// SPDX-License-Identifier: GPL-3.0-or-later #include "common.h" #include char pidfile[FILENAME_MAX + 1] = ""; char claiming_directory[FILENAME_MAX + 1]; char netdata_exe_path[FILENAME_MAX + 1]; char netdata_exe_file[FILENAME_MAX + 1]; void get_netdata_execution_path(void) { int ret; size_t exepath_size = 0; struct passwd *passwd = NULL; char *user = NULL; passwd = getpwuid(getuid()); user = (passwd && passwd->pw_name) ? passwd->pw_name : ""; exepath_size = sizeof(netdata_exe_file) - 1; ret = uv_exepath(netdata_exe_file, &exepath_size); if (0 != ret) { netdata_log_error("uv_exepath(\"%s\", %u) (user: %s) failed (%s).", netdata_exe_file, (unsigned)exepath_size, user, uv_strerror(ret)); fatal("Cannot start netdata without getting execution path."); } netdata_exe_file[exepath_size] = '\0'; // macOS's dirname(3) does not modify passed string char *tmpdir = strdupz(netdata_exe_file); strcpy(netdata_exe_path, dirname(tmpdir)); freez(tmpdir); } static void fix_directory_file_permissions(const char *dirname, uid_t uid, gid_t gid, bool recursive) { char filename[FILENAME_MAX + 1]; DIR *dir = opendir(dirname); if (!dir) return; struct dirent *de = NULL; while ((de = readdir(dir))) { if (de->d_type == DT_DIR && (!strcmp(de->d_name, ".") || !strcmp(de->d_name, ".."))) continue; (void) snprintfz(filename, FILENAME_MAX, "%s/%s", dirname, de->d_name); if (de->d_type == DT_REG || recursive) { if (chown(filename, uid, gid) == -1) netdata_log_error("Cannot chown %s '%s' to %u:%u", de->d_type == DT_DIR ? "directory" : "file", filename, (unsigned int)uid, (unsigned int)gid); } if (de->d_type == DT_DIR && recursive) fix_directory_file_permissions(filename, uid, gid, recursive); } closedir(dir); } static void change_dir_ownership(const char *dir, uid_t uid, gid_t gid, bool recursive) { if (chown(dir, uid, gid) == -1) netdata_log_error("Cannot chown directory '%s' to %u:%u", dir, (unsigned int)uid, (unsigned int)gid); fix_directory_file_permissions(dir, uid, gid, recursive); } static void clean_directory(char *dirname) { DIR *dir = opendir(dirname); if(!dir) return; int dir_fd = dirfd(dir); struct dirent *de = NULL; while((de = readdir(dir))) if(de->d_type == DT_REG) if (unlinkat(dir_fd, de->d_name, 0)) netdata_log_error("Cannot delete %s/%s", dirname, de->d_name); closedir(dir); } static void prepare_required_directories(uid_t uid, gid_t gid) { change_dir_ownership(netdata_configured_cache_dir, uid, gid, true); change_dir_ownership(netdata_configured_varlib_dir, uid, gid, false); change_dir_ownership(netdata_configured_lock_dir, uid, gid, false); change_dir_ownership(netdata_configured_log_dir, uid, gid, false); change_dir_ownership(claiming_directory, uid, gid, false); char filename[FILENAME_MAX + 1]; snprintfz(filename, FILENAME_MAX, "%s/registry", netdata_configured_varlib_dir); change_dir_ownership(filename, uid, gid, false); clean_directory(netdata_configured_lock_dir); } static int become_user(const char *username, int pid_fd) { int am_i_root = (getuid() == 0)?1:0; struct passwd *pw = getpwnam(username); if(!pw) { netdata_log_error("User %s is not present.", username); return -1; } uid_t uid = pw->pw_uid; gid_t gid = pw->pw_gid; prepare_required_directories(uid, gid); if(pidfile[0]) { if(chown(pidfile, uid, gid) == -1) netdata_log_error("Cannot chown '%s' to %u:%u", pidfile, (unsigned int)uid, (unsigned int)gid); } int ngroups = (int)sysconf(_SC_NGROUPS_MAX); gid_t *supplementary_groups = NULL; if(ngroups > 0) { supplementary_groups = mallocz(sizeof(gid_t) * ngroups); if(os_getgrouplist(username, gid, supplementary_groups, &ngroups) == -1) { if(am_i_root) netdata_log_error("Cannot get supplementary groups of user '%s'.", username); ngroups = 0; } } nd_log_chown_log_files(uid, gid); chown_open_file(STDOUT_FILENO, uid, gid); chown_open_file(STDERR_FILENO, uid, gid); chown_open_file(pid_fd, uid, gid); if(supplementary_groups && ngroups > 0) { if(setgroups((size_t)ngroups, supplementary_groups) == -1) { if(am_i_root) netdata_log_error("Cannot set supplementary groups for user '%s'", username); } ngroups = 0; } if(supplementary_groups) freez(supplementary_groups); if(os_setresgid(gid, gid, gid) != 0) { netdata_log_error("Cannot switch to user's %s group (gid: %u).", username, gid); return -1; } if(os_setresuid(uid, uid, uid) != 0) { netdata_log_error("Cannot switch to user %s (uid: %u).", username, uid); return -1; } if(setgid(gid) != 0) { netdata_log_error("Cannot switch to user's %s group (gid: %u).", username, gid); return -1; } if(setegid(gid) != 0) { netdata_log_error("Cannot effectively switch to user's %s group (gid: %u).", username, gid); return -1; } if(setuid(uid) != 0) { netdata_log_error("Cannot switch to user %s (uid: %u).", username, uid); return -1; } if(seteuid(uid) != 0) { netdata_log_error("Cannot effectively switch to user %s (uid: %u).", username, uid); return -1; } return(0); } #ifndef OOM_SCORE_ADJ_MAX #define OOM_SCORE_ADJ_MAX (1000) #endif #ifndef OOM_SCORE_ADJ_MIN #define OOM_SCORE_ADJ_MIN (-1000) #endif static void oom_score_adj(void) { char buf[30 + 1]; long long int old_score, wanted_score = 0, final_score = 0; // read the existing score if(read_single_signed_number_file("/proc/self/oom_score_adj", &old_score)) { netdata_log_error("Out-Of-Memory (OOM) score setting is not supported on this system."); return; } if (old_score != 0) { wanted_score = old_score; analytics_report_oom_score(old_score); } // check the environment char *s = getenv("OOMScoreAdjust"); if(!s || !*s) { snprintfz(buf, sizeof(buf) - 1, "%d", (int)wanted_score); s = buf; } // check netdata.conf configuration s = config_get(CONFIG_SECTION_GLOBAL, "OOM score", s); if(s && *s && (isdigit((uint8_t)*s) || *s == '-' || *s == '+')) wanted_score = atoll(s); else if(s && !strcmp(s, "keep")) { netdata_log_info("Out-Of-Memory (OOM) kept as-is (running with %d)", (int) old_score); return; } else { netdata_log_info("Out-Of-Memory (OOM) score not changed due to non-numeric setting: '%s' (running with %d)", s, (int)old_score); return; } if(wanted_score < OOM_SCORE_ADJ_MIN) { netdata_log_error("Wanted Out-Of-Memory (OOM) score %d is too small. Using %d", (int)wanted_score, (int)OOM_SCORE_ADJ_MIN); wanted_score = OOM_SCORE_ADJ_MIN; } if(wanted_score > OOM_SCORE_ADJ_MAX) { netdata_log_error("Wanted Out-Of-Memory (OOM) score %d is too big. Using %d", (int)wanted_score, (int)OOM_SCORE_ADJ_MAX); wanted_score = OOM_SCORE_ADJ_MAX; } if(old_score == wanted_score) { netdata_log_info("Out-Of-Memory (OOM) score is already set to the wanted value %d", (int)old_score); return; } int written = 0; int fd = open("/proc/self/oom_score_adj", O_WRONLY | O_CLOEXEC); if(fd != -1) { snprintfz(buf, sizeof(buf) - 1, "%d", (int)wanted_score); ssize_t len = strlen(buf); if(len > 0 && write(fd, buf, (size_t)len) == len) written = 1; close(fd); if(written) { if(read_single_signed_number_file("/proc/self/oom_score_adj", &final_score)) netdata_log_error("Adjusted my Out-Of-Memory (OOM) score to %d, but cannot verify it.", (int)wanted_score); else if(final_score == wanted_score) netdata_log_info("Adjusted my Out-Of-Memory (OOM) score from %d to %d.", (int)old_score, (int)final_score); else netdata_log_error("Adjusted my Out-Of-Memory (OOM) score from %d to %d, but it has been set to %d.", (int)old_score, (int)wanted_score, (int)final_score); analytics_report_oom_score(final_score); } else netdata_log_error("Failed to adjust my Out-Of-Memory (OOM) score to %d. Running with %d. (systemd systems may change it via netdata.service)", (int)wanted_score, (int)old_score); } else netdata_log_error("Failed to adjust my Out-Of-Memory (OOM) score. Cannot open /proc/self/oom_score_adj for writing."); } static void process_nice_level(void) { #ifdef HAVE_NICE int nice_level = (int)config_get_number(CONFIG_SECTION_GLOBAL, "process nice level", 19); if(nice(nice_level) == -1) netdata_log_error("Cannot set netdata CPU nice level to %d.", nice_level); else netdata_log_debug(D_SYSTEM, "Set netdata nice level to %d.", nice_level); #endif // HAVE_NICE } #define SCHED_FLAG_NONE 0x00 #define SCHED_FLAG_PRIORITY_CONFIGURABLE 0x01 // the priority is user configurable #define SCHED_FLAG_KEEP_AS_IS 0x04 // do not attempt to set policy, priority or nice() #define SCHED_FLAG_USE_NICE 0x08 // use nice() after setting this policy struct sched_def { char *name; int policy; int priority; uint8_t flags; } scheduler_defaults[] = { // the order of array members is important! // the first defined is the default used by netdata // the available members are important too! // these are all the possible scheduling policies supported by netdata #ifdef SCHED_BATCH { "batch", SCHED_BATCH, 0, SCHED_FLAG_USE_NICE }, #endif #ifdef SCHED_OTHER { "other", SCHED_OTHER, 0, SCHED_FLAG_USE_NICE }, { "nice", SCHED_OTHER, 0, SCHED_FLAG_USE_NICE }, #endif #ifdef SCHED_IDLE { "idle", SCHED_IDLE, 0, SCHED_FLAG_NONE }, #endif #ifdef SCHED_RR { "rr", SCHED_RR, 0, SCHED_FLAG_PRIORITY_CONFIGURABLE }, #endif #ifdef SCHED_FIFO { "fifo", SCHED_FIFO, 0, SCHED_FLAG_PRIORITY_CONFIGURABLE }, #endif // do not change the scheduling priority { "keep", 0, 0, SCHED_FLAG_KEEP_AS_IS }, { "none", 0, 0, SCHED_FLAG_KEEP_AS_IS }, // array termination { NULL, 0, 0, 0 } }; #ifdef HAVE_SCHED_GETSCHEDULER static void sched_getscheduler_report(void) { int sched = sched_getscheduler(0); if(sched == -1) { netdata_log_error("Cannot get my current process scheduling policy."); return; } else { int i; for(i = 0 ; scheduler_defaults[i].name ; i++) { if(scheduler_defaults[i].policy == sched) { if(scheduler_defaults[i].flags & SCHED_FLAG_PRIORITY_CONFIGURABLE) { struct sched_param param; if(sched_getparam(0, ¶m) == -1) { netdata_log_error("Cannot get the process scheduling priority for my policy '%s'", scheduler_defaults[i].name); return; } else { netdata_log_info("Running with process scheduling policy '%s', priority %d", scheduler_defaults[i].name, param.sched_priority); } } else if(scheduler_defaults[i].flags & SCHED_FLAG_USE_NICE) { #ifdef HAVE_GETPRIORITY int n = getpriority(PRIO_PROCESS, 0); netdata_log_info("Running with process scheduling policy '%s', nice level %d", scheduler_defaults[i].name, n); #else // !HAVE_GETPRIORITY netdata_log_info("Running with process scheduling policy '%s'", scheduler_defaults[i].name); #endif // !HAVE_GETPRIORITY } else { netdata_log_info("Running with process scheduling policy '%s'", scheduler_defaults[i].name); } return; } } } } #endif /* HAVE_SCHED_GETSCHEDULER */ #ifdef HAVE_SCHED_SETSCHEDULER static void sched_setscheduler_set(void) { if(scheduler_defaults[0].name) { const char *name = scheduler_defaults[0].name; int policy = scheduler_defaults[0].policy, priority = scheduler_defaults[0].priority; uint8_t flags = scheduler_defaults[0].flags; int found = 0; // read the configuration name = config_get(CONFIG_SECTION_GLOBAL, "process scheduling policy", name); int i; for(i = 0 ; scheduler_defaults[i].name ; i++) { if(!strcmp(name, scheduler_defaults[i].name)) { found = 1; policy = scheduler_defaults[i].policy; priority = scheduler_defaults[i].priority; flags = scheduler_defaults[i].flags; if(flags & SCHED_FLAG_KEEP_AS_IS) goto report; if(flags & SCHED_FLAG_PRIORITY_CONFIGURABLE) priority = (int)config_get_number(CONFIG_SECTION_GLOBAL, "process scheduling priority", priority); #ifdef HAVE_SCHED_GET_PRIORITY_MIN errno_clear(); if(priority < sched_get_priority_min(policy)) { netdata_log_error("scheduler %s (%d) priority %d is below the minimum %d. Using the minimum.", name, policy, priority, sched_get_priority_min(policy)); priority = sched_get_priority_min(policy); } #endif #ifdef HAVE_SCHED_GET_PRIORITY_MAX errno_clear(); if(priority > sched_get_priority_max(policy)) { netdata_log_error("scheduler %s (%d) priority %d is above the maximum %d. Using the maximum.", name, policy, priority, sched_get_priority_max(policy)); priority = sched_get_priority_max(policy); } #endif break; } } if(!found) { netdata_log_error("Unknown scheduling policy '%s' - falling back to nice", name); goto fallback; } const struct sched_param param = { .sched_priority = priority }; errno_clear(); i = sched_setscheduler(0, policy, ¶m); if(i != 0) { netdata_log_error("Cannot adjust netdata scheduling policy to %s (%d), with priority %d. Falling back to nice.", name, policy, priority); } else { netdata_log_info("Adjusted netdata scheduling policy to %s (%d), with priority %d.", name, policy, priority); if(!(flags & SCHED_FLAG_USE_NICE)) goto report; } } fallback: process_nice_level(); report: sched_getscheduler_report(); } #else /* HAVE_SCHED_SETSCHEDULER */ static void sched_setscheduler_set(void) { process_nice_level(); } #endif /* HAVE_SCHED_SETSCHEDULER */ int become_daemon(int dont_fork, const char *user) { if(!dont_fork) { int i = fork(); if(i == -1) { perror("cannot fork"); exit(1); } if(i != 0) { exit(0); // the parent } // become session leader if (setsid() < 0) { perror("Cannot become session leader."); exit(2); } // fork() again i = fork(); if(i == -1) { perror("cannot fork"); exit(1); } if(i != 0) { exit(0); // the parent } } // generate our pid file int pidfd = -1; if(pidfile[0]) { pidfd = open(pidfile, O_WRONLY | O_CREAT | O_CLOEXEC, 0644); if(pidfd >= 0) { if(ftruncate(pidfd, 0) != 0) netdata_log_error("Cannot truncate pidfile '%s'.", pidfile); char b[100]; sprintf(b, "%d\n", getpid()); ssize_t i = write(pidfd, b, strlen(b)); if(i <= 0) netdata_log_error("Cannot write pidfile '%s'.", pidfile); } else netdata_log_error("Failed to open pidfile '%s'.", pidfile); } // Set new file permissions umask(0007); // adjust my Out-Of-Memory score oom_score_adj(); // never become a problem sched_setscheduler_set(); // Set claiming directory based on user config directory with correct ownership snprintfz(claiming_directory, FILENAME_MAX, "%s/cloud.d", netdata_configured_varlib_dir); if(user && *user) { if(become_user(user, pidfd) != 0) { netdata_log_error("Cannot become user '%s'. Continuing as we are.", user); } else netdata_log_debug(D_SYSTEM, "Successfully became user '%s'.", user); } else { prepare_required_directories(getuid(), getgid()); } if(pidfd != -1) close(pidfd); return(0); }