/* ** ** Copyright 2015, 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 <assert.h> #include <dirent.h> #include <errno.h> #include <fcntl.h> #include <signal.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/stat.h> #include <sys/types.h> #include <sys/wait.h> #include <time.h> #include <unistd.h> #include <string> #include <sstream> #include <map> #include <set> #include <cctype> #include <android-base/file.h> #include <android-base/stringprintf.h> #include <cutils/properties.h> #include "perfprofdcore.h" #include "perfprofdutils.h" #include "perf_data_converter.h" #include "cpuconfig.h" #include "configreader.h" // // Perf profiling daemon -- collects system-wide profiles using // // simpleperf record -a // // and encodes them so that they can be uploaded by a separate service. // //...................................................................... // // Output file from 'perf record'. // #define PERF_OUTPUT "perf.data" // // This enum holds the results of the "should we profile" configuration check. // typedef enum { // All systems go for profile collection. DO_COLLECT_PROFILE, // The selected configuration directory doesn't exist. DONT_PROFILE_MISSING_CONFIG_DIR, // Destination directory does not contain the semaphore file that // the perf profile uploading service creates when it determines // that the user has opted "in" for usage data collection. No // semaphore -> no user approval -> no profiling. DONT_PROFILE_MISSING_SEMAPHORE, // No perf executable present DONT_PROFILE_MISSING_PERF_EXECUTABLE, // We're running in the emulator, perf won't be able to do much DONT_PROFILE_RUNNING_IN_EMULATOR } CKPROFILE_RESULT; // // Are we running in the emulator? If so, stub out profile collection // Starts as uninitialized (-1), then set to 1 or 0 at init time. // static int running_in_emulator = -1; // // Is this a debug build ('userdebug' or 'eng')? // Starts as uninitialized (-1), then set to 1 or 0 at init time. // static int is_debug_build = -1; // // Path to the perf file to convert and exit? Empty value is the default, daemon mode. // static std::string perf_file_to_convert = ""; // // Random number generator seed (set at startup time). // static unsigned short random_seed[3]; // // SIGHUP handler. Sending SIGHUP to the daemon can be used to break it // out of a sleep() call so as to trigger a new collection (debugging) // static void sig_hup(int /* signum */) { W_ALOGW("SIGHUP received"); } // // Parse command line args. Currently supported flags: // * "-c PATH" sets the path of the config file to PATH. // * "-x PATH" reads PATH as a perf data file and saves it as a file in // perf_profile.proto format. ".encoded" suffix is appended to PATH to form // the output file path. // static void parse_args(int argc, char** argv) { int ac; for (ac = 1; ac < argc; ++ac) { if (!strcmp(argv[ac], "-c")) { if (ac >= argc-1) { W_ALOGE("malformed command line: -c option requires argument)"); continue; } ConfigReader::setConfigFilePath(argv[ac+1]); ++ac; } else if (!strcmp(argv[ac], "-x")) { if (ac >= argc-1) { W_ALOGE("malformed command line: -x option requires argument)"); continue; } perf_file_to_convert = argv[ac+1]; ++ac; } else { W_ALOGE("malformed command line: unknown option or arg %s)", argv[ac]); continue; } } } // // Convert a CKPROFILE_RESULT to a string // const char *ckprofile_result_to_string(CKPROFILE_RESULT result) { switch (result) { case DO_COLLECT_PROFILE: return "DO_COLLECT_PROFILE"; case DONT_PROFILE_MISSING_CONFIG_DIR: return "missing config directory"; case DONT_PROFILE_MISSING_SEMAPHORE: return "missing semaphore file"; case DONT_PROFILE_MISSING_PERF_EXECUTABLE: return "missing 'perf' executable"; case DONT_PROFILE_RUNNING_IN_EMULATOR: return "running in emulator"; default: return "unknown"; } return "notreached"; } // // Convert a PROFILE_RESULT to a string // const char *profile_result_to_string(PROFILE_RESULT result) { switch(result) { case OK_PROFILE_COLLECTION: return "profile collection succeeded"; case ERR_FORK_FAILED: return "fork() system call failed"; case ERR_PERF_RECORD_FAILED: return "perf record returned bad exit status"; case ERR_PERF_ENCODE_FAILED: return "failure encoding perf.data to protobuf"; case ERR_OPEN_ENCODED_FILE_FAILED: return "failed to open encoded perf file"; case ERR_WRITE_ENCODED_FILE_FAILED: return "write to encoded perf file failed"; default: return "unknown"; } return "notreached"; } // // Check to see whether we should perform a profile collection // static CKPROFILE_RESULT check_profiling_enabled(ConfigReader &config) { // // Profile collection in the emulator doesn't make sense // assert(running_in_emulator != -1); if (running_in_emulator) { return DONT_PROFILE_RUNNING_IN_EMULATOR; } // // Check for existence of semaphore file in config directory // if (access(config.getStringValue("config_directory").c_str(), F_OK) == -1) { W_ALOGW("unable to open config directory %s: (%s)", config.getStringValue("config_directory").c_str(), strerror(errno)); return DONT_PROFILE_MISSING_CONFIG_DIR; } // Check for existence of semaphore file std::string semaphore_filepath = config.getStringValue("config_directory") + "/" + SEMAPHORE_FILENAME; if (access(semaphore_filepath.c_str(), F_OK) == -1) { return DONT_PROFILE_MISSING_SEMAPHORE; } // Check for existence of simpleperf/perf executable std::string pp = config.getStringValue("perf_path"); if (access(pp.c_str(), R_OK|X_OK) == -1) { W_ALOGW("unable to access/execute %s", pp.c_str()); return DONT_PROFILE_MISSING_PERF_EXECUTABLE; } // // We are good to go // return DO_COLLECT_PROFILE; } bool get_booting() { char propBuf[PROPERTY_VALUE_MAX]; propBuf[0] = '\0'; property_get("sys.boot_completed", propBuf, ""); return (propBuf[0] != '1'); } // // Constructor takes a timeout (in seconds) and a child pid; If an // alarm set for the specified number of seconds triggers, then a // SIGKILL is sent to the child. Destructor resets alarm. Example: // // pid_t child_pid = ...; // { AlarmHelper h(10, child_pid); // ... = read_from_child(child_pid, ...); // } // // NB: this helper is not re-entrant-- avoid nested use or // use by multiple threads // class AlarmHelper { public: AlarmHelper(unsigned num_seconds, pid_t child) { struct sigaction sigact; assert(child); assert(child_ == 0); memset(&sigact, 0, sizeof(sigact)); sigact.sa_sigaction = handler; sigaction(SIGALRM, &sigact, &oldsigact_); child_ = child; alarm(num_seconds); } ~AlarmHelper() { alarm(0); child_ = 0; sigaction(SIGALRM, &oldsigact_, NULL); } static void handler(int, siginfo_t *, void *); private: struct sigaction oldsigact_; static pid_t child_; }; pid_t AlarmHelper::child_; void AlarmHelper::handler(int, siginfo_t *, void *) { W_ALOGW("SIGALRM timeout"); kill(child_, SIGKILL); } // // This implementation invokes "dumpsys media.camera" and inspects the // output to determine if any camera clients are active. NB: this is // currently disable (via config option) until the selinux issues can // be sorted out. Another possible implementation (not yet attempted) // would be to use the binder to call into the native camera service // via "ICameraService". // bool get_camera_active() { int pipefds[2]; if (pipe2(pipefds, O_CLOEXEC) != 0) { W_ALOGE("pipe2() failed (%s)", strerror(errno)); return false; } pid_t pid = fork(); if (pid == -1) { W_ALOGE("fork() failed (%s)", strerror(errno)); close(pipefds[0]); close(pipefds[1]); return false; } else if (pid == 0) { // child close(pipefds[0]); dup2(pipefds[1], fileno(stderr)); dup2(pipefds[1], fileno(stdout)); const char *argv[10]; unsigned slot = 0; argv[slot++] = "/system/bin/dumpsys"; argv[slot++] = "media.camera"; argv[slot++] = nullptr; execvp(argv[0], (char * const *)argv); W_ALOGE("execvp() failed (%s)", strerror(errno)); return false; } // parent AlarmHelper helper(10, pid); close(pipefds[1]); // read output bool have_cam = false; bool have_clients = true; std::string dump_output; bool result = android::base::ReadFdToString(pipefds[0], &dump_output); close(pipefds[0]); if (result) { std::stringstream ss(dump_output); std::string line; while (std::getline(ss,line,'\n')) { if (line.find("Camera module API version:") != std::string::npos) { have_cam = true; } if (line.find("No camera module available") != std::string::npos || line.find("No active camera clients yet") != std::string::npos) { have_clients = false; } } } // reap child (no zombies please) int st = 0; TEMP_FAILURE_RETRY(waitpid(pid, &st, 0)); return have_cam && have_clients; } bool get_charging() { std::string psdir("/sys/class/power_supply"); DIR* dir = opendir(psdir.c_str()); if (dir == NULL) { W_ALOGE("Failed to open dir %s (%s)", psdir.c_str(), strerror(errno)); return false; } struct dirent* e; bool result = false; while ((e = readdir(dir)) != 0) { if (e->d_name[0] != '.') { std::string online_path = psdir + "/" + e->d_name + "/online"; std::string contents; int value = 0; if (android::base::ReadFileToString(online_path.c_str(), &contents) && sscanf(contents.c_str(), "%d", &value) == 1) { if (value) { result = true; break; } } } } closedir(dir); return result; } bool postprocess_proc_stat_contents(const std::string &pscontents, long unsigned *idleticks, long unsigned *remainingticks) { long unsigned usertime, nicetime, systime, idletime, iowaittime; long unsigned irqtime, softirqtime; int rc = sscanf(pscontents.c_str(), "cpu %lu %lu %lu %lu %lu %lu %lu", &usertime, &nicetime, &systime, &idletime, &iowaittime, &irqtime, &softirqtime); if (rc != 7) { return false; } *idleticks = idletime; *remainingticks = usertime + nicetime + systime + iowaittime + irqtime + softirqtime; return true; } unsigned collect_cpu_utilization() { std::string contents; long unsigned idle[2]; long unsigned busy[2]; for (unsigned iter = 0; iter < 2; ++iter) { if (!android::base::ReadFileToString("/proc/stat", &contents)) { return 0; } if (!postprocess_proc_stat_contents(contents, &idle[iter], &busy[iter])) { return 0; } if (iter == 0) { sleep(1); } } long unsigned total_delta = (idle[1] + busy[1]) - (idle[0] + busy[0]); long unsigned busy_delta = busy[1] - busy[0]; return busy_delta * 100 / total_delta; } static void annotate_encoded_perf_profile(wireless_android_play_playlog::AndroidPerfProfile *profile, const ConfigReader &config, unsigned cpu_utilization) { // // Incorporate cpu utilization (collected prior to perf run) // if (config.getUnsignedValue("collect_cpu_utilization")) { profile->set_cpu_utilization(cpu_utilization); } // // Load average as reported by the kernel // std::string load; double fload = 0.0; if (android::base::ReadFileToString("/proc/loadavg", &load) && sscanf(load.c_str(), "%lf", &fload) == 1) { int iload = static_cast<int>(fload * 100.0); profile->set_sys_load_average(iload); } else { W_ALOGE("Failed to read or scan /proc/loadavg (%s)", strerror(errno)); } // // Device still booting? Camera in use? Plugged into charger? // bool is_booting = get_booting(); if (config.getUnsignedValue("collect_booting")) { profile->set_booting(is_booting); } if (config.getUnsignedValue("collect_camera_active")) { profile->set_camera_active(is_booting ? false : get_camera_active()); } if (config.getUnsignedValue("collect_charging_state")) { profile->set_on_charger(get_charging()); } // // Examine the contents of wake_unlock to determine whether the // device display is on or off. NB: is this really the only way to // determine this info? // std::string disp; if (android::base::ReadFileToString("/sys/power/wake_unlock", &disp)) { bool ison = (strstr(disp.c_str(), "PowerManagerService.Display") == 0); profile->set_display_on(ison); } else { W_ALOGE("Failed to read /sys/power/wake_unlock (%s)", strerror(errno)); } } inline char* string_as_array(std::string* str) { return str->empty() ? NULL : &*str->begin(); } PROFILE_RESULT encode_to_proto(const std::string &data_file_path, const char *encoded_file_path, const ConfigReader &config, unsigned cpu_utilization) { // // Open and read perf.data file // const wireless_android_play_playlog::AndroidPerfProfile &encodedProfile = wireless_android_logging_awp::RawPerfDataToAndroidPerfProfile(data_file_path); // // Issue error if no samples // if (encodedProfile.programs().size() == 0) { return ERR_PERF_ENCODE_FAILED; } // All of the info in 'encodedProfile' is derived from the perf.data file; // here we tack display status, cpu utilization, system load, etc. wireless_android_play_playlog::AndroidPerfProfile &prof = const_cast<wireless_android_play_playlog::AndroidPerfProfile&> (encodedProfile); annotate_encoded_perf_profile(&prof, config, cpu_utilization); // // Serialize protobuf to array // int size = encodedProfile.ByteSize(); std::string data; data.resize(size); ::google::protobuf::uint8* dtarget = reinterpret_cast<::google::protobuf::uint8*>(string_as_array(&data)); encodedProfile.SerializeWithCachedSizesToArray(dtarget); // // Open file and write encoded data to it // FILE *fp = fopen(encoded_file_path, "w"); if (!fp) { return ERR_OPEN_ENCODED_FILE_FAILED; } size_t fsiz = size; if (fwrite(dtarget, fsiz, 1, fp) != 1) { fclose(fp); return ERR_WRITE_ENCODED_FILE_FAILED; } fclose(fp); chmod(encoded_file_path, S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH); return OK_PROFILE_COLLECTION; } // // Invoke "perf record". Return value is OK_PROFILE_COLLECTION for // success, or some other error code if something went wrong. // static PROFILE_RESULT invoke_perf(const std::string &perf_path, unsigned sampling_period, const char *stack_profile_opt, unsigned duration, const std::string &data_file_path, const std::string &perf_stderr_path) { pid_t pid = fork(); if (pid == -1) { return ERR_FORK_FAILED; } if (pid == 0) { // child // Open file to receive stderr/stdout from perf FILE *efp = fopen(perf_stderr_path.c_str(), "w"); if (efp) { dup2(fileno(efp), STDERR_FILENO); dup2(fileno(efp), STDOUT_FILENO); } else { W_ALOGW("unable to open %s for writing", perf_stderr_path.c_str()); } // marshall arguments constexpr unsigned max_args = 13; const char *argv[max_args]; unsigned slot = 0; argv[slot++] = perf_path.c_str(); argv[slot++] = "record"; // -o perf.data argv[slot++] = "-o"; argv[slot++] = data_file_path.c_str(); // -c N argv[slot++] = "-c"; std::string p_str = android::base::StringPrintf("%u", sampling_period); argv[slot++] = p_str.c_str(); // -g if desired if (stack_profile_opt) argv[slot++] = stack_profile_opt; // system wide profiling argv[slot++] = "-a"; // no need for kernel symbols argv[slot++] = "--no-dump-kernel-symbols"; // sleep <duration> argv[slot++] = "/system/bin/sleep"; std::string d_str = android::base::StringPrintf("%u", duration); argv[slot++] = d_str.c_str(); // terminator argv[slot++] = nullptr; assert(slot < max_args); // record the final command line in the error output file for // posterity/debugging purposes fprintf(stderr, "perf invocation (pid=%d):\n", getpid()); for (unsigned i = 0; argv[i] != nullptr; ++i) { fprintf(stderr, "%s%s", i ? " " : "", argv[i]); } fprintf(stderr, "\n"); // exec execvp(argv[0], (char * const *)argv); fprintf(stderr, "exec failed: %s\n", strerror(errno)); exit(1); } else { // parent int st = 0; pid_t reaped = TEMP_FAILURE_RETRY(waitpid(pid, &st, 0)); if (reaped == -1) { W_ALOGW("waitpid failed: %s", strerror(errno)); } else if (WIFSIGNALED(st)) { W_ALOGW("perf killed by signal %d", WTERMSIG(st)); } else if (WEXITSTATUS(st) != 0) { W_ALOGW("perf bad exit status %d", WEXITSTATUS(st)); } else { return OK_PROFILE_COLLECTION; } } return ERR_PERF_RECORD_FAILED; } // // Remove all files in the destination directory during initialization // static void cleanup_destination_dir(const ConfigReader &config) { std::string dest_dir = config.getStringValue("destination_directory"); DIR* dir = opendir(dest_dir.c_str()); if (dir != NULL) { struct dirent* e; while ((e = readdir(dir)) != 0) { if (e->d_name[0] != '.') { std::string file_path = dest_dir + "/" + e->d_name; remove(file_path.c_str()); } } closedir(dir); } else { W_ALOGW("unable to open destination dir %s for cleanup", dest_dir.c_str()); } } // // Post-processes after profile is collected and converted to protobuf. // * GMS core stores processed file sequence numbers in // /data/data/com.google.android.gms/files/perfprofd_processed.txt // * Update /data/misc/perfprofd/perfprofd_produced.txt to remove the sequence // numbers that have been processed and append the current seq number // Returns true if the current_seq should increment. // static bool post_process(const ConfigReader &config, int current_seq) { std::string dest_dir = config.getStringValue("destination_directory"); std::string processed_file_path = config.getStringValue("config_directory") + "/" + PROCESSED_FILENAME; std::string produced_file_path = dest_dir + "/" + PRODUCED_FILENAME; std::set<int> processed; FILE *fp = fopen(processed_file_path.c_str(), "r"); if (fp != NULL) { int seq; while(fscanf(fp, "%d\n", &seq) > 0) { if (remove(android::base::StringPrintf( "%s/perf.data.encoded.%d", dest_dir.c_str(),seq).c_str()) == 0) { processed.insert(seq); } } fclose(fp); } std::set<int> produced; fp = fopen(produced_file_path.c_str(), "r"); if (fp != NULL) { int seq; while(fscanf(fp, "%d\n", &seq) > 0) { if (processed.find(seq) == processed.end()) { produced.insert(seq); } } fclose(fp); } unsigned maxLive = config.getUnsignedValue("max_unprocessed_profiles"); if (produced.size() >= maxLive) { return false; } produced.insert(current_seq); fp = fopen(produced_file_path.c_str(), "w"); if (fp == NULL) { W_ALOGW("Cannot write %s", produced_file_path.c_str()); return false; } for (std::set<int>::const_iterator iter = produced.begin(); iter != produced.end(); ++iter) { fprintf(fp, "%d\n", *iter); } fclose(fp); chmod(produced_file_path.c_str(), S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH); return true; } // // Collect a perf profile. Steps for this operation are: // - kick off 'perf record' // - read perf.data, convert to protocol buf // static PROFILE_RESULT collect_profile(const ConfigReader &config, int seq) { // // Collect cpu utilization if enabled // unsigned cpu_utilization = 0; if (config.getUnsignedValue("collect_cpu_utilization")) { cpu_utilization = collect_cpu_utilization(); } // // Form perf.data file name, perf error output file name // std::string destdir = config.getStringValue("destination_directory"); std::string data_file_path(destdir); data_file_path += "/"; data_file_path += PERF_OUTPUT; std::string perf_stderr_path(destdir); perf_stderr_path += "/perferr.txt"; // // Remove any existing perf.data file -- if we don't do this, perf // will rename the old file and we'll have extra cruft lying around. // struct stat statb; if (stat(data_file_path.c_str(), &statb) == 0) { // if file exists... if (unlink(data_file_path.c_str())) { // then try to remove W_ALOGW("unable to unlink previous perf.data file"); } } // // The "mpdecision" daemon can cause problems for profile // collection: if it decides to online a CPU partway through the // 'perf record' run, the activity on that CPU will be invisible to // perf, and if it offlines a CPU during the recording this can // sometimes leave the PMU in an unusable state (dmesg errors of the // form "perfevents: unable to request IRQXXX for ..."). To avoid // these issues, if "mpdecision" is running the helper below will // stop the service and then online all available CPUs. The object // destructor (invoked when this routine terminates) will then // restart the service again when needed. // unsigned duration = config.getUnsignedValue("sample_duration"); unsigned hardwire = config.getUnsignedValue("hardwire_cpus"); unsigned max_duration = config.getUnsignedValue("hardwire_cpus_max_duration"); bool take_action = (hardwire && duration <= max_duration); HardwireCpuHelper helper(take_action); // // Invoke perf // const char *stack_profile_opt = (config.getUnsignedValue("stack_profile") != 0 ? "-g" : nullptr); std::string perf_path = config.getStringValue("perf_path"); unsigned period = config.getUnsignedValue("sampling_period"); PROFILE_RESULT ret = invoke_perf(perf_path.c_str(), period, stack_profile_opt, duration, data_file_path, perf_stderr_path); if (ret != OK_PROFILE_COLLECTION) { return ret; } // // Read the resulting perf.data file, encode into protocol buffer, then write // the result to the file perf.data.encoded // std::string path = android::base::StringPrintf( "%s.encoded.%d", data_file_path.c_str(), seq); return encode_to_proto(data_file_path, path.c_str(), config, cpu_utilization); } // // Assuming that we want to collect a profile every N seconds, // randomly partition N into two sub-intervals. // static void determine_before_after(unsigned &sleep_before_collect, unsigned &sleep_after_collect, unsigned collection_interval) { double frac = erand48(random_seed); sleep_before_collect = (unsigned) (((double)collection_interval) * frac); assert(sleep_before_collect <= collection_interval); sleep_after_collect = collection_interval - sleep_before_collect; } // // Set random number generator seed // static void set_seed(ConfigReader &config) { unsigned seed = 0; unsigned use_fixed_seed = config.getUnsignedValue("use_fixed_seed"); if (use_fixed_seed) { // // Use fixed user-specified seed // seed = use_fixed_seed; } else { // // Randomized seed // seed = arc4random(); } W_ALOGI("random seed set to %u", seed); // Distribute the 32-bit seed into the three 16-bit array // elements. The specific values being written do not especially // matter as long as we are setting them to something based on the seed. random_seed[0] = seed & 0xffff; random_seed[1] = (seed >> 16); random_seed[2] = (random_seed[0] ^ random_seed[1]); } // // Initialization // static void init(ConfigReader &config) { if (!config.readFile()) { W_ALOGE("unable to open configuration file %s", config.getConfigFilePath()); } // Children of init inherit an artificially low OOM score -- this is not // desirable for perfprofd (its OOM score should be on par with // other user processes). std::stringstream oomscore_path; oomscore_path << "/proc/" << getpid() << "/oom_score_adj"; if (!android::base::WriteStringToFile("0", oomscore_path.str())) { W_ALOGE("unable to write to %s", oomscore_path.str().c_str()); } set_seed(config); cleanup_destination_dir(config); char propBuf[PROPERTY_VALUE_MAX]; propBuf[0] = '\0'; property_get("ro.kernel.qemu", propBuf, ""); running_in_emulator = (propBuf[0] == '1'); property_get("ro.debuggable", propBuf, ""); is_debug_build = (propBuf[0] == '1'); signal(SIGHUP, sig_hup); } // // Main routine: // 1. parse cmd line args // 2. read config file // 3. loop: { // sleep for a while // perform a profile collection // } // int perfprofd_main(int argc, char** argv) { ConfigReader config; W_ALOGI("starting Android Wide Profiling daemon"); parse_args(argc, argv); init(config); if (!perf_file_to_convert.empty()) { std::string encoded_path = perf_file_to_convert + ".encoded"; encode_to_proto(perf_file_to_convert, encoded_path.c_str(), config, 0); return 0; } // Early exit if we're not supposed to run on this build flavor if (is_debug_build != 1 && config.getUnsignedValue("only_debug_build") == 1) { W_ALOGI("early exit due to inappropriate build type"); return 0; } unsigned iterations = 0; int seq = 0; while(config.getUnsignedValue("main_loop_iterations") == 0 || iterations < config.getUnsignedValue("main_loop_iterations")) { // Figure out where in the collection interval we're going to actually // run perf unsigned sleep_before_collect = 0; unsigned sleep_after_collect = 0; determine_before_after(sleep_before_collect, sleep_after_collect, config.getUnsignedValue("collection_interval")); perfprofd_sleep(sleep_before_collect); // Reread config file -- the uploader may have rewritten it as a result // of a gservices change config.readFile(); // Check for profiling enabled... CKPROFILE_RESULT ckresult = check_profiling_enabled(config); if (ckresult != DO_COLLECT_PROFILE) { W_ALOGI("profile collection skipped (%s)", ckprofile_result_to_string(ckresult)); } else { // Kick off the profiling run... W_ALOGI("initiating profile collection"); PROFILE_RESULT result = collect_profile(config, seq); if (result != OK_PROFILE_COLLECTION) { W_ALOGI("profile collection failed (%s)", profile_result_to_string(result)); } else { if (post_process(config, seq)) { seq++; } W_ALOGI("profile collection complete"); } } perfprofd_sleep(sleep_after_collect); iterations += 1; } W_ALOGI("finishing Android Wide Profiling daemon"); return 0; }