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|
/* SPDX-License-Identifier: LGPL-2.1-or-later */
#include <errno.h>
#include <fcntl.h>
#include <getopt.h>
#include <linux/oom.h>
#include <sys/mount.h>
#include <sys/prctl.h>
#include <sys/utsname.h>
#include <unistd.h>
#if HAVE_VALGRIND_VALGRIND_H
# include <valgrind/valgrind.h>
#endif
#include "sd-bus.h"
#include "sd-daemon.h"
#include "sd-messages.h"
#include "alloc-util.h"
#include "apparmor-setup.h"
#include "architecture.h"
#include "argv-util.h"
#if HAVE_LIBBPF
#include "bpf-lsm.h"
#endif
#include "build.h"
#include "bus-error.h"
#include "bus-util.h"
#include "capability-util.h"
#include "cgroup-util.h"
#include "chase.h"
#include "clock-util.h"
#include "conf-parser.h"
#include "confidential-virt.h"
#include "copy.h"
#include "cpu-set-util.h"
#include "crash-handler.h"
#include "dbus-manager.h"
#include "dbus.h"
#include "constants.h"
#include "dev-setup.h"
#include "efi-random.h"
#include "efivars.h"
#include "emergency-action.h"
#include "env-util.h"
#include "exit-status.h"
#include "fd-util.h"
#include "fdset.h"
#include "fileio.h"
#include "format-util.h"
#include "fs-util.h"
#include "getopt-defs.h"
#include "hexdecoct.h"
#include "hostname-setup.h"
#include "ima-setup.h"
#include "import-creds.h"
#include "initrd-util.h"
#include "killall.h"
#include "kmod-setup.h"
#include "limits-util.h"
#include "load-fragment.h"
#include "log.h"
#include "loopback-setup.h"
#include "machine-id-setup.h"
#include "main.h"
#include "manager.h"
#include "manager-dump.h"
#include "manager-serialize.h"
#include "mkdir-label.h"
#include "mount-setup.h"
#include "os-util.h"
#include "pager.h"
#include "parse-argument.h"
#include "parse-util.h"
#include "path-util.h"
#include "pretty-print.h"
#include "proc-cmdline.h"
#include "process-util.h"
#include "psi-util.h"
#include "random-util.h"
#include "rlimit-util.h"
#include "seccomp-util.h"
#include "selinux-setup.h"
#include "selinux-util.h"
#include "signal-util.h"
#include "smack-setup.h"
#include "special.h"
#include "stat-util.h"
#include "stdio-util.h"
#include "strv.h"
#include "switch-root.h"
#include "sysctl-util.h"
#include "terminal-util.h"
#include "time-util.h"
#include "umask-util.h"
#include "user-util.h"
#include "version.h"
#include "virt.h"
#include "watchdog.h"
#if HAS_FEATURE_ADDRESS_SANITIZER
#include <sanitizer/lsan_interface.h>
#endif
static enum {
ACTION_RUN,
ACTION_HELP,
ACTION_VERSION,
ACTION_TEST,
ACTION_DUMP_CONFIGURATION_ITEMS,
ACTION_DUMP_BUS_PROPERTIES,
ACTION_BUS_INTROSPECT,
} arg_action = ACTION_RUN;
static const char *arg_bus_introspect = NULL;
/* Those variables are initialized to 0 automatically, so we avoid uninitialized memory access. Real
* defaults are assigned in reset_arguments() below. */
static char *arg_default_unit;
static RuntimeScope arg_runtime_scope;
bool arg_dump_core;
int arg_crash_chvt;
bool arg_crash_shell;
bool arg_crash_reboot;
static char *arg_confirm_spawn;
static ShowStatus arg_show_status;
static StatusUnitFormat arg_status_unit_format;
static bool arg_switched_root;
static PagerFlags arg_pager_flags;
static bool arg_service_watchdogs;
static UnitDefaults arg_defaults;
static usec_t arg_runtime_watchdog;
static usec_t arg_reboot_watchdog;
static usec_t arg_kexec_watchdog;
static usec_t arg_pretimeout_watchdog;
static char *arg_early_core_pattern;
static char *arg_watchdog_pretimeout_governor;
static char *arg_watchdog_device;
static char **arg_default_environment;
static char **arg_manager_environment;
static uint64_t arg_capability_bounding_set;
static bool arg_no_new_privs;
static nsec_t arg_timer_slack_nsec;
static Set* arg_syscall_archs;
static FILE* arg_serialization;
static sd_id128_t arg_machine_id;
static EmergencyAction arg_cad_burst_action;
static CPUSet arg_cpu_affinity;
static NUMAPolicy arg_numa_policy;
static usec_t arg_clock_usec;
static void *arg_random_seed;
static size_t arg_random_seed_size;
static usec_t arg_reload_limit_interval_sec;
static unsigned arg_reload_limit_burst;
/* A copy of the original environment block */
static char **saved_env = NULL;
static int parse_configuration(const struct rlimit *saved_rlimit_nofile,
const struct rlimit *saved_rlimit_memlock);
static int manager_find_user_config_paths(char ***ret_files, char ***ret_dirs) {
_cleanup_free_ char *base = NULL;
_cleanup_strv_free_ char **files = NULL, **dirs = NULL;
int r;
r = xdg_user_config_dir(&base, "/systemd");
if (r < 0)
return r;
r = strv_extendf(&files, "%s/user.conf", base);
if (r < 0)
return r;
r = strv_extend(&files, PKGSYSCONFDIR "/user.conf");
if (r < 0)
return r;
r = strv_consume(&dirs, TAKE_PTR(base));
if (r < 0)
return r;
r = strv_extend_strv(&dirs, CONF_PATHS_STRV("systemd"), false);
if (r < 0)
return r;
*ret_files = TAKE_PTR(files);
*ret_dirs = TAKE_PTR(dirs);
return 0;
}
static int console_setup(void) {
_cleanup_close_ int tty_fd = -EBADF;
unsigned rows, cols;
int r;
tty_fd = open_terminal("/dev/console", O_WRONLY|O_NOCTTY|O_CLOEXEC);
if (tty_fd < 0)
return log_error_errno(tty_fd, "Failed to open /dev/console: %m");
/* We don't want to force text mode. plymouth may be showing
* pictures already from initrd. */
r = reset_terminal_fd(tty_fd, false);
if (r < 0)
return log_error_errno(r, "Failed to reset /dev/console: %m");
r = proc_cmdline_tty_size("/dev/console", &rows, &cols);
if (r < 0)
log_warning_errno(r, "Failed to get terminal size, ignoring: %m");
else {
r = terminal_set_size_fd(tty_fd, NULL, rows, cols);
if (r < 0)
log_warning_errno(r, "Failed to set terminal size, ignoring: %m");
}
return 0;
}
static int parse_proc_cmdline_item(const char *key, const char *value, void *data) {
int r;
assert(key);
if (STR_IN_SET(key, "systemd.unit", "rd.systemd.unit")) {
if (proc_cmdline_value_missing(key, value))
return 0;
if (!unit_name_is_valid(value, UNIT_NAME_PLAIN|UNIT_NAME_INSTANCE))
log_warning("Unit name specified on %s= is not valid, ignoring: %s", key, value);
else if (in_initrd() == !!startswith(key, "rd."))
return free_and_strdup_warn(&arg_default_unit, value);
} else if (proc_cmdline_key_streq(key, "systemd.dump_core")) {
r = value ? parse_boolean(value) : true;
if (r < 0)
log_warning_errno(r, "Failed to parse dump core switch %s, ignoring: %m", value);
else
arg_dump_core = r;
} else if (proc_cmdline_key_streq(key, "systemd.early_core_pattern")) {
if (proc_cmdline_value_missing(key, value))
return 0;
if (path_is_absolute(value))
(void) parse_path_argument(value, false, &arg_early_core_pattern);
else
log_warning("Specified core pattern '%s' is not an absolute path, ignoring.", value);
} else if (proc_cmdline_key_streq(key, "systemd.crash_chvt")) {
if (!value)
arg_crash_chvt = 0; /* turn on */
else {
r = parse_crash_chvt(value, &arg_crash_chvt);
if (r < 0)
log_warning_errno(r, "Failed to parse crash chvt switch %s, ignoring: %m", value);
}
} else if (proc_cmdline_key_streq(key, "systemd.crash_shell")) {
r = value ? parse_boolean(value) : true;
if (r < 0)
log_warning_errno(r, "Failed to parse crash shell switch %s, ignoring: %m", value);
else
arg_crash_shell = r;
} else if (proc_cmdline_key_streq(key, "systemd.crash_reboot")) {
r = value ? parse_boolean(value) : true;
if (r < 0)
log_warning_errno(r, "Failed to parse crash reboot switch %s, ignoring: %m", value);
else
arg_crash_reboot = r;
} else if (proc_cmdline_key_streq(key, "systemd.confirm_spawn")) {
char *s;
r = parse_confirm_spawn(value, &s);
if (r < 0)
log_warning_errno(r, "Failed to parse confirm_spawn switch %s, ignoring: %m", value);
else
free_and_replace(arg_confirm_spawn, s);
} else if (proc_cmdline_key_streq(key, "systemd.service_watchdogs")) {
r = value ? parse_boolean(value) : true;
if (r < 0)
log_warning_errno(r, "Failed to parse service watchdog switch %s, ignoring: %m", value);
else
arg_service_watchdogs = r;
} else if (proc_cmdline_key_streq(key, "systemd.show_status")) {
if (value) {
r = parse_show_status(value, &arg_show_status);
if (r < 0)
log_warning_errno(r, "Failed to parse show status switch %s, ignoring: %m", value);
} else
arg_show_status = SHOW_STATUS_YES;
} else if (proc_cmdline_key_streq(key, "systemd.status_unit_format")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = status_unit_format_from_string(value);
if (r < 0)
log_warning_errno(r, "Failed to parse %s=%s, ignoring: %m", key, value);
else
arg_status_unit_format = r;
} else if (proc_cmdline_key_streq(key, "systemd.default_standard_output")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = exec_output_from_string(value);
if (r < 0)
log_warning_errno(r, "Failed to parse default standard output switch %s, ignoring: %m", value);
else
arg_defaults.std_output = r;
} else if (proc_cmdline_key_streq(key, "systemd.default_standard_error")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = exec_output_from_string(value);
if (r < 0)
log_warning_errno(r, "Failed to parse default standard error switch %s, ignoring: %m", value);
else
arg_defaults.std_error = r;
} else if (streq(key, "systemd.setenv")) {
if (proc_cmdline_value_missing(key, value))
return 0;
if (!env_assignment_is_valid(value))
log_warning("Environment variable assignment '%s' is not valid. Ignoring.", value);
else {
r = strv_env_replace_strdup(&arg_default_environment, value);
if (r < 0)
return log_oom();
}
} else if (proc_cmdline_key_streq(key, "systemd.machine_id")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = id128_from_string_nonzero(value, &arg_machine_id);
if (r < 0)
log_warning_errno(r, "MachineID '%s' is not valid, ignoring: %m", value);
} else if (proc_cmdline_key_streq(key, "systemd.default_timeout_start_sec")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = parse_sec(value, &arg_defaults.timeout_start_usec);
if (r < 0)
log_warning_errno(r, "Failed to parse default start timeout '%s', ignoring: %m", value);
if (arg_defaults.timeout_start_usec <= 0)
arg_defaults.timeout_start_usec = USEC_INFINITY;
} else if (proc_cmdline_key_streq(key, "systemd.default_device_timeout_sec")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = parse_sec(value, &arg_defaults.device_timeout_usec);
if (r < 0)
log_warning_errno(r, "Failed to parse default device timeout '%s', ignoring: %m", value);
if (arg_defaults.device_timeout_usec <= 0)
arg_defaults.device_timeout_usec = USEC_INFINITY;
} else if (proc_cmdline_key_streq(key, "systemd.cpu_affinity")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = parse_cpu_set(value, &arg_cpu_affinity);
if (r < 0)
log_warning_errno(r, "Failed to parse CPU affinity mask '%s', ignoring: %m", value);
} else if (proc_cmdline_key_streq(key, "systemd.watchdog_device")) {
if (proc_cmdline_value_missing(key, value))
return 0;
(void) parse_path_argument(value, false, &arg_watchdog_device);
} else if (proc_cmdline_key_streq(key, "systemd.watchdog_sec")) {
if (proc_cmdline_value_missing(key, value))
return 0;
if (streq(value, "default"))
arg_runtime_watchdog = USEC_INFINITY;
else if (streq(value, "off"))
arg_runtime_watchdog = 0;
else {
r = parse_sec(value, &arg_runtime_watchdog);
if (r < 0) {
log_warning_errno(r, "Failed to parse systemd.watchdog_sec= argument '%s', ignoring: %m", value);
return 0;
}
}
arg_kexec_watchdog = arg_reboot_watchdog = arg_runtime_watchdog;
} else if (proc_cmdline_key_streq(key, "systemd.watchdog_pre_sec")) {
if (proc_cmdline_value_missing(key, value))
return 0;
if (streq(value, "default"))
arg_pretimeout_watchdog = USEC_INFINITY;
else if (streq(value, "off"))
arg_pretimeout_watchdog = 0;
else {
r = parse_sec(value, &arg_pretimeout_watchdog);
if (r < 0) {
log_warning_errno(r, "Failed to parse systemd.watchdog_pre_sec= argument '%s', ignoring: %m", value);
return 0;
}
}
} else if (proc_cmdline_key_streq(key, "systemd.watchdog_pretimeout_governor")) {
if (proc_cmdline_value_missing(key, value) || isempty(value)) {
arg_watchdog_pretimeout_governor = mfree(arg_watchdog_pretimeout_governor);
return 0;
}
if (!string_is_safe(value)) {
log_warning("Watchdog pretimeout governor '%s' is not valid, ignoring.", value);
return 0;
}
return free_and_strdup_warn(&arg_watchdog_pretimeout_governor, value);
} else if (proc_cmdline_key_streq(key, "systemd.clock_usec")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = safe_atou64(value, &arg_clock_usec);
if (r < 0)
log_warning_errno(r, "Failed to parse systemd.clock_usec= argument, ignoring: %s", value);
} else if (proc_cmdline_key_streq(key, "systemd.random_seed")) {
void *p;
size_t sz;
if (proc_cmdline_value_missing(key, value))
return 0;
r = unbase64mem(value, SIZE_MAX, &p, &sz);
if (r < 0)
log_warning_errno(r, "Failed to parse systemd.random_seed= argument, ignoring: %s", value);
free(arg_random_seed);
arg_random_seed = sz > 0 ? p : mfree(p);
arg_random_seed_size = sz;
} else if (proc_cmdline_key_streq(key, "systemd.reload_limit_interval_sec")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = parse_sec(value, &arg_reload_limit_interval_sec);
if (r < 0) {
log_warning_errno(r, "Failed to parse systemd.reload_limit_interval_sec= argument '%s', ignoring: %m", value);
return 0;
}
} else if (proc_cmdline_key_streq(key, "systemd.reload_limit_burst")) {
if (proc_cmdline_value_missing(key, value))
return 0;
r = safe_atou(value, &arg_reload_limit_burst);
if (r < 0) {
log_warning_errno(r, "Failed to parse systemd.reload_limit_burst= argument '%s', ignoring: %m", value);
return 0;
}
} else if (streq(key, "quiet") && !value) {
if (arg_show_status == _SHOW_STATUS_INVALID)
arg_show_status = SHOW_STATUS_ERROR;
} else if (streq(key, "debug") && !value) {
/* Note that log_parse_environment() handles 'debug'
* too, and sets the log level to LOG_DEBUG. */
if (detect_container() > 0)
log_set_target(LOG_TARGET_CONSOLE);
} else if (!value) {
const char *target;
/* Compatible with SysV, but supported independently even if SysV compatibility is disabled. */
target = runlevel_to_target(key);
if (target)
return free_and_strdup_warn(&arg_default_unit, target);
}
return 0;
}
#define DEFINE_SETTER(name, func, descr) \
static int name(const char *unit, \
const char *filename, \
unsigned line, \
const char *section, \
unsigned section_line, \
const char *lvalue, \
int ltype, \
const char *rvalue, \
void *data, \
void *userdata) { \
\
int r; \
\
assert(filename); \
assert(lvalue); \
assert(rvalue); \
\
r = func(rvalue); \
if (r < 0) \
log_syntax(unit, LOG_ERR, filename, line, r, \
"Invalid " descr "'%s': %m", \
rvalue); \
\
return 0; \
}
DEFINE_SETTER(config_parse_level2, log_set_max_level_from_string, "log level");
DEFINE_SETTER(config_parse_target, log_set_target_from_string, "target");
DEFINE_SETTER(config_parse_color, log_show_color_from_string, "color");
DEFINE_SETTER(config_parse_location, log_show_location_from_string, "location");
DEFINE_SETTER(config_parse_time, log_show_time_from_string, "time");
static int config_parse_default_timeout_abort(
const char *unit,
const char *filename,
unsigned line,
const char *section,
unsigned section_line,
const char *lvalue,
int ltype,
const char *rvalue,
void *data,
void *userdata) {
int r;
r = config_parse_timeout_abort(
unit,
filename,
line,
section,
section_line,
lvalue,
ltype,
rvalue,
&arg_defaults.timeout_abort_usec,
userdata);
if (r >= 0)
arg_defaults.timeout_abort_set = r;
return 0;
}
static int config_parse_oom_score_adjust(
const char *unit,
const char *filename,
unsigned line,
const char *section,
unsigned section_line,
const char *lvalue,
int ltype,
const char *rvalue,
void *data,
void *userdata) {
int oa, r;
if (isempty(rvalue)) {
arg_defaults.oom_score_adjust_set = false;
return 0;
}
r = parse_oom_score_adjust(rvalue, &oa);
if (r < 0) {
log_syntax(unit, LOG_WARNING, filename, line, r, "Failed to parse the OOM score adjust value '%s', ignoring: %m", rvalue);
return 0;
}
arg_defaults.oom_score_adjust = oa;
arg_defaults.oom_score_adjust_set = true;
return 0;
}
static int parse_config_file(void) {
const ConfigTableItem items[] = {
{ "Manager", "LogLevel", config_parse_level2, 0, NULL },
{ "Manager", "LogTarget", config_parse_target, 0, NULL },
{ "Manager", "LogColor", config_parse_color, 0, NULL },
{ "Manager", "LogLocation", config_parse_location, 0, NULL },
{ "Manager", "LogTime", config_parse_time, 0, NULL },
{ "Manager", "DumpCore", config_parse_bool, 0, &arg_dump_core },
{ "Manager", "CrashChVT", /* legacy */ config_parse_crash_chvt, 0, &arg_crash_chvt },
{ "Manager", "CrashChangeVT", config_parse_crash_chvt, 0, &arg_crash_chvt },
{ "Manager", "CrashShell", config_parse_bool, 0, &arg_crash_shell },
{ "Manager", "CrashReboot", config_parse_bool, 0, &arg_crash_reboot },
{ "Manager", "ShowStatus", config_parse_show_status, 0, &arg_show_status },
{ "Manager", "StatusUnitFormat", config_parse_status_unit_format, 0, &arg_status_unit_format },
{ "Manager", "CPUAffinity", config_parse_cpu_affinity2, 0, &arg_cpu_affinity },
{ "Manager", "NUMAPolicy", config_parse_numa_policy, 0, &arg_numa_policy.type },
{ "Manager", "NUMAMask", config_parse_numa_mask, 0, &arg_numa_policy },
{ "Manager", "JoinControllers", config_parse_warn_compat, DISABLED_LEGACY, NULL },
{ "Manager", "RuntimeWatchdogSec", config_parse_watchdog_sec, 0, &arg_runtime_watchdog },
{ "Manager", "RuntimeWatchdogPreSec", config_parse_watchdog_sec, 0, &arg_pretimeout_watchdog },
{ "Manager", "RebootWatchdogSec", config_parse_watchdog_sec, 0, &arg_reboot_watchdog },
{ "Manager", "ShutdownWatchdogSec", config_parse_watchdog_sec, 0, &arg_reboot_watchdog }, /* obsolete alias */
{ "Manager", "KExecWatchdogSec", config_parse_watchdog_sec, 0, &arg_kexec_watchdog },
{ "Manager", "WatchdogDevice", config_parse_path, 0, &arg_watchdog_device },
{ "Manager", "RuntimeWatchdogPreGovernor", config_parse_string, CONFIG_PARSE_STRING_SAFE, &arg_watchdog_pretimeout_governor },
{ "Manager", "CapabilityBoundingSet", config_parse_capability_set, 0, &arg_capability_bounding_set },
{ "Manager", "NoNewPrivileges", config_parse_bool, 0, &arg_no_new_privs },
#if HAVE_SECCOMP
{ "Manager", "SystemCallArchitectures", config_parse_syscall_archs, 0, &arg_syscall_archs },
#else
{ "Manager", "SystemCallArchitectures", config_parse_warn_compat, DISABLED_CONFIGURATION, NULL },
#endif
{ "Manager", "TimerSlackNSec", config_parse_nsec, 0, &arg_timer_slack_nsec },
{ "Manager", "DefaultTimerAccuracySec", config_parse_sec, 0, &arg_defaults.timer_accuracy_usec },
{ "Manager", "DefaultStandardOutput", config_parse_output_restricted, 0, &arg_defaults.std_output },
{ "Manager", "DefaultStandardError", config_parse_output_restricted, 0, &arg_defaults.std_error },
{ "Manager", "DefaultTimeoutStartSec", config_parse_sec, 0, &arg_defaults.timeout_start_usec },
{ "Manager", "DefaultTimeoutStopSec", config_parse_sec, 0, &arg_defaults.timeout_stop_usec },
{ "Manager", "DefaultTimeoutAbortSec", config_parse_default_timeout_abort, 0, NULL },
{ "Manager", "DefaultDeviceTimeoutSec", config_parse_sec, 0, &arg_defaults.device_timeout_usec },
{ "Manager", "DefaultRestartSec", config_parse_sec, 0, &arg_defaults.restart_usec },
{ "Manager", "DefaultStartLimitInterval", config_parse_sec, 0, &arg_defaults.start_limit_interval}, /* obsolete alias */
{ "Manager", "DefaultStartLimitIntervalSec", config_parse_sec, 0, &arg_defaults.start_limit_interval},
{ "Manager", "DefaultStartLimitBurst", config_parse_unsigned, 0, &arg_defaults.start_limit_burst },
{ "Manager", "DefaultEnvironment", config_parse_environ, arg_runtime_scope, &arg_default_environment },
{ "Manager", "ManagerEnvironment", config_parse_environ, arg_runtime_scope, &arg_manager_environment },
{ "Manager", "DefaultLimitCPU", config_parse_rlimit, RLIMIT_CPU, arg_defaults.rlimit },
{ "Manager", "DefaultLimitFSIZE", config_parse_rlimit, RLIMIT_FSIZE, arg_defaults.rlimit },
{ "Manager", "DefaultLimitDATA", config_parse_rlimit, RLIMIT_DATA, arg_defaults.rlimit },
{ "Manager", "DefaultLimitSTACK", config_parse_rlimit, RLIMIT_STACK, arg_defaults.rlimit },
{ "Manager", "DefaultLimitCORE", config_parse_rlimit, RLIMIT_CORE, arg_defaults.rlimit },
{ "Manager", "DefaultLimitRSS", config_parse_rlimit, RLIMIT_RSS, arg_defaults.rlimit },
{ "Manager", "DefaultLimitNOFILE", config_parse_rlimit, RLIMIT_NOFILE, arg_defaults.rlimit },
{ "Manager", "DefaultLimitAS", config_parse_rlimit, RLIMIT_AS, arg_defaults.rlimit },
{ "Manager", "DefaultLimitNPROC", config_parse_rlimit, RLIMIT_NPROC, arg_defaults.rlimit },
{ "Manager", "DefaultLimitMEMLOCK", config_parse_rlimit, RLIMIT_MEMLOCK, arg_defaults.rlimit },
{ "Manager", "DefaultLimitLOCKS", config_parse_rlimit, RLIMIT_LOCKS, arg_defaults.rlimit },
{ "Manager", "DefaultLimitSIGPENDING", config_parse_rlimit, RLIMIT_SIGPENDING, arg_defaults.rlimit },
{ "Manager", "DefaultLimitMSGQUEUE", config_parse_rlimit, RLIMIT_MSGQUEUE, arg_defaults.rlimit },
{ "Manager", "DefaultLimitNICE", config_parse_rlimit, RLIMIT_NICE, arg_defaults.rlimit },
{ "Manager", "DefaultLimitRTPRIO", config_parse_rlimit, RLIMIT_RTPRIO, arg_defaults.rlimit },
{ "Manager", "DefaultLimitRTTIME", config_parse_rlimit, RLIMIT_RTTIME, arg_defaults.rlimit },
{ "Manager", "DefaultCPUAccounting", config_parse_bool, 0, &arg_defaults.cpu_accounting },
{ "Manager", "DefaultIOAccounting", config_parse_bool, 0, &arg_defaults.io_accounting },
{ "Manager", "DefaultIPAccounting", config_parse_bool, 0, &arg_defaults.ip_accounting },
{ "Manager", "DefaultBlockIOAccounting", config_parse_bool, 0, &arg_defaults.blockio_accounting },
{ "Manager", "DefaultMemoryAccounting", config_parse_bool, 0, &arg_defaults.memory_accounting },
{ "Manager", "DefaultTasksAccounting", config_parse_bool, 0, &arg_defaults.tasks_accounting },
{ "Manager", "DefaultTasksMax", config_parse_tasks_max, 0, &arg_defaults.tasks_max },
{ "Manager", "DefaultMemoryPressureThresholdSec", config_parse_sec, 0, &arg_defaults.memory_pressure_threshold_usec },
{ "Manager", "DefaultMemoryPressureWatch", config_parse_memory_pressure_watch, 0, &arg_defaults.memory_pressure_watch },
{ "Manager", "CtrlAltDelBurstAction", config_parse_emergency_action, arg_runtime_scope, &arg_cad_burst_action },
{ "Manager", "DefaultOOMPolicy", config_parse_oom_policy, 0, &arg_defaults.oom_policy },
{ "Manager", "DefaultOOMScoreAdjust", config_parse_oom_score_adjust, 0, NULL },
{ "Manager", "ReloadLimitIntervalSec", config_parse_sec, 0, &arg_reload_limit_interval_sec },
{ "Manager", "ReloadLimitBurst", config_parse_unsigned, 0, &arg_reload_limit_burst },
#if ENABLE_SMACK
{ "Manager", "DefaultSmackProcessLabel", config_parse_string, 0, &arg_defaults.smack_process_label },
#else
{ "Manager", "DefaultSmackProcessLabel", config_parse_warn_compat, DISABLED_CONFIGURATION, NULL },
#endif
{}
};
if (arg_runtime_scope == RUNTIME_SCOPE_SYSTEM)
(void) config_parse_config_file("system.conf",
"Manager\0",
config_item_table_lookup, items,
CONFIG_PARSE_WARN,
NULL);
else {
_cleanup_strv_free_ char **files = NULL, **dirs = NULL;
int r;
assert(arg_runtime_scope == RUNTIME_SCOPE_USER);
r = manager_find_user_config_paths(&files, &dirs);
if (r < 0)
return log_error_errno(r, "Failed to determine config file paths: %m");
(void) config_parse_many(
(const char* const*) files,
(const char* const*) dirs,
"user.conf.d",
/* root = */ NULL,
"Manager\0",
config_item_table_lookup, items,
CONFIG_PARSE_WARN,
NULL, NULL, NULL);
}
/* Traditionally "0" was used to turn off the default unit timeouts. Fix this up so that we use
* USEC_INFINITY like everywhere else. */
if (arg_defaults.timeout_start_usec <= 0)
arg_defaults.timeout_start_usec = USEC_INFINITY;
if (arg_defaults.timeout_stop_usec <= 0)
arg_defaults.timeout_stop_usec = USEC_INFINITY;
return 0;
}
static void set_manager_defaults(Manager *m) {
int r;
assert(m);
/* Propagates the various default unit property settings into the manager object, i.e. properties
* that do not affect the manager itself, but are just what newly allocated units will have set if
* they haven't set anything else. (Also see set_manager_settings() for the settings that affect the
* manager's own behaviour) */
r = manager_set_unit_defaults(m, &arg_defaults);
if (r < 0)
log_warning_errno(r, "Failed to set manager defaults, ignoring: %m");
r = manager_default_environment(m);
if (r < 0)
log_warning_errno(r, "Failed to set manager default environment, ignoring: %m");
r = manager_transient_environment_add(m, arg_default_environment);
if (r < 0)
log_warning_errno(r, "Failed to add to transient environment, ignoring: %m");
}
static void set_manager_settings(Manager *m) {
int r;
assert(m);
/* Propagates the various manager settings into the manager object, i.e. properties that
* effect the manager itself (as opposed to just being inherited into newly allocated
* units, see set_manager_defaults() above). */
m->confirm_spawn = arg_confirm_spawn;
m->service_watchdogs = arg_service_watchdogs;
m->cad_burst_action = arg_cad_burst_action;
/* Note that we don't do structured initialization here, otherwise it will reset the rate limit
* counter on every daemon-reload. */
m->reload_ratelimit.interval = arg_reload_limit_interval_sec;
m->reload_ratelimit.burst = arg_reload_limit_burst;
manager_set_watchdog(m, WATCHDOG_RUNTIME, arg_runtime_watchdog);
manager_set_watchdog(m, WATCHDOG_REBOOT, arg_reboot_watchdog);
manager_set_watchdog(m, WATCHDOG_KEXEC, arg_kexec_watchdog);
manager_set_watchdog(m, WATCHDOG_PRETIMEOUT, arg_pretimeout_watchdog);
r = manager_set_watchdog_pretimeout_governor(m, arg_watchdog_pretimeout_governor);
if (r < 0)
log_warning_errno(r, "Failed to set watchdog pretimeout governor to '%s', ignoring: %m", arg_watchdog_pretimeout_governor);
manager_set_show_status(m, arg_show_status, "command line");
m->status_unit_format = arg_status_unit_format;
}
static int parse_argv(int argc, char *argv[]) {
enum {
COMMON_GETOPT_ARGS,
SYSTEMD_GETOPT_ARGS,
};
static const struct option options[] = {
COMMON_GETOPT_OPTIONS,
SYSTEMD_GETOPT_OPTIONS,
{}
};
int c, r;
bool user_arg_seen = false;
assert(argc >= 1);
assert(argv);
if (getpid_cached() == 1)
opterr = 0;
while ((c = getopt_long(argc, argv, SYSTEMD_GETOPT_SHORT_OPTIONS, options, NULL)) >= 0)
switch (c) {
case ARG_LOG_LEVEL:
r = log_set_max_level_from_string(optarg);
if (r < 0)
return log_error_errno(r, "Failed to parse log level \"%s\": %m", optarg);
break;
case ARG_LOG_TARGET:
r = log_set_target_from_string(optarg);
if (r < 0)
return log_error_errno(r, "Failed to parse log target \"%s\": %m", optarg);
break;
case ARG_LOG_COLOR:
if (optarg) {
r = log_show_color_from_string(optarg);
if (r < 0)
return log_error_errno(r, "Failed to parse log color setting \"%s\": %m",
optarg);
} else
log_show_color(true);
break;
case ARG_LOG_LOCATION:
if (optarg) {
r = log_show_location_from_string(optarg);
if (r < 0)
return log_error_errno(r, "Failed to parse log location setting \"%s\": %m",
optarg);
} else
log_show_location(true);
break;
case ARG_LOG_TIME:
if (optarg) {
r = log_show_time_from_string(optarg);
if (r < 0)
return log_error_errno(r, "Failed to parse log time setting \"%s\": %m",
optarg);
} else
log_show_time(true);
break;
case ARG_DEFAULT_STD_OUTPUT:
r = exec_output_from_string(optarg);
if (r < 0)
return log_error_errno(r, "Failed to parse default standard output setting \"%s\": %m",
optarg);
arg_defaults.std_output = r;
break;
case ARG_DEFAULT_STD_ERROR:
r = exec_output_from_string(optarg);
if (r < 0)
return log_error_errno(r, "Failed to parse default standard error output setting \"%s\": %m",
optarg);
arg_defaults.std_error = r;
break;
case ARG_UNIT:
r = free_and_strdup(&arg_default_unit, optarg);
if (r < 0)
return log_error_errno(r, "Failed to set default unit \"%s\": %m", optarg);
break;
case ARG_SYSTEM:
arg_runtime_scope = RUNTIME_SCOPE_SYSTEM;
break;
case ARG_USER:
arg_runtime_scope = RUNTIME_SCOPE_USER;
user_arg_seen = true;
break;
case ARG_TEST:
arg_action = ACTION_TEST;
break;
case ARG_NO_PAGER:
arg_pager_flags |= PAGER_DISABLE;
break;
case ARG_VERSION:
arg_action = ACTION_VERSION;
break;
case ARG_DUMP_CONFIGURATION_ITEMS:
arg_action = ACTION_DUMP_CONFIGURATION_ITEMS;
break;
case ARG_DUMP_BUS_PROPERTIES:
arg_action = ACTION_DUMP_BUS_PROPERTIES;
break;
case ARG_BUS_INTROSPECT:
arg_bus_introspect = optarg;
arg_action = ACTION_BUS_INTROSPECT;
break;
case ARG_DUMP_CORE:
r = parse_boolean_argument("--dump-core", optarg, &arg_dump_core);
if (r < 0)
return r;
break;
case ARG_CRASH_CHVT:
r = parse_crash_chvt(optarg, &arg_crash_chvt);
if (r < 0)
return log_error_errno(r, "Failed to parse crash virtual terminal index: \"%s\": %m",
optarg);
break;
case ARG_CRASH_SHELL:
r = parse_boolean_argument("--crash-shell", optarg, &arg_crash_shell);
if (r < 0)
return r;
break;
case ARG_CRASH_REBOOT:
r = parse_boolean_argument("--crash-reboot", optarg, &arg_crash_reboot);
if (r < 0)
return r;
break;
case ARG_CONFIRM_SPAWN:
arg_confirm_spawn = mfree(arg_confirm_spawn);
r = parse_confirm_spawn(optarg, &arg_confirm_spawn);
if (r < 0)
return log_error_errno(r, "Failed to parse confirm spawn option: \"%s\": %m",
optarg);
break;
case ARG_SERVICE_WATCHDOGS:
r = parse_boolean_argument("--service-watchdogs=", optarg, &arg_service_watchdogs);
if (r < 0)
return r;
break;
case ARG_SHOW_STATUS:
if (optarg) {
r = parse_show_status(optarg, &arg_show_status);
if (r < 0)
return log_error_errno(r, "Failed to parse show status boolean: \"%s\": %m",
optarg);
} else
arg_show_status = SHOW_STATUS_YES;
break;
case ARG_DESERIALIZE: {
int fd;
FILE *f;
fd = parse_fd(optarg);
if (fd < 0)
return log_error_errno(fd, "Failed to parse serialization fd \"%s\": %m", optarg);
(void) fd_cloexec(fd, true);
f = fdopen(fd, "r");
if (!f)
return log_error_errno(errno, "Failed to open serialization fd %d: %m", fd);
safe_fclose(arg_serialization);
arg_serialization = f;
break;
}
case ARG_SWITCHED_ROOT:
arg_switched_root = true;
break;
case ARG_MACHINE_ID:
r = id128_from_string_nonzero(optarg, &arg_machine_id);
if (r < 0)
return log_error_errno(r, "MachineID '%s' is not valid: %m", optarg);
break;
case 'h':
arg_action = ACTION_HELP;
break;
case 'D':
log_set_max_level(LOG_DEBUG);
break;
case 'b':
case 's':
case 'z':
/* Just to eat away the sysvinit kernel cmdline args that we'll parse in
* parse_proc_cmdline_item() or ignore, without any getopt() error messages.
*/
case '?':
if (getpid_cached() != 1)
return -EINVAL;
else
return 0;
default:
assert_not_reached();
}
if (optind < argc && getpid_cached() != 1)
/* Hmm, when we aren't run as init system let's complain about excess arguments */
return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Excess arguments.");
if (arg_action == ACTION_RUN && arg_runtime_scope == RUNTIME_SCOPE_USER && !user_arg_seen)
return log_error_errno(SYNTHETIC_ERRNO(EINVAL),
"Explicit --user argument required to run as user manager.");
return 0;
}
static int help(void) {
_cleanup_free_ char *link = NULL;
int r;
r = terminal_urlify_man("systemd", "1", &link);
if (r < 0)
return log_oom();
printf("%s [OPTIONS...]\n\n"
"%sStarts and monitors system and user services.%s\n\n"
"This program takes no positional arguments.\n\n"
"%sOptions%s:\n"
" -h --help Show this help\n"
" --version Show version\n"
" --test Determine initial transaction, dump it and exit\n"
" --system Combined with --test: operate in system mode\n"
" --user Combined with --test: operate in user mode\n"
" --dump-configuration-items Dump understood unit configuration items\n"
" --dump-bus-properties Dump exposed bus properties\n"
" --bus-introspect=PATH Write XML introspection data\n"
" --unit=UNIT Set default unit\n"
" --dump-core[=BOOL] Dump core on crash\n"
" --crash-vt=NR Change to specified VT on crash\n"
" --crash-reboot[=BOOL] Reboot on crash\n"
" --crash-shell[=BOOL] Run shell on crash\n"
" --confirm-spawn[=BOOL] Ask for confirmation when spawning processes\n"
" --show-status[=BOOL] Show status updates on the console during boot\n"
" --log-target=TARGET Set log target (console, journal, kmsg,\n"
" journal-or-kmsg, null)\n"
" --log-level=LEVEL Set log level (debug, info, notice, warning,\n"
" err, crit, alert, emerg)\n"
" --log-color[=BOOL] Highlight important log messages\n"
" --log-location[=BOOL] Include code location in log messages\n"
" --log-time[=BOOL] Prefix log messages with current time\n"
" --default-standard-output= Set default standard output for services\n"
" --default-standard-error= Set default standard error output for services\n"
" --no-pager Do not pipe output into a pager\n"
"\nSee the %s for details.\n",
program_invocation_short_name,
ansi_highlight(),
ansi_normal(),
ansi_underline(),
ansi_normal(),
link);
return 0;
}
static int prepare_reexecute(
Manager *m,
FILE **ret_f,
FDSet **ret_fds,
bool switching_root) {
_cleanup_fdset_free_ FDSet *fds = NULL;
_cleanup_fclose_ FILE *f = NULL;
int r;
assert(m);
assert(ret_f);
assert(ret_fds);
r = manager_open_serialization(m, &f);
if (r < 0)
return log_error_errno(r, "Failed to create serialization file: %m");
/* Make sure nothing is really destructed when we shut down */
m->n_reloading++;
bus_manager_send_reloading(m, true);
fds = fdset_new();
if (!fds)
return log_oom();
r = manager_serialize(m, f, fds, switching_root);
if (r < 0)
return r;
if (fseeko(f, 0, SEEK_SET) < 0)
return log_error_errno(errno, "Failed to rewind serialization fd: %m");
r = fd_cloexec(fileno(f), false);
if (r < 0)
return log_error_errno(r, "Failed to disable O_CLOEXEC for serialization: %m");
r = fdset_cloexec(fds, false);
if (r < 0)
return log_error_errno(r, "Failed to disable O_CLOEXEC for serialization fds: %m");
*ret_f = TAKE_PTR(f);
*ret_fds = TAKE_PTR(fds);
return 0;
}
static void bump_file_max_and_nr_open(void) {
/* Let's bump fs.file-max and fs.nr_open to their respective maximums. On current kernels large
* numbers of file descriptors are no longer a performance problem and their memory is properly
* tracked by memcg, thus counting them and limiting them in another two layers of limits is
* unnecessary and just complicates things. This function hence turns off 2 of the 4 levels of limits
* on file descriptors, and makes RLIMIT_NOLIMIT (soft + hard) the only ones that really matter. */
#if BUMP_PROC_SYS_FS_FILE_MAX || BUMP_PROC_SYS_FS_NR_OPEN
int r;
#endif
#if BUMP_PROC_SYS_FS_FILE_MAX
/* The maximum the kernel allows for this since 5.2 is LONG_MAX, use that. (Previously things were
* different, but the operation would fail silently.) */
r = sysctl_write("fs/file-max", LONG_MAX_STR);
if (r < 0)
log_full_errno(IN_SET(r, -EROFS, -EPERM, -EACCES) ? LOG_DEBUG : LOG_WARNING,
r, "Failed to bump fs.file-max, ignoring: %m");
#endif
#if BUMP_PROC_SYS_FS_NR_OPEN
int v = INT_MAX;
/* Argh! The kernel enforces maximum and minimum values on the fs.nr_open, but we don't really know
* what they are. The expression by which the maximum is determined is dependent on the architecture,
* and is something we don't really want to copy to userspace, as it is dependent on implementation
* details of the kernel. Since the kernel doesn't expose the maximum value to us, we can only try
* and hope. Hence, let's start with INT_MAX, and then keep halving the value until we find one that
* works. Ugly? Yes, absolutely, but kernel APIs are kernel APIs, so what do can we do... 🤯 */
for (;;) {
int k;
v &= ~(__SIZEOF_POINTER__ - 1); /* Round down to next multiple of the pointer size */
if (v < 1024) {
log_warning("Can't bump fs.nr_open, value too small.");
break;
}
k = read_nr_open();
if (k < 0) {
log_error_errno(k, "Failed to read fs.nr_open: %m");
break;
}
if (k >= v) { /* Already larger */
log_debug("Skipping bump, value is already larger.");
break;
}
r = sysctl_writef("fs/nr_open", "%i", v);
if (r == -EINVAL) {
log_debug("Couldn't write fs.nr_open as %i, halving it.", v);
v /= 2;
continue;
}
if (r < 0) {
log_full_errno(IN_SET(r, -EROFS, -EPERM, -EACCES) ? LOG_DEBUG : LOG_WARNING, r, "Failed to bump fs.nr_open, ignoring: %m");
break;
}
log_debug("Successfully bumped fs.nr_open to %i", v);
break;
}
#endif
}
static int bump_rlimit_nofile(const struct rlimit *saved_rlimit) {
struct rlimit new_rlimit;
int r, nr;
/* Get the underlying absolute limit the kernel enforces */
nr = read_nr_open();
/* Calculate the new limits to use for us. Never lower from what we inherited. */
new_rlimit = (struct rlimit) {
.rlim_cur = MAX((rlim_t) nr, saved_rlimit->rlim_cur),
.rlim_max = MAX((rlim_t) nr, saved_rlimit->rlim_max),
};
/* Shortcut if nothing changes. */
if (saved_rlimit->rlim_max >= new_rlimit.rlim_max &&
saved_rlimit->rlim_cur >= new_rlimit.rlim_cur) {
log_debug("RLIMIT_NOFILE is already as high or higher than we need it, not bumping.");
return 0;
}
/* Bump up the resource limit for ourselves substantially, all the way to the maximum the kernel allows, for
* both hard and soft. */
r = setrlimit_closest(RLIMIT_NOFILE, &new_rlimit);
if (r < 0)
return log_warning_errno(r, "Setting RLIMIT_NOFILE failed, ignoring: %m");
return 0;
}
static int bump_rlimit_memlock(const struct rlimit *saved_rlimit) {
struct rlimit new_rlimit;
uint64_t mm;
int r;
/* BPF_MAP_TYPE_LPM_TRIE bpf maps are charged against RLIMIT_MEMLOCK, even if we have CAP_IPC_LOCK
* which should normally disable such checks. We need them to implement IPAddressAllow= and
* IPAddressDeny=, hence let's bump the value high enough for our user. */
/* Using MAX() on resource limits only is safe if RLIM_INFINITY is > 0. POSIX declares that rlim_t
* must be unsigned, hence this is a given, but let's make this clear here. */
assert_cc(RLIM_INFINITY > 0);
mm = physical_memory_scale(1, 8); /* Let's scale how much we allow to be locked by the amount of
* physical RAM. We allow an eighth to be locked by us, just to
* pick a value. */
new_rlimit = (struct rlimit) {
.rlim_cur = MAX3(HIGH_RLIMIT_MEMLOCK, saved_rlimit->rlim_cur, mm),
.rlim_max = MAX3(HIGH_RLIMIT_MEMLOCK, saved_rlimit->rlim_max, mm),
};
if (saved_rlimit->rlim_max >= new_rlimit.rlim_cur &&
saved_rlimit->rlim_cur >= new_rlimit.rlim_max) {
log_debug("RLIMIT_MEMLOCK is already as high or higher than we need it, not bumping.");
return 0;
}
r = setrlimit_closest(RLIMIT_MEMLOCK, &new_rlimit);
if (r < 0)
return log_warning_errno(r, "Setting RLIMIT_MEMLOCK failed, ignoring: %m");
return 0;
}
static void test_usr(void) {
/* Check that /usr is either on the same file system as / or mounted already. */
if (dir_is_empty("/usr", /* ignore_hidden_or_backup= */ false) <= 0)
return;
log_warning("/usr appears to be on its own filesystem and is not already mounted. This is not a supported setup. "
"Some things will probably break (sometimes even silently) in mysterious ways. "
"Consult https://www.freedesktop.org/wiki/Software/systemd/separate-usr-is-broken for more information.");
}
static int enforce_syscall_archs(Set *archs) {
#if HAVE_SECCOMP
int r;
if (!is_seccomp_available())
return 0;
r = seccomp_restrict_archs(arg_syscall_archs);
if (r < 0)
return log_error_errno(r, "Failed to enforce system call architecture restrication: %m");
#endif
return 0;
}
static int os_release_status(void) {
_cleanup_free_ char *pretty_name = NULL, *name = NULL, *version = NULL,
*ansi_color = NULL, *support_end = NULL;
int r;
r = parse_os_release(NULL,
"PRETTY_NAME", &pretty_name,
"NAME", &name,
"VERSION", &version,
"ANSI_COLOR", &ansi_color,
"SUPPORT_END", &support_end);
if (r < 0)
return log_full_errno(r == -ENOENT ? LOG_DEBUG : LOG_WARNING, r,
"Failed to read os-release file, ignoring: %m");
const char *label = os_release_pretty_name(pretty_name, name);
if (show_status_on(arg_show_status)) {
if (log_get_show_color())
status_printf(NULL, 0,
"\nWelcome to \x1B[%sm%s\x1B[0m!\n",
empty_to_null(ansi_color) ?: "1",
label);
else
status_printf(NULL, 0,
"\nWelcome to %s!\n",
label);
}
if (support_end && os_release_support_ended(support_end, /* quiet */ false, NULL) > 0)
/* pretty_name may include the version already, so we'll print the version only if we
* have it and we're not using pretty_name. */
status_printf(ANSI_HIGHLIGHT_RED " !! " ANSI_NORMAL, 0,
"This OS version (%s%s%s) is past its end-of-support date (%s)",
label,
(pretty_name || !version) ? "" : " version ",
(pretty_name || !version) ? "" : version,
support_end);
return 0;
}
static int setup_os_release(RuntimeScope scope) {
_cleanup_free_ char *os_release_dst = NULL;
const char *os_release_src = "/etc/os-release";
int r;
if (access("/etc/os-release", F_OK) < 0) {
if (errno != ENOENT)
log_debug_errno(errno, "Failed to check if /etc/os-release exists, ignoring: %m");
os_release_src = "/usr/lib/os-release";
}
if (scope == RUNTIME_SCOPE_SYSTEM) {
os_release_dst = strdup("/run/systemd/propagate/.os-release-stage/os-release");
if (!os_release_dst)
return log_oom_debug();
} else {
if (asprintf(&os_release_dst, "/run/user/" UID_FMT "/systemd/propagate/.os-release-stage/os-release", geteuid()) < 0)
return log_oom_debug();
}
r = mkdir_parents_label(os_release_dst, 0755);
if (r < 0)
return log_debug_errno(r, "Failed to create parent directory of %s, ignoring: %m", os_release_dst);
r = copy_file_atomic(os_release_src, os_release_dst, 0644, COPY_MAC_CREATE|COPY_REPLACE);
if (r < 0)
return log_debug_errno(r, "Failed to create %s, ignoring: %m", os_release_dst);
return 0;
}
static int write_container_id(void) {
const char *c;
int r = 0; /* avoid false maybe-uninitialized warning */
c = getenv("container");
if (isempty(c))
return 0;
WITH_UMASK(0022)
r = write_string_file("/run/systemd/container", c, WRITE_STRING_FILE_CREATE);
if (r < 0)
return log_warning_errno(r, "Failed to write /run/systemd/container, ignoring: %m");
return 1;
}
static int bump_unix_max_dgram_qlen(void) {
_cleanup_free_ char *qlen = NULL;
unsigned long v;
int r;
/* Let's bump the net.unix.max_dgram_qlen sysctl. The kernel default of 16 is simply too low. We set
* the value really really early during boot, so that it is actually applied to all our sockets,
* including the $NOTIFY_SOCKET one. */
r = read_one_line_file("/proc/sys/net/unix/max_dgram_qlen", &qlen);
if (r < 0)
return log_full_errno(r == -ENOENT ? LOG_DEBUG : LOG_WARNING, r,
"Failed to read AF_UNIX datagram queue length, ignoring: %m");
r = safe_atolu(qlen, &v);
if (r < 0)
return log_warning_errno(r, "Failed to parse AF_UNIX datagram queue length '%s', ignoring: %m", qlen);
if (v >= DEFAULT_UNIX_MAX_DGRAM_QLEN)
return 0;
r = sysctl_write("net/unix/max_dgram_qlen", STRINGIFY(DEFAULT_UNIX_MAX_DGRAM_QLEN));
if (r < 0)
return log_full_errno(IN_SET(r, -EROFS, -EPERM, -EACCES) ? LOG_DEBUG : LOG_WARNING, r,
"Failed to bump AF_UNIX datagram queue length, ignoring: %m");
return 1;
}
static int fixup_environment(void) {
_cleanup_free_ char *term = NULL;
const char *t;
int r;
/* Only fix up the environment when we are started as PID 1 */
if (getpid_cached() != 1)
return 0;
/* We expect the environment to be set correctly if run inside a container. */
if (detect_container() > 0)
return 0;
/* When started as PID1, the kernel uses /dev/console for our stdios and uses TERM=linux whatever the
* backend device used by the console. We try to make a better guess here since some consoles might
* not have support for color mode for example.
*
* However if TERM was configured through the kernel command line then leave it alone. */
r = proc_cmdline_get_key("TERM", 0, &term);
if (r < 0)
return r;
if (r == 0) {
r = proc_cmdline_get_key("systemd.tty.term.console", 0, &term);
if (r < 0)
return r;
}
t = term ?: default_term_for_tty("/dev/console");
if (setenv("TERM", t, 1) < 0)
return -errno;
/* The kernels sets HOME=/ for init. Let's undo this. */
if (path_equal_ptr(getenv("HOME"), "/"))
assert_se(unsetenv("HOME") == 0);
return 0;
}
static void redirect_telinit(int argc, char *argv[]) {
/* This is compatibility support for SysV, where calling init as a user is identical to telinit. */
#if HAVE_SYSV_COMPAT
if (getpid_cached() == 1)
return;
if (!invoked_as(argv, "init"))
return;
execv(SYSTEMCTL_BINARY_PATH, argv);
log_error_errno(errno, "Failed to exec " SYSTEMCTL_BINARY_PATH ": %m");
exit(EXIT_FAILURE);
#endif
}
static int become_shutdown(int objective, int retval) {
static const char* const table[_MANAGER_OBJECTIVE_MAX] = {
[MANAGER_EXIT] = "exit",
[MANAGER_REBOOT] = "reboot",
[MANAGER_POWEROFF] = "poweroff",
[MANAGER_HALT] = "halt",
[MANAGER_KEXEC] = "kexec",
};
char log_level[STRLEN("--log-level=") + DECIMAL_STR_MAX(int)],
timeout[STRLEN("--timeout=") + DECIMAL_STR_MAX(usec_t) + STRLEN("us")],
exit_code[STRLEN("--exit-code=") + DECIMAL_STR_MAX(uint8_t)];
_cleanup_strv_free_ char **env_block = NULL;
usec_t watchdog_timer = 0;
int r;
assert(objective >= 0 && objective < _MANAGER_OBJECTIVE_MAX);
assert(table[objective]);
xsprintf(log_level, "--log-level=%d", log_get_max_level());
xsprintf(timeout, "--timeout=%" PRI_USEC "us", arg_defaults.timeout_stop_usec);
const char* command_line[10] = {
SYSTEMD_SHUTDOWN_BINARY_PATH,
table[objective],
log_level,
timeout,
/* Note that the last position is a terminator and must contain NULL. */
};
size_t pos = 4;
assert(command_line[pos-1]);
assert(!command_line[pos]);
switch (log_get_target()) {
case LOG_TARGET_KMSG:
case LOG_TARGET_JOURNAL_OR_KMSG:
case LOG_TARGET_SYSLOG_OR_KMSG:
command_line[pos++] = "--log-target=kmsg";
break;
case LOG_TARGET_NULL:
command_line[pos++] = "--log-target=null";
break;
case LOG_TARGET_CONSOLE:
default:
command_line[pos++] = "--log-target=console";
break;
};
if (log_get_show_color())
command_line[pos++] = "--log-color";
if (log_get_show_location())
command_line[pos++] = "--log-location";
if (log_get_show_time())
command_line[pos++] = "--log-time";
xsprintf(exit_code, "--exit-code=%d", retval);
command_line[pos++] = exit_code;
assert(pos < ELEMENTSOF(command_line));
/* The watchdog: */
if (objective == MANAGER_REBOOT)
watchdog_timer = arg_reboot_watchdog;
else if (objective == MANAGER_KEXEC)
watchdog_timer = arg_kexec_watchdog;
/* If we reboot or kexec let's set the shutdown watchdog and tell the
* shutdown binary to repeatedly ping it.
* Disable the pretimeout watchdog, as we do not support it from the shutdown binary. */
(void) watchdog_setup_pretimeout(0);
(void) watchdog_setup_pretimeout_governor(NULL);
r = watchdog_setup(watchdog_timer);
watchdog_close(r < 0);
/* The environment block: */
env_block = strv_copy(environ);
/* Tell the binary how often to ping, ignore failure */
(void) strv_extendf(&env_block, "WATCHDOG_USEC="USEC_FMT, watchdog_timer);
if (arg_watchdog_device)
(void) strv_extendf(&env_block, "WATCHDOG_DEVICE=%s", arg_watchdog_device);
/* Avoid the creation of new processes forked by the kernel; at this
* point, we will not listen to the signals anyway */
if (detect_container() <= 0)
(void) cg_uninstall_release_agent(SYSTEMD_CGROUP_CONTROLLER);
execve(SYSTEMD_SHUTDOWN_BINARY_PATH, (char **) command_line, env_block);
return -errno;
}
static void initialize_clock(void) {
int r;
/* This is called very early on, before we parse the kernel command line or otherwise figure out why
* we are running, but only once. */
if (clock_is_localtime(NULL) > 0) {
int min;
/* The very first call of settimeofday() also does a time warp in the kernel.
*
* In the rtc-in-local time mode, we set the kernel's timezone, and rely on external tools to
* take care of maintaining the RTC and do all adjustments. This matches the behavior of
* Windows, which leaves the RTC alone if the registry tells that the RTC runs in UTC.
*/
r = clock_set_timezone(&min);
if (r < 0)
log_error_errno(r, "Failed to apply local time delta, ignoring: %m");
else
log_info("RTC configured in localtime, applying delta of %i minutes to system time.", min);
} else if (!in_initrd())
/*
* Do a dummy very first call to seal the kernel's time warp magic.
*
* Do not call this from inside the initrd. The initrd might not carry /etc/adjtime with
* LOCAL, but the real system could be set up that way. In such case, we need to delay the
* time-warp or the sealing until we reach the real system.
*
* Do no set the kernel's timezone. The concept of local time cannot be supported reliably,
* the time will jump or be incorrect at every daylight saving time change. All kernel local
* time concepts will be treated as UTC that way.
*/
(void) clock_reset_timewarp();
ClockChangeDirection change_dir;
r = clock_apply_epoch(&change_dir);
if (r > 0 && change_dir == CLOCK_CHANGE_FORWARD)
log_info("System time before build time, advancing clock.");
else if (r > 0 && change_dir == CLOCK_CHANGE_BACKWARD)
log_info("System time is further ahead than %s after build time, resetting clock to build time.",
FORMAT_TIMESPAN(CLOCK_VALID_RANGE_USEC_MAX, USEC_PER_DAY));
else if (r < 0 && change_dir == CLOCK_CHANGE_FORWARD)
log_error_errno(r, "Current system time is before build time, but cannot correct: %m");
else if (r < 0 && change_dir == CLOCK_CHANGE_BACKWARD)
log_error_errno(r, "Current system time is further ahead %s after build time, but cannot correct: %m",
FORMAT_TIMESPAN(CLOCK_VALID_RANGE_USEC_MAX, USEC_PER_DAY));
}
static void apply_clock_update(void) {
/* This is called later than initialize_clock(), i.e. after we parsed configuration files/kernel
* command line and such. */
if (arg_clock_usec == 0)
return;
if (getpid_cached() != 1)
return;
if (clock_settime(CLOCK_REALTIME, TIMESPEC_STORE(arg_clock_usec)) < 0)
log_error_errno(errno, "Failed to set system clock to time specified on kernel command line: %m");
else
log_info("Set system clock to %s, as specified on the kernel command line.",
FORMAT_TIMESTAMP(arg_clock_usec));
}
static void cmdline_take_random_seed(void) {
size_t suggested;
int r;
if (arg_random_seed_size == 0)
return;
if (getpid_cached() != 1)
return;
assert(arg_random_seed);
suggested = random_pool_size();
if (arg_random_seed_size < suggested)
log_warning("Random seed specified on kernel command line has size %zu, but %zu bytes required to fill entropy pool.",
arg_random_seed_size, suggested);
r = random_write_entropy(-1, arg_random_seed, arg_random_seed_size, true);
if (r < 0) {
log_warning_errno(r, "Failed to credit entropy specified on kernel command line, ignoring: %m");
return;
}
log_notice("Successfully credited entropy passed on kernel command line.\n"
"Note that the seed provided this way is accessible to unprivileged programs. "
"This functionality should not be used outside of testing environments.");
}
static void initialize_coredump(bool skip_setup) {
if (getpid_cached() != 1)
return;
/* Don't limit the core dump size, so that coredump handlers such as systemd-coredump (which honour
* the limit) will process core dumps for system services by default. */
if (setrlimit(RLIMIT_CORE, &RLIMIT_MAKE_CONST(RLIM_INFINITY)) < 0)
log_warning_errno(errno, "Failed to set RLIMIT_CORE: %m");
/* But at the same time, turn off the core_pattern logic by default, so that no coredumps are stored
* until the systemd-coredump tool is enabled via sysctl. However it can be changed via the kernel
* command line later so core dumps can still be generated during early startup and in initrd. */
if (!skip_setup)
disable_coredumps();
}
static void initialize_core_pattern(bool skip_setup) {
int r;
if (skip_setup || !arg_early_core_pattern)
return;
if (getpid_cached() != 1)
return;
r = write_string_file("/proc/sys/kernel/core_pattern", arg_early_core_pattern, WRITE_STRING_FILE_DISABLE_BUFFER);
if (r < 0)
log_warning_errno(r, "Failed to write '%s' to /proc/sys/kernel/core_pattern, ignoring: %m",
arg_early_core_pattern);
}
static void update_cpu_affinity(bool skip_setup) {
_cleanup_free_ char *mask = NULL;
if (skip_setup || !arg_cpu_affinity.set)
return;
assert(arg_cpu_affinity.allocated > 0);
mask = cpu_set_to_range_string(&arg_cpu_affinity);
log_debug("Setting CPU affinity to {%s}.", strnull(mask));
if (sched_setaffinity(0, arg_cpu_affinity.allocated, arg_cpu_affinity.set) < 0)
log_warning_errno(errno, "Failed to set CPU affinity, ignoring: %m");
}
static void update_numa_policy(bool skip_setup) {
int r;
_cleanup_free_ char *nodes = NULL;
const char * policy = NULL;
if (skip_setup || !mpol_is_valid(numa_policy_get_type(&arg_numa_policy)))
return;
if (DEBUG_LOGGING) {
policy = mpol_to_string(numa_policy_get_type(&arg_numa_policy));
nodes = cpu_set_to_range_string(&arg_numa_policy.nodes);
log_debug("Setting NUMA policy to %s, with nodes {%s}.", strnull(policy), strnull(nodes));
}
r = apply_numa_policy(&arg_numa_policy);
if (r == -EOPNOTSUPP)
log_debug_errno(r, "NUMA support not available, ignoring.");
else if (r < 0)
log_warning_errno(r, "Failed to set NUMA memory policy, ignoring: %m");
}
static void filter_args(
const char* dst[],
size_t *dst_index,
char **src,
int argc) {
assert(dst);
assert(dst_index);
/* Copy some filtered arguments into the dst array from src. */
for (int i = 1; i < argc; i++) {
if (STR_IN_SET(src[i],
"--switched-root",
"--system",
"--user"))
continue;
if (startswith(src[i], "--deserialize="))
continue;
if (streq(src[i], "--deserialize")) {
i++; /* Skip the argument too */
continue;
}
/* Skip target unit designators. We already acted upon this information and have queued
* appropriate jobs. We don't want to redo all this after reexecution. */
if (startswith(src[i], "--unit="))
continue;
if (streq(src[i], "--unit")) {
i++; /* Skip the argument too */
continue;
}
/* Seems we have a good old option. Let's pass it over to the new instance. */
dst[(*dst_index)++] = src[i];
}
}
static void finish_remaining_processes(ManagerObjective objective) {
assert(objective >= 0 && objective < _MANAGER_OBJECTIVE_MAX);
/* Kill all remaining processes from the initrd, but don't wait for them, so that we can handle the
* SIGCHLD for them after deserializing. */
if (IN_SET(objective, MANAGER_SWITCH_ROOT, MANAGER_SOFT_REBOOT))
broadcast_signal(SIGTERM, /* wait_for_exit= */ false, /* send_sighup= */ true, arg_defaults.timeout_stop_usec);
/* On soft reboot really make sure nothing is left. Note that this will skip cgroups
* of units that were configured with SurviveFinalKillSignal=yes. */
if (objective == MANAGER_SOFT_REBOOT)
broadcast_signal(SIGKILL, /* wait_for_exit= */ false, /* send_sighup= */ false, arg_defaults.timeout_stop_usec);
}
static int do_reexecute(
ManagerObjective objective,
int argc,
char* argv[],
const struct rlimit *saved_rlimit_nofile,
const struct rlimit *saved_rlimit_memlock,
FDSet *fds,
const char *switch_root_dir,
const char *switch_root_init,
const char **ret_error_message) {
size_t i, args_size;
const char **args;
int r;
assert(IN_SET(objective, MANAGER_REEXECUTE, MANAGER_SWITCH_ROOT, MANAGER_SOFT_REBOOT));
assert(argc >= 0);
assert(saved_rlimit_nofile);
assert(saved_rlimit_memlock);
assert(ret_error_message);
if (switch_root_init) {
r = chase(switch_root_init, switch_root_dir, CHASE_PREFIX_ROOT, NULL, NULL);
if (r < 0)
log_warning_errno(r, "Failed to chase configured init %s/%s: %m",
strempty(switch_root_dir), switch_root_init);
} else {
r = chase(SYSTEMD_BINARY_PATH, switch_root_dir, CHASE_PREFIX_ROOT, NULL, NULL);
if (r < 0)
log_debug_errno(r, "Failed to chase our own binary %s/%s: %m",
strempty(switch_root_dir), SYSTEMD_BINARY_PATH);
}
if (r < 0) {
r = chase("/sbin/init", switch_root_dir, CHASE_PREFIX_ROOT, NULL, NULL);
if (r < 0)
return log_error_errno(r, "Failed to chase %s/sbin/init", strempty(switch_root_dir));
}
/* Close and disarm the watchdog, so that the new instance can reinitialize it, but doesn't get
* rebooted while we do that */
watchdog_close(true);
/* Reset RLIMIT_NOFILE + RLIMIT_MEMLOCK back to the kernel defaults, so that the new systemd can pass
* the kernel default to its child processes */
if (saved_rlimit_nofile->rlim_cur != 0)
(void) setrlimit(RLIMIT_NOFILE, saved_rlimit_nofile);
if (saved_rlimit_memlock->rlim_cur != RLIM_INFINITY)
(void) setrlimit(RLIMIT_MEMLOCK, saved_rlimit_memlock);
finish_remaining_processes(objective);
if (!switch_root_dir && objective == MANAGER_SOFT_REBOOT) {
/* If no switch root dir is specified, then check if /run/nextroot/ qualifies and use that */
r = path_is_os_tree("/run/nextroot");
if (r < 0 && r != -ENOENT)
log_debug_errno(r, "Failed to determine if /run/nextroot/ is a valid OS tree, ignoring: %m");
else if (r > 0)
switch_root_dir = "/run/nextroot";
}
if (switch_root_dir) {
r = switch_root(/* new_root= */ switch_root_dir,
/* old_root_after= */ NULL,
/* flags= */ (objective == MANAGER_SWITCH_ROOT ? SWITCH_ROOT_DESTROY_OLD_ROOT : 0) |
(objective == MANAGER_SOFT_REBOOT ? 0 : SWITCH_ROOT_RECURSIVE_RUN));
if (r < 0)
log_error_errno(r, "Failed to switch root, trying to continue: %m");
}
args_size = argc + 5;
args = newa(const char*, args_size);
if (!switch_root_init) {
char sfd[STRLEN("--deserialize=") + DECIMAL_STR_MAX(int)];
/* First try to spawn ourselves with the right path, and with full serialization. We do this
* only if the user didn't specify an explicit init to spawn. */
assert(arg_serialization);
assert(fds);
xsprintf(sfd, "--deserialize=%i", fileno(arg_serialization));
i = 1; /* Leave args[0] empty for now. */
/* Put our stuff first to make sure it always gets parsed in case
* we get weird stuff from the kernel cmdline (like --) */
if (IN_SET(objective, MANAGER_SWITCH_ROOT, MANAGER_SOFT_REBOOT))
args[i++] = "--switched-root";
args[i++] = runtime_scope_cmdline_option_to_string(arg_runtime_scope);
args[i++] = sfd;
filter_args(args, &i, argv, argc);
args[i++] = NULL;
assert(i <= args_size);
/*
* We want valgrind to print its memory usage summary before reexecution. Valgrind won't do
* this is on its own on exec(), but it will do it on exit(). Hence, to ensure we get a
* summary here, fork() off a child, let it exit() cleanly, so that it prints the summary,
* and wait() for it in the parent, before proceeding into the exec().
*/
valgrind_summary_hack();
args[0] = SYSTEMD_BINARY_PATH;
(void) execv(args[0], (char* const*) args);
if (objective == MANAGER_REEXECUTE) {
*ret_error_message = "Failed to execute our own binary";
return log_error_errno(errno, "Failed to execute our own binary %s: %m", args[0]);
}
log_debug_errno(errno, "Failed to execute our own binary %s, trying fallback: %m", args[0]);
}
/* Try the fallback, if there is any, without any serialization. We pass the original argv[] and
* envp[]. (Well, modulo the ordering changes due to getopt() in argv[], and some cleanups in envp[],
* but let's hope that doesn't matter.) */
arg_serialization = safe_fclose(arg_serialization);
fds = fdset_free(fds);
/* Reopen the console */
(void) make_console_stdio();
i = 1; /* Leave args[0] empty for now. */
for (int j = 1; j <= argc; j++)
args[i++] = argv[j];
assert(i <= args_size);
/* Re-enable any blocked signals, especially important if we switch from initrd to init=... */
(void) reset_all_signal_handlers();
(void) reset_signal_mask();
(void) rlimit_nofile_safe();
if (switch_root_init) {
args[0] = switch_root_init;
(void) execve(args[0], (char* const*) args, saved_env);
log_warning_errno(errno, "Failed to execute configured init %s, trying fallback: %m", args[0]);
}
args[0] = "/sbin/init";
(void) execv(args[0], (char* const*) args);
r = -errno;
manager_status_printf(NULL, STATUS_TYPE_EMERGENCY,
ANSI_HIGHLIGHT_RED " !! " ANSI_NORMAL,
"Failed to execute /sbin/init");
*ret_error_message = "Failed to execute fallback shell";
if (r == -ENOENT) {
log_warning("No /sbin/init, trying fallback");
args[0] = "/bin/sh";
args[1] = NULL;
(void) execve(args[0], (char* const*) args, saved_env);
return log_error_errno(errno, "Failed to execute /bin/sh, giving up: %m");
} else
return log_error_errno(r, "Failed to execute /sbin/init, giving up: %m");
}
static int invoke_main_loop(
Manager *m,
const struct rlimit *saved_rlimit_nofile,
const struct rlimit *saved_rlimit_memlock,
int *ret_retval, /* Return parameters relevant for shutting down */
FDSet **ret_fds, /* Return parameters for reexecuting */
char **ret_switch_root_dir, /* … */
char **ret_switch_root_init, /* … */
const char **ret_error_message) {
int r;
assert(m);
assert(saved_rlimit_nofile);
assert(saved_rlimit_memlock);
assert(ret_retval);
assert(ret_fds);
assert(ret_switch_root_dir);
assert(ret_switch_root_init);
assert(ret_error_message);
for (;;) {
int objective = manager_loop(m);
if (objective < 0) {
*ret_error_message = "Failed to run main loop";
return log_struct_errno(LOG_EMERG, objective,
LOG_MESSAGE("Failed to run main loop: %m"),
"MESSAGE_ID=" SD_MESSAGE_CORE_MAINLOOP_FAILED_STR);
}
switch (objective) {
case MANAGER_RELOAD: {
LogTarget saved_log_target;
int saved_log_level;
manager_send_reloading(m);
log_info("Reloading...");
/* First, save any overridden log level/target, then parse the configuration file,
* which might change the log level to new settings. */
saved_log_level = m->log_level_overridden ? log_get_max_level() : -1;
saved_log_target = m->log_target_overridden ? log_get_target() : _LOG_TARGET_INVALID;
(void) parse_configuration(saved_rlimit_nofile, saved_rlimit_memlock);
set_manager_defaults(m);
set_manager_settings(m);
update_cpu_affinity(false);
update_numa_policy(false);
if (saved_log_level >= 0)
manager_override_log_level(m, saved_log_level);
if (saved_log_target >= 0)
manager_override_log_target(m, saved_log_target);
if (manager_reload(m) < 0)
/* Reloading failed before the point of no return.
* Let's continue running as if nothing happened. */
m->objective = MANAGER_OK;
else
log_info("Reloading finished in " USEC_FMT " ms.",
usec_sub_unsigned(now(CLOCK_MONOTONIC), m->timestamps[MANAGER_TIMESTAMP_UNITS_LOAD].monotonic) / USEC_PER_MSEC);
continue;
}
case MANAGER_REEXECUTE:
manager_send_reloading(m); /* From the perspective of the manager calling us this is
* pretty much the same as a reload */
r = prepare_reexecute(m, &arg_serialization, ret_fds, false);
if (r < 0) {
*ret_error_message = "Failed to prepare for reexecution";
return r;
}
log_notice("Reexecuting.");
*ret_retval = EXIT_SUCCESS;
*ret_switch_root_dir = *ret_switch_root_init = NULL;
return objective;
case MANAGER_SWITCH_ROOT:
manager_send_reloading(m); /* From the perspective of the manager calling us this is
* pretty much the same as a reload */
manager_set_switching_root(m, true);
if (!m->switch_root_init) {
r = prepare_reexecute(m, &arg_serialization, ret_fds, true);
if (r < 0) {
*ret_error_message = "Failed to prepare for reexecution";
return r;
}
} else
*ret_fds = NULL;
log_notice("Switching root.");
*ret_retval = EXIT_SUCCESS;
/* Steal the switch root parameters */
*ret_switch_root_dir = TAKE_PTR(m->switch_root);
*ret_switch_root_init = TAKE_PTR(m->switch_root_init);
return objective;
case MANAGER_SOFT_REBOOT:
manager_send_reloading(m);
manager_set_switching_root(m, true);
r = prepare_reexecute(m, &arg_serialization, ret_fds, /* switching_root= */ true);
if (r < 0) {
*ret_error_message = "Failed to prepare for reexecution";
return r;
}
log_notice("Soft-rebooting.");
*ret_retval = EXIT_SUCCESS;
*ret_switch_root_dir = TAKE_PTR(m->switch_root);
*ret_switch_root_init = NULL;
return objective;
case MANAGER_EXIT:
if (MANAGER_IS_USER(m)) {
log_debug("Exit.");
*ret_retval = m->return_value;
*ret_fds = NULL;
*ret_switch_root_dir = *ret_switch_root_init = NULL;
return objective;
}
_fallthrough_;
case MANAGER_REBOOT:
case MANAGER_POWEROFF:
case MANAGER_HALT:
case MANAGER_KEXEC: {
log_notice("Shutting down.");
*ret_retval = m->return_value;
*ret_fds = NULL;
*ret_switch_root_dir = *ret_switch_root_init = NULL;
return objective;
}
default:
assert_not_reached();
}
}
}
static void log_execution_mode(bool *ret_first_boot) {
bool first_boot = false;
int r;
assert(ret_first_boot);
switch (arg_runtime_scope) {
case RUNTIME_SCOPE_SYSTEM: {
struct utsname uts;
int v;
log_info("systemd " GIT_VERSION " running in %ssystem mode (%s)",
arg_action == ACTION_TEST ? "test " : "",
systemd_features);
v = detect_virtualization();
if (v > 0)
log_info("Detected virtualization %s.", virtualization_to_string(v));
v = detect_confidential_virtualization();
if (v > 0)
log_info("Detected confidential virtualization %s.", confidential_virtualization_to_string(v));
log_info("Detected architecture %s.", architecture_to_string(uname_architecture()));
if (in_initrd())
log_info("Running in initrd.");
else {
_cleanup_free_ char *id_text = NULL;
/* Let's check whether we are in first boot. First, check if an override was
* specified on the kernel command line. If yes, we honour that. */
r = proc_cmdline_get_bool("systemd.condition-first-boot", /* flags = */ 0, &first_boot);
if (r < 0)
log_debug_errno(r, "Failed to parse systemd.condition-first-boot= kernel command line argument, ignoring: %m");
if (r > 0)
log_full(first_boot ? LOG_INFO : LOG_DEBUG,
"Kernel command line argument says we are %s first boot.",
first_boot ? "in" : "not in");
else {
/* Second, perform autodetection. We use /etc/machine-id as flag file for
* this: If it is missing or contains the value "uninitialized", this is the
* first boot. In other cases, it is not. This allows container managers and
* installers to provision a couple of files in /etc but still permit the
* first-boot initialization to occur. If the container manager wants to
* provision the machine ID it should pass $container_uuid to PID 1. */
r = read_one_line_file("/etc/machine-id", &id_text);
if (r < 0 || streq(id_text, "uninitialized")) {
if (r < 0 && r != -ENOENT)
log_warning_errno(r, "Unexpected error while reading /etc/machine-id, assuming first boot: %m");
first_boot = true;
log_info("Detected first boot.");
} else
log_debug("Detected initialized system, this is not the first boot.");
}
}
assert_se(uname(&uts) >= 0);
if (strverscmp_improved(uts.release, KERNEL_BASELINE_VERSION) < 0)
log_warning("Warning! Reported kernel version %s is older than systemd's required baseline kernel version %s. "
"Your mileage may vary.", uts.release, KERNEL_BASELINE_VERSION);
else
log_debug("Kernel version %s, our baseline is %s", uts.release, KERNEL_BASELINE_VERSION);
break;
}
case RUNTIME_SCOPE_USER:
if (DEBUG_LOGGING) {
_cleanup_free_ char *t = NULL;
t = uid_to_name(getuid());
log_debug("systemd " GIT_VERSION " running in %suser mode for user " UID_FMT "/%s. (%s)",
arg_action == ACTION_TEST ? " test" : "",
getuid(), strna(t), systemd_features);
}
break;
default:
assert_not_reached();
}
*ret_first_boot = first_boot;
}
static int initialize_runtime(
bool skip_setup,
bool first_boot,
struct rlimit *saved_rlimit_nofile,
struct rlimit *saved_rlimit_memlock,
const char **ret_error_message) {
int r;
assert(ret_error_message);
/* Sets up various runtime parameters. Many of these initializations are conditionalized:
*
* - Some only apply to --system instances
* - Some only apply to --user instances
* - Some only apply when we first start up, but not when we reexecute
*/
if (arg_action != ACTION_RUN)
return 0;
update_cpu_affinity(skip_setup);
update_numa_policy(skip_setup);
switch (arg_runtime_scope) {
case RUNTIME_SCOPE_SYSTEM:
/* Make sure we leave a core dump without panicking the kernel. */
install_crash_handler();
if (!skip_setup) {
r = mount_cgroup_controllers();
if (r < 0) {
*ret_error_message = "Failed to mount cgroup hierarchies";
return r;
}
/* Pull credentials from various sources into a common credential directory (we do
* this here, before setting up the machine ID, so that we can use credential info
* for setting up the machine ID) */
(void) import_credentials();
(void) os_release_status();
(void) hostname_setup(true);
/* Force transient machine-id on first boot. */
machine_id_setup(/* root= */ NULL, /* force_transient= */ first_boot, arg_machine_id, /* ret_machine_id */ NULL);
(void) loopback_setup();
bump_unix_max_dgram_qlen();
bump_file_max_and_nr_open();
test_usr();
write_container_id();
/* Copy os-release to the propagate directory, so that we update it for services running
* under RootDirectory=/RootImage= when we do a soft reboot. */
r = setup_os_release(RUNTIME_SCOPE_SYSTEM);
if (r < 0)
log_warning_errno(r, "Failed to copy os-release for propagation, ignoring: %m");
}
r = watchdog_set_device(arg_watchdog_device);
if (r < 0)
log_warning_errno(r, "Failed to set watchdog device to %s, ignoring: %m", arg_watchdog_device);
break;
case RUNTIME_SCOPE_USER: {
_cleanup_free_ char *p = NULL;
/* Create the runtime directory and place the inaccessible device nodes there, if we run in
* user mode. In system mode mount_setup() already did that. */
r = xdg_user_runtime_dir(&p, "/systemd");
if (r < 0) {
*ret_error_message = "$XDG_RUNTIME_DIR is not set";
return log_struct_errno(LOG_EMERG, r,
LOG_MESSAGE("Failed to determine $XDG_RUNTIME_DIR path: %m"),
"MESSAGE_ID=" SD_MESSAGE_CORE_NO_XDGDIR_PATH_STR);
}
(void) mkdir_p_label(p, 0755);
(void) make_inaccessible_nodes(p, UID_INVALID, GID_INVALID);
r = setup_os_release(RUNTIME_SCOPE_USER);
if (r < 0)
log_warning_errno(r, "Failed to copy os-release for propagation, ignoring: %m");
break;
}
default:
assert_not_reached();
}
if (arg_timer_slack_nsec != NSEC_INFINITY)
if (prctl(PR_SET_TIMERSLACK, arg_timer_slack_nsec) < 0)
log_warning_errno(errno, "Failed to adjust timer slack, ignoring: %m");
if (arg_runtime_scope == RUNTIME_SCOPE_SYSTEM) {
if (!cap_test_all(arg_capability_bounding_set)) {
r = capability_bounding_set_drop_usermode(arg_capability_bounding_set);
if (r < 0) {
*ret_error_message = "Failed to drop capability bounding set of usermode helpers";
return log_struct_errno(LOG_EMERG, r,
LOG_MESSAGE("Failed to drop capability bounding set of usermode helpers: %m"),
"MESSAGE_ID=" SD_MESSAGE_CORE_CAPABILITY_BOUNDING_USER_STR);
}
r = capability_bounding_set_drop(arg_capability_bounding_set, true);
if (r < 0) {
*ret_error_message = "Failed to drop capability bounding set";
return log_struct_errno(LOG_EMERG, r,
LOG_MESSAGE("Failed to drop capability bounding set: %m"),
"MESSAGE_ID=" SD_MESSAGE_CORE_CAPABILITY_BOUNDING_STR);
}
}
if (arg_no_new_privs) {
if (prctl(PR_SET_NO_NEW_PRIVS, 1, 0, 0, 0) < 0) {
*ret_error_message = "Failed to disable new privileges";
return log_struct_errno(LOG_EMERG, errno,
LOG_MESSAGE("Failed to disable new privileges: %m"),
"MESSAGE_ID=" SD_MESSAGE_CORE_DISABLE_PRIVILEGES_STR);
}
}
}
if (arg_syscall_archs) {
r = enforce_syscall_archs(arg_syscall_archs);
if (r < 0) {
*ret_error_message = "Failed to set syscall architectures";
return r;
}
}
r = make_reaper_process(true);
if (r < 0)
log_warning_errno(r, "Failed to make us a subreaper, ignoring: %m");
/* Bump up RLIMIT_NOFILE for systemd itself */
(void) bump_rlimit_nofile(saved_rlimit_nofile);
(void) bump_rlimit_memlock(saved_rlimit_memlock);
return 0;
}
static int do_queue_default_job(
Manager *m,
const char **ret_error_message) {
_cleanup_(sd_bus_error_free) sd_bus_error error = SD_BUS_ERROR_NULL;
const char *unit;
Job *job;
Unit *target;
int r;
if (arg_default_unit)
unit = arg_default_unit;
else if (in_initrd())
unit = SPECIAL_INITRD_TARGET;
else
unit = SPECIAL_DEFAULT_TARGET;
log_debug("Activating default unit: %s", unit);
r = manager_load_startable_unit_or_warn(m, unit, NULL, &target);
if (r < 0 && in_initrd() && !arg_default_unit) {
/* Fall back to default.target, which we used to always use by default. Only do this if no
* explicit configuration was given. */
log_info("Falling back to " SPECIAL_DEFAULT_TARGET ".");
r = manager_load_startable_unit_or_warn(m, SPECIAL_DEFAULT_TARGET, NULL, &target);
}
if (r < 0) {
log_info("Falling back to " SPECIAL_RESCUE_TARGET ".");
r = manager_load_startable_unit_or_warn(m, SPECIAL_RESCUE_TARGET, NULL, &target);
if (r < 0) {
*ret_error_message = r == -ERFKILL ? SPECIAL_RESCUE_TARGET " masked"
: "Failed to load " SPECIAL_RESCUE_TARGET;
return r;
}
}
assert(target->load_state == UNIT_LOADED);
r = manager_add_job(m, JOB_START, target, JOB_ISOLATE, NULL, &error, &job);
if (r == -EPERM) {
log_debug_errno(r, "Default target could not be isolated, starting instead: %s", bus_error_message(&error, r));
sd_bus_error_free(&error);
r = manager_add_job(m, JOB_START, target, JOB_REPLACE, NULL, &error, &job);
if (r < 0) {
*ret_error_message = "Failed to start default target";
return log_struct_errno(LOG_EMERG, r,
LOG_MESSAGE("Failed to start default target: %s", bus_error_message(&error, r)),
"MESSAGE_ID=" SD_MESSAGE_CORE_START_TARGET_FAILED_STR);
}
} else if (r < 0) {
*ret_error_message = "Failed to isolate default target";
return log_struct_errno(LOG_EMERG, r,
LOG_MESSAGE("Failed to isolate default target: %s", bus_error_message(&error, r)),
"MESSAGE_ID=" SD_MESSAGE_CORE_ISOLATE_TARGET_FAILED_STR);
} else
log_info("Queued %s job for default target %s.",
job_type_to_string(job->type),
unit_status_string(job->unit, NULL));
m->default_unit_job_id = job->id;
return 0;
}
static void save_rlimits(struct rlimit *saved_rlimit_nofile,
struct rlimit *saved_rlimit_memlock) {
assert(saved_rlimit_nofile);
assert(saved_rlimit_memlock);
if (getrlimit(RLIMIT_NOFILE, saved_rlimit_nofile) < 0)
log_warning_errno(errno, "Reading RLIMIT_NOFILE failed, ignoring: %m");
if (getrlimit(RLIMIT_MEMLOCK, saved_rlimit_memlock) < 0)
log_warning_errno(errno, "Reading RLIMIT_MEMLOCK failed, ignoring: %m");
}
static void fallback_rlimit_nofile(const struct rlimit *saved_rlimit_nofile) {
struct rlimit *rl;
if (arg_defaults.rlimit[RLIMIT_NOFILE])
return;
/* Make sure forked processes get limits based on the original kernel setting */
rl = newdup(struct rlimit, saved_rlimit_nofile, 1);
if (!rl) {
log_oom();
return;
}
/* Bump the hard limit for system services to a substantially higher value. The default
* hard limit current kernels set is pretty low (4K), mostly for historical
* reasons. According to kernel developers, the fd handling in recent kernels has been
* optimized substantially enough, so that we can bump the limit now, without paying too
* high a price in memory or performance. Note however that we only bump the hard limit,
* not the soft limit. That's because select() works the way it works, and chokes on fds
* >= 1024. If we'd bump the soft limit globally, it might accidentally happen to
* unexpecting programs that they get fds higher than what they can process using
* select(). By only bumping the hard limit but leaving the low limit as it is we avoid
* this pitfall: programs that are written by folks aware of the select() problem in mind
* (and thus use poll()/epoll instead of select(), the way everybody should) can
* explicitly opt into high fds by bumping their soft limit beyond 1024, to the hard limit
* we pass. */
if (arg_runtime_scope == RUNTIME_SCOPE_SYSTEM) {
int nr;
/* Get the underlying absolute limit the kernel enforces */
nr = read_nr_open();
rl->rlim_max = MIN((rlim_t) nr, MAX(rl->rlim_max, (rlim_t) HIGH_RLIMIT_NOFILE));
}
/* If for some reason we were invoked with a soft limit above 1024 (which should never
* happen!, but who knows what we get passed in from pam_limit when invoked as --user
* instance), then lower what we pass on to not confuse our children */
rl->rlim_cur = MIN(rl->rlim_cur, (rlim_t) FD_SETSIZE);
arg_defaults.rlimit[RLIMIT_NOFILE] = rl;
}
static void fallback_rlimit_memlock(const struct rlimit *saved_rlimit_memlock) {
struct rlimit *rl;
/* Pass the original value down to invoked processes */
if (arg_defaults.rlimit[RLIMIT_MEMLOCK])
return;
rl = newdup(struct rlimit, saved_rlimit_memlock, 1);
if (!rl) {
log_oom();
return;
}
if (arg_runtime_scope == RUNTIME_SCOPE_SYSTEM) {
/* Raise the default limit to 8M also on old kernels and in containers (8M is the kernel
* default for this since kernel 5.16) */
rl->rlim_max = MAX(rl->rlim_max, (rlim_t) DEFAULT_RLIMIT_MEMLOCK);
rl->rlim_cur = MAX(rl->rlim_cur, (rlim_t) DEFAULT_RLIMIT_MEMLOCK);
}
arg_defaults.rlimit[RLIMIT_MEMLOCK] = rl;
}
static void setenv_manager_environment(void) {
int r;
STRV_FOREACH(p, arg_manager_environment) {
log_debug("Setting '%s' in our own environment.", *p);
r = putenv_dup(*p, true);
if (r < 0)
log_warning_errno(errno, "Failed to setenv \"%s\", ignoring: %m", *p);
}
}
static void reset_arguments(void) {
/* Frees/resets arg_* variables, with a few exceptions commented below. */
arg_default_unit = mfree(arg_default_unit);
/* arg_runtime_scope — ignore */
arg_dump_core = true;
arg_crash_chvt = -1;
arg_crash_shell = false;
arg_crash_reboot = false;
arg_confirm_spawn = mfree(arg_confirm_spawn);
arg_show_status = _SHOW_STATUS_INVALID;
arg_status_unit_format = STATUS_UNIT_FORMAT_DEFAULT;
arg_switched_root = false;
arg_pager_flags = 0;
arg_service_watchdogs = true;
unit_defaults_done(&arg_defaults);
unit_defaults_init(&arg_defaults, arg_runtime_scope);
arg_runtime_watchdog = 0;
arg_reboot_watchdog = 10 * USEC_PER_MINUTE;
arg_kexec_watchdog = 0;
arg_pretimeout_watchdog = 0;
arg_early_core_pattern = mfree(arg_early_core_pattern);
arg_watchdog_device = mfree(arg_watchdog_device);
arg_watchdog_pretimeout_governor = mfree(arg_watchdog_pretimeout_governor);
arg_default_environment = strv_free(arg_default_environment);
arg_manager_environment = strv_free(arg_manager_environment);
arg_capability_bounding_set = CAP_MASK_UNSET;
arg_no_new_privs = false;
arg_timer_slack_nsec = NSEC_INFINITY;
arg_syscall_archs = set_free(arg_syscall_archs);
/* arg_serialization — ignore */
arg_machine_id = (sd_id128_t) {};
arg_cad_burst_action = EMERGENCY_ACTION_REBOOT_FORCE;
cpu_set_reset(&arg_cpu_affinity);
numa_policy_reset(&arg_numa_policy);
arg_random_seed = mfree(arg_random_seed);
arg_random_seed_size = 0;
arg_clock_usec = 0;
arg_reload_limit_interval_sec = 0;
arg_reload_limit_burst = 0;
}
static void determine_default_oom_score_adjust(void) {
int r, a, b;
/* Run our services at slightly higher OOM score than ourselves. But let's be conservative here, and
* do this only if we don't run as root (i.e. only if we are run in user mode, for an unprivileged
* user). */
if (arg_defaults.oom_score_adjust_set)
return;
if (getuid() == 0)
return;
r = get_oom_score_adjust(&a);
if (r < 0)
return (void) log_warning_errno(r, "Failed to determine current OOM score adjustment value, ignoring: %m");
assert_cc(100 <= OOM_SCORE_ADJ_MAX);
b = a >= OOM_SCORE_ADJ_MAX - 100 ? OOM_SCORE_ADJ_MAX : a + 100;
if (a == b)
return;
arg_defaults.oom_score_adjust = b;
arg_defaults.oom_score_adjust_set = true;
}
static int parse_configuration(const struct rlimit *saved_rlimit_nofile,
const struct rlimit *saved_rlimit_memlock) {
int r;
assert(saved_rlimit_nofile);
assert(saved_rlimit_memlock);
/* Assign configuration defaults */
reset_arguments();
r = parse_config_file();
if (r < 0)
log_warning_errno(r, "Failed to parse config file, ignoring: %m");
if (arg_runtime_scope == RUNTIME_SCOPE_SYSTEM) {
r = proc_cmdline_parse(parse_proc_cmdline_item, NULL, 0);
if (r < 0)
log_warning_errno(r, "Failed to parse kernel command line, ignoring: %m");
}
/* Initialize some default rlimits for services if they haven't been configured */
fallback_rlimit_nofile(saved_rlimit_nofile);
fallback_rlimit_memlock(saved_rlimit_memlock);
/* Note that this also parses bits from the kernel command line, including "debug". */
log_parse_environment();
/* Initialize the show status setting if it hasn't been set explicitly yet */
if (arg_show_status == _SHOW_STATUS_INVALID)
arg_show_status = SHOW_STATUS_YES;
/* Slightly raise the OOM score for our services if we are running for unprivileged users. */
determine_default_oom_score_adjust();
/* Push variables into the manager environment block */
setenv_manager_environment();
/* Parse log environment variables again to take into account any new environment variables. */
log_parse_environment();
return 0;
}
static int safety_checks(void) {
if (getpid_cached() == 1 &&
arg_action != ACTION_RUN)
return log_error_errno(SYNTHETIC_ERRNO(EPERM),
"Unsupported execution mode while PID 1.");
if (getpid_cached() == 1 &&
arg_runtime_scope == RUNTIME_SCOPE_USER)
return log_error_errno(SYNTHETIC_ERRNO(EPERM),
"Can't run --user mode as PID 1.");
if (arg_action == ACTION_RUN &&
arg_runtime_scope == RUNTIME_SCOPE_SYSTEM &&
getpid_cached() != 1)
return log_error_errno(SYNTHETIC_ERRNO(EPERM),
"Can't run system mode unless PID 1.");
if (arg_action == ACTION_TEST &&
geteuid() == 0)
return log_error_errno(SYNTHETIC_ERRNO(EPERM),
"Don't run test mode as root.");
switch (arg_runtime_scope) {
case RUNTIME_SCOPE_USER:
if (arg_action == ACTION_RUN &&
sd_booted() <= 0)
return log_error_errno(SYNTHETIC_ERRNO(EOPNOTSUPP),
"Trying to run as user instance, but the system has not been booted with systemd.");
if (arg_action == ACTION_RUN &&
!getenv("XDG_RUNTIME_DIR"))
return log_error_errno(SYNTHETIC_ERRNO(EUNATCH),
"Trying to run as user instance, but $XDG_RUNTIME_DIR is not set.");
break;
case RUNTIME_SCOPE_SYSTEM:
if (arg_action == ACTION_RUN &&
running_in_chroot() > 0)
return log_error_errno(SYNTHETIC_ERRNO(EOPNOTSUPP),
"Cannot be run in a chroot() environment.");
break;
default:
assert_not_reached();
}
return 0;
}
static int initialize_security(
bool *loaded_policy,
dual_timestamp *security_start_timestamp,
dual_timestamp *security_finish_timestamp,
const char **ret_error_message) {
int r;
assert(loaded_policy);
assert(security_start_timestamp);
assert(security_finish_timestamp);
assert(ret_error_message);
dual_timestamp_now(security_start_timestamp);
r = mac_selinux_setup(loaded_policy);
if (r < 0) {
*ret_error_message = "Failed to load SELinux policy";
return r;
}
r = mac_smack_setup(loaded_policy);
if (r < 0) {
*ret_error_message = "Failed to load SMACK policy";
return r;
}
r = mac_apparmor_setup();
if (r < 0) {
*ret_error_message = "Failed to load AppArmor policy";
return r;
}
r = ima_setup();
if (r < 0) {
*ret_error_message = "Failed to load IMA policy";
return r;
}
dual_timestamp_now(security_finish_timestamp);
return 0;
}
static int collect_fds(FDSet **ret_fds, const char **ret_error_message) {
int r;
assert(ret_fds);
assert(ret_error_message);
/* Pick up all fds passed to us. We apply a filter here: we only take the fds that have O_CLOEXEC
* off. All fds passed via execve() to us must have O_CLOEXEC off, and our own code and dependencies
* should be clean enough to set O_CLOEXEC universally. Thus checking the bit should be a safe
* mechanism to distinguish passed in fds from our own.
*
* Why bother? Some subsystems we initialize early, specifically selinux might keep fds open in our
* process behind our back. We should not take possession of that (and then accidentally close
* it). SELinux thankfully sets O_CLOEXEC on its fds, so this test should work. */
r = fdset_new_fill(/* filter_cloexec= */ 0, ret_fds);
if (r < 0) {
*ret_error_message = "Failed to allocate fd set";
return log_struct_errno(LOG_EMERG, r,
LOG_MESSAGE("Failed to allocate fd set: %m"),
"MESSAGE_ID=" SD_MESSAGE_CORE_FD_SET_FAILED_STR);
}
/* The serialization fd should have O_CLOEXEC turned on already, let's verify that we didn't pick it up here */
assert_se(!arg_serialization || !fdset_contains(*ret_fds, fileno(arg_serialization)));
return 0;
}
static void setup_console_terminal(bool skip_setup) {
if (arg_runtime_scope != RUNTIME_SCOPE_SYSTEM)
return;
/* Become a session leader if we aren't one yet. */
(void) setsid();
/* If we are init, we connect stdin/stdout/stderr to /dev/null and make sure we don't have a
* controlling tty. */
(void) release_terminal();
/* Reset the console, but only if this is really init and we are freshly booted */
if (getpid_cached() == 1 && !skip_setup)
(void) console_setup();
}
static bool early_skip_setup_check(int argc, char *argv[]) {
bool found_deserialize = false;
/* Determine if this is a reexecution or normal bootup. We do the full command line parsing much
* later, so let's just have a quick peek here. Note that if we have switched root, do all the
* special setup things anyway, even if in that case we also do deserialization. */
for (int i = 1; i < argc; i++)
if (streq(argv[i], "--switched-root"))
return false; /* If we switched root, don't skip the setup. */
else if (startswith(argv[i], "--deserialize=") || streq(argv[i], "--deserialize"))
found_deserialize = true;
return found_deserialize; /* When we are deserializing, then we are reexecuting, hence avoid the extensive setup */
}
static int save_env(void) {
char **l;
l = strv_copy(environ);
if (!l)
return -ENOMEM;
strv_free_and_replace(saved_env, l);
return 0;
}
int main(int argc, char *argv[]) {
dual_timestamp
initrd_timestamp = DUAL_TIMESTAMP_NULL,
userspace_timestamp = DUAL_TIMESTAMP_NULL,
kernel_timestamp = DUAL_TIMESTAMP_NULL,
security_start_timestamp = DUAL_TIMESTAMP_NULL,
security_finish_timestamp = DUAL_TIMESTAMP_NULL;
struct rlimit saved_rlimit_nofile = RLIMIT_MAKE_CONST(0),
saved_rlimit_memlock = RLIMIT_MAKE_CONST(RLIM_INFINITY); /* The original rlimits we passed
* in. Note we use different values
* for the two that indicate whether
* these fields are initialized! */
bool skip_setup, loaded_policy = false, queue_default_job = false, first_boot = false;
char *switch_root_dir = NULL, *switch_root_init = NULL;
usec_t before_startup, after_startup;
static char systemd[] = "systemd";
const char *error_message = NULL;
int r, retval = EXIT_FAILURE;
Manager *m = NULL;
FDSet *fds = NULL;
assert_se(argc > 0 && !isempty(argv[0]));
/* SysV compatibility: redirect init → telinit */
redirect_telinit(argc, argv);
/* Take timestamps early on */
dual_timestamp_from_monotonic(&kernel_timestamp, 0);
dual_timestamp_now(&userspace_timestamp);
/* Figure out whether we need to do initialize the system, or if we already did that because we are
* reexecuting. */
skip_setup = early_skip_setup_check(argc, argv);
/* If we get started via the /sbin/init symlink then we are called 'init'. After a subsequent
* reexecution we are then called 'systemd'. That is confusing, hence let's call us systemd
* right-away. */
program_invocation_short_name = systemd;
(void) prctl(PR_SET_NAME, systemd);
/* Save the original command line */
save_argc_argv(argc, argv);
/* Save the original environment as we might need to restore it if we're requested to execute another
* system manager later. */
r = save_env();
if (r < 0) {
error_message = "Failed to copy environment block";
goto finish;
}
/* Make sure that if the user says "syslog" we actually log to the journal. */
log_set_upgrade_syslog_to_journal(true);
if (getpid_cached() == 1) {
/* When we run as PID 1 force system mode */
arg_runtime_scope = RUNTIME_SCOPE_SYSTEM;
/* Disable the umask logic */
umask(0);
/* Make sure that at least initially we do not ever log to journald/syslogd, because it might
* not be activated yet (even though the log socket for it exists). */
log_set_prohibit_ipc(true);
/* Always reopen /dev/console when running as PID 1 or one of its pre-execve() children. This
* is important so that we never end up logging to any foreign stderr, for example if we have
* to log in a child process right before execve()'ing the actual binary, at a point in time
* where socket activation stderr/stdout area already set up. */
log_set_always_reopen_console(true);
if (detect_container() <= 0) {
/* Running outside of a container as PID 1 */
log_set_target_and_open(LOG_TARGET_KMSG);
if (in_initrd())
initrd_timestamp = userspace_timestamp;
if (!skip_setup) {
r = mount_setup_early();
if (r < 0) {
error_message = "Failed to mount early API filesystems";
goto finish;
}
}
/* We might have just mounted /proc, so let's try to parse the kernel
* command line log arguments immediately. */
log_parse_environment();
/* Let's open the log backend a second time, in case the first time didn't
* work. Quite possibly we have mounted /dev just now, so /dev/kmsg became
* available, and it previously wasn't. */
log_open();
if (!skip_setup) {
disable_printk_ratelimit();
r = initialize_security(
&loaded_policy,
&security_start_timestamp,
&security_finish_timestamp,
&error_message);
if (r < 0)
goto finish;
}
if (mac_init() < 0) {
error_message = "Failed to initialize MAC support";
goto finish;
}
if (!skip_setup)
initialize_clock();
/* Set the default for later on, but don't actually open the logs like this for
* now. Note that if we are transitioning from the initrd there might still be
* journal fd open, and we shouldn't attempt opening that before we parsed
* /proc/cmdline which might redirect output elsewhere. */
log_set_target(LOG_TARGET_JOURNAL_OR_KMSG);
} else {
/* Running inside a container, as PID 1 */
log_set_target_and_open(LOG_TARGET_CONSOLE);
/* For later on, see above... */
log_set_target(LOG_TARGET_JOURNAL);
/* clear the kernel timestamp, because we are in a container */
kernel_timestamp = DUAL_TIMESTAMP_NULL;
}
initialize_coredump(skip_setup);
r = fixup_environment();
if (r < 0) {
log_struct_errno(LOG_EMERG, r,
LOG_MESSAGE("Failed to fix up PID 1 environment: %m"),
"MESSAGE_ID=" SD_MESSAGE_CORE_PID1_ENVIRONMENT_STR);
error_message = "Failed to fix up PID1 environment";
goto finish;
}
/* Try to figure out if we can use colors with the console. No need to do that for user
* instances since they never log into the console. */
log_show_color(colors_enabled());
r = make_null_stdio();
if (r < 0)
log_warning_errno(r, "Failed to redirect standard streams to /dev/null, ignoring: %m");
/* Load the kernel modules early. */
if (!skip_setup)
(void) kmod_setup();
/* Mount /proc, /sys and friends, so that /proc/cmdline and /proc/$PID/fd is available. */
r = mount_setup(loaded_policy, skip_setup);
if (r < 0) {
error_message = "Failed to mount API filesystems";
goto finish;
}
/* The efivarfs is now mounted, let's lock down the system token. */
lock_down_efi_variables();
/* Cache command-line options passed from EFI variables */
if (!skip_setup)
(void) cache_efi_options_variable();
} else {
/* Running as user instance */
arg_runtime_scope = RUNTIME_SCOPE_USER;
log_set_always_reopen_console(true);
log_set_target_and_open(LOG_TARGET_AUTO);
/* clear the kernel timestamp, because we are not PID 1 */
kernel_timestamp = DUAL_TIMESTAMP_NULL;
/* Clear ambient capabilities, so services do not inherit them implicitly. Dropping them does
* not affect the permitted and effective sets which are important for the manager itself to
* operate. */
capability_ambient_set_apply(0, /* also_inherit= */ false);
if (mac_init() < 0) {
error_message = "Failed to initialize MAC support";
goto finish;
}
}
/* Save the original RLIMIT_NOFILE/RLIMIT_MEMLOCK so that we can reset it later when
* transitioning from the initrd to the main systemd or suchlike. */
save_rlimits(&saved_rlimit_nofile, &saved_rlimit_memlock);
/* Reset all signal handlers. */
(void) reset_all_signal_handlers();
(void) ignore_signals(SIGNALS_IGNORE);
(void) parse_configuration(&saved_rlimit_nofile, &saved_rlimit_memlock);
r = parse_argv(argc, argv);
if (r < 0) {
error_message = "Failed to parse command line arguments";
goto finish;
}
r = safety_checks();
if (r < 0)
goto finish;
if (IN_SET(arg_action, ACTION_TEST, ACTION_HELP, ACTION_DUMP_CONFIGURATION_ITEMS, ACTION_DUMP_BUS_PROPERTIES, ACTION_BUS_INTROSPECT))
pager_open(arg_pager_flags);
if (arg_action != ACTION_RUN)
skip_setup = true;
if (arg_action == ACTION_HELP) {
retval = help() < 0 ? EXIT_FAILURE : EXIT_SUCCESS;
goto finish;
} else if (arg_action == ACTION_VERSION) {
retval = version();
goto finish;
} else if (arg_action == ACTION_DUMP_CONFIGURATION_ITEMS) {
unit_dump_config_items(stdout);
retval = EXIT_SUCCESS;
goto finish;
} else if (arg_action == ACTION_DUMP_BUS_PROPERTIES) {
dump_bus_properties(stdout);
retval = EXIT_SUCCESS;
goto finish;
} else if (arg_action == ACTION_BUS_INTROSPECT) {
r = bus_manager_introspect_implementations(stdout, arg_bus_introspect);
retval = r >= 0 ? EXIT_SUCCESS : EXIT_FAILURE;
goto finish;
}
assert_se(IN_SET(arg_action, ACTION_RUN, ACTION_TEST));
/* Move out of the way, so that we won't block unmounts */
assert_se(chdir("/") == 0);
if (arg_action == ACTION_RUN) {
if (!skip_setup) {
/* Apply the systemd.clock_usec= kernel command line switch */
apply_clock_update();
/* Apply random seed from kernel command line */
cmdline_take_random_seed();
}
/* A core pattern might have been specified via the cmdline. */
initialize_core_pattern(skip_setup);
/* Close logging fds, in order not to confuse collecting passed fds and terminal logic below */
log_close();
/* Remember open file descriptors for later deserialization */
r = collect_fds(&fds, &error_message);
if (r < 0)
goto finish;
/* Give up any control of the console, but make sure its initialized. */
setup_console_terminal(skip_setup);
/* Open the logging devices, if possible and necessary */
log_open();
}
log_execution_mode(&first_boot);
r = initialize_runtime(skip_setup,
first_boot,
&saved_rlimit_nofile,
&saved_rlimit_memlock,
&error_message);
if (r < 0)
goto finish;
r = manager_new(arg_runtime_scope,
arg_action == ACTION_TEST ? MANAGER_TEST_FULL : 0,
&m);
if (r < 0) {
log_struct_errno(LOG_EMERG, r,
LOG_MESSAGE("Failed to allocate manager object: %m"),
"MESSAGE_ID=" SD_MESSAGE_CORE_MANAGER_ALLOCATE_STR);
error_message = "Failed to allocate manager object";
goto finish;
}
m->timestamps[MANAGER_TIMESTAMP_KERNEL] = kernel_timestamp;
m->timestamps[MANAGER_TIMESTAMP_INITRD] = initrd_timestamp;
m->timestamps[MANAGER_TIMESTAMP_USERSPACE] = userspace_timestamp;
m->timestamps[manager_timestamp_initrd_mangle(MANAGER_TIMESTAMP_SECURITY_START)] = security_start_timestamp;
m->timestamps[manager_timestamp_initrd_mangle(MANAGER_TIMESTAMP_SECURITY_FINISH)] = security_finish_timestamp;
set_manager_defaults(m);
set_manager_settings(m);
manager_set_first_boot(m, first_boot);
manager_set_switching_root(m, arg_switched_root);
/* Remember whether we should queue the default job */
queue_default_job = !arg_serialization || arg_switched_root;
before_startup = now(CLOCK_MONOTONIC);
r = manager_startup(m, arg_serialization, fds, /* root= */ NULL);
if (r < 0) {
error_message = "Failed to start up manager";
goto finish;
}
/* This will close all file descriptors that were opened, but not claimed by any unit. */
fds = fdset_free(fds);
arg_serialization = safe_fclose(arg_serialization);
if (queue_default_job) {
r = do_queue_default_job(m, &error_message);
if (r < 0)
goto finish;
}
after_startup = now(CLOCK_MONOTONIC);
log_full(arg_action == ACTION_TEST ? LOG_INFO : LOG_DEBUG,
"Loaded units and determined initial transaction in %s.",
FORMAT_TIMESPAN(after_startup - before_startup, 100 * USEC_PER_MSEC));
if (arg_action == ACTION_TEST) {
manager_test_summary(m);
retval = EXIT_SUCCESS;
goto finish;
}
r = invoke_main_loop(m,
&saved_rlimit_nofile,
&saved_rlimit_memlock,
&retval,
&fds,
&switch_root_dir,
&switch_root_init,
&error_message);
assert(r < 0 || IN_SET(r, MANAGER_EXIT, /* MANAGER_OK is not expected here. */
MANAGER_RELOAD,
MANAGER_REEXECUTE,
MANAGER_REBOOT,
MANAGER_SOFT_REBOOT,
MANAGER_POWEROFF,
MANAGER_HALT,
MANAGER_KEXEC,
MANAGER_SWITCH_ROOT));
finish:
pager_close();
if (m) {
arg_reboot_watchdog = manager_get_watchdog(m, WATCHDOG_REBOOT);
arg_kexec_watchdog = manager_get_watchdog(m, WATCHDOG_KEXEC);
m = manager_free(m);
}
mac_selinux_finish();
if (IN_SET(r, MANAGER_REEXECUTE, MANAGER_SWITCH_ROOT, MANAGER_SOFT_REBOOT))
r = do_reexecute(r,
argc, argv,
&saved_rlimit_nofile,
&saved_rlimit_memlock,
fds,
switch_root_dir,
switch_root_init,
&error_message); /* This only returns if reexecution failed */
arg_serialization = safe_fclose(arg_serialization);
fds = fdset_free(fds);
saved_env = strv_free(saved_env);
#if HAVE_VALGRIND_VALGRIND_H
/* If we are PID 1 and running under valgrind, then let's exit
* here explicitly. valgrind will only generate nice output on
* exit(), not on exec(), hence let's do the former not the
* latter here. */
if (getpid_cached() == 1 && RUNNING_ON_VALGRIND) {
/* Cleanup watchdog_device strings for valgrind. We need them
* in become_shutdown() so normally we cannot free them yet. */
watchdog_free_device();
reset_arguments();
return retval;
}
#endif
#if HAS_FEATURE_ADDRESS_SANITIZER
/* At this stage we most likely don't have stdio/stderr open, so the following
* LSan check would not print any actionable information and would just crash
* PID 1. To make this a bit more helpful, let's try to open /dev/console,
* and if we succeed redirect LSan's report there. */
if (getpid_cached() == 1) {
_cleanup_close_ int tty_fd = -EBADF;
tty_fd = open_terminal("/dev/console", O_WRONLY|O_NOCTTY|O_CLOEXEC);
if (tty_fd >= 0)
__sanitizer_set_report_fd((void*) (intptr_t) tty_fd);
__lsan_do_leak_check();
}
#endif
if (r < 0)
(void) sd_notifyf(0, "ERRNO=%i", -r);
/* Try to invoke the shutdown binary unless we already failed.
* If we failed above, we want to freeze after finishing cleanup. */
if (arg_runtime_scope == RUNTIME_SCOPE_SYSTEM &&
IN_SET(r, MANAGER_EXIT, MANAGER_REBOOT, MANAGER_POWEROFF, MANAGER_HALT, MANAGER_KEXEC)) {
r = become_shutdown(r, retval);
log_error_errno(r, "Failed to execute shutdown binary, %s: %m", getpid_cached() == 1 ? "freezing" : "quitting");
error_message = "Failed to execute shutdown binary";
}
/* This is primarily useful when running systemd in a VM, as it provides the user running the VM with
* a mechanism to pick up systemd's exit status in the VM. */
(void) sd_notifyf(0, "EXIT_STATUS=%i", retval);
watchdog_free_device();
arg_watchdog_device = mfree(arg_watchdog_device);
if (getpid_cached() == 1) {
if (error_message)
manager_status_printf(NULL, STATUS_TYPE_EMERGENCY,
ANSI_HIGHLIGHT_RED "!!!!!!" ANSI_NORMAL,
"%s.", error_message);
freeze_or_exit_or_reboot();
}
reset_arguments();
return retval;
}
|
