
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if (auto Err = AnnotationNameOrErr.takeError()) {
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consumeError(std::move(Err));
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continue;
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}
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StringRef AnnotationName = *AnnotationNameOrErr;
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if (AnnotationName.compare(
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InstrProfCorrelator::FunctionNameAttributeName) == 0) {
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if (auto EC =
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AnnotationFormValue->getAsCString().moveInto(FunctionName))
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consumeError(std::move(EC));
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} else if (AnnotationName.compare(
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InstrProfCorrelator::CFGHashAttributeName) == 0) {
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CFGHash = AnnotationFormValue->getAsUnsignedConstant();
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} else if (AnnotationName.compare(
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InstrProfCorrelator::NumCountersAttributeName) == 0) {
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NumCounters = AnnotationFormValue->getAsUnsignedConstant();
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}
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}
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if (!FunctionName || !CFGHash || !CounterPtr || !NumCounters) {
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LLVM_DEBUG(dbgs() << "Incomplete DIE for probe\n\tFunctionName: "
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<< FunctionName << "\n\tCFGHash: " << CFGHash
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<< "\n\tCounterPtr: " << CounterPtr
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<< "\n\tNumCounters: " << NumCounters);
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LLVM_DEBUG(Die.dump(dbgs()));
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return;
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}
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uint64_t CountersStart = this->Ctx->CountersSectionStart;
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uint64_t CountersEnd = this->Ctx->CountersSectionEnd;
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if (*CounterPtr < CountersStart || *CounterPtr >= CountersEnd) {
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LLVM_DEBUG(
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dbgs() << "CounterPtr out of range for probe\n\tFunction Name: "
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<< FunctionName << "\n\tExpected: [0x"
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<< Twine::utohexstr(CountersStart) << ", 0x"
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<< Twine::utohexstr(CountersEnd) << ")\n\tActual: 0x"
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<< Twine::utohexstr(*CounterPtr));
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LLVM_DEBUG(Die.dump(dbgs()));
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return;
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}
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if (!FunctionPtr) {
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LLVM_DEBUG(dbgs() << "Could not find address of " << *FunctionName
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<< "\n");
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LLVM_DEBUG(Die.dump(dbgs()));
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}
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this->addProbe(*FunctionName, *CFGHash, *CounterPtr - CountersStart,
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FunctionPtr.getValueOr(0), *NumCounters);
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};
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for (auto &CU : DICtx->normal_units())
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for (const auto &Entry : CU->dies())
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maybeAddProbe(DWARFDie(CU.get(), &Entry));
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for (auto &CU : DICtx->dwo_units())
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for (const auto &Entry : CU->dies())
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maybeAddProbe(DWARFDie(CU.get(), &Entry));
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}
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