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// Copyright 2011 Google Inc. All Rights Reserved.
// Author: dehao@google.com (Dehao Chen)
// Create AutoFDO Profile.
#include "profile_creator.h"
#include <inttypes.h>
#include <cstdint>
#include <memory>
#include "base/commandlineflags.h"
#include "base/integral_types.h"
#include "base/logging.h"
#include "addr2line.h"
#include "gcov.h"
#if defined(HAVE_LLVM)
#include "llvm_profile_writer.h"
#include "profile_symbol_list.h"
#endif
#include "profile.h"
#include "profile_writer.h"
#include "sample_reader.h"
#include "symbol_map.h"
#include "third_party/abseil/absl/flags/flag.h"
#include "third_party/abseil/absl/memory/memory.h"
#include "util/symbolize/elf_reader.h"
ABSL_FLAG(std::string, focus_binary_re, "",
"RE for the focused binary file name");
#if defined(HAVE_LLVM)
AUTOFDO_PROFILE_SYMBOL_LIST_FLAGS;
#endif
namespace {
struct PrefetchHint {
uint64_t address;
int64_t delta;
std::string type;
};
typedef std::vector<PrefetchHint> PrefetchHints;
// Experimental support for providing cache prefetch hints.
// Currently, the format is a simple csv format, with no superfluous spaces or
// markers (e.g. quotes).
// Each line has 3 values:
// - a PC (hex), corresponding to a memory operation in the profiled binary
// (i.e. load/store);
// - a delta (signed, base 10); and
// - the hint type (string) - e.g. NTA, T{0|1|2}.
// The delta is to the next cache miss, calculated from the memory location
// used in the memory operation at PC.
PrefetchHints ReadPrefetchHints(const std::string &file_name) {
PrefetchHints hints;
FILE *fp = fopen(file_name.c_str(), "r");
if (fp == nullptr) {
LOG(ERROR) << "Cannot open " << file_name << "to read";
} else {
uint64_t address = 0;
int64_t delta = 0;
char prefetch_type[5];
while (!feof(fp)) {
if (3 != fscanf(fp, "%" SCNx64 ",%" SCNd64 ",%s\n", &address, &delta,
prefetch_type)) {
LOG(ERROR) << "Error reading from " << file_name;
break;
}
// We don't validate the type here. We'll just use it as a suffix to the
// "__prefetch" indirect call, and let the compiler decide if it
// supports it.
std::string type(prefetch_type);
hints.push_back({address, delta, type});
}
fclose(fp);
}
return hints;
}
} // namespace
namespace devtools_crosstool_autofdo {
uint64_t ProfileCreator::GetTotalCountFromTextProfile(
const std::string &input_profile_name) {
ProfileCreator creator("");
if (!creator.ReadSample(input_profile_name, "text")) {
return 0;
}
return creator.TotalSamples();
}
bool ProfileCreator::CheckAndAssignAddr2Line(SymbolMap *symbol_map,
Addr2line *addr2line) {
if (addr2line == nullptr) {
LOG(ERROR) << "Error reading binary " << binary_;
return false;
}
symbol_map->set_addr2line(absl::WrapUnique(addr2line));
return true;
}
bool ProfileCreator::CreateProfile(const std::string &input_profile_name,
const std::string &profiler,
ProfileWriter *writer,
const std::string &output_profile_name,
bool store_sym_list_in_profile) {
SymbolMap symbol_map(binary_);
writer->setSymbolMap(&symbol_map);
if (profiler == "prefetch") {
symbol_map.set_ignore_thresholds(true);
if (!ConvertPrefetchHints(input_profile_name, &symbol_map)) return false;
} else {
if (!ReadSample(input_profile_name, profiler)) return false;
if (!ComputeProfile(&symbol_map)) return false;
}
#if defined(HAVE_LLVM)
// Create prof_sym_list after symbol_map is populated because prof_sym_list
// is expected not to contain any symbol showing up in the profile in
// symbol_map.
std::unique_ptr<llvm::sampleprof::ProfileSymbolList> prof_sym_list;
NameSizeList name_size_list;
if (store_sym_list_in_profile) {
prof_sym_list = absl::make_unique<llvm::sampleprof::ProfileSymbolList>();
name_size_list = symbol_map.collectNamesForProfSymList();
fillProfileSymbolList(prof_sym_list.get(), name_size_list, &symbol_map,
absl::GetFlag(FLAGS_symbol_list_size_coverage_ratio));
prof_sym_list->setToCompress(absl::GetFlag(FLAGS_compress_symbol_list));
auto llvm_profile_writer = static_cast<LLVMProfileWriter *>(writer);
auto sample_profile_writer =
llvm_profile_writer->CreateSampleWriter(output_profile_name);
if (!sample_profile_writer) return false;
sample_profile_writer->setProfileSymbolList(prof_sym_list.get());
}
#endif
bool ret = writer->WriteToFile(output_profile_name);
return ret;
}
bool ProfileCreator::ReadSample(const std::string &input_profile_name,
const std::string &profiler) {
if (profiler == "perf") {
std::string focus_binary_re;
std::string build_id;
// Sets the regular expression to filter samples for a given binary.
if (!absl::GetFlag(FLAGS_focus_binary_re).empty()) {
focus_binary_re = absl::GetFlag(FLAGS_focus_binary_re);
} else {
char *dup_name = strdup(binary_.c_str());
char *strip_ptr = strstr(dup_name, ".unstripped");
if (strip_ptr) {
*strip_ptr = 0;
}
const char *file_base_name = basename(dup_name);
CHECK(file_base_name) << "Cannot find basename for: " << binary_;
focus_binary_re = std::string(".*/") + file_base_name + "$";
free(dup_name);
ElfReader reader(binary_);
// Quipper (and other parts of google3's perf infrastructure) pads build
// ids--if present--to 40 characters hex. Match that behavior here. See
// quipper/perf_data_utils.h and b/21597512 for more info.
const size_t kMinPerfBuildIDStringLength = 40;
build_id = reader.GetBuildId();
if (build_id.length() > 0 &&
build_id.length() < kMinPerfBuildIDStringLength)
build_id.resize(kMinPerfBuildIDStringLength, '0');
}
sample_reader_ = new PerfDataSampleReader(
input_profile_name, focus_binary_re, build_id);
} else if (profiler == "text") {
sample_reader_ = new TextSampleReaderWriter(input_profile_name);
} else {
LOG(ERROR) << "Unsupported profiler type: " << profiler;
return false;
}
if (!sample_reader_->ReadAndSetTotalCount()) {
LOG(ERROR) << "Error reading profile.";
return false;
}
return true;
}
bool ProfileCreator::ComputeProfile(SymbolMap *symbol_map) {
std::set<uint64_t> sampled_addrs = sample_reader_->GetSampledAddresses();
std::map<uint64_t, uint64_t> sampled_functions =
symbol_map->GetSampledSymbolStartAddressSizeMap(sampled_addrs);
if (!CheckAndAssignAddr2Line(
symbol_map,
Addr2line::CreateWithSampledFunctions(binary_, &sampled_functions)))
return false;
Profile profile(sample_reader_, binary_, symbol_map->get_addr2line(),
symbol_map);
profile.ComputeProfile();
return true;
}
bool ProfileCreator::ConvertPrefetchHints(const std::string &profile_file,
SymbolMap *symbol_map) {
// Explicitly request constructing an Addr2line object with no sample profile
// data. Otherwise, passing an empty sample profile map would elide all
// addresses in the binary file, when the Google3Addr2line implementation is
// used.
if (!CheckAndAssignAddr2Line(symbol_map, Addr2line::Create(binary_)))
return false;
PrefetchHints hints = ReadPrefetchHints(profile_file);
std::map<uint64_t, uint8_t> repeated_prefetches_indices;
for (auto &hint : hints) {
uint64_t pc = hint.address;
int64_t delta = hint.delta;
const std::string *name = nullptr;
if (!symbol_map->GetSymbolInfoByAddr(pc, &name, nullptr, nullptr)) {
LOG(INFO) << "Instruction address not found:" << std::hex << pc;
continue;
}
uint8_t prefetch_index = repeated_prefetches_indices[pc]++;
SourceStack stack;
symbol_map->get_addr2line()->GetInlineStack(pc, &stack);
if (!symbol_map->EnsureEntryInFuncForSymbol(*name, pc))
continue;
// Currently, the profile format expects unsigned values, corresponding to
// number of collected samples. We're hacking support for prefetch hints on
// top of that, and prefetch hints are signed. For now, we'll explicitly
// cast to unsigned.
if (!symbol_map->AddIndirectCallTarget(
*name, stack,
"__prefetch_" + hint.type + "_" + std::to_string(prefetch_index),
static_cast<uint64_t>(delta))) {
LOG(WARNING) << "Ignoring address " << std::hex << pc
<< ". Could not add an indirect call target. Likely the "
"inline stack is empty for this address.";
}
}
symbol_map->ElideSuffixesAndMerge();
return true;
}
uint64_t ProfileCreator::TotalSamples() {
if (sample_reader_ == nullptr) {
return 0;
} else {
return sample_reader_->GetTotalSampleCount();
}
}
bool MergeSample(const std::string &input_file,
const std::string &input_profiler, const std::string &binary,
const std::string &output_file) {
TextSampleReaderWriter writer(output_file);
if (writer.IsFileExist()) {
if (!writer.ReadAndSetTotalCount()) {
return false;
}
}
ProfileCreator creator(binary);
if (creator.ReadSample(input_file, input_profiler)) {
writer.Merge(creator.sample_reader());
if (writer.Write(nullptr)) {
return true;
} else {
return false;
}
} else {
return false;
}
}
} // namespace devtools_crosstool_autofdo
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