forked from OSchip/llvm-project
812 lines
26 KiB
C++
812 lines
26 KiB
C++
//===- SampleProfReader.cpp - Read LLVM sample profile data ---------------===//
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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 implements the class that reads LLVM sample profiles. It
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// supports three file formats: text, binary and gcov.
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//
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// The textual representation is useful for debugging and testing purposes. The
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// binary representation is more compact, resulting in smaller file sizes.
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//
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// The gcov encoding is the one generated by GCC's AutoFDO profile creation
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// tool (https://github.com/google/autofdo)
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//
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// All three encodings can be used interchangeably as an input sample profile.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ProfileData/SampleProfReader.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/IR/ProfileSummary.h"
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#include "llvm/ProfileData/ProfileCommon.h"
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#include "llvm/ProfileData/SampleProf.h"
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#include "llvm/Support/ErrorOr.h"
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#include "llvm/Support/LEB128.h"
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#include "llvm/Support/LineIterator.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/raw_ostream.h"
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#include <algorithm>
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#include <cstddef>
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#include <cstdint>
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#include <limits>
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#include <memory>
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#include <system_error>
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#include <vector>
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using namespace llvm;
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using namespace sampleprof;
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/// \brief Dump the function profile for \p FName.
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///
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/// \param FName Name of the function to print.
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/// \param OS Stream to emit the output to.
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void SampleProfileReader::dumpFunctionProfile(StringRef FName,
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raw_ostream &OS) {
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OS << "Function: " << FName << ": " << Profiles[FName];
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}
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/// \brief Dump all the function profiles found on stream \p OS.
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void SampleProfileReader::dump(raw_ostream &OS) {
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for (const auto &I : Profiles)
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dumpFunctionProfile(I.getKey(), OS);
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}
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/// \brief Parse \p Input as function head.
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///
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/// Parse one line of \p Input, and update function name in \p FName,
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/// function's total sample count in \p NumSamples, function's entry
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/// count in \p NumHeadSamples.
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///
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/// \returns true if parsing is successful.
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static bool ParseHead(const StringRef &Input, StringRef &FName,
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uint64_t &NumSamples, uint64_t &NumHeadSamples) {
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if (Input[0] == ' ')
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return false;
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size_t n2 = Input.rfind(':');
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size_t n1 = Input.rfind(':', n2 - 1);
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FName = Input.substr(0, n1);
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if (Input.substr(n1 + 1, n2 - n1 - 1).getAsInteger(10, NumSamples))
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return false;
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if (Input.substr(n2 + 1).getAsInteger(10, NumHeadSamples))
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return false;
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return true;
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}
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/// \brief Returns true if line offset \p L is legal (only has 16 bits).
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static bool isOffsetLegal(unsigned L) { return (L & 0xffff) == L; }
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/// \brief Parse \p Input as line sample.
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///
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/// \param Input input line.
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/// \param IsCallsite true if the line represents an inlined callsite.
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/// \param Depth the depth of the inline stack.
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/// \param NumSamples total samples of the line/inlined callsite.
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/// \param LineOffset line offset to the start of the function.
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/// \param Discriminator discriminator of the line.
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/// \param TargetCountMap map from indirect call target to count.
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///
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/// returns true if parsing is successful.
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static bool ParseLine(const StringRef &Input, bool &IsCallsite, uint32_t &Depth,
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uint64_t &NumSamples, uint32_t &LineOffset,
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uint32_t &Discriminator, StringRef &CalleeName,
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DenseMap<StringRef, uint64_t> &TargetCountMap) {
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for (Depth = 0; Input[Depth] == ' '; Depth++)
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;
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if (Depth == 0)
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return false;
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size_t n1 = Input.find(':');
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StringRef Loc = Input.substr(Depth, n1 - Depth);
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size_t n2 = Loc.find('.');
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if (n2 == StringRef::npos) {
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if (Loc.getAsInteger(10, LineOffset) || !isOffsetLegal(LineOffset))
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return false;
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Discriminator = 0;
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} else {
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if (Loc.substr(0, n2).getAsInteger(10, LineOffset))
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return false;
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if (Loc.substr(n2 + 1).getAsInteger(10, Discriminator))
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return false;
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}
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StringRef Rest = Input.substr(n1 + 2);
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if (Rest[0] >= '0' && Rest[0] <= '9') {
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IsCallsite = false;
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size_t n3 = Rest.find(' ');
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if (n3 == StringRef::npos) {
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if (Rest.getAsInteger(10, NumSamples))
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return false;
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} else {
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if (Rest.substr(0, n3).getAsInteger(10, NumSamples))
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return false;
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}
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while (n3 != StringRef::npos) {
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n3 += Rest.substr(n3).find_first_not_of(' ');
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Rest = Rest.substr(n3);
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n3 = Rest.find(' ');
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StringRef pair = Rest;
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if (n3 != StringRef::npos) {
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pair = Rest.substr(0, n3);
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}
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size_t n4 = pair.find(':');
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uint64_t count;
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if (pair.substr(n4 + 1).getAsInteger(10, count))
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return false;
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TargetCountMap[pair.substr(0, n4)] = count;
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}
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} else {
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IsCallsite = true;
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size_t n3 = Rest.find_last_of(':');
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CalleeName = Rest.substr(0, n3);
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if (Rest.substr(n3 + 1).getAsInteger(10, NumSamples))
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return false;
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}
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return true;
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}
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/// \brief Load samples from a text file.
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///
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/// See the documentation at the top of the file for an explanation of
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/// the expected format.
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///
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/// \returns true if the file was loaded successfully, false otherwise.
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std::error_code SampleProfileReaderText::read() {
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line_iterator LineIt(*Buffer, /*SkipBlanks=*/true, '#');
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sampleprof_error Result = sampleprof_error::success;
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InlineCallStack InlineStack;
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for (; !LineIt.is_at_eof(); ++LineIt) {
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if ((*LineIt)[(*LineIt).find_first_not_of(' ')] == '#')
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continue;
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// Read the header of each function.
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//
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// Note that for function identifiers we are actually expecting
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// mangled names, but we may not always get them. This happens when
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// the compiler decides not to emit the function (e.g., it was inlined
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// and removed). In this case, the binary will not have the linkage
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// name for the function, so the profiler will emit the function's
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// unmangled name, which may contain characters like ':' and '>' in its
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// name (member functions, templates, etc).
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//
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// The only requirement we place on the identifier, then, is that it
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// should not begin with a number.
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if ((*LineIt)[0] != ' ') {
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uint64_t NumSamples, NumHeadSamples;
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StringRef FName;
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if (!ParseHead(*LineIt, FName, NumSamples, NumHeadSamples)) {
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reportError(LineIt.line_number(),
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"Expected 'mangled_name:NUM:NUM', found " + *LineIt);
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return sampleprof_error::malformed;
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}
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Profiles[FName] = FunctionSamples();
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FunctionSamples &FProfile = Profiles[FName];
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FProfile.setName(FName);
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MergeResult(Result, FProfile.addTotalSamples(NumSamples));
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MergeResult(Result, FProfile.addHeadSamples(NumHeadSamples));
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InlineStack.clear();
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InlineStack.push_back(&FProfile);
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} else {
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uint64_t NumSamples;
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StringRef FName;
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DenseMap<StringRef, uint64_t> TargetCountMap;
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bool IsCallsite;
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uint32_t Depth, LineOffset, Discriminator;
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if (!ParseLine(*LineIt, IsCallsite, Depth, NumSamples, LineOffset,
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Discriminator, FName, TargetCountMap)) {
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reportError(LineIt.line_number(),
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"Expected 'NUM[.NUM]: NUM[ mangled_name:NUM]*', found " +
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*LineIt);
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return sampleprof_error::malformed;
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}
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if (IsCallsite) {
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while (InlineStack.size() > Depth) {
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InlineStack.pop_back();
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}
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FunctionSamples &FSamples = InlineStack.back()->functionSamplesAt(
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LineLocation(LineOffset, Discriminator))[FName];
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FSamples.setName(FName);
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MergeResult(Result, FSamples.addTotalSamples(NumSamples));
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InlineStack.push_back(&FSamples);
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} else {
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while (InlineStack.size() > Depth) {
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InlineStack.pop_back();
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}
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FunctionSamples &FProfile = *InlineStack.back();
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for (const auto &name_count : TargetCountMap) {
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MergeResult(Result, FProfile.addCalledTargetSamples(
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LineOffset, Discriminator, name_count.first,
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name_count.second));
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}
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MergeResult(Result, FProfile.addBodySamples(LineOffset, Discriminator,
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NumSamples));
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}
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}
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}
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if (Result == sampleprof_error::success)
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computeSummary();
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return Result;
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}
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bool SampleProfileReaderText::hasFormat(const MemoryBuffer &Buffer) {
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bool result = false;
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// Check that the first non-comment line is a valid function header.
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line_iterator LineIt(Buffer, /*SkipBlanks=*/true, '#');
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if (!LineIt.is_at_eof()) {
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if ((*LineIt)[0] != ' ') {
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uint64_t NumSamples, NumHeadSamples;
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StringRef FName;
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result = ParseHead(*LineIt, FName, NumSamples, NumHeadSamples);
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}
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}
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return result;
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}
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template <typename T> ErrorOr<T> SampleProfileReaderBinary::readNumber() {
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unsigned NumBytesRead = 0;
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std::error_code EC;
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uint64_t Val = decodeULEB128(Data, &NumBytesRead);
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if (Val > std::numeric_limits<T>::max())
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EC = sampleprof_error::malformed;
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else if (Data + NumBytesRead > End)
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EC = sampleprof_error::truncated;
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else
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EC = sampleprof_error::success;
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if (EC) {
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reportError(0, EC.message());
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return EC;
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}
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Data += NumBytesRead;
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return static_cast<T>(Val);
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}
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ErrorOr<StringRef> SampleProfileReaderBinary::readString() {
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std::error_code EC;
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StringRef Str(reinterpret_cast<const char *>(Data));
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if (Data + Str.size() + 1 > End) {
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EC = sampleprof_error::truncated;
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reportError(0, EC.message());
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return EC;
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}
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Data += Str.size() + 1;
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return Str;
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}
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ErrorOr<StringRef> SampleProfileReaderBinary::readStringFromTable() {
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std::error_code EC;
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auto Idx = readNumber<uint32_t>();
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if (std::error_code EC = Idx.getError())
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return EC;
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if (*Idx >= NameTable.size())
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return sampleprof_error::truncated_name_table;
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return NameTable[*Idx];
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}
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std::error_code
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SampleProfileReaderBinary::readProfile(FunctionSamples &FProfile) {
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auto NumSamples = readNumber<uint64_t>();
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if (std::error_code EC = NumSamples.getError())
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return EC;
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FProfile.addTotalSamples(*NumSamples);
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// Read the samples in the body.
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auto NumRecords = readNumber<uint32_t>();
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if (std::error_code EC = NumRecords.getError())
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return EC;
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for (uint32_t I = 0; I < *NumRecords; ++I) {
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auto LineOffset = readNumber<uint64_t>();
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if (std::error_code EC = LineOffset.getError())
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return EC;
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if (!isOffsetLegal(*LineOffset)) {
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return std::error_code();
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}
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auto Discriminator = readNumber<uint64_t>();
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if (std::error_code EC = Discriminator.getError())
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return EC;
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auto NumSamples = readNumber<uint64_t>();
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if (std::error_code EC = NumSamples.getError())
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return EC;
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auto NumCalls = readNumber<uint32_t>();
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if (std::error_code EC = NumCalls.getError())
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return EC;
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for (uint32_t J = 0; J < *NumCalls; ++J) {
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auto CalledFunction(readStringFromTable());
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if (std::error_code EC = CalledFunction.getError())
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return EC;
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auto CalledFunctionSamples = readNumber<uint64_t>();
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if (std::error_code EC = CalledFunctionSamples.getError())
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return EC;
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FProfile.addCalledTargetSamples(*LineOffset, *Discriminator,
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*CalledFunction, *CalledFunctionSamples);
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}
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FProfile.addBodySamples(*LineOffset, *Discriminator, *NumSamples);
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}
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// Read all the samples for inlined function calls.
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auto NumCallsites = readNumber<uint32_t>();
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if (std::error_code EC = NumCallsites.getError())
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return EC;
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for (uint32_t J = 0; J < *NumCallsites; ++J) {
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auto LineOffset = readNumber<uint64_t>();
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if (std::error_code EC = LineOffset.getError())
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return EC;
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auto Discriminator = readNumber<uint64_t>();
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if (std::error_code EC = Discriminator.getError())
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return EC;
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auto FName(readStringFromTable());
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if (std::error_code EC = FName.getError())
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return EC;
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FunctionSamples &CalleeProfile = FProfile.functionSamplesAt(
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LineLocation(*LineOffset, *Discriminator))[*FName];
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CalleeProfile.setName(*FName);
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if (std::error_code EC = readProfile(CalleeProfile))
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return EC;
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}
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return sampleprof_error::success;
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}
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std::error_code SampleProfileReaderBinary::read() {
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while (!at_eof()) {
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auto NumHeadSamples = readNumber<uint64_t>();
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if (std::error_code EC = NumHeadSamples.getError())
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return EC;
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auto FName(readStringFromTable());
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if (std::error_code EC = FName.getError())
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return EC;
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Profiles[*FName] = FunctionSamples();
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FunctionSamples &FProfile = Profiles[*FName];
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FProfile.setName(*FName);
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FProfile.addHeadSamples(*NumHeadSamples);
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if (std::error_code EC = readProfile(FProfile))
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return EC;
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}
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return sampleprof_error::success;
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}
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std::error_code SampleProfileReaderBinary::readHeader() {
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Data = reinterpret_cast<const uint8_t *>(Buffer->getBufferStart());
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End = Data + Buffer->getBufferSize();
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// Read and check the magic identifier.
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auto Magic = readNumber<uint64_t>();
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if (std::error_code EC = Magic.getError())
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return EC;
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else if (*Magic != SPMagic())
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return sampleprof_error::bad_magic;
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// Read the version number.
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auto Version = readNumber<uint64_t>();
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if (std::error_code EC = Version.getError())
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return EC;
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else if (*Version != SPVersion())
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return sampleprof_error::unsupported_version;
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if (std::error_code EC = readSummary())
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return EC;
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// Read the name table.
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auto Size = readNumber<uint32_t>();
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if (std::error_code EC = Size.getError())
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return EC;
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NameTable.reserve(*Size);
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for (uint32_t I = 0; I < *Size; ++I) {
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auto Name(readString());
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if (std::error_code EC = Name.getError())
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return EC;
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NameTable.push_back(*Name);
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}
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return sampleprof_error::success;
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}
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std::error_code SampleProfileReaderBinary::readSummaryEntry(
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std::vector<ProfileSummaryEntry> &Entries) {
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auto Cutoff = readNumber<uint64_t>();
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if (std::error_code EC = Cutoff.getError())
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return EC;
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auto MinBlockCount = readNumber<uint64_t>();
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if (std::error_code EC = MinBlockCount.getError())
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return EC;
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auto NumBlocks = readNumber<uint64_t>();
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if (std::error_code EC = NumBlocks.getError())
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return EC;
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Entries.emplace_back(*Cutoff, *MinBlockCount, *NumBlocks);
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return sampleprof_error::success;
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}
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std::error_code SampleProfileReaderBinary::readSummary() {
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auto TotalCount = readNumber<uint64_t>();
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if (std::error_code EC = TotalCount.getError())
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return EC;
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auto MaxBlockCount = readNumber<uint64_t>();
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if (std::error_code EC = MaxBlockCount.getError())
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return EC;
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auto MaxFunctionCount = readNumber<uint64_t>();
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if (std::error_code EC = MaxFunctionCount.getError())
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return EC;
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auto NumBlocks = readNumber<uint64_t>();
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if (std::error_code EC = NumBlocks.getError())
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return EC;
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auto NumFunctions = readNumber<uint64_t>();
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if (std::error_code EC = NumFunctions.getError())
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return EC;
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auto NumSummaryEntries = readNumber<uint64_t>();
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if (std::error_code EC = NumSummaryEntries.getError())
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return EC;
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std::vector<ProfileSummaryEntry> Entries;
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for (unsigned i = 0; i < *NumSummaryEntries; i++) {
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std::error_code EC = readSummaryEntry(Entries);
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if (EC != sampleprof_error::success)
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return EC;
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}
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Summary = llvm::make_unique<ProfileSummary>(
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ProfileSummary::PSK_Sample, Entries, *TotalCount, *MaxBlockCount, 0,
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*MaxFunctionCount, *NumBlocks, *NumFunctions);
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return sampleprof_error::success;
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}
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bool SampleProfileReaderBinary::hasFormat(const MemoryBuffer &Buffer) {
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const uint8_t *Data =
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reinterpret_cast<const uint8_t *>(Buffer.getBufferStart());
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uint64_t Magic = decodeULEB128(Data);
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return Magic == SPMagic();
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}
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std::error_code SampleProfileReaderGCC::skipNextWord() {
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uint32_t dummy;
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if (!GcovBuffer.readInt(dummy))
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return sampleprof_error::truncated;
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return sampleprof_error::success;
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}
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template <typename T> ErrorOr<T> SampleProfileReaderGCC::readNumber() {
|
|
if (sizeof(T) <= sizeof(uint32_t)) {
|
|
uint32_t Val;
|
|
if (GcovBuffer.readInt(Val) && Val <= std::numeric_limits<T>::max())
|
|
return static_cast<T>(Val);
|
|
} else if (sizeof(T) <= sizeof(uint64_t)) {
|
|
uint64_t Val;
|
|
if (GcovBuffer.readInt64(Val) && Val <= std::numeric_limits<T>::max())
|
|
return static_cast<T>(Val);
|
|
}
|
|
|
|
std::error_code EC = sampleprof_error::malformed;
|
|
reportError(0, EC.message());
|
|
return EC;
|
|
}
|
|
|
|
ErrorOr<StringRef> SampleProfileReaderGCC::readString() {
|
|
StringRef Str;
|
|
if (!GcovBuffer.readString(Str))
|
|
return sampleprof_error::truncated;
|
|
return Str;
|
|
}
|
|
|
|
std::error_code SampleProfileReaderGCC::readHeader() {
|
|
// Read the magic identifier.
|
|
if (!GcovBuffer.readGCDAFormat())
|
|
return sampleprof_error::unrecognized_format;
|
|
|
|
// Read the version number. Note - the GCC reader does not validate this
|
|
// version, but the profile creator generates v704.
|
|
GCOV::GCOVVersion version;
|
|
if (!GcovBuffer.readGCOVVersion(version))
|
|
return sampleprof_error::unrecognized_format;
|
|
|
|
if (version != GCOV::V704)
|
|
return sampleprof_error::unsupported_version;
|
|
|
|
// Skip the empty integer.
|
|
if (std::error_code EC = skipNextWord())
|
|
return EC;
|
|
|
|
return sampleprof_error::success;
|
|
}
|
|
|
|
std::error_code SampleProfileReaderGCC::readSectionTag(uint32_t Expected) {
|
|
uint32_t Tag;
|
|
if (!GcovBuffer.readInt(Tag))
|
|
return sampleprof_error::truncated;
|
|
|
|
if (Tag != Expected)
|
|
return sampleprof_error::malformed;
|
|
|
|
if (std::error_code EC = skipNextWord())
|
|
return EC;
|
|
|
|
return sampleprof_error::success;
|
|
}
|
|
|
|
std::error_code SampleProfileReaderGCC::readNameTable() {
|
|
if (std::error_code EC = readSectionTag(GCOVTagAFDOFileNames))
|
|
return EC;
|
|
|
|
uint32_t Size;
|
|
if (!GcovBuffer.readInt(Size))
|
|
return sampleprof_error::truncated;
|
|
|
|
for (uint32_t I = 0; I < Size; ++I) {
|
|
StringRef Str;
|
|
if (!GcovBuffer.readString(Str))
|
|
return sampleprof_error::truncated;
|
|
Names.push_back(Str);
|
|
}
|
|
|
|
return sampleprof_error::success;
|
|
}
|
|
|
|
std::error_code SampleProfileReaderGCC::readFunctionProfiles() {
|
|
if (std::error_code EC = readSectionTag(GCOVTagAFDOFunction))
|
|
return EC;
|
|
|
|
uint32_t NumFunctions;
|
|
if (!GcovBuffer.readInt(NumFunctions))
|
|
return sampleprof_error::truncated;
|
|
|
|
InlineCallStack Stack;
|
|
for (uint32_t I = 0; I < NumFunctions; ++I)
|
|
if (std::error_code EC = readOneFunctionProfile(Stack, true, 0))
|
|
return EC;
|
|
|
|
computeSummary();
|
|
return sampleprof_error::success;
|
|
}
|
|
|
|
std::error_code SampleProfileReaderGCC::readOneFunctionProfile(
|
|
const InlineCallStack &InlineStack, bool Update, uint32_t Offset) {
|
|
uint64_t HeadCount = 0;
|
|
if (InlineStack.size() == 0)
|
|
if (!GcovBuffer.readInt64(HeadCount))
|
|
return sampleprof_error::truncated;
|
|
|
|
uint32_t NameIdx;
|
|
if (!GcovBuffer.readInt(NameIdx))
|
|
return sampleprof_error::truncated;
|
|
|
|
StringRef Name(Names[NameIdx]);
|
|
|
|
uint32_t NumPosCounts;
|
|
if (!GcovBuffer.readInt(NumPosCounts))
|
|
return sampleprof_error::truncated;
|
|
|
|
uint32_t NumCallsites;
|
|
if (!GcovBuffer.readInt(NumCallsites))
|
|
return sampleprof_error::truncated;
|
|
|
|
FunctionSamples *FProfile = nullptr;
|
|
if (InlineStack.size() == 0) {
|
|
// If this is a top function that we have already processed, do not
|
|
// update its profile again. This happens in the presence of
|
|
// function aliases. Since these aliases share the same function
|
|
// body, there will be identical replicated profiles for the
|
|
// original function. In this case, we simply not bother updating
|
|
// the profile of the original function.
|
|
FProfile = &Profiles[Name];
|
|
FProfile->addHeadSamples(HeadCount);
|
|
if (FProfile->getTotalSamples() > 0)
|
|
Update = false;
|
|
} else {
|
|
// Otherwise, we are reading an inlined instance. The top of the
|
|
// inline stack contains the profile of the caller. Insert this
|
|
// callee in the caller's CallsiteMap.
|
|
FunctionSamples *CallerProfile = InlineStack.front();
|
|
uint32_t LineOffset = Offset >> 16;
|
|
uint32_t Discriminator = Offset & 0xffff;
|
|
FProfile = &CallerProfile->functionSamplesAt(
|
|
LineLocation(LineOffset, Discriminator))[Name];
|
|
}
|
|
FProfile->setName(Name);
|
|
|
|
for (uint32_t I = 0; I < NumPosCounts; ++I) {
|
|
uint32_t Offset;
|
|
if (!GcovBuffer.readInt(Offset))
|
|
return sampleprof_error::truncated;
|
|
|
|
uint32_t NumTargets;
|
|
if (!GcovBuffer.readInt(NumTargets))
|
|
return sampleprof_error::truncated;
|
|
|
|
uint64_t Count;
|
|
if (!GcovBuffer.readInt64(Count))
|
|
return sampleprof_error::truncated;
|
|
|
|
// The line location is encoded in the offset as:
|
|
// high 16 bits: line offset to the start of the function.
|
|
// low 16 bits: discriminator.
|
|
uint32_t LineOffset = Offset >> 16;
|
|
uint32_t Discriminator = Offset & 0xffff;
|
|
|
|
InlineCallStack NewStack;
|
|
NewStack.push_back(FProfile);
|
|
NewStack.insert(NewStack.end(), InlineStack.begin(), InlineStack.end());
|
|
if (Update) {
|
|
// Walk up the inline stack, adding the samples on this line to
|
|
// the total sample count of the callers in the chain.
|
|
for (auto CallerProfile : NewStack)
|
|
CallerProfile->addTotalSamples(Count);
|
|
|
|
// Update the body samples for the current profile.
|
|
FProfile->addBodySamples(LineOffset, Discriminator, Count);
|
|
}
|
|
|
|
// Process the list of functions called at an indirect call site.
|
|
// These are all the targets that a function pointer (or virtual
|
|
// function) resolved at runtime.
|
|
for (uint32_t J = 0; J < NumTargets; J++) {
|
|
uint32_t HistVal;
|
|
if (!GcovBuffer.readInt(HistVal))
|
|
return sampleprof_error::truncated;
|
|
|
|
if (HistVal != HIST_TYPE_INDIR_CALL_TOPN)
|
|
return sampleprof_error::malformed;
|
|
|
|
uint64_t TargetIdx;
|
|
if (!GcovBuffer.readInt64(TargetIdx))
|
|
return sampleprof_error::truncated;
|
|
StringRef TargetName(Names[TargetIdx]);
|
|
|
|
uint64_t TargetCount;
|
|
if (!GcovBuffer.readInt64(TargetCount))
|
|
return sampleprof_error::truncated;
|
|
|
|
if (Update)
|
|
FProfile->addCalledTargetSamples(LineOffset, Discriminator,
|
|
TargetName, TargetCount);
|
|
}
|
|
}
|
|
|
|
// Process all the inlined callers into the current function. These
|
|
// are all the callsites that were inlined into this function.
|
|
for (uint32_t I = 0; I < NumCallsites; I++) {
|
|
// The offset is encoded as:
|
|
// high 16 bits: line offset to the start of the function.
|
|
// low 16 bits: discriminator.
|
|
uint32_t Offset;
|
|
if (!GcovBuffer.readInt(Offset))
|
|
return sampleprof_error::truncated;
|
|
InlineCallStack NewStack;
|
|
NewStack.push_back(FProfile);
|
|
NewStack.insert(NewStack.end(), InlineStack.begin(), InlineStack.end());
|
|
if (std::error_code EC = readOneFunctionProfile(NewStack, Update, Offset))
|
|
return EC;
|
|
}
|
|
|
|
return sampleprof_error::success;
|
|
}
|
|
|
|
/// \brief Read a GCC AutoFDO profile.
|
|
///
|
|
/// This format is generated by the Linux Perf conversion tool at
|
|
/// https://github.com/google/autofdo.
|
|
std::error_code SampleProfileReaderGCC::read() {
|
|
// Read the string table.
|
|
if (std::error_code EC = readNameTable())
|
|
return EC;
|
|
|
|
// Read the source profile.
|
|
if (std::error_code EC = readFunctionProfiles())
|
|
return EC;
|
|
|
|
return sampleprof_error::success;
|
|
}
|
|
|
|
bool SampleProfileReaderGCC::hasFormat(const MemoryBuffer &Buffer) {
|
|
StringRef Magic(reinterpret_cast<const char *>(Buffer.getBufferStart()));
|
|
return Magic == "adcg*704";
|
|
}
|
|
|
|
/// \brief Prepare a memory buffer for the contents of \p Filename.
|
|
///
|
|
/// \returns an error code indicating the status of the buffer.
|
|
static ErrorOr<std::unique_ptr<MemoryBuffer>>
|
|
setupMemoryBuffer(const Twine &Filename) {
|
|
auto BufferOrErr = MemoryBuffer::getFileOrSTDIN(Filename);
|
|
if (std::error_code EC = BufferOrErr.getError())
|
|
return EC;
|
|
auto Buffer = std::move(BufferOrErr.get());
|
|
|
|
// Sanity check the file.
|
|
if (Buffer->getBufferSize() > std::numeric_limits<uint32_t>::max())
|
|
return sampleprof_error::too_large;
|
|
|
|
return std::move(Buffer);
|
|
}
|
|
|
|
/// \brief Create a sample profile reader based on the format of the input file.
|
|
///
|
|
/// \param Filename The file to open.
|
|
///
|
|
/// \param Reader The reader to instantiate according to \p Filename's format.
|
|
///
|
|
/// \param C The LLVM context to use to emit diagnostics.
|
|
///
|
|
/// \returns an error code indicating the status of the created reader.
|
|
ErrorOr<std::unique_ptr<SampleProfileReader>>
|
|
SampleProfileReader::create(const Twine &Filename, LLVMContext &C) {
|
|
auto BufferOrError = setupMemoryBuffer(Filename);
|
|
if (std::error_code EC = BufferOrError.getError())
|
|
return EC;
|
|
return create(BufferOrError.get(), C);
|
|
}
|
|
|
|
/// \brief Create a sample profile reader based on the format of the input data.
|
|
///
|
|
/// \param B The memory buffer to create the reader from (assumes ownership).
|
|
///
|
|
/// \param Reader The reader to instantiate according to \p Filename's format.
|
|
///
|
|
/// \param C The LLVM context to use to emit diagnostics.
|
|
///
|
|
/// \returns an error code indicating the status of the created reader.
|
|
ErrorOr<std::unique_ptr<SampleProfileReader>>
|
|
SampleProfileReader::create(std::unique_ptr<MemoryBuffer> &B, LLVMContext &C) {
|
|
std::unique_ptr<SampleProfileReader> Reader;
|
|
if (SampleProfileReaderBinary::hasFormat(*B))
|
|
Reader.reset(new SampleProfileReaderBinary(std::move(B), C));
|
|
else if (SampleProfileReaderGCC::hasFormat(*B))
|
|
Reader.reset(new SampleProfileReaderGCC(std::move(B), C));
|
|
else if (SampleProfileReaderText::hasFormat(*B))
|
|
Reader.reset(new SampleProfileReaderText(std::move(B), C));
|
|
else
|
|
return sampleprof_error::unrecognized_format;
|
|
|
|
if (std::error_code EC = Reader->readHeader())
|
|
return EC;
|
|
|
|
return std::move(Reader);
|
|
}
|
|
|
|
// For text and GCC file formats, we compute the summary after reading the
|
|
// profile. Binary format has the profile summary in its header.
|
|
void SampleProfileReader::computeSummary() {
|
|
SampleProfileSummaryBuilder Builder(ProfileSummaryBuilder::DefaultCutoffs);
|
|
for (const auto &I : Profiles) {
|
|
const FunctionSamples &Profile = I.second;
|
|
Builder.addRecord(Profile);
|
|
}
|
|
Summary = Builder.getSummary();
|
|
}
|