#include "perf_data_converter.h" #include "quipper/perf_parser.h" #include using std::map; namespace wireless_android_logging_awp { struct RangeTarget { RangeTarget(uint64 start, uint64 end, uint64 to) : start(start), end(end), to(to) {} bool operator<(const RangeTarget &r) const { if (start != r.start) { return start < r.start; } else if (end != r.end) { return end < r.end; } else { return to < r.to; } } uint64 start; uint64 end; uint64 to; }; struct BinaryProfile { map address_count_map; map range_count_map; }; wireless_android_play_playlog::AndroidPerfProfile RawPerfDataToAndroidPerfProfile(const string &perf_file) { wireless_android_play_playlog::AndroidPerfProfile ret; quipper::PerfParser parser; if (!parser.ReadFile(perf_file) || !parser.ParseRawEvents()) { return ret; } typedef map ModuleProfileMap; typedef map ProgramProfileMap; ProgramProfileMap name_profile_map; uint64 total_samples = 0; for (const auto &event : parser.parsed_events()) { if (!event.raw_event || event.raw_event->header.type != PERF_RECORD_SAMPLE) { continue; } string dso_name = event.dso_and_offset.dso_name(); string program_name; if (dso_name == "[kernel.kallsyms]_text") { program_name = "kernel"; dso_name = "[kernel.kallsyms]"; } else if (event.command() == "") { program_name = "unknown_program"; } else { program_name = event.command(); } name_profile_map[program_name][dso_name].address_count_map[ event.dso_and_offset.offset()]++; total_samples++; for (size_t i = 1; i < event.branch_stack.size(); i++) { if (dso_name == event.branch_stack[i - 1].to.dso_name()) { uint64 start = event.branch_stack[i].to.offset(); uint64 end = event.branch_stack[i - 1].from.offset(); uint64 to = event.branch_stack[i - 1].to.offset(); // The interval between two taken branches should not be too large. if (end < start || end - start > (1 << 20)) { LOG(WARNING) << "Bogus LBR data: " << start << "->" << end; continue; } name_profile_map[program_name][dso_name].range_count_map[ RangeTarget(start, end, to)]++; } } } map name_id_map; for (const auto &program_profile : name_profile_map) { for (const auto &module_profile : program_profile.second) { name_id_map[module_profile.first] = 0; } } int current_index = 0; for (auto iter = name_id_map.begin(); iter != name_id_map.end(); ++iter) { iter->second = current_index++; } map name_buildid_map; parser.GetFilenamesToBuildIDs(&name_buildid_map); ret.set_total_samples(total_samples); for (const auto &name_id : name_id_map) { auto load_module = ret.add_load_modules(); load_module->set_name(name_id.first); auto nbmi = name_buildid_map.find(name_id.first); if (nbmi != name_buildid_map.end()) { const std::string &build_id = nbmi->second; if (build_id.size() == 40 && build_id.substr(32) == "00000000") { load_module->set_build_id(build_id.substr(0, 32)); } else { load_module->set_build_id(build_id); } } } for (const auto &program_profile : name_profile_map) { auto program = ret.add_programs(); program->set_name(program_profile.first); for (const auto &module_profile : program_profile.second) { int32 module_id = name_id_map[module_profile.first]; auto module = program->add_modules(); module->set_load_module_id(module_id); for (const auto &addr_count : module_profile.second.address_count_map) { auto address_samples = module->add_address_samples(); address_samples->add_address(addr_count.first); address_samples->set_count(addr_count.second); } for (const auto &range_count : module_profile.second.range_count_map) { auto range_samples = module->add_range_samples(); range_samples->set_start(range_count.first.start); range_samples->set_end(range_count.first.end); range_samples->set_to(range_count.first.to); range_samples->set_count(range_count.second); } } } return ret; } } // namespace wireless_android_logging_awp