/* * Copyright (C) 2019 The Android Open Source Project * * 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. */ #include "simpleperf.h" #include #include #include #include #include #include #include #include #include #include #include #include namespace simpleperf { enum RecordCmd { CMD_PAUSE_RECORDING = 1, CMD_RESUME_RECORDING, }; class RecordOptionsImpl { public: std::string output_filename; std::string event = "cpu-cycles"; size_t freq = 4000; double duration_in_second = 0.0; std::vector threads; bool dwarf_callgraph = false; bool fp_callgraph = false; bool trace_offcpu = false; }; RecordOptions::RecordOptions() : impl_(new RecordOptionsImpl) { } RecordOptions::~RecordOptions() { delete impl_; } RecordOptions& RecordOptions::SetOutputFilename(const std::string &filename) { impl_->output_filename = filename; return *this; } RecordOptions& RecordOptions::SetEvent(const std::string &event) { impl_->event = event; return *this; } RecordOptions& RecordOptions::SetSampleFrequency(size_t freq) { impl_->freq = freq; return *this; } RecordOptions& RecordOptions::SetDuration(double duration_in_second) { impl_->duration_in_second = duration_in_second; return *this; } RecordOptions& RecordOptions::SetSampleThreads(const std::vector &threads) { impl_->threads = threads; return *this; } RecordOptions& RecordOptions::RecordDwarfCallGraph() { impl_->dwarf_callgraph = true; impl_->fp_callgraph = false; return *this; } RecordOptions& RecordOptions::RecordFramePointerCallGraph() { impl_->fp_callgraph = true; impl_->dwarf_callgraph = false; return *this; } RecordOptions& RecordOptions::TraceOffCpu() { impl_->trace_offcpu = true; return *this; } static std::string GetDefaultOutputFilename() { time_t t = time(nullptr); struct tm tm; if (localtime_r(&t, &tm) != &tm) { return "perf.data"; } char* buf = nullptr; asprintf(&buf, "perf-%02d-%02d-%02d-%02d-%02d.data", tm.tm_mon + 1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec); std::string result = buf; free(buf); return result; } std::vector RecordOptions::ToRecordArgs() const { std::vector args; std::string output_filename = impl_->output_filename; if (output_filename.empty()) { output_filename = GetDefaultOutputFilename(); } args.insert(args.end(), {"-o", output_filename}); args.insert(args.end(), {"-e", impl_->event}); args.insert(args.end(), {"-f", std::to_string(impl_->freq)}); if (impl_->duration_in_second != 0.0) { args.insert(args.end(), {"--duration", std::to_string(impl_->duration_in_second)}); } if (impl_->threads.empty()) { args.insert(args.end(), {"-p", std::to_string(getpid())}); } else { std::ostringstream os; os << *(impl_->threads.begin()); for (auto it = std::next(impl_->threads.begin()); it != impl_->threads.end(); ++it) { os << "," << *it; } args.insert(args.end(), {"-t", os.str()}); } if (impl_->dwarf_callgraph) { args.push_back("-g"); } else if (impl_->fp_callgraph) { args.insert(args.end(), {"--call-graph", "fp"}); } if (impl_->trace_offcpu) { args.push_back("--trace-offcpu"); } return args; } static void Abort(const char* fmt, ...) { va_list vl; va_start(vl, fmt); __android_log_vprint(ANDROID_LOG_FATAL, "simpleperf", fmt, vl); va_end(vl); abort(); } class ProfileSessionImpl { public: ProfileSessionImpl(const std::string& app_data_dir) : app_data_dir_(app_data_dir), simpleperf_data_dir_(app_data_dir + "/simpleperf_data") {} ~ProfileSessionImpl(); void StartRecording(const std::vector& args); void PauseRecording(); void ResumeRecording(); void StopRecording(); private: std::string FindSimpleperf(); std::string FindSimpleperfInTempDir(); void CheckIfPerfEnabled(); void CreateSimpleperfDataDir(); void CreateSimpleperfProcess(const std::string& simpleperf_path, const std::vector& record_args); void SendCmd(const std::string& cmd); std::string ReadReply(); enum State { NOT_YET_STARTED, STARTED, PAUSED, STOPPED, }; const std::string app_data_dir_; const std::string simpleperf_data_dir_; std::mutex lock_; // Protect all members below. State state_ = NOT_YET_STARTED; pid_t simpleperf_pid_ = -1; int control_fd_ = -1; int reply_fd_ = -1; }; ProfileSessionImpl::~ProfileSessionImpl() { if (control_fd_ != -1) { close(control_fd_); } if (reply_fd_ != -1) { close(reply_fd_); } } void ProfileSessionImpl::StartRecording(const std::vector &args) { std::lock_guard guard(lock_); if (state_ != NOT_YET_STARTED) { Abort("startRecording: session in wrong state %d", state_); } std::string simpleperf_path = FindSimpleperf(); CheckIfPerfEnabled(); CreateSimpleperfDataDir(); CreateSimpleperfProcess(simpleperf_path, args); state_ = STARTED; } void ProfileSessionImpl::PauseRecording() { std::lock_guard guard(lock_); if (state_ != STARTED) { Abort("pauseRecording: session in wrong state %d", state_); } SendCmd("pause"); state_ = PAUSED; } void ProfileSessionImpl::ResumeRecording() { std::lock_guard guard(lock_); if (state_ != PAUSED) { Abort("resumeRecording: session in wrong state %d", state_); } SendCmd("resume"); state_ = STARTED; } void ProfileSessionImpl::StopRecording() { std::lock_guard guard(lock_); if (state_ != STARTED && state_ != PAUSED) { Abort("stopRecording: session in wrong state %d", state_); } // Send SIGINT to simpleperf to stop recording. if (kill(simpleperf_pid_, SIGINT) == -1) { Abort("failed to stop simpleperf: %s", strerror(errno)); } int status; pid_t result = TEMP_FAILURE_RETRY(waitpid(simpleperf_pid_, &status, 0)); if (result == -1) { Abort("failed to call waitpid: %s", strerror(errno)); } if (!WIFEXITED(status) || WEXITSTATUS(status) != 0) { Abort("simpleperf exited with error, status = 0x%x", status); } state_ = STOPPED; } void ProfileSessionImpl::SendCmd(const std::string& cmd) { std::string data = cmd + "\n"; if (TEMP_FAILURE_RETRY(write(control_fd_, &data[0], data.size())) != static_cast(data.size())) { Abort("failed to send cmd to simpleperf: %s", strerror(errno)); } if (ReadReply() != "ok") { Abort("failed to run cmd in simpleperf: %s", cmd.c_str()); } } static bool IsExecutableFile(const std::string& path) { struct stat st; if (stat(path.c_str(), &st) == 0) { if (S_ISREG(st.st_mode) && (st.st_mode & S_IXUSR)) { return true; } } return false; } std::string ProfileSessionImpl::FindSimpleperf() { // 1. Try /data/local/tmp/simpleperf first. Probably it's newer than /system/bin/simpleperf. std::string simpleperf_path = FindSimpleperfInTempDir(); if (!simpleperf_path.empty()) { return simpleperf_path; } // 2. Try /system/bin/simpleperf, which is available on Android >= Q. simpleperf_path = "/system/bin/simpleperf"; if (IsExecutableFile(simpleperf_path)) { return simpleperf_path; } Abort("can't find simpleperf on device. Please run api_profiler.py."); return ""; } std::string ProfileSessionImpl::FindSimpleperfInTempDir() { const std::string path = "/data/local/tmp/simpleperf"; if (!IsExecutableFile(path)) { return ""; } // Copy it to app_dir to execute it. const std::string to_path = app_data_dir_ + "/simpleperf"; const std::string copy_cmd = "cp " + path + " " + to_path; if (system(copy_cmd.c_str()) != 0) { return ""; } const std::string test_cmd = to_path; // For apps with target sdk >= 29, executing app data file isn't allowed. So test executing it. if (system(test_cmd.c_str()) != 0) { return ""; } return to_path; } static std::string ReadFile(FILE* fp) { std::string s; char buf[200]; while (true) { ssize_t n = fread(buf, 1, sizeof(buf), fp); if (n <= 0) { break; } s.insert(s.end(), buf, buf + n); } return s; } void ProfileSessionImpl::CheckIfPerfEnabled() { FILE* fp = popen("/system/bin/getprop security.perf_harden", "re"); if (fp == nullptr) { return; // Omit check if getprop doesn't exist. } std::string s = ReadFile(fp); pclose(fp); if (!s.empty() && s[0] == '1') { Abort("linux perf events aren't enabled on the device. Please run api_profiler.py."); } } void ProfileSessionImpl::CreateSimpleperfDataDir() { struct stat st; if (stat(simpleperf_data_dir_.c_str(), &st) == 0 && S_ISDIR(st.st_mode)) { return; } if (mkdir(simpleperf_data_dir_.c_str(), 0700) == -1) { Abort("failed to create simpleperf data dir %s: %s", simpleperf_data_dir_.c_str(), strerror(errno)); } } void ProfileSessionImpl::CreateSimpleperfProcess(const std::string &simpleperf_path, const std::vector &record_args) { // 1. Create control/reply pips. int control_fd[2]; int reply_fd[2]; if (pipe(control_fd) != 0 || pipe(reply_fd) != 0) { Abort("failed to call pipe: %s", strerror(errno)); } // 2. Prepare simpleperf arguments. std::vector args; args.emplace_back(simpleperf_path); args.emplace_back("record"); args.emplace_back("--log-to-android-buffer"); args.insert(args.end(), {"--log", "debug"}); args.emplace_back("--stdio-controls-profiling"); args.emplace_back("--in-app"); args.insert(args.end(), {"--tracepoint-events", "/data/local/tmp/tracepoint_events"}); args.insert(args.end(), record_args.begin(), record_args.end()); char* argv[args.size() + 1]; for (size_t i = 0; i < args.size(); ++i) { argv[i] = &args[i][0]; } argv[args.size()] = nullptr; // 3. Start simpleperf process. int pid = fork(); if (pid == -1) { Abort("failed to fork: %s", strerror(errno)); } if (pid == 0) { // child process close(control_fd[1]); dup2(control_fd[0], 0); // simpleperf read control cmd from fd 0. close(control_fd[0]); close(reply_fd[0]); dup2(reply_fd[1], 1); // simpleperf writes reply to fd 1. close(reply_fd[0]); chdir(simpleperf_data_dir_.c_str()); execvp(argv[0], argv); Abort("failed to call exec: %s", strerror(errno)); } // parent process close(control_fd[0]); control_fd_ = control_fd[1]; close(reply_fd[1]); reply_fd_ = reply_fd[0]; simpleperf_pid_ = pid; // 4. Wait until simpleperf starts recording. std::string start_flag = ReadReply(); if (start_flag != "started") { Abort("failed to receive simpleperf start flag"); } } std::string ProfileSessionImpl::ReadReply() { std::string s; while (true) { char c; ssize_t result = TEMP_FAILURE_RETRY(read(reply_fd_, &c, 1)); if (result <= 0 || c == '\n') { break; } s.push_back(c); } return s; } ProfileSession::ProfileSession() { FILE* fp = fopen("/proc/self/cmdline", "r"); if (fp == nullptr) { Abort("failed to open /proc/self/cmdline: %s", strerror(errno)); } std::string s = ReadFile(fp); fclose(fp); for (int i = 0; i < s.size(); i++) { if (s[i] == '\0') { s = s.substr(0, i); break; } } std::string app_data_dir = "/data/data/" + s; impl_ = new ProfileSessionImpl(app_data_dir); } ProfileSession::ProfileSession(const std::string& app_data_dir) : impl_(new ProfileSessionImpl(app_data_dir)) {} ProfileSession::~ProfileSession() { delete impl_; } void ProfileSession::StartRecording(const RecordOptions &options) { StartRecording(options.ToRecordArgs()); } void ProfileSession::StartRecording(const std::vector &record_args) { impl_->StartRecording(record_args); } void ProfileSession::PauseRecording() { impl_->PauseRecording(); } void ProfileSession::ResumeRecording() { impl_->ResumeRecording(); } void ProfileSession::StopRecording() { impl_->StopRecording(); } } // namespace simpleperf