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profile_writer.cc
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profile_writer.cc
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// Copyright 2014 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Write profile to afdo file.
#include <stdio.h>
#include <map>
#include <set>
#include <string>
#include <utility>
#include <vector>
#include <algorithm>
#include "gflags/gflags.h"
#include "base/common.h"
#include "gcov.h"
#include "symbol_map.h"
#include "module_grouper.h"
#include "profile_writer.h"
// sizeof(gcov_unsigned_t)
#define SIZEOF_UNSIGNED 4
DEFINE_bool(debug_dump, false,
"If set, emit additional debugging dumps to stderr.");
namespace autofdo {
// Opens the output file, and writes the header.
bool AutoFDOProfileWriter::WriteHeader(const string &output_filename,
const string &imports_filename) {
if (gcov_open(output_filename.c_str(), -1) == -1) {
LOG(FATAL) << "Cannot open file " << output_filename;
return false;
}
imports_file_ = fopen(imports_filename.c_str(), "w");
if (imports_file_ == NULL) {
LOG(FATAL) << "Cannot open file " << imports_filename;
return false;
}
gcov_write_unsigned(GCOV_DATA_MAGIC);
gcov_write_unsigned(gcov_version_);
gcov_write_unsigned(0);
return true;
}
// Finishes writing, closes the output file.
bool AutoFDOProfileWriter::WriteFinish() {
if (gcov_close()) {
LOG(ERROR) << "Cannot close the gcov file.";
return false;
}
fclose(imports_file_);
return true;
}
class SourceProfileLengther: public SymbolTraverser {
public:
explicit SourceProfileLengther(const SymbolMap &symbol_map)
: length_(0), num_functions_(0) {
Start(symbol_map);
}
int length() {return length_ + num_functions_ * 2;}
int num_functions() {return num_functions_;}
protected:
virtual void VisitTopSymbol(const string &name, const Symbol *node) {
num_functions_++;
}
virtual void Visit(const Symbol *node) {
// func_name, num_pos_counts, num_callsites
length_ += 3;
// offset_discr, num_targets, count * 2
length_ += node->pos_counts.size() * 4;
// offset_discr
length_ += node->callsites.size();
for (const auto &pos_count : node->pos_counts) {
// type, func_name * 2, count * 2
length_ += pos_count.second.target_map.size() * 5;
}
}
private:
int length_;
int num_functions_;
DISALLOW_COPY_AND_ASSIGN(SourceProfileLengther);
};
class SourceProfileWriter: public SymbolTraverser {
public:
static void Write(const SymbolMap &symbol_map, const StringIndexMap &map) {
SourceProfileWriter writer(map);
writer.Start(symbol_map);
}
protected:
virtual void Visit(const Symbol *node) {
gcov_write_unsigned(node->pos_counts.size());
gcov_write_unsigned(node->callsites.size());
for (const auto &pos_count : node->pos_counts) {
gcov_write_unsigned(pos_count.first);
gcov_write_unsigned(pos_count.second.target_map.size());
gcov_write_counter(pos_count.second.count);
TargetCountPairs target_counts;
GetSortedTargetCountPairs(pos_count.second.target_map, &target_counts);
for (const auto &target_count : pos_count.second.target_map) {
gcov_write_unsigned(HIST_TYPE_INDIR_CALL_TOPN);
gcov_write_counter(GetStringIndex(target_count.first));
gcov_write_counter(target_count.second);
}
}
}
virtual void VisitTopSymbol(const string &name, const Symbol *node) {
gcov_write_counter(node->head_count);
gcov_write_unsigned(GetStringIndex(name));
}
virtual void VisitCallsite(const Callsite &callsite) {
gcov_write_unsigned(callsite.first);
gcov_write_unsigned(GetStringIndex(
callsite.second ? callsite.second : string()));
}
private:
explicit SourceProfileWriter(const StringIndexMap &map) : map_(map) {}
int GetStringIndex(const string &str) {
StringIndexMap::const_iterator ret = map_.find(str);
CHECK(ret != map_.end());
return ret->second;
}
const StringIndexMap &map_;
DISALLOW_COPY_AND_ASSIGN(SourceProfileWriter);
};
void AutoFDOProfileWriter::WriteFunctionProfile() {
typedef map<string, int> StringIndexMap;
// Map from a string to its index in this map. Providing a partial
// ordering of all output strings.
StringIndexMap string_index_map;
int length_4bytes = 0, current_name_index = 0;
string_index_map[string()] = 0;
StringTableUpdater::Update(symbol_map_, &string_index_map);
for (auto &name_index : string_index_map) {
name_index.second = current_name_index++;
length_4bytes += (name_index.first.size()
+ SIZEOF_UNSIGNED) / SIZEOF_UNSIGNED;
length_4bytes += 1;
}
length_4bytes += 1;
// Writes the GCOV_TAG_AFDO_FILE_NAMES section.
gcov_write_unsigned(GCOV_TAG_AFDO_FILE_NAMES);
gcov_write_unsigned(length_4bytes);
gcov_write_unsigned(string_index_map.size());
for (const auto &name_index : string_index_map) {
char *c = strdup(name_index.first.c_str());
int len = strlen(c);
// Workaround https://gcc.gnu.org/bugzilla/show_bug.cgi?id=64346
// We should not have D4Ev in our profile because it does not exist
// in symbol table and would lead to undefined symbols during linking.
if (len > 5 &&
(!strcmp(c + len - 4, "D4Ev") || !strcmp(c + len - 4, "C4Ev"))) {
c[len - 3] = '2';
}
gcov_write_string(c);
free(c);
}
// Compute the length of the GCOV_TAG_AFDO_FUNCTION section.
SourceProfileLengther length(symbol_map_);
gcov_write_unsigned(GCOV_TAG_AFDO_FUNCTION);
gcov_write_unsigned(length.length() + 1);
gcov_write_unsigned(length.num_functions());
SourceProfileWriter::Write(symbol_map_, string_index_map);
}
void AutoFDOProfileWriter::WriteModuleGroup() {
gcov_write_unsigned(GCOV_TAG_MODULE_GROUPING);
// Calculates the length of the section.
// Initial value: module count (an unsigned integer).
int length_4bytes = 1;
int num_modules = 0;
// name_string_length, is_exported, has_sym, aux_module_size,
// quote_paths_size, bracket_paths_size, system_paths_size,
// cpp_defines_size, cpp_includes_size,
// cl_args_size
static const uint32 MODULE_AUX_DATA_SIZE_IN_4BYTES = 9;
for (const auto &module_aux : module_map_) {
if (!module_aux.second.is_exported
&& module_aux.second.aux_modules.size() == 0) {
continue;
}
if (module_aux.second.is_fake) {
continue;
}
num_modules++;
length_4bytes += (module_aux.first.size() + SIZEOF_UNSIGNED)
/ SIZEOF_UNSIGNED;
length_4bytes += MODULE_AUX_DATA_SIZE_IN_4BYTES;
length_4bytes += module_aux.second.aux_modules.size();
for (const auto &aux : module_aux.second.aux_modules) {
length_4bytes += (aux.size() + SIZEOF_UNSIGNED) / SIZEOF_UNSIGNED;
}
int num_string = module_aux.second.num_quote_paths
+ module_aux.second.num_bracket_paths
+ module_aux.second.num_system_paths
+ module_aux.second.num_cpp_defines
+ module_aux.second.num_cpp_includes
+ module_aux.second.num_cl_args;
length_4bytes += num_string;
for (int i = 0; i < num_string; i++) {
length_4bytes += (module_aux.second.options[i].second.size()
+ SIZEOF_UNSIGNED) / SIZEOF_UNSIGNED;
}
}
// Writes to .afdo file and .afdo.imports file.
gcov_write_unsigned(length_4bytes);
gcov_write_unsigned(num_modules);
for (const auto &module_aux : module_map_) {
if (!module_aux.second.is_exported
&& module_aux.second.aux_modules.size() == 0) {
continue;
}
if (module_aux.second.is_fake) {
continue;
}
// Writes the name of the module.
gcov_write_string(module_aux.first.c_str());
if (module_aux.second.aux_modules.size() > 0) {
fprintf(imports_file_, "%s:", module_aux.first.c_str());
}
// Writes the "is_exported" flag.
if (module_aux.second.is_exported) {
gcov_write_unsigned(1);
} else {
gcov_write_unsigned(0);
}
gcov_write_unsigned(module_aux.second.lang);
gcov_write_unsigned(module_aux.second.ggc_memory_in_kb);
// Writes the aux module info.
gcov_write_unsigned(module_aux.second.aux_modules.size());
gcov_write_unsigned(module_aux.second.num_quote_paths);
gcov_write_unsigned(module_aux.second.num_bracket_paths);
if (module_aux.second.has_system_paths_field)
gcov_write_unsigned(module_aux.second.num_system_paths);
gcov_write_unsigned(module_aux.second.num_cpp_defines);
gcov_write_unsigned(module_aux.second.num_cpp_includes);
gcov_write_unsigned(module_aux.second.num_cl_args);
for (const auto &aux : module_aux.second.aux_modules) {
gcov_write_string(aux.c_str());
fprintf(imports_file_, " %s", aux.c_str());
}
fprintf(imports_file_, "\n");
// Writes the options recorded in the elf section of the original binary.
int option_offset = 0;
for (int i = 0; i < module_aux.second.num_quote_paths; i++) {
gcov_write_string(
module_aux.second.options[option_offset++].second.c_str());
}
for (int i = 0; i < module_aux.second.num_bracket_paths; i++) {
gcov_write_string(
module_aux.second.options[option_offset++].second.c_str());
}
for (int i = 0; i < module_aux.second.num_system_paths; i++) {
gcov_write_string(
module_aux.second.options[option_offset++].second.c_str());
}
for (int i = 0; i < module_aux.second.num_cpp_defines; i++) {
gcov_write_string(
module_aux.second.options[option_offset++].second.c_str());
}
for (int i = 0; i < module_aux.second.num_cpp_includes; i++) {
gcov_write_string(
module_aux.second.options[option_offset++].second.c_str());
}
for (int i = 0; i < module_aux.second.num_cl_args; i++) {
gcov_write_string(
module_aux.second.options[option_offset++].second.c_str());
}
}
}
void AutoFDOProfileWriter::WriteWorkingSet() {
gcov_write_unsigned(GCOV_TAG_AFDO_WORKING_SET);
gcov_write_unsigned(3 * NUM_GCOV_WORKING_SETS);
const gcov_working_set_info *working_set = symbol_map_.GetWorkingSets();
for (int i = 0; i < NUM_GCOV_WORKING_SETS; i++) {
gcov_write_unsigned(working_set[i].num_counters / WORKING_SET_INSN_PER_BB);
gcov_write_counter(working_set[i].min_counter);
}
}
bool AutoFDOProfileWriter::WriteToFile(const string &output_filename) {
if (!WriteHeader(output_filename, output_filename + ".imports")) {
return false;
}
WriteFunctionProfile();
WriteModuleGroup();
WriteWorkingSet();
if (!WriteFinish()) {
return false;
}
return true;
}
// Debugging support. ProfileDumper emits a detailed dump of the contents
// of the input profile.
class ProfileDumper : public SymbolTraverser {
public:
static void Write(const SymbolMap &symbol_map, const StringIndexMap &map) {
ProfileDumper writer(map);
writer.Start(symbol_map);
}
protected:
void DumpSourceInfo(SourceInfo info, int indent) {
printf("%*sDirectory name: %s\n", indent, " ", info.dir_name);
printf("%*sFile name: %s\n", indent, " ", info.file_name);
printf("%*sFunction name: %s\n", indent, " ", info.func_name);
printf("%*sStart line: %u\n", indent, " ", info.start_line);
printf("%*sLine: %u\n", indent, " ", info.line);
printf("%*sDiscriminator: %u\n", indent, " ", info.discriminator);
}
void PrintSourceLocation(uint32 start_line, uint32 offset) {
if (offset & 0xffff) {
printf("%u.%u: ", (offset >> 16) + start_line, offset & 0xffff);
} else {
printf("%u: ", (offset >> 16) + start_line);
}
}
virtual void Visit(const Symbol *node) {
printf("Writing symbol: ");
node->Dump(4);
printf("\n");
printf("Source information:\n");
DumpSourceInfo(node->info, 0);
printf("\n");
printf("Total sampled count: %llu\n",
static_cast<uint64>(node->total_count));
printf("Total sampled count in head bb: %llu\n",
static_cast<uint64>(node->head_count));
printf("\n");
printf("Call sites:\n");
int i = 0;
for (const auto &callsite_symbol : node->callsites) {
Callsite site = callsite_symbol.first;
Symbol *symbol = callsite_symbol.second;
printf(" #%d: site\n", i);
printf(" uint32: %u\n", site.first);
printf(" const char *: %s\n", site.second);
printf(" #%d: symbol: ", i);
symbol->Dump(0);
printf("\n");
i++;
}
printf("node->pos_counts.size() = %llu\n",
static_cast<uint64>(node->pos_counts.size()));
printf("node->callsites.size() = %llu\n",
static_cast<uint64>(node->callsites.size()));
vector<uint32> positions;
for (const auto &pos_count : node->pos_counts)
positions.push_back(pos_count.first);
std::sort(positions.begin(), positions.end());
i = 0;
for (const auto &pos : positions) {
PositionCountMap::const_iterator pos_count = node->pos_counts.find(pos);
DCHECK(pos_count != node->pos_counts.end());
uint32 location = pos_count->first;
ProfileInfo info = pos_count->second;
printf("#%d: location (line[.discriminator]) = ", i);
PrintSourceLocation(node->info.start_line, location);
printf("\n");
printf("#%d: profile info execution count = %llu\n", i, info.count);
printf("#%d: profile info number of instructions = %llu\n", i,
info.num_inst);
TargetCountPairs target_counts;
GetSortedTargetCountPairs(info.target_map, &target_counts);
printf("#%d: profile info target map size = %llu\n", i,
static_cast<uint64>(info.target_map.size()));
printf("#%d: info.target_map:\n", i);
for (const auto &target_count : info.target_map) {
printf("\tGetStringIndex(target_count.first): %d\n",
GetStringIndex(target_count.first));
printf("\ttarget_count.second: %llu\n", target_count.second);
}
printf("\n");
i++;
}
}
virtual void VisitTopSymbol(const string &name, const Symbol *node) {
printf("VisitTopSymbol: %s\n", name.c_str());
node->Dump(0);
printf("node->head_count: %llu\n", node->head_count);
printf("GetStringIndex(%s): %u\n", name.c_str(), GetStringIndex(name));
printf("\n");
}
virtual void VisitCallsite(const Callsite &callsite) {
printf("VisitCallSite: %s\n", callsite.second);
printf("callsite.first: %u\n", callsite.first);
printf("GetStringIndex(callsite.second): %u\n",
GetStringIndex(callsite.second ? callsite.second : string()));
}
private:
explicit ProfileDumper(const StringIndexMap &map) : map_(map) {}
int GetStringIndex(const string &str) {
StringIndexMap::const_iterator ret = map_.find(str);
CHECK(ret != map_.end());
return ret->second;
}
const StringIndexMap &map_;
DISALLOW_COPY_AND_ASSIGN(ProfileDumper);
};
// Emit a dump of the input profile on stdout.
void ProfileWriter::Dump() {
StringIndexMap string_index_map;
StringTableUpdater::Update(symbol_map_, &string_index_map);
SourceProfileLengther length(symbol_map_);
printf("Length of symbol map: %d\n", length.length() + 1);
printf("Number of functions: %d\n", length.num_functions());
ProfileDumper::Write(symbol_map_, string_index_map);
}
} // namespace autofdo