https://github.com/DDoSolitary/LxRunOffline/issues/88
其实就是换了个文件,推荐把文件内容粘贴下来
就是换了个文件
mv /usr/bin/systemctl /usr/bin/systemctl.old
curl https://raw.githubusercontent.com/gdraheim/docker-systemctl-replacement/master/files/docker/systemctl.py > /usr/bin/systemctl
chmod +x /usr/bin/systemctl
https://github.com/gdraheim/docker-systemctl-replacement/blob/master/files/docker/systemctl.py
mv /usr/bin/systemctl /usr/bin/systemctl.old
curl https://github.com/gdraheim/docker-systemctl-replacement/blob/master/files/docker/systemctl.py > /usr/bin/systemctl
chmod +x /usr/bin/systemctl
文件内容如下,可以复制文件内容,创建 systemctl.py (最好还是自己下载)
#! /usr/bin/python2
## generated from systemctl3.py - do not change
from __future__ import print_function
__copyright__ = "(C) 2016-2020 Guido U. Draheim, licensed under the EUPL"
__version__ = "1.5.4505"
import logging
logg = logging.getLogger("systemctl")
from types import GeneratorType
import re
import fnmatch
import shlex
import collections
import errno
import os
import sys
import signal
import time
import socket
import datetime
import string
import fcntl
import select
import hashlib
import pwd
import grp
import threading
if sys.version[0] == '3':
basestring = str
xrange = range
DEBUG_AFTER = False
DEBUG_STATUS = False
DEBUG_BOOTTIME = False
DEBUG_INITLOOP = False
DEBUG_KILLALL = False
DEBUG_FLOCK = False
TestListen = False
TestAccept = False
def logg_debug_flock(format, *args):
if DEBUG_FLOCK:
logg.debug(format, *args) # pragma: no cover
def logg_debug_after(format, *args):
if DEBUG_AFTER:
logg.debug(format, *args) # pragma: no cover
NOT_A_PROBLEM = 0 # FOUND_OK
NOT_OK = 1 # FOUND_ERROR
NOT_ACTIVE = 2 # FOUND_INACTIVE
NOT_FOUND = 4 # FOUND_UNKNOWN
# defaults for options
_extra_vars = []
_force = False
_full = False
_log_lines = 0
_no_pager = False
_now = False
_no_reload = False
_no_legend = False
_no_ask_password = False
_preset_mode = "all"
_quiet = False
_root = ""
_unit_type = None
_unit_state = None
_unit_property = None
_what_kind = ""
_show_all = False
_user_mode = False
# common default paths
_system_folder1 = "/etc/systemd/system"
_system_folder2 = "/run/systemd/system"
_system_folder3 = "/var/run/systemd/system"
_system_folder4 = "/usr/local/lib/systemd/system"
_system_folder5 = "/usr/lib/systemd/system"
_system_folder6 = "/lib/systemd/system"
_system_folderX = None
_user_folder1 = "{XDG_CONFIG_HOME}/systemd/user"
_user_folder2 = "/etc/systemd/user"
_user_folder3 = "{XDG_RUNTIME_DIR}/systemd/user"
_user_folder4 = "/run/systemd/user"
_user_folder5 = "/var/run/systemd/user"
_user_folder6 = "{XDG_DATA_HOME}/systemd/user"
_user_folder7 = "/usr/local/lib/systemd/user"
_user_folder8 = "/usr/lib/systemd/user"
_user_folder9 = "/lib/systemd/user"
_user_folderX = None
_init_folder1 = "/etc/init.d"
_init_folder2 = "/run/init.d"
_init_folder3 = "/var/run/init.d"
_init_folderX = None
_preset_folder1 = "/etc/systemd/system-preset"
_preset_folder2 = "/run/systemd/system-preset"
_preset_folder3 = "/var/run/systemd/system-preset"
_preset_folder4 = "/usr/local/lib/systemd/system-preset"
_preset_folder5 = "/usr/lib/systemd/system-preset"
_preset_folder6 = "/lib/systemd/system-preset"
_preset_folderX = None
# standard paths
_dev_null = "/dev/null"
_dev_zero = "/dev/zero"
_etc_hosts = "/etc/hosts"
_rc3_boot_folder = "/etc/rc3.d"
_rc3_init_folder = "/etc/init.d/rc3.d"
_rc5_boot_folder = "/etc/rc5.d"
_rc5_init_folder = "/etc/init.d/rc5.d"
_proc_pid_stat = "/proc/{pid}/stat"
_proc_pid_status = "/proc/{pid}/status"
_proc_pid_cmdline= "/proc/{pid}/cmdline"
_proc_pid_dir = "/proc"
_proc_sys_uptime = "/proc/uptime"
_proc_sys_stat = "/proc/stat"
# default values
SystemCompatibilityVersion = 219
SysInitTarget = "sysinit.target"
SysInitWait = 5 # max for target
MinimumYield = 0.5
MinimumTimeoutStartSec = 4
MinimumTimeoutStopSec = 4
DefaultTimeoutStartSec = 90 # official value
DefaultTimeoutStopSec = 90 # official value
DefaultTimeoutAbortSec = 3600 # officially it none (usually larget than StopSec)
DefaultMaximumTimeout = 200 # overrides all other
DefaultRestartSec = 0.1 # official value of 100ms
DefaultStartLimitIntervalSec = 10 # official value
DefaultStartLimitBurst = 5 # official value
InitLoopSleep = 5
MaxLockWait = 0 # equals DefaultMaximumTimeout
DefaultPath = "/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin"
ResetLocale = ["LANG", "LANGUAGE", "LC_CTYPE", "LC_NUMERIC", "LC_TIME", "LC_COLLATE", "LC_MONETARY",
"LC_MESSAGES", "LC_PAPER", "LC_NAME", "LC_ADDRESS", "LC_TELEPHONE", "LC_MEASUREMENT",
"LC_IDENTIFICATION", "LC_ALL"]
LocaleConf="/etc/locale.conf"
DefaultListenBacklog=2
ExitWhenNoMoreServices = False
ExitWhenNoMoreProcs = False
DefaultUnit = os.environ.get("SYSTEMD_DEFAULT_UNIT", "default.target") # systemd.exe --unit=default.target
DefaultTarget = os.environ.get("SYSTEMD_DEFAULT_TARGET", "multi-user.target") # DefaultUnit fallback
# LogLevel = os.environ.get("SYSTEMD_LOG_LEVEL", "info") # systemd.exe --log-level
# LogTarget = os.environ.get("SYSTEMD_LOG_TARGET", "journal-or-kmsg") # systemd.exe --log-target
# LogLocation = os.environ.get("SYSTEMD_LOG_LOCATION", "no") # systemd.exe --log-location
# ShowStatus = os.environ.get("SYSTEMD_SHOW_STATUS", "auto") # systemd.exe --show-status
DefaultStandardInput=os.environ.get("SYSTEMD_STANDARD_INPUT", "null")
DefaultStandardOutput=os.environ.get("SYSTEMD_STANDARD_OUTPUT", "journal") # systemd.exe --default-standard-output
DefaultStandardError=os.environ.get("SYSTEMD_STANDARD_ERROR", "inherit") # systemd.exe --default-standard-error
EXEC_SPAWN = False
EXEC_DUP2 = True
REMOVE_LOCK_FILE = False
BOOT_PID_MIN = 0
BOOT_PID_MAX = -9
PROC_MAX_DEPTH = 100
EXPAND_VARS_MAXDEPTH = 20
EXPAND_KEEP_VARS = True
RESTART_FAILED_UNITS = True
ACTIVE_IF_ENABLED=False
TAIL_CMD = "/usr/bin/tail"
LESS_CMD = "/usr/bin/less"
CAT_CMD = "/usr/bin/cat"
# The systemd default was NOTIFY_SOCKET="/var/run/systemd/notify"
_notify_socket_folder = "{RUN}/systemd" # alias /run/systemd
_journal_log_folder = "{LOG}/journal"
SYSTEMCTL_DEBUG_LOG = "{LOG}/systemctl.debug.log"
SYSTEMCTL_EXTRA_LOG = "{LOG}/systemctl.log"
_default_targets = [ "poweroff.target", "rescue.target", "sysinit.target", "basic.target", "multi-user.target", "graphical.target", "reboot.target" ]
_feature_targets = [ "network.target", "remote-fs.target", "local-fs.target", "timers.target", "nfs-client.target" ]
_all_common_targets = [ "default.target" ] + _default_targets + _feature_targets
# inside a docker we pretend the following
_all_common_enabled = [ "default.target", "multi-user.target", "remote-fs.target" ]
_all_common_disabled = [ "graphical.target", "resue.target", "nfs-client.target" ]
target_requires = { "graphical.target": "multi-user.target", "multi-user.target": "basic.target", "basic.target": "sockets.target" }
_runlevel_mappings = {} # the official list
_runlevel_mappings["0"] = "poweroff.target"
_runlevel_mappings["1"] = "rescue.target"
_runlevel_mappings["2"] = "multi-user.target"
_runlevel_mappings["3"] = "multi-user.target"
_runlevel_mappings["4"] = "multi-user.target"
_runlevel_mappings["5"] = "graphical.target"
_runlevel_mappings["6"] = "reboot.target"
_sysv_mappings = {} # by rule of thumb
_sysv_mappings["$local_fs"] = "local-fs.target"
_sysv_mappings["$network"] = "network.target"
_sysv_mappings["$remote_fs"] = "remote-fs.target"
_sysv_mappings["$timer"] = "timers.target"
def strINET(value):
if value == socket.SOCK_DGRAM:
return "UDP"
if value == socket.SOCK_STREAM:
return "TCP"
if value == socket.SOCK_RAW: # pragma: no cover
return "RAW"
if value == socket.SOCK_RDM: # pragma: no cover
return "RDM"
if value == socket.SOCK_SEQPACKET: # pragma: no cover
return "SEQ"
return ">" # pragma: no cover
def strYes(value):
if value is True:
return "yes"
if not value:
return "no"
return str(value)
def strE(part):
if not part:
return ""
return str(part)
def strQ(part):
if part is None:
return ""
if isinstance(part, int):
return str(part)
return "'%s'" % part
def shell_cmd(cmd):
return " ".join([strQ(part) for part in cmd])
def to_intN(value, default = None):
if not value:
return default
try:
return int(value)
except:
return default
def to_int(value, default = 0):
try:
return int(value)
except:
return default
def to_list(value):
if not value:
return []
if isinstance(value, list):
return value
if isinstance(value, tuple):
return list(value)
return str(value or "").split(",")
def int_mode(value):
try: return int(value, 8)
except: return None # pragma: no cover
def unit_of(module):
if "." not in module:
return module + ".service"
return module
def o22(part):
if isinstance(part, basestring):
if len(part) <= 22:
return part
return part[:5] + "..." + part[-14:]
return part # pragma: no cover (is always str)
def o44(part):
if isinstance(part, basestring):
if len(part) <= 44:
return part
return part[:10] + "..." + part[-31:]
return part # pragma: no cover (is always str)
def o77(part):
if isinstance(part, basestring):
if len(part) <= 77:
return part
return part[:20] + "..." + part[-54:]
return part # pragma: no cover (is always str)
def unit_name_escape(text):
# https://www.freedesktop.org/software/systemd/man/systemd.unit.html#id-1.6
esc = re.sub("([^a-z-AZ.-/])", lambda m: "\\x%02x" % ord(m.group(1)[0]), text)
return esc.replace("/", "-")
def unit_name_unescape(text):
esc = text.replace("-", "/")
return re.sub("\\\\x(..)", lambda m: "%c" % chr(int(m.group(1), 16)), esc)
def is_good_root(root):
if not root:
return True
return root.strip(os.path.sep).count(os.path.sep) > 1
def os_path(root, path):
if not root:
return path
if not path:
return path
if is_good_root(root) and path.startswith(root):
return path
while path.startswith(os.path.sep):
path = path[1:]
return os.path.join(root, path)
def path_replace_extension(path, old, new):
if path.endswith(old):
path = path[:-len(old)]
return path + new
def get_PAGER():
PAGER = os.environ.get("PAGER", "less")
pager = os.environ.get("SYSTEMD_PAGER", "{PAGER}").format(**locals())
options = os.environ.get("SYSTEMD_LESS", "FRSXMK") # see 'man timedatectl'
if not pager: pager = "cat"
if "less" in pager and options:
return [ pager, "-" + options ]
return [ pager ]
def os_getlogin():
""" NOT using os.getlogin() """
return pwd.getpwuid(os.geteuid()).pw_name
def get_runtime_dir():
explicit = os.environ.get("XDG_RUNTIME_DIR", "")
if explicit: return explicit
user = os_getlogin()
return "/tmp/run-"+user
def get_RUN(root = False):
tmp_var = get_TMP(root)
if _root:
tmp_var = _root
if root:
for p in ("/run", "/var/run", "{tmp_var}/run"):
path = p.format(**locals())
if os.path.isdir(path) and os.access(path, os.W_OK):
return path
os.makedirs(path) # "/tmp/run"
return path
else:
uid = get_USER_ID(root)
for p in ("/run/user/{uid}", "/var/run/user/{uid}", "{tmp_var}/run-{uid}"):
path = p.format(**locals())
if os.path.isdir(path) and os.access(path, os.W_OK):
return path
os.makedirs(path, 0o700) # "/tmp/run/user/{uid}"
return path
def get_PID_DIR(root = False):
if root:
return get_RUN(root)
else:
return os.path.join(get_RUN(root), "run") # compat with older systemctl.py
def get_home():
if False: # pragma: no cover
explicit = os.environ.get("HOME", "") # >> On Unix, an initial ~ (tilde) is replaced by the
if explicit: return explicit # environment variable HOME if it is set; otherwise
uid = os.geteuid() # the current users home directory is looked up in the
# # password directory through the built-in module pwd.
return pwd.getpwuid(uid).pw_name # An initial ~user i looked up directly in the
return os.path.expanduser("~") # password directory. << from docs(os.path.expanduser)
def get_HOME(root = False):
if root: return "/root"
return get_home()
def get_USER_ID(root = False):
ID = 0
if root: return ID
return os.geteuid()
def get_USER(root = False):
if root: return "root"
uid = os.geteuid()
return pwd.getpwuid(uid).pw_name
def get_GROUP_ID(root = False):
ID = 0
if root: return ID
return os.getegid()
def get_GROUP(root = False):
if root: return "root"
gid = os.getegid()
return grp.getgrgid(gid).gr_name
def get_TMP(root = False):
TMP = "/tmp"
if root: return TMP
return os.environ.get("TMPDIR", os.environ.get("TEMP", os.environ.get("TMP", TMP)))
def get_VARTMP(root = False):
VARTMP = "/var/tmp"
if root: return VARTMP
return os.environ.get("TMPDIR", os.environ.get("TEMP", os.environ.get("TMP", VARTMP)))
def get_SHELL(root = False):
SHELL = "/bin/sh"
if root: return SHELL
return os.environ.get("SHELL", SHELL)
def get_RUNTIME_DIR(root = False):
RUN = "/run"
if root: return RUN
return os.environ.get("XDG_RUNTIME_DIR", get_runtime_dir())
def get_CONFIG_HOME(root = False):
CONFIG = "/etc"
if root: return CONFIG
HOME = get_HOME(root)
return os.environ.get("XDG_CONFIG_HOME", HOME + "/.config")
def get_CACHE_HOME(root = False):
CACHE = "/var/cache"
if root: return CACHE
HOME = get_HOME(root)
return os.environ.get("XDG_CACHE_HOME", HOME + "/.cache")
def get_DATA_HOME(root = False):
SHARE = "/usr/share"
if root: return SHARE
HOME = get_HOME(root)
return os.environ.get("XDG_DATA_HOME", HOME + "/.local/share")
def get_LOG_DIR(root = False):
LOGDIR = "/var/log"
if root: return LOGDIR
CONFIG = get_CONFIG_HOME(root)
return os.path.join(CONFIG, "log")
def get_VARLIB_HOME(root = False):
VARLIB = "/var/lib"
if root: return VARLIB
CONFIG = get_CONFIG_HOME(root)
return CONFIG
def expand_path(path, root = False):
HOME = get_HOME(root)
RUN = get_RUN(root)
LOG = get_LOG_DIR(root)
XDG_DATA_HOME=get_DATA_HOME(root)
XDG_CONFIG_HOME=get_CONFIG_HOME(root)
XDG_RUNTIME_DIR=get_RUNTIME_DIR(root)
return os.path.expanduser(path.replace("${","{").format(**locals()))
def shutil_chown(path, user, group):
if user or group:
uid, gid = -1, -1
if user:
uid = pwd.getpwnam(user).pw_uid
gid = pwd.getpwnam(user).pw_gid
if group:
gid = grp.getgrnam(group).gr_gid
os.chown(path, uid, gid)
def shutil_fchown(fileno, user, group):
if user or group:
uid, gid = -1, -1
if user:
uid = pwd.getpwnam(user).pw_uid
gid = pwd.getpwnam(user).pw_gid
if group:
gid = grp.getgrnam(group).gr_gid
os.fchown(fileno, uid, gid)
def shutil_setuid(user = None, group = None, xgroups = None):
""" set fork-child uid/gid (returns pw-info env-settings)"""
if group:
gid = grp.getgrnam(group).gr_gid
os.setgid(gid)
logg.debug("setgid %s for %s", gid, strQ(group))
groups = [ gid ]
try:
os.setgroups(groups)
logg.debug("setgroups %s < (%s)", groups, group)
except OSError as e: # pragma: no cover (it will occur in non-root mode anyway)
logg.debug("setgroups %s < (%s) : %s", groups, group, e)
if user:
pw = pwd.getpwnam(user)
gid = pw.pw_gid
gname = grp.getgrgid(gid).gr_name
if not group:
os.setgid(gid)
logg.debug("setgid %s for user %s", gid, strQ(user))
groupnames = [g.gr_name for g in grp.getgrall() if user in g.gr_mem]
groups = [g.gr_gid for g in grp.getgrall() if user in g.gr_mem]
if xgroups:
groups += [g.gr_gid for g in grp.getgrall() if g.gr_name in xgroups and g.gr_gid not in groups]
if not groups:
if group:
gid = grp.getgrnam(group).gr_gid
groups = [ gid ]
try:
os.setgroups(groups)
logg.debug("setgroups %s > %s ", groups, groupnames)
except OSError as e: # pragma: no cover (it will occur in non-root mode anyway)
logg.debug("setgroups %s > %s : %s", groups, groupnames, e)
uid = pw.pw_uid
os.setuid(uid)
logg.debug("setuid %s for user %s", uid, strQ(user))
home = pw.pw_dir
shell = pw.pw_shell
logname = pw.pw_name
return { "USER": user, "LOGNAME": logname, "HOME": home, "SHELL": shell }
return {}
def shutil_truncate(filename):
""" truncates the file (or creates a new empty file)"""
filedir = os.path.dirname(filename)
if not os.path.isdir(filedir):
os.makedirs(filedir)
f = open(filename, "w")
f.write("")
f.close()
# http://stackoverflow.com/questions/568271/how-to-check-if-there-exists-a-process-with-a-given-pid
def pid_exists(pid):
"""Check whether pid exists in the current process table."""
if pid is None: # pragma: no cover (is never null)
return False
return _pid_exists(int(pid))
def _pid_exists(pid):
"""Check whether pid exists in the current process table.
UNIX only.
"""
if pid < 0:
return False
if pid == 0:
# According to "man 2 kill" PID 0 refers to every process
# in the process group of the calling process.
# On certain systems 0 is a valid PID but we have no way
# to know that in a portable fashion.
raise ValueError('invalid PID 0')
try:
os.kill(pid, 0)
except OSError as err:
if err.errno == errno.ESRCH:
# ESRCH == No such process
return False
elif err.errno == errno.EPERM:
# EPERM clearly means there's a process to deny access to
return True
else:
# According to "man 2 kill" possible error values are
# (EINVAL, EPERM, ESRCH)
raise
else:
return True
def pid_zombie(pid):
""" may be a pid exists but it is only a zombie """
if pid is None:
return False
return _pid_zombie(int(pid))
def _pid_zombie(pid):
""" may be a pid exists but it is only a zombie """
if pid < 0:
return False
if pid == 0:
# According to "man 2 kill" PID 0 refers to every process
# in the process group of the calling process.
# On certain systems 0 is a valid PID but we have no way
# to know that in a portable fashion.
raise ValueError('invalid PID 0')
check = _proc_pid_status.format(**locals())
try:
for line in open(check):
if line.startswith("State:"):
return "Z" in line
except IOError as e:
if e.errno != errno.ENOENT:
logg.error("%s (%s): %s", check, e.errno, e)
return False
return False
def checkstatus(cmd):
if cmd.startswith("-"):
return False, cmd[1:]
else:
return True, cmd
# https://github.com/phusion/baseimage-docker/blob/rel-0.9.16/image/bin/my_init
def ignore_signals_and_raise_keyboard_interrupt(signame):
signal.signal(signal.SIGTERM, signal.SIG_IGN)
signal.signal(signal.SIGINT, signal.SIG_IGN)
raise KeyboardInterrupt(signame)
_default_dict_type = collections.OrderedDict
_default_conf_type = collections.OrderedDict
class SystemctlConfData:
""" A *.service files has a structure similar to an *.ini file so
that data is structured in sections and values. Actually the
values are lists - the raw data is in .getlist(). Otherwise
.get() will return the first line that was encountered. """
def __init__(self, defaults=None, dict_type=None, conf_type=None, allow_no_value=False):
self._defaults = defaults or {}
self._conf_type = conf_type or _default_conf_type
self._dict_type = dict_type or _default_dict_type
self._allow_no_value = allow_no_value
self._conf = self._conf_type()
self._files = []
def defaults(self):
return self._defaults
def sections(self):
return list(self._conf.keys())
def add_section(self, section):
if section not in self._conf:
self._conf[section] = self._dict_type()
def has_section(self, section):
return section in self._conf
def has_option(self, section, option):
if section not in self._conf:
return False
return option in self._conf[section]
def set(self, section, option, value):
if section not in self._conf:
self._conf[section] = self._dict_type()
if value is None:
self._conf[section][option] = []
elif option not in self._conf[section]:
self._conf[section][option] = [ value ]
else:
self._conf[section][option].append(value)
def getstr(self, section, option, default = None, allow_no_value = False):
done = self.get(section, option, strE(default), allow_no_value)
if done is None: return strE(default)
return done
def get(self, section, option, default = None, allow_no_value = False):
allow_no_value = allow_no_value or self._allow_no_value
if section not in self._conf:
if default is not None:
return default
if allow_no_value:
return None
logg.warning("section {} does not exist".format(section))
logg.warning(" have {}".format(self.sections()))
raise AttributeError("section {} does not exist".format(section))
if option not in self._conf[section]:
if default is not None:
return default
if allow_no_value:
return None
raise AttributeError("option {} in {} does not exist".format(option, section))
if not self._conf[section][option]: # i.e. an empty list
if default is not None:
return default
if allow_no_value:
return None
raise AttributeError("option {} in {} is None".format(option, section))
return self._conf[section][option][0] # the first line in the list of configs
def getlist(self, section, option, default = None, allow_no_value = False):
allow_no_value = allow_no_value or self._allow_no_value
if section not in self._conf:
if default is not None:
return default
if allow_no_value:
return []
logg.warning("section {} does not exist".format(section))
logg.warning(" have {}".format(self.sections()))
raise AttributeError("section {} does not exist".format(section))
if option not in self._conf[section]:
if default is not None:
return default
if allow_no_value:
return []
raise AttributeError("option {} in {} does not exist".format(option, section))
return self._conf[section][option] # returns a list, possibly empty
def filenames(self):
return self._files
class SystemctlConfigParser(SystemctlConfData):
""" A *.service files has a structure similar to an *.ini file but it is
actually not like it. Settings may occur multiple times in each section
and they create an implicit list. In reality all the settings are
globally uniqute, so that an 'environment' can be printed without
adding prefixes. Settings are continued with a backslash at the end
of the line. """
# def __init__(self, defaults=None, dict_type=None, allow_no_value=False):
# SystemctlConfData.__init__(self, defaults, dict_type, allow_no_value)
def read(self, filename):
return self.read_sysd(filename)
def read_sysd(self, filename):
initscript = False
initinfo = False
section = "GLOBAL"
nextline = False
name, text = "", ""
if os.path.isfile(filename):
self._files.append(filename)
for orig_line in open(filename):
if nextline:
text += orig_line
if text.rstrip().endswith("\\") or text.rstrip().endswith("\\\n"):
text = text.rstrip() + "\n"
else:
self.set(section, name, text)
nextline = False
continue
line = orig_line.strip()
if not line:
continue
if line.startswith("#"):
continue
if line.startswith(";"):
continue
if line.startswith(".include"):
logg.error("the '.include' syntax is deprecated. Use x.service.d/ drop-in files!")
includefile = re.sub(r'^\.include[ ]*', '', line).rstrip()
if not os.path.isfile(includefile):
raise Exception("tried to include file that doesn't exist: %s" % includefile)
self.read_sysd(includefile)
continue
if line.startswith("["):
x = line.find("]")
if x > 0:
section = line[1:x]
self.add_section(section)
continue
m = re.match(r"(\w+) *=(.*)", line)
if not m:
logg.warning("bad ini line: %s", line)
raise Exception("bad ini line")
name, text = m.group(1), m.group(2).strip()
if text.endswith("\\") or text.endswith("\\\n"):
nextline = True
text = text + "\n"
else:
# hint: an empty line shall reset the value-list
self.set(section, name, text and text or None)
return self
def read_sysv(self, filename):
""" an LSB header is scanned and converted to (almost)
equivalent settings of a SystemD ini-style input """
initscript = False
initinfo = False
section = "GLOBAL"
if os.path.isfile(filename):
self._files.append(filename)
for orig_line in open(filename):
line = orig_line.strip()
if line.startswith("#"):
if " BEGIN INIT INFO" in line:
initinfo = True
section = "init.d"
if " END INIT INFO" in line:
initinfo = False
if initinfo:
m = re.match(r"\S+\s*(\w[\w_-]*):(.*)", line)
if m:
key, val = m.group(1), m.group(2).strip()
self.set(section, key, val)
continue
self.systemd_sysv_generator(filename)
return self
def systemd_sysv_generator(self, filename):
""" see systemd-sysv-generator(8) """
self.set("Unit", "SourcePath", filename)
description = self.get("init.d", "Description", "")
if description:
self.set("Unit", "Description", description)
check = self.get("init.d", "Required-Start","")
if check:
for item in check.split(" "):
if item.strip() in _sysv_mappings:
self.set("Unit", "Requires", _sysv_mappings[item.strip()])
provides = self.get("init.d", "Provides", "")
if provides:
self.set("Install", "Alias", provides)
# if already in multi-user.target then start it there.
runlevels = self.getstr("init.d", "Default-Start","3 5")
for item in runlevels.split(" "):
if item.strip() in _runlevel_mappings:
self.set("Install", "WantedBy", _runlevel_mappings[item.strip()])
self.set("Service", "Restart", "no")
self.set("Service", "TimeoutSec", strE(DefaultMaximumTimeout))
self.set("Service", "KillMode", "process")
self.set("Service", "GuessMainPID", "no")
# self.set("Service", "RemainAfterExit", "yes")
# self.set("Service", "SuccessExitStatus", "5 6")
self.set("Service", "ExecStart", filename + " start")
self.set("Service", "ExecStop", filename + " stop")
if description: # LSB style initscript
self.set("Service", "ExecReload", filename + " reload")
self.set("Service", "Type", "forking") # not "sysv" anymore
# UnitConfParser = ConfigParser.RawConfigParser
UnitConfParser = SystemctlConfigParser
class SystemctlSocket:
def __init__(self, conf, sock, skip = False):
self.conf = conf
self.sock = sock
self.skip = skip
def fileno(self):
return self.sock.fileno()
def listen(self, backlog = None):
if backlog is None:
backlog = DefaultListenBacklog
dgram = (self.sock.type == socket.SOCK_DGRAM)
if not dgram and not self.skip:
self.sock.listen(backlog)
def name(self):
return self.conf.name()
def addr(self):
stream = self.conf.get("Socket", "ListenStream", "")
dgram = self.conf.get("Socket", "ListenDatagram", "")
return stream or dgram
def close(self):
self.sock.close()
class SystemctlConf:
def __init__(self, data, module = None):
self.data = data # UnitConfParser
self.env = {}
self.status = None
self.masked = None
self.module = module
self.nonloaded_path = ""
self.drop_in_files = {}
self._root = _root
self._user_mode = _user_mode
def root_mode(self):
return not self._user_mode
def loaded(self):
files = self.data.filenames()
if self.masked:
return "masked"
if len(files):
return "loaded"
return ""
def filename(self):
""" returns the last filename that was parsed """
files = self.data.filenames()
if files:
return files[0]
return None
def overrides(self):
""" drop-in files are loaded alphabetically by name, not by full path """
return [ self.drop_in_files[name] for name in sorted(self.drop_in_files) ]
def name(self):
""" the unit id or defaults to the file name """
name = self.module or ""
filename = self.filename()
if filename:
name = os.path.basename(filename)
return self.module or name
def set(self, section, name, value):
return self.data.set(section, name, value)
def get(self, section, name, default, allow_no_value = False):
return self.data.getstr(section, name, default, allow_no_value)
def getlist(self, section, name, default = None, allow_no_value = False):
return self.data.getlist(section, name, default or [], allow_no_value)
def getbool(self, section, name, default = None):
value = self.data.get(section, name, default or "no")
if value:
if value[0] in "TtYy123456789":
return True
return False
class PresetFile:
def __init__(self):
self._files = []
self._lines = []
def filename(self):
""" returns the last filename that was parsed """
if self._files:
return self._files[-1]
return None
def read(self, filename):
self._files.append(filename)
for line in open(filename):
self._lines.append(line.strip())
return self
def get_preset(self, unit):
for line in self._lines:
m = re.match(r"(enable|disable)\s+(\S+)", line)
if m:
status, pattern = m.group(1), m.group(2)
if fnmatch.fnmatchcase(unit, pattern):
logg.debug("%s %s => %s %s", status, pattern, unit, strQ(self.filename()))
return status
return None
## with waitlock(conf): self.start()
class waitlock:
def __init__(self, conf):
self.conf = conf # currently unused
self.opened = -1
self.lockfolder = expand_path(_notify_socket_folder, conf.root_mode())
try:
folder = self.lockfolder
if not os.path.isdir(folder):
os.makedirs(folder)
except Exception as e:
logg.warning("oops, %s", e)
def lockfile(self):
unit = ""
if self.conf:
unit = self.conf.name()
return os.path.join(self.lockfolder, str(unit or "global") + ".lock")
def __enter__(self):
try:
lockfile = self.lockfile()
lockname = os.path.basename(lockfile)
self.opened = os.open(lockfile, os.O_RDWR | os.O_CREAT, 0o600)
for attempt in xrange(int(MaxLockWait or DefaultMaximumTimeout)):
try:
logg_debug_flock("[%s] %s. trying %s _______ ", os.getpid(), attempt, lockname)
fcntl.flock(self.opened, fcntl.LOCK_EX | fcntl.LOCK_NB)
st = os.fstat(self.opened)
if not st.st_nlink:
logg_debug_flock("[%s] %s. %s got deleted, trying again", os.getpid(), attempt, lockname)
os.close(self.opened)
self.opened = os.open(lockfile, os.O_RDWR | os.O_CREAT, 0o600)
continue
content = "{ 'systemctl': %s, 'lock': '%s' }\n" % (os.getpid(), lockname)
os.write(self.opened, content.encode("utf-8"))
logg_debug_flock("[%s] %s. holding lock on %s", os.getpid(), attempt, lockname)
return True
except IOError as e:
whom = os.read(self.opened, 4096)
os.lseek(self.opened, 0, os.SEEK_SET)
logg.info("[%s] %s. systemctl locked by %s", os.getpid(), attempt, whom.rstrip())
time.sleep(1) # until MaxLockWait
continue
logg.error("[%s] not able to get the lock to %s", os.getpid(), lockname)
except Exception as e:
logg.warning("[%s] oops %s, %s", os.getpid(), str(type(e)), e)
#TODO# raise Exception("no lock for %s", self.unit or "global")
return False
def __exit__(self, type, value, traceback):
try:
os.lseek(self.opened, 0, os.SEEK_SET)
os.ftruncate(self.opened, 0)
if REMOVE_LOCK_FILE: # an optional implementation
lockfile = self.lockfile()
lockname = os.path.basename(lockfile)
os.unlink(lockfile) # ino is kept allocated because opened by this process
logg.debug("[%s] lockfile removed for %s", os.getpid(), lockname)
fcntl.flock(self.opened, fcntl.LOCK_UN)
os.close(self.opened) # implies an unlock but that has happend like 6 seconds later
self.opened = -1
except Exception as e:
logg.warning("oops, %s", e)
waitpid_result = collections.namedtuple("waitpid", ["pid", "returncode", "signal" ])
def must_have_failed(waitpid, cmd):
# found to be needed on ubuntu:16.04 to match test result from ubuntu:18.04 and other distros
# .... I have tracked it down that python's os.waitpid() returns an exitcode==0 even when the
# .... underlying process has actually failed with an exitcode<>0. It is unknown where that
# .... bug comes from but it seems a bit serious to trash some very basic unix functionality.
# .... Essentially a parent process does not get the correct exitcode from its own children.
if cmd and cmd[0] == "/bin/kill":
pid = None
for arg in cmd[1:]:
if not arg.startswith("-"):
pid = arg
if pid is None: # unknown $MAINPID
if not waitpid.returncode:
logg.error("waitpid %s did return %s => correcting as 11", cmd, waitpid.returncode)
waitpid = waitpid_result(waitpid.pid, 11, waitpid.signal)
return waitpid
def subprocess_waitpid(pid):
run_pid, run_stat = os.waitpid(pid, 0)
return waitpid_result(run_pid, os.WEXITSTATUS(run_stat), os.WTERMSIG(run_stat))
def subprocess_testpid(pid):
run_pid, run_stat = os.waitpid(pid, os.WNOHANG)
if run_pid:
return waitpid_result(run_pid, os.WEXITSTATUS(run_stat), os.WTERMSIG(run_stat))
else:
return waitpid_result(pid, None, 0)
parse_result = collections.namedtuple("UnitName", ["fullname", "name", "prefix", "instance", "suffix", "component" ])
def parse_unit(fullname): # -> object(prefix, instance, suffix, ...., name, component)
name, suffix = fullname, ""
has_suffix = fullname.rfind(".")
if has_suffix > 0:
name = fullname[:has_suffix]
suffix = fullname[has_suffix+1:]
prefix, instance = name, ""
has_instance = name.find("@")
if has_instance > 0:
prefix = name[:has_instance]
instance = name[has_instance+1:]
component = ""
has_component = prefix.rfind("-")
if has_component > 0:
component = prefix[has_component+1:]
return parse_result(fullname, name, prefix, instance, suffix, component)
def time_to_seconds(text, maximum):
value = 0.
for part in str(text).split(" "):
item = part.strip()
if item == "infinity":
return maximum
if item.endswith("m"):
try: value += 60 * int(item[:-1])
except: pass # pragma: no cover
if item.endswith("min"):
try: value += 60 * int(item[:-3])
except: pass # pragma: no cover
elif item.endswith("ms"):
try: value += int(item[:-2]) / 1000.
except: pass # pragma: no cover
elif item.endswith("s"):
try: value += int(item[:-1])
except: pass # pragma: no cover
elif item:
try: value += int(item)
except: pass # pragma: no cover
if value > maximum:
return maximum
if not value and text.strip() == "0":
return 0.
if not value:
return 1.
return value
def seconds_to_time(seconds):
seconds = float(seconds)
mins = int(int(seconds) / 60)
secs = int(int(seconds) - (mins * 60))
msecs = int(int(seconds * 1000) - (secs * 1000 + mins * 60000))
if mins and secs and msecs:
return "%smin %ss %sms" % (mins, secs, msecs)
elif mins and secs:
return "%smin %ss" % (mins, secs)
elif secs and msecs:
return "%ss %sms" % (secs, msecs)
elif mins and msecs:
return "%smin %sms" % (mins, msecs)
elif mins:
return "%smin" % (mins)
else:
return "%ss" % (secs)
def getBefore(conf):
result = []
beforelist = conf.getlist("Unit", "Before", [])
for befores in beforelist:
for before in befores.split(" "):
name = before.strip()
if name and name not in result:
result.append(name)
return result
def getAfter(conf):
result = []
afterlist = conf.getlist("Unit", "After", [])
for afters in afterlist:
for after in afters.split(" "):
name = after.strip()
if name and name not in result:
result.append(name)
return result
def compareAfter(confA, confB):
idA = confA.name()
idB = confB.name()
for after in getAfter(confA):
if after == idB:
logg.debug("%s After %s", idA, idB)
return -1
for after in getAfter(confB):
if after == idA:
logg.debug("%s After %s", idB, idA)
return 1
for before in getBefore(confA):
if before == idB:
logg.debug("%s Before %s", idA, idB)
return 1
for before in getBefore(confB):
if before == idA:
logg.debug("%s Before %s", idB, idA)
return -1
return 0
def conf_sortedAfter(conflist, cmp = compareAfter):
# the normal sorted() does only look at two items
# so if "A after C" and a list [A, B, C] then
# it will see "A = B" and "B = C" assuming that
# "A = C" and the list is already sorted.
#
# To make a totalsorted we have to create a marker
# that informs sorted() that also B has a relation.
# It only works when 'after' has a direction, so
# anything without 'before' is a 'after'. In that
# case we find that "B after C".
class SortTuple:
def __init__(self, rank, conf):
self.rank = rank
self.conf = conf
sortlist = [ SortTuple(0, conf) for conf in conflist]
for check in xrange(len(sortlist)): # maxrank = len(sortlist)
changed = 0
for A in xrange(len(sortlist)):
for B in xrange(len(sortlist)):
if A != B:
itemA = sortlist[A]
itemB = sortlist[B]
before = compareAfter(itemA.conf, itemB.conf)
if before > 0 and itemA.rank <= itemB.rank:
logg_debug_after(" %-30s before %s", itemA.conf.name(), itemB.conf.name())
itemA.rank = itemB.rank + 1
changed += 1
if before < 0 and itemB.rank <= itemA.rank:
logg_debug_after(" %-30s before %s", itemB.conf.name(), itemA.conf.name())
itemB.rank = itemA.rank + 1
changed += 1
if not changed:
logg_debug_after("done in check %s of %s", check, len(sortlist))
break
# because Requires is almost always the same as the After clauses
# we are mostly done in round 1 as the list is in required order
for conf in conflist:
logg_debug_after(".. %s", conf.name())
for item in sortlist:
logg_debug_after("(%s) %s", item.rank, item.conf.name())
sortedlist = sorted(sortlist, key = lambda item: -item.rank)
for item in sortedlist:
logg_debug_after("[%s] %s", item.rank, item.conf.name())
return [ item.conf for item in sortedlist ]
class SystemctlListenThread(threading.Thread):
def __init__(self, systemctl):
threading.Thread.__init__(self, name="listen")
self.systemctl = systemctl
self.stopped = threading.Event()
def stop(self):
self.stopped.set()
def run(self):
READ_ONLY = select.POLLIN | select.POLLPRI | select.POLLHUP | select.POLLERR
READ_WRITE = READ_ONLY | select.POLLOUT
me = os.getpid()
if DEBUG_INITLOOP: # pragma: no cover
logg.info("[%s] listen: new thread", me)
if not self.systemctl._sockets:
return
if DEBUG_INITLOOP: # pragma: no cover
logg.info("[%s] listen: start thread", me)
listen = select.poll()
for sock in self.systemctl._sockets.values():
listen.register(sock, READ_ONLY)
sock.listen()
logg.debug("[%s] listen: %s :%s", me, sock.name(), sock.addr())
timestamp = time.time()
while not self.stopped.is_set():
try:
sleep_sec = InitLoopSleep - (time.time() - timestamp)
if sleep_sec < MinimumYield:
sleep_sec = MinimumYield
sleeping = sleep_sec
while sleeping > 2:
time.sleep(1) # accept signals atleast every second
sleeping = InitLoopSleep - (time.time() - timestamp)
if sleeping < MinimumYield:
sleeping = MinimumYield
break
time.sleep(sleeping) # remainder waits less that 2 seconds
if DEBUG_INITLOOP: # pragma: no cover
logg.debug("[%s] listen: poll", me)
accepting = listen.poll(100) # milliseconds
if DEBUG_INITLOOP: # pragma: no cover
logg.debug("[%s] listen: poll (%s)", me, len(accepting))
for sock_fileno, event in accepting:
for sock in self.systemctl._sockets.values():
if sock.fileno() == sock_fileno:
if not self.stopped.is_set():
if self.systemctl.loop.acquire():
logg.debug("[%s] listen: accept %s :%s", me, sock.name(), sock_fileno)
self.systemctl.do_accept_socket_from(sock.conf, sock.sock)
except Exception as e:
logg.info("[%s] listen: interrupted - exception %s", me, e)
raise
for sock in self.systemctl._sockets.values():
try:
listen.unregister(sock)
sock.close()
except Exception as e:
logg.warning("[%s] listen: close socket: %s", me, e)
return
class Systemctl:
def __init__(self):
self.error = NOT_A_PROBLEM # program exitcode or process returncode
# from command line options or the defaults
self._extra_vars = _extra_vars
self._force = _force
self._full = _full
self._init = _init
self._no_ask_password = _no_ask_password
self._no_legend = _no_legend
self._now = _now
self._preset_mode = _preset_mode
self._quiet = _quiet
self._root = _root
self._show_all = _show_all
self._unit_property = _unit_property
self._unit_state = _unit_state
self._unit_type = _unit_type
# some common constants that may be changed
self._systemd_version = SystemCompatibilityVersion
self._journal_log_folder = _journal_log_folder
# and the actual internal runtime state
self._loaded_file_sysv = {} # /etc/init.d/name => config data
self._loaded_file_sysd = {} # /etc/systemd/system/name.service => config data
self._file_for_unit_sysv = None # name.service => /etc/init.d/name
self._file_for_unit_sysd = None # name.service => /etc/systemd/system/name.service
self._preset_file_list = None # /etc/systemd/system-preset/* => file content
self._default_target = DefaultTarget
self._sysinit_target = None # stores a UnitConf()
self.doExitWhenNoMoreProcs = ExitWhenNoMoreProcs or False
self.doExitWhenNoMoreServices = ExitWhenNoMoreServices or False
self._user_mode = _user_mode
self._user_getlogin = os_getlogin()
self._log_file = {} # init-loop
self._log_hold = {} # init-loop
self._boottime = None # cache self.get_boottime()
self._SYSTEMD_UNIT_PATH = None
self._SYSTEMD_SYSVINIT_PATH = None
self._SYSTEMD_PRESET_PATH = None
self._restarted_unit = {}
self._restart_failed_units = {}
self._sockets = {}
self.loop = threading.Lock()
def user(self):
return self._user_getlogin
def user_mode(self):
return self._user_mode
def user_folder(self):
for folder in self.user_folders():
if folder: return folder
raise Exception("did not find any systemd/user folder")
def system_folder(self):
for folder in self.system_folders():
if folder: return folder
raise Exception("did not find any systemd/system folder")
def preset_folders(self):
SYSTEMD_PRESET_PATH = self.get_SYSTEMD_PRESET_PATH()
for path in SYSTEMD_PRESET_PATH.split(":"):
if path.strip(): yield expand_path(path.strip())
if SYSTEMD_PRESET_PATH.endswith(":"):
if _preset_folder1: yield _preset_folder1
if _preset_folder2: yield _preset_folder2
if _preset_folder3: yield _preset_folder3
if _preset_folder4: yield _preset_folder4
if _preset_folder5: yield _preset_folder5
if _preset_folder6: yield _preset_folder6
if _preset_folderX: yield _preset_folderX
def init_folders(self):
SYSTEMD_SYSVINIT_PATH = self.get_SYSTEMD_SYSVINIT_PATH()
for path in SYSTEMD_SYSVINIT_PATH.split(":"):
if path.strip(): yield expand_path(path.strip())
if SYSTEMD_SYSVINIT_PATH.endswith(":"):
if _init_folder1: yield _init_folder1
if _init_folder2: yield _init_folder2
if _init_folder3: yield _init_folder3
if _init_folderX: yield _init_folderX
def user_folders(self):
SYSTEMD_UNIT_PATH = self.get_SYSTEMD_UNIT_PATH()
for path in SYSTEMD_UNIT_PATH.split(":"):
if path.strip(): yield expand_path(path.strip())
if SYSTEMD_UNIT_PATH.endswith(":"):
if _user_folder1: yield expand_path(_user_folder1)
if _user_folder2: yield expand_path(_user_folder2)
if _user_folder3: yield expand_path(_user_folder3)
if _user_folder4: yield expand_path(_user_folder4)
if _user_folder5: yield expand_path(_user_folder5)
if _user_folder6: yield expand_path(_user_folder6)
if _user_folder7: yield expand_path(_user_folder7)
if _user_folder8: yield expand_path(_user_folder8)
if _user_folder9: yield expand_path(_user_folder9)
if _user_folderX: yield expand_path(_user_folderX)
def system_folders(self):
SYSTEMD_UNIT_PATH = self.get_SYSTEMD_UNIT_PATH()
for path in SYSTEMD_UNIT_PATH.split(":"):
if path.strip(): yield expand_path(path.strip())
if SYSTEMD_UNIT_PATH.endswith(":"):
if _system_folder1: yield _system_folder1
if _system_folder2: yield _system_folder2
if _system_folder3: yield _system_folder3
if _system_folder4: yield _system_folder4
if _system_folder5: yield _system_folder5
if _system_folder6: yield _system_folder6
if _system_folderX: yield _system_folderX
def get_SYSTEMD_UNIT_PATH(self):
if self._SYSTEMD_UNIT_PATH is None:
self._SYSTEMD_UNIT_PATH = os.environ.get("SYSTEMD_UNIT_PATH", ":")
assert self._SYSTEMD_UNIT_PATH is not None
return self._SYSTEMD_UNIT_PATH
def get_SYSTEMD_SYSVINIT_PATH(self):
if self._SYSTEMD_SYSVINIT_PATH is None:
self._SYSTEMD_SYSVINIT_PATH = os.environ.get("SYSTEMD_SYSVINIT_PATH", ":")
assert self._SYSTEMD_SYSVINIT_PATH is not None
return self._SYSTEMD_SYSVINIT_PATH
def get_SYSTEMD_PRESET_PATH(self):
if self._SYSTEMD_PRESET_PATH is None:
self._SYSTEMD_PRESET_PATH = os.environ.get("SYSTEMD_PRESET_PATH", ":")
assert self._SYSTEMD_PRESET_PATH is not None
return self._SYSTEMD_PRESET_PATH
def sysd_folders(self):
""" if --user then these folders are preferred """
if self.user_mode():
for folder in self.user_folders():
yield folder
if True:
for folder in self.system_folders():
yield folder
def scan_unit_sysd_files(self, module = None): # -> [ unit-names,... ]
""" reads all unit files, returns the first filename for the unit given """
if self._file_for_unit_sysd is None:
self._file_for_unit_sysd = {}
for folder in self.sysd_folders():
if not folder:
continue
folder = os_path(self._root, folder)
if not os.path.isdir(folder):
continue
for name in os.listdir(folder):
path = os.path.join(folder, name)
if os.path.isdir(path):
continue
service_name = name
if service_name not in self._file_for_unit_sysd:
self._file_for_unit_sysd[service_name] = path
logg.debug("found %s sysd files", len(self._file_for_unit_sysd))
return list(self._file_for_unit_sysd.keys())
def scan_unit_sysv_files(self, module = None): # -> [ unit-names,... ]
""" reads all init.d files, returns the first filename when unit is a '.service' """
if self._file_for_unit_sysv is None:
self._file_for_unit_sysv = {}
for folder in self.init_folders():
if not folder:
continue
folder = os_path(self._root, folder)
if not os.path.isdir(folder):
continue
for name in os.listdir(folder):
path = os.path.join(folder, name)
if os.path.isdir(path):
continue
service_name = name + ".service" # simulate systemd
if service_name not in self._file_for_unit_sysv:
self._file_for_unit_sysv[service_name] = path
logg.debug("found %s sysv files", len(self._file_for_unit_sysv))
return list(self._file_for_unit_sysv.keys())
def unit_sysd_file(self, module = None): # -> filename?
""" file path for the given module (systemd) """
self.scan_unit_sysd_files()
assert self._file_for_unit_sysd is not None
if module and module in self._file_for_unit_sysd:
return self._file_for_unit_sysd[module]
if module and unit_of(module) in self._file_for_unit_sysd:
return self._file_for_unit_sysd[unit_of(module)]
return None
def unit_sysv_file(self, module = None): # -> filename?
""" file path for the given module (sysv) """
self.scan_unit_sysv_files()
assert self._file_for_unit_sysv is not None
if module and module in self._file_for_unit_sysv:
return self._file_for_unit_sysv[module]
if module and unit_of(module) in self._file_for_unit_sysv:
return self._file_for_unit_sysv[unit_of(module)]
return None
def unit_file(self, module = None): # -> filename?
""" file path for the given module (sysv or systemd) """
path = self.unit_sysd_file(module)
if path is not None: return path
path = self.unit_sysv_file(module)
if path is not None: return path
return None
def is_sysv_file(self, filename):
""" for routines that have a special treatment for init.d services """
self.unit_file() # scan all
assert self._file_for_unit_sysd is not None
assert self._file_for_unit_sysv is not None
if not filename: return None
if filename in self._file_for_unit_sysd.values(): return False
if filename in self._file_for_unit_sysv.values(): return True
return None # not True
def is_user_conf(self, conf):
if not conf: # pragma: no cover (is never null)
return False
filename = conf.nonloaded_path or conf.filename()
if filename and "/user/" in filename:
return True
return False
def not_user_conf(self, conf):
""" conf can not be started as user service (when --user)"""
if conf is None: # pragma: no cover (is never null)
return True
if not self.user_mode():
logg.debug("%s no --user mode >> accept", strQ(conf.filename()))
return False
if self.is_user_conf(conf):
logg.debug("%s is /user/ conf >> accept", strQ(conf.filename()))
return False
# to allow for 'docker run -u user' with system services
user = self.get_User(conf)
if user and user == self.user():
logg.debug("%s with User=%s >> accept", strQ(conf.filename()), user)
return False
return True
def find_drop_in_files(self, unit):
""" search for some.service.d/extra.conf files """
result = {}
basename_d = unit + ".d"
for folder in self.sysd_folders():
if not folder:
continue
folder = os_path(self._root, folder)
override_d = os_path(folder, basename_d)
if not os.path.isdir(override_d):
continue
for name in os.listdir(override_d):
path = os.path.join(override_d, name)
if os.path.isdir(path):
continue
if not path.endswith(".conf"):
continue
if name not in result:
result[name] = path
return result
def load_sysd_template_conf(self, module): # -> conf?
""" read the unit template with a UnitConfParser (systemd) """
if module and "@" in module:
unit = parse_unit(module)
service = "%[email protected]" % unit.prefix
conf = self.load_sysd_unit_conf(service)
if conf:
conf.module = module
return conf
return None
def load_sysd_unit_conf(self, module): # -> conf?
""" read the unit file with a UnitConfParser (systemd) """
path = self.unit_sysd_file(module)
if not path: return None
assert self._loaded_file_sysd is not None
if path in self._loaded_file_sysd:
return self._loaded_file_sysd[path]
masked = None
if os.path.islink(path) and os.readlink(path).startswith("/dev"):
masked = os.readlink(path)
drop_in_files = {}
data = UnitConfParser()
if not masked:
data.read_sysd(path)
drop_in_files = self.find_drop_in_files(os.path.basename(path))
# load in alphabetic order, irrespective of location
for name in sorted(drop_in_files):
path = drop_in_files[name]
data.read_sysd(path)
conf = SystemctlConf(data, module)
conf.masked = masked
conf.nonloaded_path = path # if masked
conf.drop_in_files = drop_in_files
conf._root = self._root
self._loaded_file_sysd[path] = conf
return conf
def load_sysv_unit_conf(self, module): # -> conf?
""" read the unit file with a UnitConfParser (sysv) """
path = self.unit_sysv_file(module)
if not path: return None
assert self._loaded_file_sysv is not None
if path in self._loaded_file_sysv:
return self._loaded_file_sysv[path]
data = UnitConfParser()
data.read_sysv(path)
conf = SystemctlConf(data, module)
conf._root = self._root
self._loaded_file_sysv[path] = conf
return conf
def load_unit_conf(self, module): # -> conf | None(not-found)
""" read the unit file with a UnitConfParser (sysv or systemd) """
try:
conf = self.load_sysd_unit_conf(module)
if conf is not None:
return conf
conf = self.load_sysd_template_conf(module)
if conf is not None:
return conf
conf = self.load_sysv_unit_conf(module)
if conf is not None:
return conf
except Exception as e:
logg.warning("%s not loaded: %s", module, e)
return None
def default_unit_conf(self, module, description = None): # -> conf
""" a unit conf that can be printed to the user where
attributes are empty and loaded() is False """
data = UnitConfParser()
data.set("Unit", "Description", description or ("NOT-FOUND " + str(module)))
# assert(not data.loaded())
conf = SystemctlConf(data, module)
conf._root = self._root
return conf
def get_unit_conf(self, module): # -> conf (conf | default-conf)
""" accept that a unit does not exist
and return a unit conf that says 'not-loaded' """
conf = self.load_unit_conf(module)
if conf is not None:
return conf
return self.default_unit_conf(module)
def get_unit_type(self, module):
name, ext = os.path.splitext(module)
if ext in [".service", ".socket", ".target"]:
return ext[1:]
return None
def get_unit_section(self, module, default = "Service"):
return string.capwords(self.get_unit_type(module) or default)
def get_unit_section_from(self, conf, default = "Service"):
return self.get_unit_section(conf.name(), default)
def match_sysd_templates(self, modules = None, suffix=".service"): # -> generate[ unit ]
""" make a file glob on all known template units (systemd areas).
It returns no modules (!!) if no modules pattern were given.
The module string should contain an instance name already. """
modules = to_list(modules)
if not modules:
return
self.scan_unit_sysd_files()
assert self._file_for_unit_sysd is not None
for item in sorted(self._file_for_unit_sysd.keys()):
if "@" not in item:
continue
service_unit = parse_unit(item)
for module in modules:
if "@" not in module:
continue
module_unit = parse_unit(module)
if service_unit.prefix == module_unit.prefix:
yield "%s@%s.%s" % (service_unit.prefix, module_unit.instance, service_unit.suffix)
def match_sysd_units(self, modules = None, suffix=".service"): # -> generate[ unit ]
""" make a file glob on all known units (systemd areas).
It returns all modules if no modules pattern were given.
Also a single string as one module pattern may be given. """
modules = to_list(modules)
self.scan_unit_sysd_files()
assert self._file_for_unit_sysd is not None
for item in sorted(self._file_for_unit_sysd.keys()):
if not modules:
yield item
elif [ module for module in modules if fnmatch.fnmatchcase(item, module) ]:
yield item
elif [ module for module in modules if module+suffix == item ]:
yield item
def match_sysv_units(self, modules = None, suffix=".service"): # -> generate[ unit ]
""" make a file glob on all known units (sysv areas).
It returns all modules if no modules pattern were given.
Also a single string as one module pattern may be given. """
modules = to_list(modules)
self.scan_unit_sysv_files()
assert self._file_for_unit_sysv is not None
for item in sorted(self._file_for_unit_sysv.keys()):
if not modules:
yield item
elif [ module for module in modules if fnmatch.fnmatchcase(item, module) ]:
yield item
elif [ module for module in modules if module+suffix == item ]:
yield item
def match_units(self, modules = None, suffix=".service"): # -> [ units,.. ]
""" Helper for about any command with multiple units which can
actually be glob patterns on their respective unit name.
It returns all modules if no modules pattern were given.
Also a single string as one module pattern may be given. """
found = []
for unit in self.match_sysd_units(modules, suffix):
if unit not in found:
found.append(unit)
for unit in self.match_sysd_templates(modules, suffix):
if unit not in found:
found.append(unit)
for unit in self.match_sysv_units(modules, suffix):
if unit not in found:
found.append(unit)
return found
def list_service_unit_basics(self):
""" show all the basic loading state of services """
filename = self.unit_file() # scan all
assert self._file_for_unit_sysd is not None
assert self._file_for_unit_sysv is not None
result = []
for name, value in self._file_for_unit_sysd.items():
result += [ (name, "SysD", value) ]
for name, value in self._file_for_unit_sysv.items():
result += [ (name, "SysV", value) ]
return result
def list_service_units(self, *modules): # -> [ (unit,loaded+active+substate,description) ]
""" show all the service units """
result = {}
active = {}
substate = {}
description = {}
for unit in self.match_units(to_list(modules)):
result[unit] = "not-found"
active[unit] = "inactive"
substate[unit] = "dead"
description[unit] = ""
try:
conf = self.get_unit_conf(unit)
result[unit] = "loaded"
description[unit] = self.get_description_from(conf)
active[unit] = self.get_active_from(conf)
substate[unit] = self.get_substate_from(conf) or "unknown"
except Exception as e:
logg.warning("list-units: %s", e)
if self._unit_state:
if self._unit_state not in [ result[unit], active[unit], substate[unit] ]:
del result[unit]
return [ (unit, result[unit] + " " + active[unit] + " " + substate[unit], description[unit]) for unit in sorted(result) ]
def show_list_units(self, *modules): # -> [ (unit,loaded,description) ]
""" [PATTERN]... -- List loaded units.
If one or more PATTERNs are specified, only units matching one of
them are shown. NOTE: This is the default command."""
hint = "To show all installed unit files use 'systemctl list-unit-files'."
result = self.list_service_units(*modules)
if self._no_legend:
return result
found = "%s loaded units listed." % len(result)
return result + [ ("", "", ""), (found, "", ""), (hint, "", "") ]
def list_service_unit_files(self, *modules): # -> [ (unit,enabled) ]
""" show all the service units and the enabled status"""
logg.debug("list service unit files for %s", modules)
result = {}
enabled = {}
for unit in self.match_units(to_list(modules)):
if _unit_type and self.get_unit_type(unit) not in _unit_type.split(","):
continue
result[unit] = None
enabled[unit] = ""
try:
conf = self.get_unit_conf(unit)
if self.not_user_conf(conf):
result[unit] = None
continue
result[unit] = conf
enabled[unit] = self.enabled_from(conf)
except Exception as e:
logg.warning("list-units: %s", e)
return [ (unit, enabled[unit]) for unit in sorted(result) if result[unit] ]
def each_target_file(self):
folders = self.system_folders()
if self.user_mode():
folders = self.user_folders()
for folder1 in folders:
folder = os_path(self._root, folder1)
if not os.path.isdir(folder):
continue
for filename in os.listdir(folder):
if filename.endswith(".target"):
yield (filename, os.path.join(folder, filename))
def list_target_unit_files(self, *modules): # -> [ (unit,enabled) ]
""" show all the target units and the enabled status"""
enabled = {}
targets = {}
for target, filepath in self.each_target_file():
logg.info("target %s", filepath)
targets[target] = filepath
enabled[target] = "static"
for unit in _all_common_targets:
targets[unit] = None
enabled[unit] = "static"
if unit in _all_common_enabled:
enabled[unit] = "enabled"
if unit in _all_common_disabled:
enabled[unit] = "disabled"
return [ (unit, enabled[unit]) for unit in sorted(targets) ]
def show_list_unit_files(self, *modules): # -> [ (unit,enabled) ]
"""[PATTERN]... -- List installed unit files
List installed unit files and their enablement state (as reported
by is-enabled). If one or more PATTERNs are specified, only units
whose filename (just the last component of the path) matches one of
them are shown. This command reacts to limitations of --type being
--type=service or --type=target (and --now for some basics)."""
result = []
if self._now:
basics = self.list_service_unit_basics()
result = [ (name, sysv + " " + filename) for name, sysv, filename in basics ]
elif self._unit_type == "target":
result = self.list_target_unit_files()
elif self._unit_type == "service":
result = self.list_service_unit_files()
elif self._unit_type:
logg.warning("unsupported unit --type=%s", self._unit_type)
else:
result = self.list_target_unit_files()
result += self.list_service_unit_files(*modules)
if self._no_legend:
return result
found = "%s unit files listed." % len(result)
return [ ("UNIT FILE", "STATE") ] + result + [ ("", ""), (found, "") ]
##
##
def get_description(self, unit, default = None):
return self.get_description_from(self.load_unit_conf(unit))
def get_description_from(self, conf, default = None): # -> text
""" Unit.Description could be empty sometimes """
if not conf: return default or ""
description = conf.get("Unit", "Description", default or "")
return self.expand_special(description, conf)
def read_pid_file(self, pid_file, default = None):
pid = default
if not pid_file:
return default
if not os.path.isfile(pid_file):
return default
if self.truncate_old(pid_file):
return default
try:
# some pid-files from applications contain multiple lines
for line in open(pid_file):
if line.strip():
pid = to_intN(line.strip())
break
except Exception as e:
logg.warning("bad read of pid file '%s': %s", pid_file, e)
return pid
def wait_pid_file(self, pid_file, timeout = None): # -> pid?
""" wait some seconds for the pid file to appear and return the pid """
timeout = int(timeout or (DefaultTimeoutStartSec/2))
timeout = max(timeout, (MinimumTimeoutStartSec))
dirpath = os.path.dirname(os.path.abspath(pid_file))
for x in xrange(timeout):
if not os.path.isdir(dirpath):
time.sleep(1) # until TimeoutStartSec/2
continue
pid = self.read_pid_file(pid_file)
if not pid:
time.sleep(1) # until TimeoutStartSec/2
continue
if not pid_exists(pid):
time.sleep(1) # until TimeoutStartSec/2
continue
return pid
return None
def test_pid_file(self, unit): # -> text
""" support for the testsuite.py """
conf = self.get_unit_conf(unit)
return self.pid_file_from(conf) or self.get_status_file_from(conf)
def pid_file_from(self, conf, default = ""):
""" get the specified pid file path (not a computed default) """
pid_file = self.get_pid_file(conf) or default
return os_path(self._root, self.expand_special(pid_file, conf))
def get_pid_file(self, conf, default = None):
return conf.get("Service", "PIDFile", default)
def read_mainpid_from(self, conf, default = None):
""" MAINPID is either the PIDFile content written from the application
or it is the value in the status file written by this systemctl.py code """
pid_file = self.pid_file_from(conf)
if pid_file:
return self.read_pid_file(pid_file, default)
status = self.read_status_from(conf)
if "MainPID" in status:
return to_intN(status["MainPID"], default)
return default
def clean_pid_file_from(self, conf):
pid_file = self.pid_file_from(conf)
if pid_file and os.path.isfile(pid_file):
try:
os.remove(pid_file)
except OSError as e:
logg.warning("while rm %s: %s", pid_file, e)
self.write_status_from(conf, MainPID=None)
def get_status_file(self, unit): # for testing
conf = self.get_unit_conf(unit)
return self.get_status_file_from(conf)
def get_status_file_from(self, conf, default = None):
status_file = self.get_StatusFile(conf)
# this not a real setting, but do the expand_special anyway
return os_path(self._root, self.expand_special(status_file, conf))
def get_StatusFile(self, conf, default = None): # -> text
""" file where to store a status mark """
status_file = conf.get("Service", "StatusFile", default)
if status_file:
return status_file
root = conf.root_mode()
folder = get_PID_DIR(root)
name = "%s.status" % conf.name()
return os.path.join(folder, name)
def clean_status_from(self, conf):
status_file = self.get_status_file_from(conf)
if os.path.exists(status_file):
os.remove(status_file)
conf.status = {}
def write_status_from(self, conf, **status): # -> bool(written)
""" if a status_file is known then path is created and the
give status is written as the only content. """
status_file = self.get_status_file_from(conf)
# if not status_file: return False
dirpath = os.path.dirname(os.path.abspath(status_file))
if not os.path.isdir(dirpath):
os.makedirs(dirpath)
if conf.status is None:
conf.status = self.read_status_from(conf)
if True:
for key in sorted(status.keys()):
value = status[key]
if key.upper() == "AS": key = "ActiveState"
if key.upper() == "EXIT": key = "ExecMainCode"
if value is None:
try: del conf.status[key]
except KeyError: pass
else:
conf.status[key] = strE(value)
try:
with open(status_file, "w") as f:
for key in sorted(conf.status):
value = conf.status[key]
if key == "MainPID" and str(value) == "0":
logg.warning("ignore writing MainPID=0")
continue
content = "{}={}\n".format(key, str(value))
logg.debug("writing to %s\n\t%s", status_file, content.strip())
f.write(content)
except IOError as e:
logg.error("writing STATUS %s: %s\n\t to status file %s", status, e, status_file)
return True
def read_status_from(self, conf):
status_file = self.get_status_file_from(conf)
status = {}
# if not status_file: return status
if not os.path.isfile(status_file):
if DEBUG_STATUS: logg.debug("no status file: %s\n returning %s", status_file, status)
return status
if self.truncate_old(status_file):
if DEBUG_STATUS: logg.debug("old status file: %s\n returning %s", status_file, status)
return status
try:
if DEBUG_STATUS: logg.debug("reading %s", status_file)
for line in open(status_file):
if line.strip():
m = re.match(r"(\w+)[:=](.*)", line)
if m:
key, value = m.group(1), m.group(2)
if key.strip():
status[key.strip()] = value.strip()
else: #pragma: no cover
logg.warning("ignored %s", line.strip())
except:
logg.warning("bad read of status file '%s'", status_file)
return status
def get_status_from(self, conf, name, default = None):
if conf.status is None:
conf.status = self.read_status_from(conf)
return conf.status.get(name, default)
def set_status_from(self, conf, name, value):
if conf.status is None:
conf.status = self.read_status_from(conf)
if value is None:
try: del conf.status[name]
except KeyError: pass
else:
conf.status[name] = value
#
def get_boottime(self):
""" detects the boot time of the container - in general the start time of PID 1 """
if self._boottime is None:
self._boottime = self.get_boottime_from_proc()
assert self._boottime is not None
return self._boottime
def get_boottime_from_proc(self):
""" detects the latest boot time by looking at the start time of available process"""
pid1 = BOOT_PID_MIN or 0
pid_max = BOOT_PID_MAX
if pid_max < 0:
pid_max = pid1 - pid_max
for pid in xrange(pid1, pid_max):
proc = _proc_pid_stat.format(**locals())
try:
if os.path.exists(proc):
# return os.path.getmtime(proc) # did sometimes change
return self.path_proc_started(proc)
except Exception as e: # pragma: no cover
logg.warning("boottime - could not access %s: %s", proc, e)
if DEBUG_BOOTTIME:
logg.debug(" boottime from the oldest entry in /proc [nothing in %s..%s]", pid1, pid_max)
return self.get_boottime_from_old_proc()
def get_boottime_from_old_proc(self):
booted = time.time()
for pid in os.listdir(_proc_pid_dir):
proc = _proc_pid_stat.format(**locals())
try:
if os.path.exists(proc):
# ctime = os.path.getmtime(proc)
ctime = self.path_proc_started(proc)
if ctime < booted:
booted = ctime
except Exception as e: # pragma: no cover
logg.warning("could not access %s: %s", proc, e)
return booted
# Use uptime, time process running in ticks, and current time to determine process boot time
# You can't use the modified timestamp of the status file because it isn't static.
# ... using clock ticks it is known to be a linear time on Linux
def path_proc_started(self, proc):
#get time process started after boot in clock ticks
with open(proc) as file_stat:
data_stat = file_stat.readline()
file_stat.close()
stat_data = data_stat.split()
started_ticks = stat_data[21]
# man proc(5): "(22) starttime = The time the process started after system boot."
# ".. the value is expressed in clock ticks (divide by sysconf(_SC_CLK_TCK))."
# NOTE: for containers the start time is related to the boot time of host system.
clkTickInt = os.sysconf_names['SC_CLK_TCK']
clockTicksPerSec = os.sysconf(clkTickInt)
started_secs = float(started_ticks) / clockTicksPerSec
if DEBUG_BOOTTIME:
logg.debug(" BOOT .. Proc started time: %.3f (%s)", started_secs, proc)
# this value is the start time from the host system
# Variant 1:
system_uptime = _proc_sys_uptime
with open(system_uptime,"rb") as file_uptime:
data_uptime = file_uptime.readline()
file_uptime.close()
uptime_data = data_uptime.decode().split()
uptime_secs = float(uptime_data[0])
if DEBUG_BOOTTIME:
logg.debug(" BOOT 1. System uptime secs: %.3f (%s)", uptime_secs, system_uptime)
#get time now
now = time.time()
started_time = now - (uptime_secs - started_secs)
if DEBUG_BOOTTIME:
logg.debug(" BOOT 1. Proc has been running since: %s" % (datetime.datetime.fromtimestamp(started_time)))
# Variant 2:
system_stat = _proc_sys_stat
system_btime = 0.
with open(system_stat,"rb") as f:
for line in f:
assert isinstance(line, bytes)
if line.startswith(b"btime"):
system_btime = float(line.decode().split()[1])
f.closed
if DEBUG_BOOTTIME:
logg.debug(" BOOT 2. System btime secs: %.3f (%s)", system_btime, system_stat)
started_btime = system_btime + started_secs
if DEBUG_BOOTTIME:
logg.debug(" BOOT 2. Proc has been running since: %s" % (datetime.datetime.fromtimestamp(started_btime)))
# return started_time
return started_btime
def get_filetime(self, filename):
return os.path.getmtime(filename)
def truncate_old(self, filename):
filetime = self.get_filetime(filename)
boottime = self.get_boottime()
if filetime >= boottime:
if DEBUG_BOOTTIME:
logg.debug(" file time: %s (%s)", datetime.datetime.fromtimestamp(filetime), o22(filename))
logg.debug(" boot time: %s (%s)", datetime.datetime.fromtimestamp(boottime), "status modified later")
return False # OK
if DEBUG_BOOTTIME:
logg.info(" file time: %s (%s)", datetime.datetime.fromtimestamp(filetime), o22(filename))
logg.info(" boot time: %s (%s)", datetime.datetime.fromtimestamp(boottime), "status TRUNCATED NOW")
try:
shutil_truncate(filename)
except Exception as e:
logg.warning("while truncating: %s", e)
return True # truncated
def getsize(self, filename):
if filename is None: # pragma: no cover (is never null)
return 0
if not os.path.isfile(filename):
return 0
if self.truncate_old(filename):
return 0
try:
return os.path.getsize(filename)
except Exception as e:
logg.warning("while reading file size: %s\n of %s", e, filename)
return 0
#
def read_env_file(self, env_file): # -> generate[ (name,value) ]
""" EnvironmentFile= is being scanned """
if env_file.startswith("-"):
env_file = env_file[1:]
if not os.path.isfile(os_path(self._root, env_file)):
return
try:
for real_line in open(os_path(self._root, env_file)):
line = real_line.strip()
if not line or line.startswith("#"):
continue
m = re.match(r"(?:export +)?([\w_]+)[=]'([^']*)'", line)
if m:
yield m.group(1), m.group(2)
continue
m = re.match(r'(?:export +)?([\w_]+)[=]"([^"]*)"', line)
if m:
yield m.group(1), m.group(2)
continue
m = re.match(r'(?:export +)?([\w_]+)[=](.*)', line)
if m:
yield m.group(1), m.group(2)
continue
except Exception as e:
logg.info("while reading %s: %s", env_file, e)
def read_env_part(self, env_part): # -> generate[ (name, value) ]
""" Environment== is being scanned """
## systemd Environment= spec says it is a space-seperated list of
## assignments. In order to use a space or an equals sign in a value
## one should enclose the whole assignment with double quotes:
## Environment="VAR1=word word" VAR2=word3 "VAR3=$word 5 6"
## and the $word is not expanded by other environment variables.
try:
for real_line in env_part.split("\n"):
line = real_line.strip()
for found in re.finditer(r'\s*("[\w_]+=[^"]*"|[\w_]+=\S*)', line):
part = found.group(1)
if part.startswith('"'):
part = part[1:-1]
name, value = part.split("=", 1)
yield name, value
except Exception as e:
logg.info("while reading %s: %s", env_part, e)
def show_environment(self, unit):
""" [UNIT]. -- show environment parts """
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s could not be found.", unit)
return False
if _unit_property:
return conf.getlist("Service", _unit_property)
return self.get_env(conf)
def extra_vars(self):
return self._extra_vars # from command line
def get_env(self, conf):
env = os.environ.copy()
for env_part in conf.getlist("Service", "Environment", []):
for name, value in self.read_env_part(self.expand_special(env_part, conf)):
env[name] = value # a '$word' is not special here (lazy expansion)
for env_file in conf.getlist("Service", "EnvironmentFile", []):
for name, value in self.read_env_file(self.expand_special(env_file, conf)):
env[name] = self.expand_env(value, env) # but nonlazy expansion here
logg.debug("extra-vars %s", self.extra_vars())
for extra in self.extra_vars():
if extra.startswith("@"):
for name, value in self.read_env_file(extra[1:]):
logg.info("override %s=%s", name, value)
env[name] = self.expand_env(value, env)
else:
for name, value in self.read_env_part(extra):
logg.info("override %s=%s", name, value)
env[name] = value # a '$word' is not special here
return env
def expand_env(self, cmd, env):
def get_env1(m):
name = m.group(1)
if name in env:
return env[name]
namevar = "$%s" % name
logg.debug("can not expand %s", namevar)
return (EXPAND_KEEP_VARS and namevar or "")
def get_env2(m):
name = m.group(1)
if name in env:
return env[name]
namevar = "${%s}" % name
logg.debug("can not expand %s", namevar)
return (EXPAND_KEEP_VARS and namevar or "")
#
maxdepth = EXPAND_VARS_MAXDEPTH
expanded = re.sub("[$](\w+)", lambda m: get_env1(m), cmd.replace("\\\n",""))
for depth in xrange(maxdepth):
new_text = re.sub("[$][{](\w+)[}]", lambda m: get_env2(m), expanded)
if new_text == expanded:
return expanded
expanded = new_text
logg.error("shell variable expansion exceeded maxdepth %s", maxdepth)
return expanded
def expand_special(self, cmd, conf):
""" expand %i %t and similar special vars. They are being expanded
before any other expand_env takes place which handles shell-style
$HOME references. """
def xx(arg): return unit_name_unescape(arg)
def yy(arg): return arg
def get_confs(conf):
confs={ "%": "%" }
if conf is None: # pragma: no cover (is never null)
return confs
unit = parse_unit(conf.name())
#
root = conf.root_mode()
VARTMP = get_VARTMP(root) # $TMPDIR # "/var/tmp"
TMP = get_TMP(root) # $TMPDIR # "/tmp"
RUN = get_RUNTIME_DIR(root) # $XDG_RUNTIME_DIR # "/run"
ETC = get_CONFIG_HOME(root) # $XDG_CONFIG_HOME # "/etc"
DAT = get_VARLIB_HOME(root) # $XDG_CONFIG_HOME # "/var/lib"
LOG = get_LOG_DIR(root) # $XDG_CONFIG_HOME/log # "/var/log"
CACHE = get_CACHE_HOME(root) # $XDG_CACHE_HOME # "/var/cache"
HOME = get_HOME(root) # $HOME or ~ # "/root"
USER = get_USER(root) # geteuid().pw_name # "root"
USER_ID = get_USER_ID(root) # geteuid() # 0
GROUP = get_GROUP(root) # getegid().gr_name # "root"
GROUP_ID = get_GROUP_ID(root) # getegid() # 0
SHELL = get_SHELL(root) # $SHELL # "/bin/sh"
# confs["b"] = boot_ID
confs["C"] = os_path(self._root, CACHE) # Cache directory root
confs["E"] = os_path(self._root, ETC) # Configuration directory root
confs["F"] = strE(conf.filename()) # EXTRA
confs["f"] = "/%s" % xx(unit.instance or unit.prefix)
confs["h"] = HOME # User home directory
# confs["H"] = host_NAME
confs["i"] = yy(unit.instance)
confs["I"] = xx(unit.instance) # same as %i but escaping undone
confs["j"] = yy(unit.component) # final component of the prefix
confs["J"] = xx(unit.component) # unescaped final component
confs["L"] = os_path(self._root, LOG)
# confs["m"] = machine_ID
confs["n"] = yy(unit.fullname) # Full unit name
confs["N"] = yy(unit.name) # Same as "%n", but with the type suffix removed.
confs["p"] = yy(unit.prefix) # before the first "@" or same as %n
confs["P"] = xx(unit.prefix) # same as %p but escaping undone
confs["s"] = SHELL
confs["S"] = os_path(self._root, DAT)
confs["t"] = os_path(self._root, RUN)
confs["T"] = os_path(self._root, TMP)
confs["g"] = GROUP
confs["G"] = str(GROUP_ID)
confs["u"] = USER
confs["U"] = str(USER_ID)
confs["V"] = os_path(self._root, VARTMP)
return confs
def get_conf1(m):
confs = get_confs(conf)
if m.group(1) in confs:
return confs[m.group(1)]
logg.warning("can not expand %%%s", m.group(1))
return ""
result = ""
if cmd:
result = re.sub("[%](.)", lambda m: get_conf1(m), cmd)
#++# logg.info("expanded => %s", result)
return result
ExecMode = collections.namedtuple("ExecMode", ["check"])
def exec_newcmd(self, cmd, env, conf):
check, cmd = checkstatus(cmd)
mode = Systemctl.ExecMode(check)
newcmd = self.exec_cmd(cmd, env, conf)
return mode, newcmd
def exec_cmd(self, cmd, env, conf):
""" expand ExecCmd statements including %i and $MAINPID """
cmd2 = cmd.replace("\\\n","")
# according to documentation, when bar="one two" then the expansion
# of '$bar' is ["one","two"] and '${bar}' becomes ["one two"]. We
# tackle that by expand $bar before shlex, and the rest thereafter.
def get_env1(m):
if m.group(1) in env:
return env[m.group(1)]
logg.debug("can not expand $%s", m.group(1))
return "" # empty string
def get_env2(m):
if m.group(1) in env:
return env[m.group(1)]
logg.debug("can not expand ${%s}", m.group(1))
return "" # empty string
cmd3 = re.sub("[$](\w+)", lambda m: get_env1(m), cmd2)
newcmd = []
for part in shlex.split(cmd3):
# newcmd += [ re.sub("[$][{](\w+)[}]", lambda m: get_env2(m), part) ]
newcmd += [ re.sub("[$][{](\w+)[}]", lambda m: get_env2(m), self.expand_special(part, conf)) ]
return newcmd
def remove_service_directories(self, conf, section = "Service"):
ok = True
nameRuntimeDirectory = self.get_RuntimeDirectory(conf, section)
keepRuntimeDirectory = self.get_RuntimeDirectoryPreserve(conf, section)
if not keepRuntimeDirectory:
root = conf.root_mode()
for name in nameRuntimeDirectory.split(" "):
if not name.strip(): continue
RUN = get_RUNTIME_DIR(root)
path = os.path.join(RUN, name)
dirpath = os_path(self._root, path)
ok = self.do_rm_tree(dirpath) and ok
if RUN == "/run":
for var_run in ("/var/run", "/tmp/run"):
if os.path.isdir(var_run):
var_path = os.path.join(var_run, name)
var_dirpath = os_path(self._root, var_path)
self.do_rm_tree(var_dirpath)
if not ok:
logg.debug("could not fully remove service directory %s", path)
return ok
def do_rm_tree(self, path):
ok = True
if os.path.isdir(path):
for dirpath, dirnames, filenames in os.walk(path, topdown=False):
for item in filenames:
filepath = os.path.join(dirpath, item)
try:
os.remove(filepath)
except Exception as e: # pragma: no cover
logg.debug("not removed file: %s (%s)", filepath, e)
ok = False
for item in dirnames:
dir_path = os.path.join(dirpath, item)
try:
os.rmdir(dir_path)
except Exception as e: # pragma: no cover
logg.debug("not removed dir: %s (%s)", dir_path, e)
ok = False
try:
os.rmdir(path)
except Exception as e:
logg.debug("not removed top dir: %s (%s)", path, e)
ok = False # pragma: no cover
logg.debug("%s rm_tree %s", ok and "done" or "fail", path)
return ok
def get_RuntimeDirectoryPreserve(self, conf, section = "Service"):
return conf.getbool(section, "RuntimeDirectoryPreserve", "no")
def get_RuntimeDirectory(self, conf, section = "Service"):
return self.expand_special(conf.get(section, "RuntimeDirectory", ""), conf)
def get_StateDirectory(self, conf, section = "Service"):
return self.expand_special(conf.get(section, "StateDirectory", ""), conf)
def get_CacheDirectory(self, conf, section = "Service"):
return self.expand_special(conf.get(section, "CacheDirectory", ""), conf)
def get_LogsDirectory(self, conf, section = "Service"):
return self.expand_special(conf.get(section, "LogsDirectory", ""), conf)
def get_ConfigurationDirectory(self, conf, section = "Service"):
return self.expand_special(conf.get(section, "ConfigurationDirectory", ""), conf)
def get_RuntimeDirectoryMode(self, conf, section = "Service"):
return conf.get(section, "RuntimeDirectoryMode", "")
def get_StateDirectoryMode(self, conf, section = "Service"):
return conf.get(section, "StateDirectoryMode", "")
def get_CacheDirectoryMode(self, conf, section = "Service"):
return conf.get(section, "CacheDirectoryMode", "")
def get_LogsDirectoryMode(self, conf, section = "Service"):
return conf.get(section, "LogsDirectoryMode", "")
def get_ConfigurationDirectoryMode(self, conf, section = "Service"):
return conf.get(section, "ConfigurationDirectoryMode", "")
def clean_service_directories(self, conf, which = ""):
ok = True
section = self.get_unit_section_from(conf)
nameRuntimeDirectory = self.get_RuntimeDirectory(conf, section)
nameStateDirectory = self.get_StateDirectory(conf, section)
nameCacheDirectory = self.get_CacheDirectory(conf, section)
nameLogsDirectory = self.get_LogsDirectory(conf, section)
nameConfigurationDirectory = self.get_ConfigurationDirectory(conf, section)
root = conf.root_mode()
for name in nameRuntimeDirectory.split(" "):
if not name.strip(): continue
RUN = get_RUNTIME_DIR(root)
path = os.path.join(RUN, name)
if which in ["all", "runtime", ""]:
dirpath = os_path(self._root, path)
ok = self.do_rm_tree(dirpath) and ok
if RUN == "/run":
for var_run in ("/var/run", "/tmp/run"):
var_path = os.path.join(var_run, name)
var_dirpath = os_path(self._root, var_path)
self.do_rm_tree(var_dirpath)
for name in nameStateDirectory.split(" "):
if not name.strip(): continue
DAT = get_VARLIB_HOME(root)
path = os.path.join(DAT, name)
if which in ["all", "state"]:
dirpath = os_path(self._root, path)
ok = self.do_rm_tree(dirpath) and ok
for name in nameCacheDirectory.split(" "):
if not name.strip(): continue
CACHE = get_CACHE_HOME(root)
path = os.path.join(CACHE, name)
if which in ["all", "cache", ""]:
dirpath = os_path(self._root, path)
ok = self.do_rm_tree(dirpath) and ok
for name in nameLogsDirectory.split(" "):
if not name.strip(): continue
LOGS = get_LOG_DIR(root)
path = os.path.join(LOGS, name)
if which in ["all", "logs"]:
dirpath = os_path(self._root, path)
ok = self.do_rm_tree(dirpath) and ok
for name in nameConfigurationDirectory.split(" "):
if not name.strip(): continue
CONFIG = get_CONFIG_HOME(root)
path = os.path.join(CONFIG, name)
if which in ["all", "configuration", ""]:
dirpath = os_path(self._root, path)
ok = self.do_rm_tree(dirpath) and ok
return ok
def env_service_directories(self, conf):
envs = {}
section = self.get_unit_section_from(conf)
nameRuntimeDirectory = self.get_RuntimeDirectory(conf, section)
nameStateDirectory = self.get_StateDirectory(conf, section)
nameCacheDirectory = self.get_CacheDirectory(conf, section)
nameLogsDirectory = self.get_LogsDirectory(conf, section)
nameConfigurationDirectory = self.get_ConfigurationDirectory(conf, section)
root = conf.root_mode()
for name in nameRuntimeDirectory.split(" "):
if not name.strip(): continue
RUN = get_RUNTIME_DIR(root)
path = os.path.join(RUN, name)
envs["RUNTIME_DIRECTORY"] = path
for name in nameStateDirectory.split(" "):
if not name.strip(): continue
DAT = get_VARLIB_HOME(root)
path = os.path.join(DAT, name)
envs["STATE_DIRECTORY"] = path
for name in nameCacheDirectory.split(" "):
if not name.strip(): continue
CACHE = get_CACHE_HOME(root)
path = os.path.join(CACHE, name)
envs["CACHE_DIRECTORY"] = path
for name in nameLogsDirectory.split(" "):
if not name.strip(): continue
LOGS = get_LOG_DIR(root)
path = os.path.join(LOGS, name)
envs["LOGS_DIRECTORY"] = path
for name in nameConfigurationDirectory.split(" "):
if not name.strip(): continue
CONFIG = get_CONFIG_HOME(root)
path = os.path.join(CONFIG, name)
envs["CONFIGURATION_DIRECTORY"] = path
return envs
def create_service_directories(self, conf):
envs = {}
section = self.get_unit_section_from(conf)
nameRuntimeDirectory = self.get_RuntimeDirectory(conf, section)
modeRuntimeDirectory = self.get_RuntimeDirectoryMode(conf, section)
nameStateDirectory = self.get_StateDirectory(conf, section)
modeStateDirectory = self.get_StateDirectoryMode(conf, section)
nameCacheDirectory = self.get_CacheDirectory(conf, section)
modeCacheDirectory = self.get_CacheDirectoryMode(conf, section)
nameLogsDirectory = self.get_LogsDirectory(conf, section)
modeLogsDirectory = self.get_LogsDirectoryMode(conf, section)
nameConfigurationDirectory = self.get_ConfigurationDirectory(conf, section)
modeConfigurationDirectory = self.get_ConfigurationDirectoryMode(conf, section)
root = conf.root_mode()
user = self.get_User(conf)
group = self.get_Group(conf)
for name in nameRuntimeDirectory.split(" "):
if not name.strip(): continue
RUN = get_RUNTIME_DIR(root)
path = os.path.join(RUN, name)
logg.debug("RuntimeDirectory %s", path)
self.make_service_directory(path, modeRuntimeDirectory)
self.chown_service_directory(path, user, group)
envs["RUNTIME_DIRECTORY"] = path
if RUN == "/run":
for var_run in ("/var/run", "/tmp/run"):
if os.path.isdir(var_run):
var_path = os.path.join(var_run, name)
var_dirpath = os_path(self._root, var_path)
if os.path.isdir(var_dirpath):
if not os.path.islink(var_dirpath):
logg.debug("not a symlink: %s", var_dirpath)
continue
dirpath = os_path(self._root, path)
basepath = os.path.dirname(var_dirpath)
if not os.path.isdir(basepath):
os.makedirs(basepath)
try:
os.symlink(dirpath, var_dirpath)
except Exception as e:
logg.debug("var symlink %s\n\t%s", var_dirpath, e)
for name in nameStateDirectory.split(" "):
if not name.strip(): continue
DAT = get_VARLIB_HOME(root)
path = os.path.join(DAT, name)
logg.debug("StateDirectory %s", path)
self.make_service_directory(path, modeStateDirectory)
self.chown_service_directory(path, user, group)
envs["STATE_DIRECTORY"] = path
for name in nameCacheDirectory.split(" "):
if not name.strip(): continue
CACHE = get_CACHE_HOME(root)
path = os.path.join(CACHE, name)
logg.debug("CacheDirectory %s", path)
self.make_service_directory(path, modeCacheDirectory)
self.chown_service_directory(path, user, group)
envs["CACHE_DIRECTORY"] = path
for name in nameLogsDirectory.split(" "):
if not name.strip(): continue
LOGS = get_LOG_DIR(root)
path = os.path.join(LOGS, name)
logg.debug("LogsDirectory %s", path)
self.make_service_directory(path, modeLogsDirectory)
self.chown_service_directory(path, user, group)
envs["LOGS_DIRECTORY"] = path
for name in nameConfigurationDirectory.split(" "):
if not name.strip(): continue
CONFIG = get_CONFIG_HOME(root)
path = os.path.join(CONFIG, name)
logg.debug("ConfigurationDirectory %s", path)
self.make_service_directory(path, modeConfigurationDirectory)
# not done according the standard
# self.chown_service_directory(path, user, group)
envs["CONFIGURATION_DIRECTORY"] = path
return envs
def make_service_directory(self, path, mode):
ok = True
dirpath = os_path(self._root, path)
if not os.path.isdir(dirpath):
try:
os.makedirs(dirpath)
logg.info("created directory path: %s", dirpath)
except Exception as e: # pragma: no cover
logg.debug("errors directory path: %s\n\t%s", dirpath, e)
ok = False
filemode = int_mode(mode)
if filemode:
try:
os.chmod(dirpath, filemode)
except Exception as e: # pragma: no cover
logg.debug("errors directory path: %s\n\t%s", dirpath, e)
ok = False
else:
logg.debug("path did already exist: %s", dirpath)
if not ok:
logg.debug("could not fully create service directory %s", path)
return ok
def chown_service_directory(self, path, user, group):
# the standard defines an optimization so that if the parent
# directory does have the correct user and group then there
# is no other chown on files and subdirectories to be done.
dirpath = os_path(self._root, path)
if not os.path.isdir(dirpath):
logg.debug("chown did not find %s", dirpath)
return True
if user or group:
st = os.stat(dirpath)
st_user = pwd.getpwuid(st.st_uid).pw_name
st_group = grp.getgrgid(st.st_gid).gr_name
change = False
if user and (user.strip() != st_user and user.strip() != str(st.st_uid)):
change = True
if group and (group.strip() != st_group and group.strip() != str(st.st_gid)):
change = True
if change:
logg.debug("do chown %s", dirpath)
try:
ok = self.do_chown_tree(dirpath, user, group)
logg.info("changed %s:%s %s", user, group, ok)
return ok
except Exception as e:
logg.info("oops %s\n\t%s", dirpath, e)
else:
logg.debug("untouched %s", dirpath)
return True
def do_chown_tree(self, path, user, group):
ok = True
uid, gid = -1, -1
if user:
uid = pwd.getpwnam(user).pw_uid
gid = pwd.getpwnam(user).pw_gid
if group:
gid = grp.getgrnam(group).gr_gid
for dirpath, dirnames, filenames in os.walk(path, topdown=False):
for item in filenames:
filepath = os.path.join(dirpath, item)
try:
os.chown(filepath, uid, gid)
except Exception as e: # pragma: no cover
logg.debug("could not set %s:%s on %s\n\t%s", user, group, filepath, e)
ok = False
for item in dirnames:
dir_path = os.path.join(dirpath, item)
try:
os.chown(dir_path, uid, gid)
except Exception as e: # pragma: no cover
logg.debug("could not set %s:%s on %s\n\t%s", user, group, dir_path, e)
ok = False
try:
os.chown(path, uid, gid)
except Exception as e: # pragma: no cover
logg.debug("could not set %s:%s on %s\n\t%s", user, group, path, e)
ok = False
if not ok:
logg.debug("could not chown %s:%s service directory %s", user, group, path)
return ok
def clean_modules(self, *modules):
""" [UNIT]... -- remove the state directories
/// it recognizes --what=all or any of configuration, state, cache, logs, runtime
while an empty value (the default) removes cache and runtime directories"""
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
lines = _log_lines
follow = _force
ok = self.clean_units(units)
return ok and found_all
def clean_units(self, units, what = ""):
if not what:
what = _what_kind
ok = True
for unit in units:
ok = self.clean_unit(unit, what) and ok
return ok
def clean_unit(self, unit, what = ""):
conf = self.load_unit_conf(unit)
if not conf: return False
return self.clean_unit_from(conf, what)
def clean_unit_from(self, conf, what):
if self.is_active_from(conf):
logg.warning("can not clean active unit: %s", conf.name())
return False
return self.clean_service_directories(conf, what)
def log_modules(self, *modules):
""" [UNIT]... -- start 'less' on the log files for the services
/// use '-f' to follow and '-n lines' to limit output using 'tail',
using '--no-pager' just does a full 'cat'"""
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
lines = _log_lines
follow = _force
result = self.log_units(units, lines, follow)
if result:
self.error = result
return False
return found_all
def log_units(self, units, lines = None, follow = False):
result = 0
for unit in self.sortedAfter(units):
exitcode = self.log_unit(unit, lines, follow)
if exitcode < 0:
return exitcode
if exitcode > result:
result = exitcode
return result
def log_unit(self, unit, lines = None, follow = False):
conf = self.load_unit_conf(unit)
if not conf: return -1
return self.log_unit_from(conf, lines, follow)
def log_unit_from(self, conf, lines = None, follow = False):
log_path = self.get_journal_log_from(conf)
if follow:
cmd = [ TAIL_CMD, "-n", str(lines or 10), "-F", log_path ]
logg.debug("journalctl %s -> %s", conf.name(), cmd)
return os.spawnvp(os.P_WAIT, cmd[0], cmd) # type: ignore
elif lines:
cmd = [ TAIL_CMD, "-n", str(lines or 10), log_path ]
logg.debug("journalctl %s -> %s", conf.name(), cmd)
return os.spawnvp(os.P_WAIT, cmd[0], cmd) # type: ignore
elif _no_pager:
cmd = [ CAT_CMD, log_path ]
logg.debug("journalctl %s -> %s", conf.name(), cmd)
return os.spawnvp(os.P_WAIT, cmd[0], cmd) # type: ignore
else:
cmd = [ LESS_CMD, log_path ]
logg.debug("journalctl %s -> %s", conf.name(), cmd)
return os.spawnvp(os.P_WAIT, cmd[0], cmd) # type: ignore
def get_journal_log_from(self, conf):
return os_path(self._root, self.get_journal_log(conf))
def get_journal_log(self, conf):
""" /var/log/zzz.service.log or /var/log/default.unit.log """
filename = os.path.basename(strE(conf.filename()))
unitname = (conf.name() or "default")+".unit"
name = filename or unitname
log_folder = expand_path(self._journal_log_folder, conf.root_mode())
log_file = name.replace(os.path.sep,".") + ".log"
if log_file.startswith("."):
log_file = "dot."+log_file
return os.path.join(log_folder, log_file)
def open_journal_log(self, conf):
log_file = self.get_journal_log_from(conf)
log_folder = os.path.dirname(log_file)
if not os.path.isdir(log_folder):
os.makedirs(log_folder)
return open(os.path.join(log_file), "a")
def get_WorkingDirectory(self, conf):
return conf.get("Service", "WorkingDirectory", "")
def chdir_workingdir(self, conf):
""" if specified then change the working directory """
# the original systemd will start in '/' even if User= is given
if self._root:
os.chdir(self._root)
workingdir = self.get_WorkingDirectory(conf)
if workingdir:
ignore = False
if workingdir.startswith("-"):
workingdir = workingdir[1:]
ignore = True
into = os_path(self._root, self.expand_special(workingdir, conf))
try:
logg.debug("chdir workingdir '%s'", into)
os.chdir(into)
return False
except Exception as e:
if not ignore:
logg.error("chdir workingdir '%s': %s", into, e)
return into
else:
logg.debug("chdir workingdir '%s': %s", into, e)
return None
return None
NotifySocket = collections.namedtuple("NotifySocket", ["socket", "socketfile" ])
def get_notify_socket_from(self, conf, socketfile = None, debug = False):
""" creates a notify-socket for the (non-privileged) user """
notify_socket_folder = expand_path(_notify_socket_folder, conf.root_mode())
notify_folder = os_path(self._root, notify_socket_folder)
notify_name = "notify." + str(conf.name() or "systemctl")
notify_socket = os.path.join(notify_folder, notify_name)
socketfile = socketfile or notify_socket
if len(socketfile) > 100:
# occurs during testsuite.py for ~user/test.tmp/root path
if debug:
logg.debug("https://unix.stackexchange.com/questions/367008/%s",
"why-is-socket-path-length-limited-to-a-hundred-chars")
logg.debug("old notify socketfile (%s) = %s", len(socketfile), socketfile)
notify_name44 = o44(notify_name)
notify_name77 = o77(notify_name)
socketfile = os.path.join(notify_folder, notify_name77)
if len(socketfile) > 100:
socketfile = os.path.join(notify_folder, notify_name44)
pref = "zz.%i.%s" % (get_USER_ID(),o22(os.path.basename(notify_socket_folder)))
if len(socketfile) > 100:
socketfile = os.path.join(get_TMP(), pref, notify_name)
if len(socketfile) > 100:
socketfile = os.path.join(get_TMP(), pref, notify_name77)
if len(socketfile) > 100: # pragma: no cover
socketfile = os.path.join(get_TMP(), pref, notify_name44)
if len(socketfile) > 100: # pragma: no cover
socketfile = os.path.join(get_TMP(), notify_name44)
if debug:
logg.info("new notify socketfile (%s) = %s", len(socketfile), socketfile)
return socketfile
def notify_socket_from(self, conf, socketfile = None):
socketfile = self.get_notify_socket_from(conf, socketfile, debug=True)
try:
if not os.path.isdir(os.path.dirname(socketfile)):
os.makedirs(os.path.dirname(socketfile))
if os.path.exists(socketfile):
os.unlink(socketfile)
except Exception as e:
logg.warning("error %s: %s", socketfile, e)
sock = socket.socket(socket.AF_UNIX, socket.SOCK_DGRAM)
sock.bind(socketfile)
os.chmod(socketfile, 0o777) # the service my run under some User=setting
return Systemctl.NotifySocket(sock, socketfile)
def read_notify_socket(self, notify, timeout):
notify.socket.settimeout(timeout or DefaultMaximumTimeout)
result = ""
try:
result, client_address = notify.socket.recvfrom(4096)
assert isinstance(result, bytes)
if result:
result = result.decode("utf-8")
result_txt = result.replace("\n","|")
result_len = len(result)
logg.debug("read_notify_socket(%s):%s", result_len, result_txt)
except socket.timeout as e:
if timeout > 2:
logg.debug("socket.timeout %s", e)
return result
def wait_notify_socket(self, notify, timeout, pid = None, pid_file = None):
if not os.path.exists(notify.socketfile):
logg.info("no $NOTIFY_SOCKET exists")
return {}
#
lapseTimeout = max(3, int(timeout / 100))
mainpidTimeout = lapseTimeout # Apache sends READY before MAINPID
status = ""
logg.info("wait $NOTIFY_SOCKET, timeout %s (lapse %s)", timeout, lapseTimeout)
waiting = " ---"
results = {}
for attempt in xrange(int(timeout)+1):
if pid and not self.is_active_pid(pid):
logg.info("seen dead PID %s", pid)
return results
if not attempt: # first one
time.sleep(1) # until TimeoutStartSec
continue
result = self.read_notify_socket(notify, 1) # sleep max 1 second
for line in result.splitlines():
# for name, value in self.read_env_part(line)
if "=" not in line:
continue
name, value = line.split("=", 1)
results[name] = value
if name in ["STATUS", "ACTIVESTATE", "MAINPID", "READY"]:
hint="seen notify %s " % (waiting)
logg.debug("%s :%s=%s", hint, name, value)
if status != results.get("STATUS",""):
mainpidTimeout = lapseTimeout
status = results.get("STATUS", "")
if "READY" not in results:
time.sleep(1) # until TimeoutStart
continue
if "MAINPID" not in results and not pid_file:
mainpidTimeout -= 1
if mainpidTimeout > 0:
waiting = "%4i" % (-mainpidTimeout)
time.sleep(1) # until TimeoutStart
continue
break # READY and MAINPID
if "READY" not in results:
logg.info(".... timeout while waiting for 'READY=1' status on $NOTIFY_SOCKET")
elif "MAINPID" not in results:
logg.info(".... seen 'READY=1' but no MAINPID update status on $NOTIFY_SOCKET")
logg.debug("notify = %s", results)
try:
notify.socket.close()
except Exception as e:
logg.debug("socket.close %s", e)
return results
def start_modules(self, *modules):
""" [UNIT]... -- start these units
/// SPECIAL: with --now or --init it will
run the init-loop and stop the units afterwards """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
init = self._now or self._init
return self.start_units(units, init) and found_all
def start_units(self, units, init = None):
""" fails if any unit does not start
/// SPECIAL: may run the init-loop and
stop the named units afterwards """
self.wait_system()
done = True
started_units = []
for unit in self.sortedAfter(units):
started_units.append(unit)
if not self.start_unit(unit):
done = False
if init:
logg.info("init-loop start")
sig = self.init_loop_until_stop(started_units)
logg.info("init-loop %s", sig)
for unit in reversed(started_units):
self.stop_unit(unit)
return done
def start_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.debug("unit could not be loaded (%s)", unit)
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.start_unit_from(conf)
def get_TimeoutStartSec(self, conf):
timeout = conf.get("Service", "TimeoutSec", strE(DefaultTimeoutStartSec))
timeout = conf.get("Service", "TimeoutStartSec", timeout)
return time_to_seconds(timeout, DefaultMaximumTimeout)
def get_SocketTimeoutSec(self, conf):
timeout = conf.get("Socket", "TimeoutSec", strE(DefaultTimeoutStartSec))
return time_to_seconds(timeout, DefaultMaximumTimeout)
def get_RemainAfterExit(self, conf):
return conf.getbool("Service", "RemainAfterExit", "no")
def start_unit_from(self, conf):
if not conf: return False
if self.syntax_check(conf) > 100: return False
with waitlock(conf):
logg.debug(" start unit %s => %s", conf.name(), strQ(conf.filename()))
return self.do_start_unit_from(conf)
def do_start_unit_from(self, conf):
if conf.name().endswith(".service"):
return self.do_start_service_from(conf)
elif conf.name().endswith(".socket"):
return self.do_start_socket_from(conf)
elif conf.name().endswith(".target"):
return self.do_start_target_from(conf)
else:
logg.error("start not implemented for unit type: %s", conf.name())
return False
def do_start_service_from(self, conf):
timeout = self.get_TimeoutStartSec(conf)
doRemainAfterExit = self.get_RemainAfterExit(conf)
runs = conf.get("Service", "Type", "simple").lower()
env = self.get_env(conf)
if not self._quiet:
okee = self.exec_check_unit(conf, env, "Service", "Exec") # all...
if not okee and _no_reload: return False
service_directories = self.create_service_directories(conf)
env.update(service_directories) # atleast sshd did check for /run/sshd
# for StopPost on failure:
returncode = 0
service_result = "success"
if True:
if runs in [ "simple", "forking", "notify", "idle" ]:
env["MAINPID"] = strE(self.read_mainpid_from(conf))
for cmd in conf.getlist("Service", "ExecStartPre", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info(" pre-start %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
logg.debug(" pre-start done (%s) <-%s>",
run.returncode or "OK", run.signal or "")
if run.returncode and exe.check:
logg.error("the ExecStartPre control process exited with error code")
active = "failed"
self.write_status_from(conf, AS=active )
if _what_kind not in ["none", "keep"]:
self.remove_service_directories(conf) # cleanup that /run/sshd
return False
if runs in [ "oneshot" ]:
status_file = self.get_status_file_from(conf)
if self.get_status_from(conf, "ActiveState", "unknown") == "active":
logg.warning("the service was already up once")
return True
for cmd in conf.getlist("Service", "ExecStart", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("%s start %s", runs, shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid: # pragma: no cover
os.setsid() # detach child process from parent
self.execve_from(conf, newcmd, env)
run = subprocess_waitpid(forkpid)
if run.returncode and exe.check:
returncode = run.returncode
service_result = "failed"
logg.error("%s start %s (%s) <-%s>", runs, service_result,
run.returncode or "OK", run.signal or "")
break
logg.info("%s start done (%s) <-%s>", runs,
run.returncode or "OK", run.signal or "")
if True:
self.set_status_from(conf, "ExecMainCode", strE(returncode))
active = returncode and "failed" or "active"
self.write_status_from(conf, AS=active)
elif runs in [ "simple", "idle" ]:
status_file = self.get_status_file_from(conf)
pid = self.read_mainpid_from(conf)
if self.is_active_pid(pid):
logg.warning("the service is already running on PID %s", pid)
return True
if doRemainAfterExit:
logg.debug("%s RemainAfterExit -> AS=active", runs)
self.write_status_from(conf, AS="active")
cmdlist = conf.getlist("Service", "ExecStart", [])
for idx, cmd in enumerate(cmdlist):
logg.debug("ExecStart[%s]: %s", idx, cmd)
for cmd in cmdlist:
pid = self.read_mainpid_from(conf)
env["MAINPID"] = strE(pid)
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("%s start %s", runs, shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid: # pragma: no cover
os.setsid() # detach child process from parent
self.execve_from(conf, newcmd, env)
self.write_status_from(conf, MainPID=forkpid)
logg.info("%s started PID %s", runs, forkpid)
env["MAINPID"] = strE(forkpid)
time.sleep(MinimumYield)
run = subprocess_testpid(forkpid)
if run.returncode is not None:
logg.info("%s stopped PID %s (%s) <-%s>", runs, run.pid,
run.returncode or "OK", run.signal or "")
if doRemainAfterExit:
self.set_status_from(conf, "ExecMainCode", strE(run.returncode))
active = run.returncode and "failed" or "active"
self.write_status_from(conf, AS=active)
if run.returncode and exe.check:
service_result = "failed"
break
elif runs in [ "notify" ]:
# "notify" is the same as "simple" but we create a $NOTIFY_SOCKET
# and wait for startup completion by checking the socket messages
pid_file = self.pid_file_from(conf)
pid = self.read_mainpid_from(conf)
if self.is_active_pid(pid):
logg.error("the service is already running on PID %s", pid)
return False
notify = self.notify_socket_from(conf)
if notify:
env["NOTIFY_SOCKET"] = notify.socketfile
logg.debug("use NOTIFY_SOCKET=%s", notify.socketfile)
if doRemainAfterExit:
logg.debug("%s RemainAfterExit -> AS=active", runs)
self.write_status_from(conf, AS="active")
cmdlist = conf.getlist("Service", "ExecStart", [])
for idx, cmd in enumerate(cmdlist):
logg.debug("ExecStart[%s]: %s", idx, cmd)
mainpid = None
for cmd in cmdlist:
mainpid = self.read_mainpid_from(conf)
env["MAINPID"] = strE(mainpid)
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("%s start %s", runs, shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid: # pragma: no cover
os.setsid() # detach child process from parent
self.execve_from(conf, newcmd, env)
# via NOTIFY # self.write_status_from(conf, MainPID=forkpid)
logg.info("%s started PID %s", runs, forkpid)
mainpid = forkpid
self.write_status_from(conf, MainPID=mainpid)
env["MAINPID"] = strE(mainpid)
time.sleep(MinimumYield)
run = subprocess_testpid(forkpid)
if run.returncode is not None:
logg.info("%s stopped PID %s (%s) <-%s>", runs, run.pid,
run.returncode or "OK", run.signal or "")
if doRemainAfterExit:
self.set_status_from(conf, "ExecMainCode", strE(run.returncode))
active = run.returncode and "failed" or "active"
self.write_status_from(conf, AS=active)
if run.returncode and exe.check:
service_result = "failed"
break
if service_result in [ "success" ] and mainpid:
logg.debug("okay, wating on socket for %ss", timeout)
results = self.wait_notify_socket(notify, timeout, mainpid, pid_file)
if "MAINPID" in results:
new_pid = to_intN(results["MAINPID"])
if new_pid and new_pid != mainpid:
logg.info("NEW PID %s from sd_notify (was PID %s)", new_pid, mainpid)
self.write_status_from(conf, MainPID=new_pid)
mainpid = new_pid
logg.info("%s start done %s", runs, mainpid)
pid = self.read_mainpid_from(conf)
if pid:
env["MAINPID"] = strE(pid)
else:
service_result = "timeout" # "could not start service"
elif runs in [ "forking" ]:
pid_file = self.pid_file_from(conf)
for cmd in conf.getlist("Service", "ExecStart", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
if not newcmd: continue
logg.info("%s start %s", runs, shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid: # pragma: no cover
os.setsid() # detach child process from parent
self.execve_from(conf, newcmd, env)
logg.info("%s started PID %s", runs, forkpid)
run = subprocess_waitpid(forkpid)
if run.returncode and exe.check:
returncode = run.returncode
service_result = "failed"
logg.info("%s stopped PID %s (%s) <-%s>", runs, run.pid,
run.returncode or "OK", run.signal or "")
if pid_file and service_result in [ "success" ]:
pid = self.wait_pid_file(pid_file) # application PIDFile
logg.info("%s start done PID %s [%s]", runs, pid, pid_file)
if pid:
env["MAINPID"] = strE(pid)
if not pid_file:
time.sleep(MinimumTimeoutStartSec)
logg.warning("No PIDFile for forking %s", strQ(conf.filename()))
status_file = self.get_status_file_from(conf)
self.set_status_from(conf, "ExecMainCode", strE(returncode))
active = returncode and "failed" or "active"
self.write_status_from(conf, AS=active)
else:
logg.error("unsupported run type '%s'", runs)
return False
# POST sequence
if not self.is_active_from(conf):
logg.warning("%s start not active", runs)
# according to the systemd documentation, a failed start-sequence
# should execute the ExecStopPost sequence allowing some cleanup.
env["SERVICE_RESULT"] = service_result
for cmd in conf.getlist("Service", "ExecStopPost", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("post-fail %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
logg.debug("post-fail done (%s) <-%s>",
run.returncode or "OK", run.signal or "")
if _what_kind not in ["none", "keep"]:
self.remove_service_directories(conf)
return False
else:
for cmd in conf.getlist("Service", "ExecStartPost", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("post-start %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
logg.debug("post-start done (%s) <-%s>",
run.returncode or "OK", run.signal or "")
return True
def listen_modules(self, *modules):
""" [UNIT]... -- listen socket units"""
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.listen_units(units) and found_all
def listen_units(self, units):
""" fails if any socket does not start """
self.wait_system()
done = True
started_units = []
active_units = []
for unit in self.sortedAfter(units):
started_units.append(unit)
if not self.listen_unit(unit):
done = False
else:
active_units.append(unit)
if active_units:
logg.info("init-loop start")
sig = self.init_loop_until_stop(started_units)
logg.info("init-loop %s", sig)
for unit in reversed(started_units):
pass # self.stop_unit(unit)
return done
def listen_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.debug("unit could not be loaded (%s)", unit)
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.listen_unit_from(conf)
def listen_unit_from(self, conf):
if not conf: return False
with waitlock(conf):
logg.debug(" listen unit %s => %s", conf.name(), strQ(conf.filename()))
return self.do_listen_unit_from(conf)
def do_listen_unit_from(self, conf):
if conf.name().endswith(".socket"):
return self.do_start_socket_from(conf)
else:
logg.error("listen not implemented for unit type: %s", conf.name())
return False
def do_accept_socket_from(self, conf, sock):
logg.debug("%s: accepting %s", conf.name(), sock.fileno())
service_unit = self.get_socket_service_from(conf)
service_conf = self.load_unit_conf(service_unit)
if service_conf is None or TestAccept: #pragma: no cover
if sock.type == socket.SOCK_STREAM:
conn, addr = sock.accept()
data = conn.recv(1024)
logg.debug("%s: '%s'", conf.name(), data)
conn.send(b"ERROR: "+data.upper())
conn.close()
return False
if sock.type == socket.SOCK_DGRAM:
data, sender = sock.recvfrom(1024)
logg.debug("%s: '%s'", conf.name(), data)
sock.sendto(b"ERROR: "+data.upper(), sender)
return False
logg.error("can not accept socket type %s", strINET(sock.type))
return False
return self.do_start_service_from(service_conf)
def get_socket_service_from(self, conf):
socket_unit = conf.name()
accept = conf.getbool("Socket", "Accept", "no")
service_type = accept and "@.service" or ".service"
service_name = path_replace_extension(socket_unit, ".socket", service_type)
service_unit = conf.get("Socket", "Service", service_name)
logg.debug("socket %s -> service %s", socket_unit, service_unit)
return service_unit
def do_start_socket_from(self, conf):
runs = "socket"
timeout = self.get_SocketTimeoutSec(conf)
accept = conf.getbool("Socket", "Accept", "no")
stream = conf.get("Socket", "ListenStream", "")
service_unit = self.get_socket_service_from(conf)
service_conf = self.load_unit_conf(service_unit)
if service_conf is None:
logg.debug("unit could not be loaded (%s)", service_unit)
logg.error("Unit %s not found.", service_unit)
return False
env = self.get_env(conf)
if not self._quiet:
okee = self.exec_check_unit(conf, env, "Socket", "Exec") # all...
if not okee and _no_reload: return False
if True:
for cmd in conf.getlist("Socket", "ExecStartPre", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info(" pre-start %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
logg.debug(" pre-start done (%s) <-%s>",
run.returncode or "OK", run.signal or "")
if run.returncode and exe.check:
logg.error("the ExecStartPre control process exited with error code")
active = "failed"
self.write_status_from(conf, AS=active )
return False
# service_directories = self.create_service_directories(conf)
# env.update(service_directories)
listening=False
if not accept:
sock = self.create_socket(conf)
if sock and TestListen:
listening=True
self._sockets[conf.name()] = SystemctlSocket(conf, sock)
service_result = "success"
state = sock and "active" or "failed"
self.write_status_from(conf, AS=state)
if not listening:
# we do not listen but have the service started right away
done = self.do_start_service_from(service_conf)
service_result = done and "success" or "failed"
if not self.is_active_from(service_conf):
service_result = "failed"
state = service_result
if service_result in ["success"]:
state = "active"
self.write_status_from(conf, AS=state)
# POST sequence
if service_result in ["failed"]:
# according to the systemd documentation, a failed start-sequence
# should execute the ExecStopPost sequence allowing some cleanup.
env["SERVICE_RESULT"] = service_result
for cmd in conf.getlist("Socket", "ExecStopPost", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("post-fail %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
logg.debug("post-fail done (%s) <-%s>",
run.returncode or "OK", run.signal or "")
return False
else:
for cmd in conf.getlist("Socket", "ExecStartPost", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("post-start %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
logg.debug("post-start done (%s) <-%s>",
run.returncode or "OK", run.signal or "")
return True
def create_socket(self, conf):
unsupported = ["ListenUSBFunction", "ListenMessageQueue", "ListenNetlink"]
unsupported += [ "ListenSpecial", "ListenFIFO", "ListenSequentialPacket"]
for item in unsupported:
if conf.get("Socket", item, ""):
logg.warning("%s: %s sockets are not implemented", conf.name(), item)
self.error |= NOT_OK
return None
vListenDatagram = conf.get("Socket", "ListenDatagram", "")
vListenStream = conf.get("Socket", "ListenStream", "")
address = vListenStream or vListenDatagram
m = re.match(r"(/.*)", address)
if m:
path = m.group(1)
sock = self.create_unix_socket(conf, path, not vListenStream)
self.set_status_from(conf, "path", path)
return sock
m = re.match(r"(\d+[.]\d*[.]\d*[.]\d+):(\d+)", address)
if m:
addr, port = m.group(1), m.group(2)
sock = self.create_port_ipv4_socket(conf, addr, port, not vListenStream)
self.set_status_from(conf, "port", port)
self.set_status_from(conf, "addr", addr)
return sock
m = re.match(r"\[([0-9a-fA-F:]*)\]:(\d+)", address)
if m:
addr, port = m.group(1), m.group(2)
sock = self.create_port_ipv6_socket(conf, addr, port, not vListenStream)
self.set_status_from(conf, "port", port)
self.set_status_from(conf, "addr", addr)
return sock
m = re.match(r"(\d+)$", address)
if m:
port = m.group(1)
sock = self.create_port_socket(conf, port, not vListenStream)
self.set_status_from(conf, "port", port)
return sock
if re.match("@.*", address):
logg.warning("%s: abstract namespace socket not implemented (%s)", conf.name(), address)
return None
if re.match("vsock:.*", address):
logg.warning("%s: virtual machine socket not implemented (%s)", conf.name(), address)
return None
logg.error("%s: unknown socket address type (%s)", conf.name(), address)
return None
def create_unix_socket(self, conf, path, dgram):
sock_stream = dgram and socket.SOCK_DGRAM or socket.SOCK_STREAM
sock = socket.socket(socket.AF_UNIX, sock_stream)
try:
dirmode = conf.get("Socket", "DirectoryMode", "0755")
mode = conf.get("Socket", "SocketMode", "0666")
user = conf.get("Socket", "SocketUser", "")
group = conf.get("Socket", "SocketGroup", "")
symlinks = conf.getlist("Socket", "SymLinks", [])
dirpath = os.path.dirname(path)
if not os.path.isdir(dirpath):
os.makedirs(dirpath, int(dirmode, 8))
if os.path.exists(path):
os.unlink(path)
sock.bind(path)
os.fchmod(sock.fileno(), int(mode, 8))
shutil_fchown(sock.fileno(), user, group)
if symlinks:
logg.warning("%s: symlinks for socket not implemented (%s)", conf.name(), path)
except Exception as e:
logg.error("%s: create socket failed [%s]: %s", conf.name(), path, e)
sock.close()
return None
return sock
def create_port_socket(self, conf, port, dgram):
inet = dgram and socket.SOCK_DGRAM or socket.SOCK_STREAM
sock = socket.socket(socket.AF_INET, inet)
try:
sock.bind(('', int(port)))
logg.info("%s: bound socket at %s %s:%s", conf.name(), strINET(inet), "*", port)
except Exception as e:
logg.error("%s: create socket failed (%s:%s): %s", conf.name(), "*", port, e)
sock.close()
return None
return sock
def create_port_ipv4_socket(self, conf, addr, port, dgram):
inet = dgram and socket.SOCK_DGRAM or socket.SOCK_STREAM
sock = socket.socket(socket.AF_INET, inet)
try:
sock.bind((addr, int(port)))
logg.info("%s: bound socket at %s %s:%s", conf.name(), strINET(inet), addr, port)
except Exception as e:
logg.error("%s: create socket failed (%s:%s): %s", conf.name(), addr, port, e)
sock.close()
return None
return sock
def create_port_ipv6_socket(self, conf, addr, port, dgram):
inet = dgram and socket.SOCK_DGRAM or socket.SOCK_STREAM
sock = socket.socket(socket.AF_INET6, inet)
try:
sock.bind((addr, int(port)))
logg.info("%s: bound socket at %s [%s]:%s", conf.name(), strINET(inet), addr, port)
except Exception as e:
logg.error("%s: create socket failed ([%s]:%s): %s", conf.name(), addr, port, e)
sock.close()
return None
return sock
def extend_exec_env(self, env):
env = env.copy()
# implant DefaultPath into $PATH
path = env.get("PATH", DefaultPath)
parts = path.split(os.pathsep)
for part in DefaultPath.split(os.pathsep):
if part and part not in parts:
parts.append(part)
env["PATH"] = str(os.pathsep).join(parts)
# reset locale to system default
for name in ResetLocale:
if name in env:
del env[name]
locale = {}
path = env.get("LOCALE_CONF", LocaleConf)
parts = path.split(os.pathsep)
for part in parts:
if os.path.isfile(part):
for var, val in self.read_env_file("-"+part):
locale[var] = val
env[var] = val
if "LANG" not in locale:
env["LANG"] = locale.get("LANGUAGE", locale.get("LC_CTYPE", "C"))
return env
def expand_list(self, group_lines, conf):
result = []
for line in group_lines:
for item in line.split():
if item:
result.append(self.expand_special(item, conf))
return result
def get_User(self, conf):
return self.expand_special(conf.get("Service", "User", ""), conf)
def get_Group(self, conf):
return self.expand_special(conf.get("Service", "Group", ""), conf)
def get_SupplementaryGroups(self, conf):
return self.expand_list(conf.getlist("Service", "SupplementaryGroups", []), conf)
def skip_journal_log(self, conf):
if self.get_unit_type(conf.name()) not in [ "service" ]:
return True
std_out = conf.get("Service", "StandardOutput", DefaultStandardOutput)
std_err = conf.get("Service", "StandardError", DefaultStandardError)
out, err = False, False
if std_out in ["null"]: out = True
if std_out.startswith("file:"): out = True
if std_err in ["inherit"]: std_err = std_out
if std_err in ["null"]: err = True
if std_err.startswith("file:"): err = True
if std_err.startswith("append:"): err = True
return out and err
def dup2_journal_log(self, conf):
msg = ""
std_inp = conf.get("Service", "StandardInput", DefaultStandardInput)
std_out = conf.get("Service", "StandardOutput", DefaultStandardOutput)
std_err = conf.get("Service", "StandardError", DefaultStandardError)
inp, out, err = None, None, None
if std_inp in ["null"]:
inp = open(_dev_null, "r")
elif std_inp.startswith("file:"):
fname = std_inp[len("file:"):]
if os.path.exists(fname):
inp = open(fname, "r")
else:
inp = open(_dev_zero, "r")
else:
inp = open(_dev_zero, "r")
assert inp is not None
try:
if std_out in ["null"]:
out = open(_dev_null, "w")
elif std_out.startswith("file:"):
fname = std_out[len("file:"):]
fdir = os.path.dirname(fname)
if not os.path.exists(fdir):
os.makedirs(fdir)
out = open(fname, "w")
elif std_out.startswith("append:"):
fname = std_out[len("append:"):]
fdir = os.path.dirname(fname)
if not os.path.exists(fdir):
os.makedirs(fdir)
out = open(fname, "a")
except Exception as e:
msg += "\n%s: %s" % (fname, e)
if out is None:
out = self.open_journal_log(conf)
err = out
assert out is not None
try:
if std_err in ["inherit"]:
err = out
elif std_err in ["null"]:
err = open(_dev_null, "w")
elif std_err.startswith("file:"):
fname = std_err[len("file:"):]
fdir = os.path.dirname(fname)
if not os.path.exists(fdir):
os.makedirs(fdir)
err = open(fname, "w")
elif std_err.startswith("append:"):
fname = std_err[len("append:"):]
fdir = os.path.dirname(fname)
if not os.path.exists(fdir):
os.makedirs(fdir)
err = open(fname, "a")
except Exception as e:
msg += "\n%s: %s" % (fname, e)
if err is None:
err = self.open_journal_log(conf)
assert err is not None
if msg:
err.write("ERROR:")
err.write(msg.strip())
err.write("\n")
if EXEC_DUP2:
os.dup2(inp.fileno(), sys.stdin.fileno())
os.dup2(out.fileno(), sys.stdout.fileno())
os.dup2(err.fileno(), sys.stderr.fileno())
def execve_from(self, conf, cmd, env):
""" this code is commonly run in a child process // returns exit-code"""
runs = conf.get("Service", "Type", "simple").lower()
# logg.debug("%s process for %s => %s", runs, strE(conf.name()), strQ(conf.filename()))
self.dup2_journal_log(conf)
#
runuser = self.get_User(conf)
rungroup = self.get_Group(conf)
xgroups = self.get_SupplementaryGroups(conf)
envs = shutil_setuid(runuser, rungroup, xgroups)
badpath = self.chdir_workingdir(conf) # some dirs need setuid before
if badpath:
logg.error("(%s): bad workingdir: '%s'", shell_cmd(cmd), badpath)
sys.exit(1)
env = self.extend_exec_env(env)
env.update(envs) # set $HOME to ~$USER
try:
if EXEC_SPAWN:
cmd_args = [ arg for arg in cmd ] # satisfy mypy
exitcode = os.spawnvpe(os.P_WAIT, cmd[0], cmd_args, env)
sys.exit(exitcode)
else: # pragma: no cover
os.execve(cmd[0], cmd, env)
sys.exit(11) # pragma: no cover (can not be reached / bug like mypy#8401)
except Exception as e:
logg.error("(%s): %s", shell_cmd(cmd), e)
sys.exit(1)
def test_start_unit(self, unit):
""" helper function to test the code that is normally forked off """
conf = self.load_unit_conf(unit)
if not conf: return None
env = self.get_env(conf)
for cmd in conf.getlist("Service", "ExecStart", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
self.execve_from(conf, newcmd, env)
return None
def stop_modules(self, *modules):
""" [UNIT]... -- stop these units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.stop_units(units) and found_all
def stop_units(self, units):
""" fails if any unit fails to stop """
self.wait_system()
done = True
for unit in self.sortedBefore(units):
if not self.stop_unit(unit):
done = False
return done
def stop_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.stop_unit_from(conf)
def get_TimeoutStopSec(self, conf):
timeout = conf.get("Service", "TimeoutSec", strE(DefaultTimeoutStartSec))
timeout = conf.get("Service", "TimeoutStopSec", timeout)
return time_to_seconds(timeout, DefaultMaximumTimeout)
def stop_unit_from(self, conf):
if not conf: return False
if self.syntax_check(conf) > 100: return False
with waitlock(conf):
logg.info(" stop unit %s => %s", conf.name(), strQ(conf.filename()))
return self.do_stop_unit_from(conf)
def do_stop_unit_from(self, conf):
if conf.name().endswith(".service"):
return self.do_stop_service_from(conf)
elif conf.name().endswith(".socket"):
return self.do_stop_socket_from(conf)
elif conf.name().endswith(".target"):
return self.do_stop_target_from(conf)
else:
logg.error("stop not implemented for unit type: %s", conf.name())
return False
def do_stop_service_from(self, conf):
timeout = self.get_TimeoutStopSec(conf)
runs = conf.get("Service", "Type", "simple").lower()
env = self.get_env(conf)
if not self._quiet:
okee = self.exec_check_unit(conf, env, "Service", "ExecStop")
if not okee and _no_reload: return False
service_directories = self.env_service_directories(conf)
env.update(service_directories)
returncode = 0
service_result = "success"
if runs in [ "oneshot" ]:
status_file = self.get_status_file_from(conf)
if self.get_status_from(conf, "ActiveState", "unknown") == "inactive":
logg.warning("the service is already down once")
return True
for cmd in conf.getlist("Service", "ExecStop", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("%s stop %s", runs, shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
if run.returncode and exe.check:
returncode = run.returncode
service_result = "failed"
break
if True:
if returncode:
self.set_status_from(conf, "ExecStopCode", strE(returncode))
self.write_status_from(conf, AS="failed")
else:
self.clean_status_from(conf) # "inactive"
### fallback Stop => Kill for ["simple","notify","forking"]
elif not conf.getlist("Service", "ExecStop", []):
logg.info("no ExecStop => systemctl kill")
if True:
self.do_kill_unit_from(conf)
self.clean_pid_file_from(conf)
self.clean_status_from(conf) # "inactive"
elif runs in [ "simple", "notify", "idle" ]:
status_file = self.get_status_file_from(conf)
size = os.path.exists(status_file) and os.path.getsize(status_file)
logg.info("STATUS %s %s", status_file, size)
pid = 0
for cmd in conf.getlist("Service", "ExecStop", []):
env["MAINPID"] = strE(self.read_mainpid_from(conf))
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("%s stop %s", runs, shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
run = must_have_failed(run, newcmd) # TODO: a workaround
# self.write_status_from(conf, MainPID=run.pid) # no ExecStop
if run.returncode and exe.check:
returncode = run.returncode
service_result = "failed"
break
pid = to_intN(env.get("MAINPID"))
if pid:
if self.wait_vanished_pid(pid, timeout):
self.clean_pid_file_from(conf)
self.clean_status_from(conf) # "inactive"
else:
logg.info("%s sleep as no PID was found on Stop", runs)
time.sleep(MinimumTimeoutStopSec)
pid = self.read_mainpid_from(conf)
if not pid or not pid_exists(pid) or pid_zombie(pid):
self.clean_pid_file_from(conf)
self.clean_status_from(conf) # "inactive"
elif runs in [ "forking" ]:
status_file = self.get_status_file_from(conf)
pid_file = self.pid_file_from(conf)
for cmd in conf.getlist("Service", "ExecStop", []):
# active = self.is_active_from(conf)
if pid_file:
new_pid = self.read_mainpid_from(conf)
if new_pid:
env["MAINPID"] = strE(new_pid)
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("fork stop %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
if run.returncode and exe.check:
returncode = run.returncode
service_result = "failed"
break
pid = to_intN(env.get("MAINPID"))
if pid:
if self.wait_vanished_pid(pid, timeout):
self.clean_pid_file_from(conf)
else:
logg.info("%s sleep as no PID was found on Stop", runs)
time.sleep(MinimumTimeoutStopSec)
pid = self.read_mainpid_from(conf)
if not pid or not pid_exists(pid) or pid_zombie(pid):
self.clean_pid_file_from(conf)
if returncode:
if os.path.isfile(status_file):
self.set_status_from(conf, "ExecStopCode", strE(returncode))
self.write_status_from(conf, AS="failed")
else:
self.clean_status_from(conf) # "inactive"
else:
logg.error("unsupported run type '%s'", runs)
return False
# POST sequence
if not self.is_active_from(conf):
env["SERVICE_RESULT"] = service_result
for cmd in conf.getlist("Service", "ExecStopPost", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("post-stop %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
logg.debug("post-stop done (%s) <-%s>",
run.returncode or "OK", run.signal or "")
if _what_kind not in ["none", "keep"]:
self.remove_service_directories(conf)
return service_result == "success"
def do_stop_socket_from(self, conf):
runs = "socket"
timeout = self.get_SocketTimeoutSec(conf)
accept = conf.getbool("Socket", "Accept", "no")
service_unit = self.get_socket_service_from(conf)
service_conf = self.load_unit_conf(service_unit)
if service_conf is None:
logg.debug("unit could not be loaded (%s)", service_unit)
logg.error("Unit %s not found.", service_unit)
return False
env = self.get_env(conf)
if not self._quiet:
okee = self.exec_check_unit(conf, env, "Socket", "ExecStop")
if not okee and _no_reload: return False
if not accept:
# we do not listen but have the service started right away
done = self.do_stop_service_from(service_conf)
service_result = done and "success" or "failed"
else:
done = self.do_stop_service_from(service_conf)
service_result = done and "success" or "failed"
# service_directories = self.env_service_directories(conf)
# env.update(service_directories)
# POST sequence
if not self.is_active_from(conf):
env["SERVICE_RESULT"] = service_result
for cmd in conf.getlist("Socket", "ExecStopPost", []):
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("post-stop %s", shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
logg.debug("post-stop done (%s) <-%s>",
run.returncode or "OK", run.signal or "")
return service_result == "success"
def wait_vanished_pid(self, pid, timeout):
if not pid:
return True
if not self.is_active_pid(pid):
return True
logg.info("wait for PID %s to vanish (%ss)", pid, timeout)
for x in xrange(int(timeout)):
time.sleep(1) # until TimeoutStopSec
if not self.is_active_pid(pid):
logg.info("wait for PID %s is done (%s.)", pid, x)
return True
logg.info("wait for PID %s failed (%s.)", pid, timeout)
return False
def reload_modules(self, *modules):
""" [UNIT]... -- reload these units """
self.wait_system()
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.reload_units(units) and found_all
def reload_units(self, units):
""" fails if any unit fails to reload """
self.wait_system()
done = True
for unit in self.sortedAfter(units):
if not self.reload_unit(unit):
done = False
return done
def reload_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.reload_unit_from(conf)
def reload_unit_from(self, conf):
if not conf: return False
if self.syntax_check(conf) > 100: return False
with waitlock(conf):
logg.info(" reload unit %s => %s", conf.name(), strQ(conf.filename()))
return self.do_reload_unit_from(conf)
def do_reload_unit_from(self, conf):
if conf.name().endswith(".service"):
return self.do_reload_service_from(conf)
elif conf.name().endswith(".socket"):
service_unit = self.get_socket_service_from(conf)
service_conf = self.load_unit_conf(service_unit)
if service_conf:
return self.do_reload_service_from(service_conf)
else:
logg.error("no %s found for unit type: %s", service_unit, conf.name())
return False
elif conf.name().endswith(".target"):
return self.do_reload_target_from(conf)
else:
logg.error("reload not implemented for unit type: %s", conf.name())
return False
def do_reload_service_from(self, conf):
runs = conf.get("Service", "Type", "simple").lower()
env = self.get_env(conf)
if not self._quiet:
okee = self.exec_check_unit(conf, env, "Service", "ExecReload")
if not okee and _no_reload: return False
initscript = conf.filename()
if self.is_sysv_file(initscript):
status_file = self.get_status_file_from(conf)
if initscript:
newcmd = [initscript, "reload"]
env["SYSTEMCTL_SKIP_REDIRECT"] = "yes"
logg.info("%s reload %s", runs, shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: nocover
run = subprocess_waitpid(forkpid)
self.set_status_from(conf, "ExecReloadCode", run.returncode)
if run.returncode:
self.write_status_from(conf, AS="failed")
return False
else:
self.write_status_from(conf, AS="active")
return True
service_directories = self.env_service_directories(conf)
env.update(service_directories)
if runs in [ "simple", "notify", "forking", "idle" ]:
if not self.is_active_from(conf):
logg.info("no reload on inactive service %s", conf.name())
return True
for cmd in conf.getlist("Service", "ExecReload", []):
env["MAINPID"] = strE(self.read_mainpid_from(conf))
exe, newcmd = self.exec_newcmd(cmd, env, conf)
logg.info("%s reload %s", runs, shell_cmd(newcmd))
forkpid = os.fork()
if not forkpid:
self.execve_from(conf, newcmd, env) # pragma: no cover
run = subprocess_waitpid(forkpid)
if run.returncode and exe.check:
logg.error("Job for %s failed because the control process exited with error code. (%s)",
conf.name(), run.returncode)
return False
time.sleep(MinimumYield)
return True
elif runs in [ "oneshot" ]:
logg.debug("ignored run type '%s' for reload", runs)
return True
else:
logg.error("unsupported run type '%s'", runs)
return False
def restart_modules(self, *modules):
""" [UNIT]... -- restart these units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.restart_units(units) and found_all
def restart_units(self, units):
""" fails if any unit fails to restart """
self.wait_system()
done = True
for unit in self.sortedAfter(units):
if not self.restart_unit(unit):
done = False
return done
def restart_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.restart_unit_from(conf)
def restart_unit_from(self, conf):
if not conf: return False
if self.syntax_check(conf) > 100: return False
with waitlock(conf):
if conf.name().endswith(".service"):
logg.info(" restart service %s => %s", conf.name(), strQ(conf.filename()))
if not self.is_active_from(conf):
return self.do_start_unit_from(conf)
else:
return self.do_restart_unit_from(conf)
else:
return self.do_restart_unit_from(conf)
def do_restart_unit_from(self, conf):
logg.info("(restart) => stop/start %s", conf.name())
self.do_stop_unit_from(conf)
return self.do_start_unit_from(conf)
def try_restart_modules(self, *modules):
""" [UNIT]... -- try-restart these units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.try_restart_units(units) and found_all
def try_restart_units(self, units):
""" fails if any module fails to try-restart """
self.wait_system()
done = True
for unit in self.sortedAfter(units):
if not self.try_restart_unit(unit):
done = False
return done
def try_restart_unit(self, unit):
""" only do 'restart' if 'active' """
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
with waitlock(conf):
logg.info(" try-restart unit %s => %s", conf.name(), strQ(conf.filename()))
if self.is_active_from(conf):
return self.do_restart_unit_from(conf)
return True
def reload_or_restart_modules(self, *modules):
""" [UNIT]... -- reload-or-restart these units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.reload_or_restart_units(units) and found_all
def reload_or_restart_units(self, units):
""" fails if any unit does not reload-or-restart """
self.wait_system()
done = True
for unit in self.sortedAfter(units):
if not self.reload_or_restart_unit(unit):
done = False
return done
def reload_or_restart_unit(self, unit):
""" do 'reload' if specified, otherwise do 'restart' """
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.reload_or_restart_unit_from(conf)
def reload_or_restart_unit_from(self, conf):
""" do 'reload' if specified, otherwise do 'restart' """
if not conf: return False
with waitlock(conf):
logg.info(" reload-or-restart unit %s => %s", conf.name(), strQ(conf.filename()))
return self.do_reload_or_restart_unit_from(conf)
def do_reload_or_restart_unit_from(self, conf):
if not self.is_active_from(conf):
# try: self.stop_unit_from(conf)
# except Exception as e: pass
return self.do_start_unit_from(conf)
elif conf.getlist("Service", "ExecReload", []):
logg.info("found service to have ExecReload -> 'reload'")
return self.do_reload_unit_from(conf)
else:
logg.info("found service without ExecReload -> 'restart'")
return self.do_restart_unit_from(conf)
def reload_or_try_restart_modules(self, *modules):
""" [UNIT]... -- reload-or-try-restart these units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.reload_or_try_restart_units(units) and found_all
def reload_or_try_restart_units(self, units):
""" fails if any unit fails to reload-or-try-restart """
self.wait_system()
done = True
for unit in self.sortedAfter(units):
if not self.reload_or_try_restart_unit(unit):
done = False
return done
def reload_or_try_restart_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.reload_or_try_restart_unit_from(conf)
def reload_or_try_restart_unit_from(self, conf):
with waitlock(conf):
logg.info(" reload-or-try-restart unit %s => %s", conf.name(), strQ(conf.filename()))
return self.do_reload_or_try_restart_unit_from(conf)
def do_reload_or_try_restart_unit_from(self, conf):
if conf.getlist("Service", "ExecReload", []):
return self.do_reload_unit_from(conf)
elif not self.is_active_from(conf):
return True
else:
return self.do_restart_unit_from(conf)
def kill_modules(self, *modules):
""" [UNIT]... -- kill these units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
# self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.kill_units(units) and found_all
def kill_units(self, units):
""" fails if any unit could not be killed """
self.wait_system()
done = True
for unit in self.sortedBefore(units):
if not self.kill_unit(unit):
done = False
return done
def kill_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.kill_unit_from(conf)
def kill_unit_from(self, conf):
if not conf: return False
with waitlock(conf):
logg.info(" kill unit %s => %s", conf.name(), strQ(conf.filename()))
return self.do_kill_unit_from(conf)
def do_kill_unit_from(self, conf):
started = time.time()
doSendSIGKILL = self.get_SendSIGKILL(conf)
doSendSIGHUP = self.get_SendSIGHUP(conf)
useKillMode = self.get_KillMode(conf)
useKillSignal = self.get_KillSignal(conf)
kill_signal = getattr(signal, useKillSignal)
timeout = self.get_TimeoutStopSec(conf)
status_file = self.get_status_file_from(conf)
size = os.path.exists(status_file) and os.path.getsize(status_file)
logg.info("STATUS %s %s", status_file, size)
mainpid = self.read_mainpid_from(conf)
self.clean_status_from(conf) # clear RemainAfterExit and TimeoutStartSec
if not mainpid:
if useKillMode in ["control-group"]:
logg.warning("no main PID %s", strQ(conf.filename()))
logg.warning("and there is no control-group here")
else:
logg.info("no main PID %s", strQ(conf.filename()))
return False
if not pid_exists(mainpid) or pid_zombie(mainpid):
logg.debug("ignoring children when mainpid is already dead")
# because we list child processes, not processes in control-group
return True
pidlist = self.pidlist_of(mainpid) # here
if pid_exists(mainpid):
logg.info("stop kill PID %s", mainpid)
self._kill_pid(mainpid, kill_signal)
if useKillMode in ["control-group"]:
if len(pidlist) > 1:
logg.info("stop control-group PIDs %s", pidlist)
for pid in pidlist:
if pid != mainpid:
self._kill_pid(pid, kill_signal)
if doSendSIGHUP:
logg.info("stop SendSIGHUP to PIDs %s", pidlist)
for pid in pidlist:
self._kill_pid(pid, signal.SIGHUP)
# wait for the processes to have exited
while True:
dead = True
for pid in pidlist:
if pid_exists(pid) and not pid_zombie(pid):
dead = False
break
if dead:
break
if time.time() > started + timeout:
logg.info("service PIDs not stopped after %s", timeout)
break
time.sleep(1) # until TimeoutStopSec
if dead or not doSendSIGKILL:
logg.info("done kill PID %s %s", mainpid, dead and "OK")
return dead
if useKillMode in [ "control-group", "mixed" ]:
logg.info("hard kill PIDs %s", pidlist)
for pid in pidlist:
if pid != mainpid:
self._kill_pid(pid, signal.SIGKILL)
time.sleep(MinimumYield)
# useKillMode in [ "control-group", "mixed", "process" ]
if pid_exists(mainpid):
logg.info("hard kill PID %s", mainpid)
self._kill_pid(mainpid, signal.SIGKILL)
time.sleep(MinimumYield)
dead = not pid_exists(mainpid) or pid_zombie(mainpid)
logg.info("done hard kill PID %s %s", mainpid, dead and "OK")
return dead
def _kill_pid(self, pid, kill_signal = None):
try:
sig = kill_signal or signal.SIGTERM
os.kill(pid, sig)
except OSError as e:
if e.errno == errno.ESRCH or e.errno == errno.ENOENT:
logg.debug("kill PID %s => No such process", pid)
return True
else:
logg.error("kill PID %s => %s", pid, str(e))
return False
return not pid_exists(pid) or pid_zombie(pid)
def is_active_modules(self, *modules):
""" [UNIT].. -- check if these units are in active state
implements True if all is-active = True """
# systemctl returns multiple lines, one for each argument
# "active" when is_active
# "inactive" when not is_active
# "unknown" when not enabled
# The return code is set to
# 0 when "active"
# 1 when unit is not found
# 3 when any "inactive" or "unknown"
# However: # TODO! BUG in original systemctl!
# documentation says " exit code 0 if at least one is active"
# and "Unless --quiet is specified, print the unit state"
units = []
results = []
for module in modules:
units = self.match_units(to_list(module))
if not units:
logg.error("Unit %s not found.", unit_of(module))
# self.error |= NOT_FOUND
self.error |= NOT_ACTIVE
results += [ "inactive" ]
continue
for unit in units:
active = self.get_active_unit(unit)
enabled = self.enabled_unit(unit)
if enabled != "enabled" and ACTIVE_IF_ENABLED:
active = "inactive" # "unknown"
results += [ active ]
break
## how it should work:
status = "active" in results
## how 'systemctl' works:
non_active = [ result for result in results if result != "active" ]
if non_active:
self.error |= NOT_ACTIVE
if non_active:
self.error |= NOT_OK # status
if _quiet:
return []
return results
def is_active_from(self, conf):
""" used in try-restart/other commands to check if needed. """
if not conf: return False
return self.get_active_from(conf) == "active"
def active_pid_from(self, conf):
if not conf: return False
pid = self.read_mainpid_from(conf)
return self.is_active_pid(pid)
def is_active_pid(self, pid):
""" returns pid if the pid is still an active process """
if pid and pid_exists(pid) and not pid_zombie(pid):
return pid # usually a string (not null)
return None
def get_active_unit(self, unit):
""" returns 'active' 'inactive' 'failed' 'unknown' """
conf = self.load_unit_conf(unit)
if not conf:
logg.warning("Unit %s not found.", unit)
return "unknown"
else:
return self.get_active_from(conf)
def get_active_from(self, conf):
if conf.name().endswith(".service"):
return self.get_active_service_from(conf)
elif conf.name().endswith(".socket"):
service_unit = self.get_socket_service_from(conf)
service_conf = self.load_unit_conf(service_unit)
return self.get_active_service_from(service_conf)
elif conf.name().endswith(".target"):
return self.get_active_target_from(conf)
else:
logg.debug("is-active not implemented for unit type: %s", conf.name())
return "unknown" # TODO: "inactive" ?
def get_active_service_from(self, conf):
""" returns 'active' 'inactive' 'failed' 'unknown' """
# used in try-restart/other commands to check if needed.
if not conf: return "unknown"
pid_file = self.pid_file_from(conf)
if pid_file: # application PIDFile
if not os.path.exists(pid_file):
return "inactive"
status_file = self.get_status_file_from(conf)
if self.getsize(status_file):
state = self.get_status_from(conf, "ActiveState", "")
if state:
if DEBUG_STATUS:
logg.info("get_status_from %s => %s", conf.name(), state)
return state
pid = self.read_mainpid_from(conf)
if DEBUG_STATUS:
logg.debug("pid_file '%s' => PID %s", pid_file or status_file, strE(pid))
if pid:
if not pid_exists(pid) or pid_zombie(pid):
return "failed"
return "active"
else:
return "inactive"
def get_active_target_from(self, conf):
""" returns 'active' 'inactive' 'failed' 'unknown' """
return self.get_active_target(conf.name())
def get_active_target(self, target):
""" returns 'active' 'inactive' 'failed' 'unknown' """
if target in self.get_active_target_list():
status = self.is_system_running()
if status in [ "running" ]:
return "active"
return "inactive"
else:
services = self.target_default_services(target)
result = "active"
for service in services:
conf = self.load_unit_conf(service)
if conf:
state = self.get_active_from(conf)
if state in ["failed"]:
result = state
elif state not in ["active"]:
result = state
return result
def get_active_target_list(self):
current_target = self.get_default_target()
target_list = self.get_target_list(current_target)
target_list += [ DefaultUnit ] # upper end
target_list += [ SysInitTarget ] # lower end
return target_list
def get_substate_from(self, conf):
""" returns 'running' 'exited' 'dead' 'failed' 'plugged' 'mounted' """
if not conf: return None
pid_file = self.pid_file_from(conf)
if pid_file:
if not os.path.exists(pid_file):
return "dead"
status_file = self.get_status_file_from(conf)
if self.getsize(status_file):
state = self.get_status_from(conf, "ActiveState", "")
if state:
if state in [ "active" ]:
return self.get_status_from(conf, "SubState", "running")
else:
return self.get_status_from(conf, "SubState", "dead")
pid = self.read_mainpid_from(conf)
if DEBUG_STATUS:
logg.debug("pid_file '%s' => PID %s", pid_file or status_file, strE(pid))
if pid:
if not pid_exists(pid) or pid_zombie(pid):
return "failed"
return "running"
else:
return "dead"
def is_failed_modules(self, *modules):
""" [UNIT]... -- check if these units are in failes state
implements True if any is-active = True """
units = []
results = []
for module in modules:
units = self.match_units(to_list(module))
if not units:
logg.error("Unit %s not found.", unit_of(module))
# self.error |= NOT_FOUND
results += [ "inactive" ]
continue
for unit in units:
active = self.get_active_unit(unit)
enabled = self.enabled_unit(unit)
if enabled != "enabled" and ACTIVE_IF_ENABLED:
active = "inactive"
results += [ active ]
break
if "failed" in results:
self.error = 0
else:
self.error |= NOT_OK
if _quiet:
return []
return results
def is_failed_from(self, conf):
if conf is None: return True
return self.get_active_from(conf) == "failed"
def reset_failed_modules(self, *modules):
""" [UNIT]... -- Reset failed state for all, one, or more units """
units = []
status = True
for module in modules:
units = self.match_units(to_list(module))
if not units:
logg.error("Unit %s not found.", unit_of(module))
# self.error |= NOT_FOUND
return False
for unit in units:
if not self.reset_failed_unit(unit):
logg.error("Unit %s could not be reset.", unit_of(module))
status = False
break
return status
def reset_failed_unit(self, unit):
conf = self.load_unit_conf(unit)
if not conf:
logg.warning("Unit %s not found.", unit)
return False
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.reset_failed_from(conf)
def reset_failed_from(self, conf):
if conf is None: return True
if not self.is_failed_from(conf): return False
done = False
status_file = self.get_status_file_from(conf)
if status_file and os.path.exists(status_file):
try:
os.remove(status_file)
done = True
logg.debug("done rm %s", status_file)
except Exception as e:
logg.error("while rm %s: %s", status_file, e)
pid_file = self.pid_file_from(conf)
if pid_file and os.path.exists(pid_file):
try:
os.remove(pid_file)
done = True
logg.debug("done rm %s", pid_file)
except Exception as e:
logg.error("while rm %s: %s", pid_file, e)
return done
def status_modules(self, *modules):
""" [UNIT]... check the status of these units.
"""
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s could not be found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
result = self.status_units(units)
# if not found_all:
# self.error |= NOT_OK | NOT_ACTIVE # 3
# # same as (dead) # original behaviour
return result
def status_units(self, units):
""" concatenates the status output of all units
and the last non-successful statuscode """
status = 0
result = ""
for unit in units:
status1, result1 = self.status_unit(unit)
if status1: status = status1
if result: result += "\n\n"
result += result1
if status:
self.error |= NOT_OK | NOT_ACTIVE # 3
return result
def status_unit(self, unit):
conf = self.get_unit_conf(unit)
result = "%s - %s" % (unit, self.get_description_from(conf))
loaded = conf.loaded()
if loaded:
filename = str(conf.filename())
enabled = self.enabled_from(conf)
result += "\n Loaded: {loaded} ({filename}, {enabled})".format(**locals())
for path in conf.overrides():
result += "\n Drop-In: {path}".format(**locals())
else:
result += "\n Loaded: failed"
return 3, result
active = self.get_active_from(conf)
substate = self.get_substate_from(conf)
result += "\n Active: {} ({})".format(active, substate)
if active == "active":
return 0, result
else:
return 3, result
def cat_modules(self, *modules):
""" [UNIT]... show the *.system file for these"
"""
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s could not be found.", unit_of(module))
# self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
result = self.cat_units(units)
if not found_all:
self.error |= NOT_OK
return result
def cat_units(self, units):
done = True
result = ""
for unit in units:
text = self.cat_unit(unit)
if not text:
done = False
else:
if result:
result += "\n\n"
result += text
if not done:
self.error = NOT_OK
return result
def cat_unit(self, unit):
try:
unit_file = self.unit_file(unit)
if unit_file:
return open(unit_file).read()
logg.error("No files found for %s", unit)
except Exception as e:
print("Unit {} is not-loaded: {}".format(unit, e))
self.error |= NOT_OK
return None
##
##
def load_preset_files(self, module = None): # -> [ preset-file-names,... ]
""" reads all preset files, returns the scanned files """
if self._preset_file_list is None:
self._preset_file_list = {}
assert self._preset_file_list is not None
for folder in self.preset_folders():
if not folder:
continue
if self._root:
folder = os_path(self._root, folder)
if not os.path.isdir(folder):
continue
for name in os.listdir(folder):
if not name.endswith(".preset"):
continue
if name not in self._preset_file_list:
path = os.path.join(folder, name)
if os.path.isdir(path):
continue
preset = PresetFile().read(path)
self._preset_file_list[name] = preset
logg.debug("found %s preset files", len(self._preset_file_list))
return sorted(self._preset_file_list.keys())
def get_preset_of_unit(self, unit):
""" [UNIT] check the *.preset of this unit
"""
self.load_preset_files()
assert self._preset_file_list is not None
for filename in sorted(self._preset_file_list.keys()):
preset = self._preset_file_list[filename]
status = preset.get_preset(unit)
if status:
return status
return None
def preset_modules(self, *modules):
""" [UNIT]... -- set 'enabled' when in *.preset
"""
if self.user_mode():
logg.warning("preset makes no sense in --user mode")
return True
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s could not be found.", unit_of(module))
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.preset_units(units) and found_all
def preset_units(self, units):
""" fails if any unit could not be changed """
self.wait_system()
fails = 0
found = 0
for unit in units:
status = self.get_preset_of_unit(unit)
if not status: continue
found += 1
if status.startswith("enable"):
if self._preset_mode == "disable": continue
logg.info("preset enable %s", unit)
if not self.enable_unit(unit):
logg.warning("failed to enable %s", unit)
fails += 1
if status.startswith("disable"):
if self._preset_mode == "enable": continue
logg.info("preset disable %s", unit)
if not self.disable_unit(unit):
logg.warning("failed to disable %s", unit)
fails += 1
return not fails and not not found
def system_preset_all(self, *modules):
""" 'preset' all services
enable or disable services according to *.preset files
"""
if self.user_mode():
logg.warning("preset-all makes no sense in --user mode")
return True
found_all = True
units = self.match_units() # TODO: how to handle module arguments
return self.preset_units(units) and found_all
def wanted_from(self, conf, default = None):
if not conf: return default
return conf.get("Install", "WantedBy", default, True)
def enablefolders(self, wanted):
if self.user_mode():
for folder in self.user_folders():
yield self.default_enablefolder(wanted, folder)
if True:
for folder in self.system_folders():
yield self.default_enablefolder(wanted, folder)
def enablefolder(self, wanted):
if self.user_mode():
user_folder = self.user_folder()
return self.default_enablefolder(wanted, user_folder)
else:
return self.default_enablefolder(wanted)
def default_enablefolder(self, wanted, basefolder = None):
basefolder = basefolder or self.system_folder()
if not wanted:
return wanted
if not wanted.endswith(".wants"):
wanted = wanted + ".wants"
return os.path.join(basefolder, wanted)
def enable_modules(self, *modules):
""" [UNIT]... -- enable these units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
# self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
logg.info("matched %s", unit) #++
if unit not in units:
units += [ unit ]
return self.enable_units(units) and found_all
def enable_units(self, units):
self.wait_system()
done = True
for unit in units:
if not self.enable_unit(unit):
done = False
elif self._now:
self.start_unit(unit)
return done
def enable_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
unit_file = conf.filename()
if unit_file is None:
logg.error("Unit file %s not found.", unit)
return False
if self.is_sysv_file(unit_file):
if self.user_mode():
logg.error("Initscript %s not for --user mode", unit)
return False
return self.enable_unit_sysv(unit_file)
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.enable_unit_from(conf)
def enable_unit_from(self, conf):
wanted = self.wanted_from(conf)
if not wanted and not self._force:
logg.debug("%s has no target", conf.name())
return False # "static" is-enabled
target = wanted or self.get_default_target()
folder = self.enablefolder(target)
if self._root:
folder = os_path(self._root, folder)
if not os.path.isdir(folder):
os.makedirs(folder)
source = conf.filename()
if not source: # pragma: no cover (was checked before)
logg.debug("%s has no real file", conf.name())
return False
symlink = os.path.join(folder, conf.name())
if True:
_f = self._force and "-f" or ""
logg.info("ln -s {_f} '{source}' '{symlink}'".format(**locals()))
if self._force and os.path.islink(symlink):
os.remove(target)
if not os.path.islink(symlink):
os.symlink(source, symlink)
return True
def rc3_root_folder(self):
old_folder = os_path(self._root, _rc3_boot_folder)
new_folder = os_path(self._root, _rc3_init_folder)
if os.path.isdir(old_folder): # pragma: no cover
return old_folder
return new_folder
def rc5_root_folder(self):
old_folder = os_path(self._root, _rc5_boot_folder)
new_folder = os_path(self._root, _rc5_init_folder)
if os.path.isdir(old_folder): # pragma: no cover
return old_folder
return new_folder
def enable_unit_sysv(self, unit_file):
# a "multi-user.target"/rc3 is also started in /rc5
rc3 = self._enable_unit_sysv(unit_file, self.rc3_root_folder())
rc5 = self._enable_unit_sysv(unit_file, self.rc5_root_folder())
return rc3 and rc5
def _enable_unit_sysv(self, unit_file, rc_folder):
name = os.path.basename(unit_file)
nameS = "S50"+name
nameK = "K50"+name
if not os.path.isdir(rc_folder):
os.makedirs(rc_folder)
# do not double existing entries
for found in os.listdir(rc_folder):
m = re.match(r"S\d\d(.*)", found)
if m and m.group(1) == name:
nameS = found
m = re.match(r"K\d\d(.*)", found)
if m and m.group(1) == name:
nameK = found
target = os.path.join(rc_folder, nameS)
if not os.path.exists(target):
os.symlink(unit_file, target)
target = os.path.join(rc_folder, nameK)
if not os.path.exists(target):
os.symlink(unit_file, target)
return True
def disable_modules(self, *modules):
""" [UNIT]... -- disable these units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
# self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.disable_units(units) and found_all
def disable_units(self, units):
self.wait_system()
done = True
for unit in units:
if not self.disable_unit(unit):
done = False
return done
def disable_unit(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
unit_file = conf.filename()
if unit_file is None:
logg.error("Unit file %s not found.", unit)
return False
if self.is_sysv_file(unit_file):
if self.user_mode():
logg.error("Initscript %s not for --user mode", unit)
return False
return self.disable_unit_sysv(unit_file)
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
return self.disable_unit_from(conf)
def disable_unit_from(self, conf):
wanted = self.wanted_from(conf)
if not wanted and not self._force:
logg.debug("%s has no target", conf.name())
return False # "static" is-enabled
target = wanted or self.get_default_target()
for folder in self.enablefolders(target):
if self._root:
folder = os_path(self._root, folder)
symlink = os.path.join(folder, conf.name())
if os.path.exists(symlink):
try:
_f = self._force and "-f" or ""
logg.info("rm {_f} '{symlink}'".format(**locals()))
if os.path.islink(symlink) or self._force:
os.remove(symlink)
except IOError as e:
logg.error("disable %s: %s", symlink, e)
except OSError as e:
logg.error("disable %s: %s", symlink, e)
return True
def disable_unit_sysv(self, unit_file):
rc3 = self._disable_unit_sysv(unit_file, self.rc3_root_folder())
rc5 = self._disable_unit_sysv(unit_file, self.rc5_root_folder())
return rc3 and rc5
def _disable_unit_sysv(self, unit_file, rc_folder):
# a "multi-user.target"/rc3 is also started in /rc5
name = os.path.basename(unit_file)
nameS = "S50"+name
nameK = "K50"+name
# do not forget the existing entries
for found in os.listdir(rc_folder):
m = re.match(r"S\d\d(.*)", found)
if m and m.group(1) == name:
nameS = found
m = re.match(r"K\d\d(.*)", found)
if m and m.group(1) == name:
nameK = found
target = os.path.join(rc_folder, nameS)
if os.path.exists(target):
os.unlink(target)
target = os.path.join(rc_folder, nameK)
if os.path.exists(target):
os.unlink(target)
return True
def is_enabled_sysv(self, unit_file):
name = os.path.basename(unit_file)
target = os.path.join(self.rc3_root_folder(), "S50%s" % name)
if os.path.exists(target):
return True
return False
def is_enabled_modules(self, *modules):
""" [UNIT]... -- check if these units are enabled
returns True if any of them is enabled."""
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
# self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.is_enabled_units(units) # and found_all
def is_enabled_units(self, units):
""" true if any is enabled, and a list of infos """
result = False
infos = []
for unit in units:
infos += [ self.enabled_unit(unit) ]
if self.is_enabled(unit):
result = True
if not result:
self.error |= NOT_OK
return infos
def is_enabled(self, unit):
conf = self.load_unit_conf(unit)
if conf is None:
logg.error("Unit %s not found.", unit)
return False
unit_file = conf.filename()
if not unit_file:
logg.error("Unit %s not found.", unit)
return False
if self.is_sysv_file(unit_file):
return self.is_enabled_sysv(unit_file)
state = self.get_enabled_from(conf)
if state in ["enabled", "static"]:
return True
return False # ["disabled", "masked"]
def enabled_unit(self, unit):
conf = self.get_unit_conf(unit)
return self.enabled_from(conf)
def enabled_from(self, conf):
unit_file = strE(conf.filename())
if self.is_sysv_file(unit_file):
state = self.is_enabled_sysv(unit_file)
if state:
return "enabled"
return "disabled"
return self.get_enabled_from(conf)
def get_enabled_from(self, conf):
if conf.masked:
return "masked"
wanted = self.wanted_from(conf)
target = wanted or self.get_default_target()
for folder in self.enablefolders(target):
if self._root:
folder = os_path(self._root, folder)
target = os.path.join(folder, conf.name())
if os.path.isfile(target):
return "enabled"
if not wanted:
return "static"
return "disabled"
def mask_modules(self, *modules):
""" [UNIT]... -- mask non-startable units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.mask_units(units) and found_all
def mask_units(self, units):
self.wait_system()
done = True
for unit in units:
if not self.mask_unit(unit):
done = False
return done
def mask_unit(self, unit):
unit_file = self.unit_file(unit)
if not unit_file:
logg.error("Unit %s not found.", unit)
return False
if self.is_sysv_file(unit_file):
logg.error("Initscript %s can not be masked", unit)
return False
conf = self.get_unit_conf(unit)
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
folder = self.mask_folder()
if self._root:
folder = os_path(self._root, folder)
if not os.path.isdir(folder):
os.makedirs(folder)
target = os.path.join(folder, os.path.basename(unit_file))
dev_null = _dev_null
if True:
_f = self._force and "-f" or ""
logg.debug("ln -s {_f} {dev_null} '{target}'".format(**locals()))
if self._force and os.path.islink(target):
os.remove(target)
if not os.path.exists(target):
os.symlink(dev_null, target)
logg.info("Created symlink {target} -> {dev_null}".format(**locals()))
return True
elif os.path.islink(target):
logg.debug("mask symlink does already exist: %s", target)
return True
else:
logg.error("mask target does already exist: %s", target)
return False
def mask_folder(self):
for folder in self.mask_folders():
if folder: return folder
raise Exception("did not find any systemd/system folder")
def mask_folders(self):
if self.user_mode():
for folder in self.user_folders():
yield folder
if True:
for folder in self.system_folders():
yield folder
def unmask_modules(self, *modules):
""" [UNIT]... -- unmask non-startable units """
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s not found.", unit_of(module))
self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.unmask_units(units) and found_all
def unmask_units(self, units):
self.wait_system()
done = True
for unit in units:
if not self.unmask_unit(unit):
done = False
return done
def unmask_unit(self, unit):
unit_file = self.unit_file(unit)
if not unit_file:
logg.error("Unit %s not found.", unit)
return False
if self.is_sysv_file(unit_file):
logg.error("Initscript %s can not be un/masked", unit)
return False
conf = self.get_unit_conf(unit)
if self.not_user_conf(conf):
logg.error("Unit %s not for --user mode", unit)
return False
folder = self.mask_folder()
if self._root:
folder = os_path(self._root, folder)
target = os.path.join(folder, os.path.basename(unit_file))
if True:
_f = self._force and "-f" or ""
logg.info("rm {_f} '{target}'".format(**locals()))
if os.path.islink(target):
os.remove(target)
return True
elif not os.path.exists(target):
logg.debug("Symlink did not exist anymore: %s", target)
return True
else:
logg.warning("target is not a symlink: %s", target)
return True
def list_dependencies_modules(self, *modules):
""" [UNIT]... show the dependency tree"
"""
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s could not be found.", unit_of(module))
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.list_dependencies_units(units) # and found_all
def list_dependencies_units(self, units):
if self._now:
return self.list_start_dependencies_units(units)
result = []
for unit in units:
if result:
result += [ "", "" ]
result += self.list_dependencies_unit(unit)
return result
def list_dependencies_unit(self, unit):
result = []
for line in self.list_dependencies(unit, ""):
result += [ line ]
return result
def list_dependencies(self, unit, indent = None, mark = None, loop = []):
mapping = {}
mapping["Requires"] = "required to start"
mapping["Wants"] = "wanted to start"
mapping["Requisite"] = "required started"
mapping["Bindsto"] = "binds to start"
mapping["PartOf"] = "part of started"
mapping[".requires"] = ".required to start"
mapping[".wants"] = ".wanted to start"
mapping["PropagateReloadTo"] = "(to be reloaded as well)"
mapping["Conflicts"] = "(to be stopped on conflict)"
restrict = ["Requires", "Requisite", "ConsistsOf", "Wants",
"BindsTo", ".requires", ".wants"]
indent = indent or ""
mark = mark or ""
deps = self.get_dependencies_unit(unit)
conf = self.get_unit_conf(unit)
if not conf.loaded():
if not self._show_all:
return
yield "%s(%s): %s" % (indent, unit, mark)
else:
yield "%s%s: %s" % (indent, unit, mark)
for stop_recursion in [ "Conflict", "conflict", "reloaded", "Propagate" ]:
if stop_recursion in mark:
return
for dep in deps:
if dep in loop:
logg.debug("detected loop at %s", dep)
continue
new_loop = loop + list(deps.keys())
new_indent = indent + "| "
new_mark = deps[dep]
if not self._show_all:
if new_mark not in restrict:
continue
if new_mark in mapping:
new_mark = mapping[new_mark]
restrict = ["Requires", "Wants", "Requisite", "BindsTo", "PartOf", "ConsistsOf",
".requires", ".wants"]
for line in self.list_dependencies(dep, new_indent, new_mark, new_loop):
yield line
def get_dependencies_unit(self, unit, styles = None):
styles = styles or [ "Requires", "Wants", "Requisite", "BindsTo", "PartOf", "ConsistsOf",
".requires", ".wants", "PropagateReloadTo", "Conflicts", ]
conf = self.get_unit_conf(unit)
deps = {}
for style in styles:
if style.startswith("."):
for folder in self.sysd_folders():
if not folder:
continue
require_path = os.path.join(folder, unit + style)
if self._root:
require_path = os_path(self._root, require_path)
if os.path.isdir(require_path):
for required in os.listdir(require_path):
if required not in deps:
deps[required] = style
else:
for requirelist in conf.getlist("Unit", style, []):
for required in requirelist.strip().split(" "):
deps[required.strip()] = style
return deps
def get_required_dependencies(self, unit, styles = None):
styles = styles or [ "Requires", "Wants", "Requisite", "BindsTo",
".requires", ".wants" ]
return self.get_dependencies_unit(unit, styles)
def get_start_dependencies(self, unit, styles = None): # pragma: no cover
""" the list of services to be started as well / TODO: unused """
styles = styles or ["Requires", "Wants", "Requisite", "BindsTo", "PartOf", "ConsistsOf",
".requires", ".wants"]
deps = {}
unit_deps = self.get_dependencies_unit(unit)
for dep_unit, dep_style in unit_deps.items():
if dep_style in styles:
if dep_unit in deps:
if dep_style not in deps[dep_unit]:
deps[dep_unit].append( dep_style)
else:
deps[dep_unit] = [ dep_style ]
next_deps = self.get_start_dependencies(dep_unit)
for dep, styles in next_deps.items():
for style in styles:
if dep in deps:
if style not in deps[dep]:
deps[dep].append(style)
else:
deps[dep] = [ style ]
return deps
def list_start_dependencies_units(self, units):
unit_order = []
deps = {}
for unit in units:
unit_order.append(unit)
# unit_deps = self.get_start_dependencies(unit) # TODO
unit_deps = self.get_dependencies_unit(unit)
for dep_unit, styles in unit_deps.items():
dep_styles = to_list(styles)
for dep_style in dep_styles:
if dep_unit in deps:
if dep_style not in deps[dep_unit]:
deps[dep_unit].append( dep_style)
else:
deps[dep_unit] = [ dep_style ]
deps_conf = []
for dep in deps:
if dep in unit_order:
continue
conf = self.get_unit_conf(dep)
if conf.loaded():
deps_conf.append(conf)
for unit in unit_order:
deps[unit] = [ "Requested" ]
conf = self.get_unit_conf(unit)
if conf.loaded():
deps_conf.append(conf)
result = []
sortlist = conf_sortedAfter(deps_conf, cmp=compareAfter)
for item in sortlist:
line = (item.name(), "(%s)" % (" ".join(deps[item.name()])))
result.append(line)
return result
def sortedAfter(self, unitlist):
""" get correct start order for the unit list (ignoring masked units) """
conflist = [ self.get_unit_conf(unit) for unit in unitlist ]
if True:
conflist = []
for unit in unitlist:
conf = self.get_unit_conf(unit)
if conf.masked:
logg.debug("ignoring masked unit %s", unit)
continue
conflist.append(conf)
sortlist = conf_sortedAfter(conflist)
return [ item.name() for item in sortlist ]
def sortedBefore(self, unitlist):
""" get correct start order for the unit list (ignoring masked units) """
conflist = [ self.get_unit_conf(unit) for unit in unitlist ]
if True:
conflist = []
for unit in unitlist:
conf = self.get_unit_conf(unit)
if conf.masked:
logg.debug("ignoring masked unit %s", unit)
continue
conflist.append(conf)
sortlist = conf_sortedAfter(reversed(conflist))
return [ item.name() for item in reversed(sortlist) ]
def system_daemon_reload(self):
""" reload does will only check the service files here.
The returncode will tell the number of warnings,
and it is over 100 if it can not continue even
for the relaxed systemctl.py style of execution. """
errors = 0
for unit in self.match_units():
try:
conf = self.get_unit_conf(unit)
except Exception as e:
logg.error("%s: can not read unit file %s\n\t%s",
unit, strQ(conf.filename()), e)
continue
errors += self.syntax_check(conf)
if errors:
logg.warning(" (%s) found %s problems", errors, errors % 100)
return True # errors
def syntax_check(self, conf):
filename = conf.filename()
if filename and filename.endswith(".service"):
return self.syntax_check_service(conf)
return 0
def syntax_check_service(self, conf):
unit = conf.name()
if not conf.data.has_section("Service"):
logg.error(" %s: a .service file without [Service] section", unit)
return 101
errors = 0
haveType = conf.get("Service", "Type", "simple")
haveExecStart = conf.getlist("Service", "ExecStart", [])
haveExecStop = conf.getlist("Service", "ExecStop", [])
haveExecReload = conf.getlist("Service", "ExecReload", [])
usedExecStart = []
usedExecStop = []
usedExecReload = []
if haveType not in [ "simple", "forking", "notify", "oneshot", "dbus", "idle"]:
logg.error(" %s: Failed to parse service type, ignoring: %s", unit, haveType)
errors += 100
for line in haveExecStart:
if not line.startswith("/") and not line.startswith("-/"):
logg.error(" %s: Executable path is not absolute, ignoring: %s", unit, line.strip())
errors += 1
usedExecStart.append(line)
for line in haveExecStop:
if not line.startswith("/") and not line.startswith("-/"):
logg.error(" %s: Executable path is not absolute, ignoring: %s", unit, line.strip())
errors += 1
usedExecStop.append(line)
for line in haveExecReload:
if not line.startswith("/") and not line.startswith("-/"):
logg.error(" %s: Executable path is not absolute, ignoring: %s", unit, line.strip())
errors += 1
usedExecReload.append(line)
if haveType in ["simple", "notify", "forking", "idle"]:
if not usedExecStart and not usedExecStop:
logg.error(" %s: Service lacks both ExecStart and ExecStop= setting. Refusing.", unit)
errors += 101
elif not usedExecStart and haveType != "oneshot":
logg.error(" %s: Service has no ExecStart= setting, which is only allowed for Type=oneshot services. Refusing.", unit)
errors += 101
if len(usedExecStart) > 1 and haveType != "oneshot":
logg.error(" %s: there may be only one ExecStart statement (unless for 'oneshot' services)."
+ "\n\t\t\tYou can use ExecStartPre / ExecStartPost to add additional commands.", unit)
errors += 1
if len(usedExecStop) > 1 and haveType != "oneshot":
logg.info(" %s: there should be only one ExecStop statement (unless for 'oneshot' services)."
+ "\n\t\t\tYou can use ExecStopPost to add additional commands (also executed on failed Start)", unit)
if len(usedExecReload) > 1:
logg.info(" %s: there should be only one ExecReload statement."
+ "\n\t\t\tUse ' ; ' for multiple commands (ExecReloadPost or ExedReloadPre do not exist)", unit)
if len(usedExecReload) > 0 and "/bin/kill " in usedExecReload[0]:
logg.warning(" %s: the use of /bin/kill is not recommended for ExecReload as it is asychronous."
+ "\n\t\t\tThat means all the dependencies will perform the reload simultanously / out of order.", unit)
if conf.getlist("Service", "ExecRestart", []): #pragma: no cover
logg.error(" %s: there no such thing as an ExecRestart (ignored)", unit)
if conf.getlist("Service", "ExecRestartPre", []): #pragma: no cover
logg.error(" %s: there no such thing as an ExecRestartPre (ignored)", unit)
if conf.getlist("Service", "ExecRestartPost", []): #pragma: no cover
logg.error(" %s: there no such thing as an ExecRestartPost (ignored)", unit)
if conf.getlist("Service", "ExecReloadPre", []): #pragma: no cover
logg.error(" %s: there no such thing as an ExecReloadPre (ignored)", unit)
if conf.getlist("Service", "ExecReloadPost", []): #pragma: no cover
logg.error(" %s: there no such thing as an ExecReloadPost (ignored)", unit)
if conf.getlist("Service", "ExecStopPre", []): #pragma: no cover
logg.error(" %s: there no such thing as an ExecStopPre (ignored)", unit)
for env_file in conf.getlist("Service", "EnvironmentFile", []):
if env_file.startswith("-"): continue
if not os.path.isfile(os_path(self._root, self.expand_special(env_file, conf))):
logg.error(" %s: Failed to load environment files: %s", unit, env_file)
errors += 101
return errors
def exec_check_unit(self, conf, env, section = "Service", exectype = ""):
if conf is None: # pragma: no cover (is never null)
return True
if not conf.data.has_section(section):
return True #pragma: no cover
haveType = conf.get(section, "Type", "simple")
if self.is_sysv_file(conf.filename()):
return True # we don't care about that
unit = conf.name()
abspath = 0
notexists = 0
badusers = 0
badgroups = 0
for execs in [ "ExecStartPre", "ExecStart", "ExecStartPost", "ExecStop", "ExecStopPost", "ExecReload" ]:
if not execs.startswith(exectype):
continue
for cmd in conf.getlist(section, execs, []):
mode, newcmd = self.exec_newcmd(cmd, env, conf)
if not newcmd:
continue
exe = newcmd[0]
if not exe:
continue
if exe[0] != "/":
logg.error(" %s: Exec is not an absolute path: %s=%s", unit, execs, cmd)
abspath += 1
if not os.path.isfile(exe):
logg.error(" %s: Exec command does not exist: (%s) %s", unit, execs, exe)
if mode.check:
notexists += 1
newexe1 = os.path.join("/usr/bin", exe)
newexe2 = os.path.join("/bin", exe)
if os.path.exists(newexe1):
logg.error(" %s: but this does exist: %s %s", unit, " " * len(execs), newexe1)
elif os.path.exists(newexe2):
logg.error(" %s: but this does exist: %s %s", unit, " " * len(execs), newexe2)
users = [ conf.get(section, "User", ""), conf.get(section, "SocketUser", "") ]
groups = [ conf.get(section, "Group", ""), conf.get(section, "SocketGroup", "") ] + conf.getlist(section, "SupplementaryGroups")
for user in users:
if user:
try: pwd.getpwnam(self.expand_special(user, conf))
except Exception as e:
logg.error(" %s: User does not exist: %s (%s)", unit, user, getattr(e, "__doc__", ""))
badusers += 1
for group in groups:
if group:
try: grp.getgrnam(self.expand_special(group, conf))
except Exception as e:
logg.error(" %s: Group does not exist: %s (%s)", unit, group, getattr(e, "__doc__", ""))
badgroups += 1
tmpproblems = 0
for setting in ("RootDirectory", "RootImage", "BindPaths", "BindReadOnlyPaths",
"ReadWritePaths", "ReadOnlyPaths", "TemporaryFileSystem"):
setting_value = conf.get(section, setting, "")
if setting_value:
logg.info("%s: %s private directory remounts ignored: %s=%s", unit, section, setting, setting_value)
tmpproblems += 1
for setting in ("PrivateTmp", "PrivateDevices", "PrivateNetwork", "PrivateUsers", "DynamicUser",
"ProtectSystem", "ProjectHome", "ProtectHostname", "PrivateMounts", "MountAPIVFS"):
setting_yes = conf.getbool(section, setting, "no")
if setting_yes:
logg.info("%s: %s private directory option is ignored: %s=yes", unit, section, setting)
tmpproblems += 1
if not abspath and not notexists and not badusers and not badgroups:
return True
if True:
filename = strE(conf.filename())
if len(filename) > 44: filename = o44(filename)
logg.error(" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!")
if abspath:
logg.error(" The SystemD ExecXY commands must always be absolute paths by definition.")
time.sleep(1)
if notexists:
logg.error(" Oops, %s executable paths were not found in the current environment. Refusing.", notexists)
time.sleep(1)
if badusers or badgroups:
logg.error(" Oops, %s user names and %s group names were not found. Refusing.", badusers, badgroups)
time.sleep(1)
if tmpproblems:
logg.info(" Note, %s private directory settings are ignored. The application should not depend on it.", tmpproblems)
time.sleep(1)
logg.error(" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!")
return False
def show_modules(self, *modules):
""" [PATTERN]... -- Show properties of one or more units
Show properties of one or more units (or the manager itself).
If no argument is specified, properties of the manager will be
shown. If a unit name is specified, properties of the unit is
shown. By default, empty properties are suppressed. Use --all to
show those too. To select specific properties to show, use
--property=. This command is intended to be used whenever
computer-parsable output is required. Use status if you are looking
for formatted human-readable output.
/
NOTE: only a subset of properties is implemented """
notfound = []
found_all = True
units = []
for module in modules:
matched = self.match_units(to_list(module))
if not matched:
logg.error("Unit %s could not be found.", unit_of(module))
units += [ module ]
# self.error |= NOT_FOUND
found_all = False
continue
for unit in matched:
if unit not in units:
units += [ unit ]
return self.show_units(units) + notfound # and found_all
def show_units(self, units):
logg.debug("show --property=%s", self._unit_property)
result = []
for unit in units:
if result: result += [ "" ]
for var, value in self.show_unit_items(unit):
if self._unit_property:
if self._unit_property != var:
continue
else:
if not value and not self._show_all:
continue
result += [ "%s=%s" % (var, value) ]
return result
def show_unit_items(self, unit):
""" [UNIT]... -- show properties of a unit.
"""
logg.info("try read unit %s", unit)
conf = self.get_unit_conf(unit)
for entry in self.each_unit_items(unit, conf):
yield entry
def each_unit_items(self, unit, conf):
loaded = conf.loaded()
if not loaded:
loaded = "not-loaded"
if "NOT-FOUND" in self.get_description_from(conf):
loaded = "not-found"
names = { unit: 1, conf.name(): 1 }
yield "Id", conf.name()
yield "Names", " ".join(sorted(names.keys()))
yield "Description", self.get_description_from(conf) # conf.get("Unit", "Description")
yield "PIDFile", self.get_pid_file(conf) # not self.pid_file_from w/o default location
yield "PIDFilePath", self.pid_file_from(conf)
yield "MainPID", strE(self.active_pid_from(conf)) # status["MainPID"] or PIDFile-read
yield "SubState", self.get_substate_from(conf) or "unknown" # status["SubState"] or notify-result
yield "ActiveState", self.get_active_from(conf) or "unknown" # status["ActiveState"]
yield "LoadState", loaded
yield "UnitFileState", self.enabled_from(conf)
yield "StatusFile", self.get_StatusFile(conf)
yield "StatusFilePath", self.get_status_file_from(conf)
yield "JournalFile", self.get_journal_log(conf)
yield "JournalFilePath", self.get_journal_log_from(conf)
yield "NotifySocket", self.get_notify_socket_from(conf)
yield "User", self.get_User(conf) or ""
yield "Group", self.get_Group(conf) or ""
yield "SupplementaryGroups", " ".join(self.get_SupplementaryGroups(conf))
yield "TimeoutStartUSec", seconds_to_time(self.get_TimeoutStartSec(conf))
yield "TimeoutStopUSec", seconds_to_time(self.get_TimeoutStopSec(conf))
yield "NeedDaemonReload", "no"
yield "SendSIGKILL", strYes(self.get_SendSIGKILL(conf))
yield "SendSIGHUP", strYes(self.get_SendSIGHUP(conf))
yield "KillMode", strE(self.get_KillMode(conf))
yield "KillSignal", strE(self.get_KillSignal(conf))
yield "StartLimitBurst", strE(self.get_StartLimitBurst(conf))
yield "StartLimitIntervalSec", seconds_to_time(self.get_StartLimitIntervalSec(conf))
yield "RestartSec", seconds_to_time(self.get_RestartSec(conf))
yield "RemainAfterExit", strYes(self.get_RemainAfterExit(conf))
yield "WorkingDirectory", strE(self.get_WorkingDirectory(conf))
env_parts = []
for env_part in conf.getlist("Service", "Environment", []):
env_parts.append(self.expand_special(env_part, conf))
if env_parts:
yield "Environment", " ".join(env_parts)
env_files = []
for env_file in conf.getlist("Service", "EnvironmentFile", []):
env_files.append(self.expand_special(env_file, conf))
if env_files:
yield "EnvironmentFile", " ".join(env_files)
def get_SendSIGKILL(self, conf):
return conf.getbool("Service", "SendSIGKILL", "yes")
def get_SendSIGHUP(self, conf):
return conf.getbool("Service", "SendSIGHUP", "no")
def get_KillMode(self, conf):
return conf.get("Service", "KillMode", "control-group")
def get_KillSignal(self, conf):
return conf.get("Service", "KillSignal", "SIGTERM")
#
igno_centos = [ "netconsole", "network" ]
igno_opensuse = [ "raw", "pppoe", "*.local", "boot.*", "rpmconf*", "postfix*" ]
igno_ubuntu = [ "mount*", "umount*", "ondemand", "*.local" ]
igno_always = [ "network*", "dbus*", "systemd-*", "kdump*" ]
igno_always += [ "purge-kernels.service", "after-local.service", "dm-event.*" ] # as on opensuse
igno_targets = [ "remote-fs.target" ]
def _ignored_unit(self, unit, ignore_list):
for ignore in ignore_list:
if fnmatch.fnmatchcase(unit, ignore):
return True # ignore
if fnmatch.fnmatchcase(unit, ignore+".service"):
return True # ignore
return False
def default_services_modules(self, *modules):
""" show the default services
This is used internally to know the list of service to be started in the 'get-default'
target runlevel when the container is started through default initialisation. It will
ignore a number of services - use '--all' to show a longer list of services and
use '--all --force' if not even a minimal filter shall be used.
"""
results = []
targets = modules or [ self.get_default_target() ]
for target in targets:
units = self.target_default_services(target)
logg.debug(" %s # %s", " ".join(units), target)
for unit in units:
if unit not in results:
results.append(unit)
return results
def target_default_services(self, target = None, sysv = "S"):
""" get the default services for a target - this will ignore a number of services,
use '--all' and --force' to get more services.
"""
igno = self.igno_centos + self.igno_opensuse + self.igno_ubuntu + self.igno_always
if self._show_all:
igno = self.igno_always
if self._force:
igno = []
logg.debug("ignored services filter for default.target:\n\t%s", igno)
default_target = target or self.get_default_target()
return self.enabled_target_services(default_target, sysv, igno)
def enabled_target_services(self, target, sysv = "S", igno = []):
units = []
if self.user_mode():
targetlist = self.get_target_list(target)
logg.debug("check for %s user services : %s", target, targetlist)
for targets in targetlist:
for unit in self.enabled_target_user_local_units(targets, ".target", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.required_target_units(targets, ".socket", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.enabled_target_user_local_units(targets, ".socket", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.required_target_units(targets, ".service", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.enabled_target_user_local_units(targets, ".service", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.enabled_target_user_system_units(targets, ".service", igno):
if unit not in units:
units.append(unit)
else:
targetlist = self.get_target_list(target)
logg.debug("check for %s system services: %s", target, targetlist)
for targets in targetlist:
for unit in self.enabled_target_configured_system_units(targets, ".target", igno + self.igno_targets):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.required_target_units(targets, ".socket", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.enabled_target_installed_system_units(targets, ".socket", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.required_target_units(targets, ".service", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.enabled_target_installed_system_units(targets, ".service", igno):
if unit not in units:
units.append(unit)
for targets in targetlist:
for unit in self.enabled_target_sysv_units(targets, sysv, igno):
if unit not in units:
units.append(unit)
return units
def enabled_target_user_local_units(self, target, unit_kind = ".service", igno = []):
units = []
for basefolder in self.user_folders():
if not basefolder:
continue
folder = self.default_enablefolder(target, basefolder)
if self._root:
folder = os_path(self._root, folder)
if os.path.isdir(folder):
for unit in sorted(os.listdir(folder)):
path = os.path.join(folder, unit)
if os.path.isdir(path): continue
if self._ignored_unit(unit, igno):
continue # ignore
if unit.endswith(unit_kind):
units.append(unit)
return units
def enabled_target_user_system_units(self, target, unit_kind = ".service", igno = []):
units = []
for basefolder in self.system_folders():
if not basefolder:
continue
folder = self.default_enablefolder(target, basefolder)
if self._root:
folder = os_path(self._root, folder)
if os.path.isdir(folder):
for unit in sorted(os.listdir(folder)):
path = os.path.join(folder, unit)
if os.path.isdir(path): continue
if self._ignored_unit(unit, igno):
continue # ignore
if unit.endswith(unit_kind):
conf = self.load_unit_conf(unit)
if conf is None:
pass
elif self.not_user_conf(conf):
pass
else:
units.append(unit)
return units
def enabled_target_installed_system_units(self, target, unit_type = ".service", igno = []):
units = []
for basefolder in self.system_folders():
if not basefolder:
continue
folder = self.default_enablefolder(target, basefolder)
if self._root:
folder = os_path(self._root, folder)
if os.path.isdir(folder):
for unit in sorted(os.listdir(folder)):
path = os.path.join(folder, unit)
if os.path.isdir(path): continue
if self._ignored_unit(unit, igno):
continue # ignore
if unit.endswith(unit_type):
units.append(unit)
return units
def enabled_target_configured_system_units(self, target, unit_type = ".service", igno = []):
units = []
if True:
folder = self.default_enablefolder(target)
if self._root:
folder = os_path(self._root, folder)
if os.path.isdir(folder):
for unit in sorted(os.listdir(folder)):
path = os.path.join(folder, unit)
if os.path.isdir(path): continue
if self._ignored_unit(unit, igno):
continue # ignore
if unit.endswith(unit_type):
units.append(unit)
return units
def enabled_target_sysv_units(self, target, sysv = "S", igno = []):
units = []
folders = []
if target in [ "multi-user.target", DefaultUnit ]:
folders += [ self.rc3_root_folder() ]
if target in [ "graphical.target" ]:
folders += [ self.rc5_root_folder() ]
for folder in folders:
if not os.path.isdir(folder):
logg.warning("non-existant %s", folder)
continue
for unit in sorted(os.listdir(folder)):
path = os.path.join(folder, unit)
if os.path.isdir(path): continue
m = re.match(sysv+r"\d\d(.*)", unit)
if m:
service = m.group(1)
unit = service + ".service"
if self._ignored_unit(unit, igno):
continue # ignore
units.append(unit)
return units
def required_target_units(self, target, unit_type, igno):
units = []
deps = self.get_required_dependencies(target)
for unit in sorted(deps):
if self._ignored_unit(unit, igno):
continue # ignore
if unit.endswith(unit_type):
if unit not in units:
units.append(unit)
return units
def get_target_conf(self, module): # -> conf (conf | default-conf)
""" accept that a unit does not exist
and return a unit conf that says 'not-loaded' """
conf = self.load_unit_conf(module)
if conf is not None:
return conf
target_conf = self.default_unit_conf(module)
if module in target_requires:
target_conf.set("Unit", "Requires", target_requires[module])
return target_conf
def get_target_list(self, module):
""" the Requires= in target units are only accepted if known """
target = module
if "." not in target: target += ".target"
targets = [ target ]
conf = self.get_target_conf(module)
requires = conf.get("Unit", "Requires", "")
while requires in target_requires:
targets = [ requires ] + targets
requires = target_requires[requires]
logg.debug("the %s requires %s", module, targets)
return targets
def system_default(self, arg = True):
""" start units for default system level
This will go through the enabled services in the default 'multi-user.target'.
However some services are ignored as being known to be installation garbage
from unintended services. Use '--all' so start all of the installed services
and with '--all --force' even those services that are otherwise wrong.
/// SPECIAL: with --now or --init the init-loop is run and afterwards
a system_halt is performed with the enabled services to be stopped."""
self.sysinit_status(SubState = "initializing")
logg.info("system default requested - %s", arg)
init = self._now or self._init
return self.start_system_default(init = init)
def start_system_default(self, init = False):
""" detect the default.target services and start them.
When --init is given then the init-loop is run and
the services are stopped again by 'systemctl halt'."""
target = self.get_default_target()
services = self.start_target_system(target, init)
logg.info("%s system is up", target)
if init:
logg.info("init-loop start")
sig = self.init_loop_until_stop(services)
logg.info("init-loop %s", sig)
self.stop_system_default()
return not not services
def start_target_system(self, target, init = False):
services = self.target_default_services(target, "S")
self.sysinit_status(SubState = "starting")
self.start_units(services)
return services
def do_start_target_from(self, conf):
target = conf.name()
# services = self.start_target_system(target)
services = self.target_default_services(target, "S")
units = [service for service in services if not self.is_running_unit(service)]
logg.debug("start %s is starting %s from %s", target, units, services)
return self.start_units(units)
def stop_system_default(self):
""" detect the default.target services and stop them.
This is commonly run through 'systemctl halt' or
at the end of a 'systemctl --init default' loop."""
target = self.get_default_target()
services = self.stop_target_system(target)
logg.info("%s system is down", target)
return not not services
def stop_target_system(self, target):
services = self.target_default_services(target, "K")
self.sysinit_status(SubState = "stopping")
self.stop_units(services)
return services
def do_stop_target_from(self, conf):
target = conf.name()
# services = self.stop_target_system(target)
services = self.target_default_services(target, "K")
units = [service for service in services if self.is_running_unit(service)]
logg.debug("stop %s is stopping %s from %s", target, units, services)
return self.stop_units(units)
def do_reload_target_from(self, conf):
target = conf.name()
return self.reload_target_system(target)
def reload_target_system(self, target):
services = self.target_default_services(target, "S")
units = [service for service in services if self.is_running_unit(service)]
return self.reload_units(units)
def system_halt(self, arg = True):
""" stop units from default system level """
logg.info("system halt requested - %s", arg)
done = self.stop_system_default()
try:
os.kill(1, signal.SIGQUIT) # exit init-loop on no_more_procs
except Exception as e:
logg.warning("SIGQUIT to init-loop on PID-1: %s", e)
return done
def system_get_default(self):
""" get current de