/* log_daemon.c - A dedicated daemon to monitor logcat * * A universal logcat monitor for many usages. Add listeners to the list, * and the new log line will be sent through sockets to trigger * asynchronous events without polling */ #include #include #include #include #include #include "magisk.h" #include "utils.h" #include "daemon.h" int loggable = 1; static struct vector log_cmd, clear_cmd; static int sockfd; static pthread_mutex_t lock = PTHREAD_MUTEX_INITIALIZER; enum { HIDE_EVENT, LOG_EVENT }; struct log_listener { int fd; int (*filter) (const char*); }; static int am_proc_start_filter(const char *log) { return strstr(log, "am_proc_start") != NULL; } static int magisk_log_filter(const char *log) { return !am_proc_start_filter(log); } static struct log_listener events[] = { { /* HIDE_EVENT */ .fd = -1, .filter = am_proc_start_filter }, { /* LOG_EVENT */ .fd = -1, .filter = magisk_log_filter } }; #define EVENT_NUM (sizeof(events) / sizeof(struct log_listener)) static void sigpipe_handler(int sig) { close(events[HIDE_EVENT].fd); events[HIDE_EVENT].fd = -1; } static void *monitor_thread(void *args) { // Block SIGPIPE to prevent interruption sigset_t block_set; sigemptyset(&block_set); sigaddset(&block_set, SIGPIPE); pthread_sigmask(SIG_SETMASK, &block_set, NULL); // Give the main daemon some time before we monitor it sleep(5); int fd; char b; while (1) { fd = connect_daemon(); write_int(fd, HANDSHAKE); // This should hold unless the daemon is killed read(fd, &b, sizeof(b)); // The main daemon crashed, spawn a new one close(fd); } } static void *logcat_thread(void *args) { int log_fd = -1, log_pid; char line[4096]; while (1) { // Start logcat log_pid = exec_array(0, &log_fd, NULL, (char **) vec_entry(&log_cmd)); FILE *logs = fdopen(log_fd, "r"); while (fgets(line, sizeof(line), logs)) { if (line[0] == '-') continue; size_t len = strlen(line); pthread_mutex_lock(&lock); for (int i = 0; i < EVENT_NUM; ++i) { if (events[i].fd > 0 && events[i].filter(line)) write(events[i].fd, line, len); } pthread_mutex_unlock(&lock); } fclose(logs); log_fd = -1; kill(log_pid, SIGTERM); waitpid(log_pid, NULL, 0); LOGI("magisklogd: logcat output EOF"); // Clear buffer log_pid = exec_array(0, NULL, NULL, (char **) vec_entry(&clear_cmd)); waitpid(log_pid, NULL, 0); } } void log_daemon() { setsid(); struct sockaddr_un sun; sockfd = setup_socket(&sun, LOG_DAEMON); if (xbind(sockfd, (struct sockaddr*) &sun, sizeof(sun))) exit(1); xlisten(sockfd, 10); LOGI("Magisk v" xstr(MAGISK_VERSION) "(" xstr(MAGISK_VER_CODE) ") logger started\n"); strcpy(argv0, "magisklogd"); // Set SIGPIPE handler struct sigaction act; memset(&act, 0, sizeof(act)); act.sa_handler = sigpipe_handler; sigaction(SIGPIPE, &act, NULL); // Setup log dumps rename(LOGFILE, LOGFILE ".bak"); events[LOG_EVENT].fd = xopen(LOGFILE, O_CREAT | O_WRONLY | O_TRUNC | O_CLOEXEC | O_APPEND, 0644); // Construct cmdline vec_init(&log_cmd); vec_push_back(&log_cmd, "/system/bin/logcat"); // Test whether these buffers actually works const char* b[] = { "main", "events", "crash" }; for (int i = 0; i < 3; ++i) { if (exec_command_sync("/system/bin/logcat", "-b", b[i], "-d", "-f", "/dev/null", NULL) == 0) vec_push_back_all(&log_cmd, "-b", b[i], NULL); } chmod("/dev/null", 0666); vec_dup(&log_cmd, &clear_cmd); vec_push_back_all(&log_cmd, "-v", "threadtime", "-s", "am_proc_start", "Magisk", "*:F", NULL); vec_push_back(&log_cmd, NULL); vec_push_back(&clear_cmd, "-c"); vec_push_back(&clear_cmd, NULL); // Start worker threads pthread_t thread; pthread_create(&thread, NULL, monitor_thread, NULL); pthread_detach(thread); xpthread_create(&thread, NULL, logcat_thread, NULL); pthread_detach(thread); while(1) { int fd = xaccept4(sockfd, NULL, NULL, SOCK_CLOEXEC); switch(read_int(fd)) { case HIDE_CONNECT: pthread_mutex_lock(&lock); close(events[HIDE_EVENT].fd); events[HIDE_EVENT].fd = fd; pthread_mutex_unlock(&lock); break; case HANDSHAKE: default: close(fd); break; } } }