Commit b08dca70 authored by Andreas Jung's avatar Andreas Jung

removed

parent 92c5dd6a
script zdctl.py
script zdrun.py
##############################################################################
#
# Copyright (c) 2001, 2002 Zope Corporation and Contributors.
# All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE.
#
##############################################################################
"""zdaemon -- a package to manage a daemon application."""
<component>
<!-- Note on logging configuration:
This schema component expects to use a section type named
"eventlog"; this type needs to be provided by some other
component that the top-level schema needs to import.
The import is not performed here to allow applications to
load the type from different components.
-->
<sectiontype name="runner">
<description>
This section describes the options for zdctl.py and zdrun.py.
The only required option is "program". Many other options have
no default value specified in the schema; in some cases, the
program calculates a dynamic default, in others, the feature
associated with the option is disabled.
For those options that also have corresponding command-line
options, the command line option (short and long form) are given
here too.
</description>
<section name="*" type="ZConfig.logger.log"
attribute="eventlog"
required="no">
<description>
Log configuration for zdctl.py and zdrun.py. These
applications will normally use the eventlog section at the top
level of the configuration, but will use this eventlog section
if it exists.
(This is done so that the combined schema for the runner and
the controlled application will write to the same logs by
default, but a separation of logs can be achieved if desired.)
</description>
</section>
<key name="program" datatype="string-list"
required="yes">
<description>
Command-line option: -p or --program (zdctl.py only).
This option gives the command used to start the subprocess
managed by zdrun.py. This is currently a simple list of
whitespace-delimited words. The first word is the program
file, subsequent words are its command line arguments. If the
program file contains no slashes, it is searched using $PATH.
(XXX There is no way to to include whitespace in the program
file or an argument, and under certain circumstances other
shell metacharacters are also a problem, e.g. the "foreground"
command of zdctl.py.)
NOTE: zdrun.py doesn't use this option; it uses its positional
arguments. Rather, zdctl.py uses this option to determine the
positional argument with which to invoke zdrun.py. (XXX This
could be better.)
</description>
</key>
<key name="python" datatype="existing-path"
required="no">
<description>
Path to the Python interpreter. Used by zdctl.py to start the
zdrun.py process. Defaults to sys.executable.
</description>
</key>
<key name="zdrun" datatype="existing-path"
required="no">
<description>
Path to the zdrun.py script. Used by zdctl.py to start the
zdrun.py process. Defaults to a file named "zdrun.py" in the
same directory as zdctl.py.
</description>
</key>
<key name="socket-name" datatype="existing-dirpath"
required="no"
default="zdsock">
<description>
Command-line option: -s or --socket-name.
The pathname of the Unix domain socket used for communication
between zdctl.py and zdrun.py. The default is relative to the
current directory in which zdctl.py and zdrun.py are started.
You want to specify an absolute pathname here.
</description>
</key>
<key name="daemon" datatype="boolean"
required="no"
default="false">
<description>
Command-line option: -d or --daemon.
If this option is true, zdrun.py runs in the background as a
true daemon. It forks a child process which becomes the
subprocess manager, while the parent exits (making the shell
that started it believe it is done). The child process also
does the following:
- if the directory option is set, change into that directory
- redirect stdin, stdout and stderr to /dev/null
- call setsid() so it becomes a session leader
- call umask() with specified value
</description>
</key>
<key name="directory" datatype="existing-directory"
required="no">
<description>
Command-line option: -z or --directory.
If the daemon option is true, this option can specify a
directory into which zdrun.py changes as part of the
"daemonizing". If the daemon option is false, this option is
ignored.
</description>
</key>
<key name="backoff-limit" datatype="integer"
required="no"
default="10">
<description>
Command-line option: -b or --backoff-limit.
When the subprocess crashes, zdrun.py inserts a one-second
delay before it restarts it. When the subprocess crashes
again right away, the delay is incremented by one second, and
so on. What happens when the delay has reached the value of
backoff-limit (in seconds), depends on the value of the
forever option. If forever is false, zdrun.py gives up at
this point, and exits. An always-crashing subprocess will
have been restarted exactly backoff-limit times in this case.
If forever is true, zdrun.py continues to attempt to restart
the process, keeping the delay at backoff-limit seconds.
If the subprocess stays up for more than backoff-limit
seconds, the delay is reset to 1 second.
</description>
</key>
<key name="forever" datatype="boolean"
required="no"
default="false">
<description>
Command-line option: -f or --forever.
If this option is true, zdrun.py will keep restarting a
crashing subprocess forever. If it is false, it will give up
after backoff-limit crashes in a row. See the description of
backoff-limit for details.
</description>
</key>
<key name="exit-codes" datatype="zdaemon.zdoptions.list_of_ints"
required="no"
default="0,2">
<description>
Command-line option: -x or --exit-codes.
If the subprocess exits with an exit status that is equal to
one of the integers in this list, zdrun.py will not restart
it. The default list requires some explanation. Exit status
0 is considered a willful successful exit; the ZEO and Zope
server processes use this exit status when they want to stop
without being restarted. (Including in response to a
SIGTERM.) Exit status 2 is typically issued for command line
syntax errors; in this case, restarting the program will not
help!
NOTE: this mechanism overrides the backoff-limit and forever
options; i.e. even if forever is true, a subprocess exit
status code in this list makes zdrun.py give up. To disable
this, change the value to an empty list.
</description>
</key>
<key name="user" datatype="string"
required="no">
<description>
Command-line option: -u or --user.
When zdrun.py is started by root, this option specifies the
user as who the the zdrun.py process (and hence the daemon
subprocess) will run. This can be a user name or a numeric
user id. Both the user and the group are set from the
corresponding password entry, using setuid() and setgid().
This is done before zdrun.py does anything else besides
parsing its command line arguments.
NOTE: when zdrun.py is not started by root, specifying this
option is an error. (XXX This may be a mistake.)
XXX The zdrun.py event log file may be opened *before*
setuid() is called. Is this good or bad?
</description>
</key>
<key name="umask" datatype="zdaemon.zdoptions.octal_type"
required="no"
default="022">
<description>
Command-line option: -m or --umask.
When daemon mode is used, this option specifies the octal umask
of the subprocess.
</description>
</key>
<key name="hang-around" datatype="boolean"
required="no"
default="false">
<description>
If this option is true, the zdrun.py process will remain even
when the daemon subprocess is stopped. In this case, zdctl.py
will restart zdrun.py as necessary. If this option is false,
zdrun.py will exit when the daemon subprocess is stopped
(unless zdrun.py intends to restart it).
</description>
</key>
<key name="default-to-interactive" datatype="boolean"
required="no"
default="true">
<description>
If this option is true, zdctl.py enters interactive mode
when it is invoked without a positional command argument. If
it is false, you must use the -i or --interactive command line
option to zdctl.py to enter interactive mode.
</description>
</key>
<key name="logfile" datatype="existing-dirpath"
required="no">
<description>
This option specifies a log file that is the default target of
the "logtail" zdctl.py command.
NOTE: This is NOT the log file to which zdrun.py writes its
logging messages! That log file is specified by the
&lt;eventlog&gt; section.
</description>
</key>
<key name="transcript" datatype="existing-dirpath"
required="no">
<description>
The name of a file in which a transcript of all output from
the command being run will be written to when daemonized.
If not specified, output from the command will be discarded.
This only takes effect when the "daemon" option is enabled.
</description>
</key>
<key name="prompt" datatype="string"
required="no">
<description>
The prompt shown by the controller program. The default must
be provided by the application.
</description>
</key>
</sectiontype>
</component>
# Sample config file for zdctl.py and zdrun.py (which share a schema).
<runner>
# Harmless example
program sleep 100
# Repeat the defaults
backoff-limit 10
daemon True
forever True
socket-name zdsock
exit-codes 0,2
# user has no default
umask 022
directory .
default-to-interactive True
hang-around False
</runner>
<eventlog>
level info
<logfile>
path /tmp/zdrun.log
</logfile>
</eventlog>
<schema>
<description>
This schema describes various options that control zdctl.py and
zdrun.py. zdrun.py is the "daemon process manager"; it runs a
subprocess in the background and restarts it when it crashes.
zdctl.py is the user interface to zdrun.py; it can tell zdrun.py
to start, stop or restart the subprocess, send it a signal, etc.
There are two sections: &lt;runner&gt; defines options unique
zdctl.py and zdrun.py, and &lt;eventlog&gt; defines a standard
event logging section used by zdrun.py.
More information about zdctl.py and zdrun.py can be found in the
file Doc/zdctl.txt. This all is specific to Unix/Linux.
</description>
<import package="ZConfig.components.logger"/>
<import package="zdaemon"/>
<section name="*" type="runner" attribute="runner" required="yes" />
<section name="*" type="eventlog" attribute="eventlog" required="no" />
</schema>
# This file is needed to make this a package.
#!/bin/sh
while [ "1" -ne "2" ]; do
sleep 10
done
#! /usr/bin/env python
import signal
signal.signal(signal.SIGTERM, signal.SIG_IGN)
while 1:
signal.pause()
import time
import os
import sys
def main():
# dummy zdctl startup of zdrun
shutup()
file = os.path.normpath(os.path.abspath(sys.argv[0]))
dir = os.path.dirname(file)
zctldir = os.path.dirname(dir)
zdrun = os.path.join(zctldir, 'zdrun.py')
args = [sys.executable, zdrun]
args += ['-d', '-b', '10', '-s', os.path.join(dir, 'testsock'),
'-x', '0,2', '-z', dir, os.path.join(dir, 'donothing.sh')]
flag = os.P_NOWAIT
#cmd = ' '.join([sys.executable] + args)
#print cmd
os.spawnvp(flag, args[0], args)
while 1:
# wait to be signaled
time.sleep(1)
def shutup():
os.close(0)
sys.stdin = sys.__stdin__ = open("/dev/null")
os.close(1)
sys.stdout = sys.__stdout__ = open("/dev/null", "w")
os.close(2)
sys.stderr = sys.__stderr__ = open("/dev/null", "w")
if __name__ == '__main__':
main()
##############################################################################
#
# Copyright (c) 2001, 2002 Zope Corporation and Contributors.
# All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
#
##############################################################################
"""Test suite for zdaemon.zdoptions."""
import os
import sys
import tempfile
import unittest
from StringIO import StringIO
import ZConfig
import zdaemon
from zdaemon.zdoptions import ZDOptions
class ZDOptionsTestBase(unittest.TestCase):
OptionsClass = ZDOptions
def save_streams(self):
self.save_stdout = sys.stdout
self.save_stderr = sys.stderr
sys.stdout = self.stdout = StringIO()
sys.stderr = self.stderr = StringIO()
def restore_streams(self):
sys.stdout = self.save_stdout
sys.stderr = self.save_stderr
def check_exit_code(self, options, args):
save_sys_stderr = sys.stderr
try:
sys.stderr = StringIO()
try:
options.realize(args)
except SystemExit, err:
self.assertEqual(err.code, 2)
else:
self.fail("SystemExit expected")
finally:
sys.stderr = save_sys_stderr
class TestZDOptions(ZDOptionsTestBase):
input_args = ["arg1", "arg2"]
output_opts = []
output_args = ["arg1", "arg2"]
def test_basic(self):
progname = "progname"
doc = "doc"
options = self.OptionsClass()
options.positional_args_allowed = 1
options.schemadir = os.path.dirname(zdaemon.__file__)
options.realize(self.input_args, progname, doc)
self.assertEqual(options.progname, "progname")
self.assertEqual(options.doc, "doc")
self.assertEqual(options.options, self.output_opts)
self.assertEqual(options.args, self.output_args)
def test_configure(self):
configfile = os.path.join(os.path.dirname(zdaemon.__file__),
"sample.conf")
for arg in "-C", "--c", "--configure":
options = self.OptionsClass()
options.realize([arg, configfile])
self.assertEqual(options.configfile, configfile)
def test_help(self):
for arg in "-h", "--h", "--help":
options = self.OptionsClass()
try:
self.save_streams()
try:
options.realize([arg])
finally:
self.restore_streams()
except SystemExit, err:
self.assertEqual(err.code, 0)
else:
self.fail("%s didn't call sys.exit()" % repr(arg))
def test_unrecognized(self):
# Check that we get an error for an unrecognized option
self.check_exit_code(self.OptionsClass(), ["-/"])
class TestBasicFunctionality(TestZDOptions):
def test_no_positional_args(self):
# Check that we get an error for positional args when they
# haven't been enabled.
self.check_exit_code(self.OptionsClass(), ["A"])
def test_positional_args(self):
options = self.OptionsClass()
options.positional_args_allowed = 1
options.realize(["A", "B"])
self.assertEqual(options.args, ["A", "B"])
def test_positional_args_empty(self):
options = self.OptionsClass()
options.positional_args_allowed = 1
options.realize([])
self.assertEqual(options.args, [])
def test_positional_args_unknown_option(self):
# Make sure an unknown option doesn't become a positional arg.
options = self.OptionsClass()
options.positional_args_allowed = 1
self.check_exit_code(options, ["-o", "A", "B"])
def test_conflicting_flags(self):
# Check that we get an error for flags which compete over the
# same option setting.
options = self.OptionsClass()
options.add("setting", None, "a", flag=1)
options.add("setting", None, "b", flag=2)
self.check_exit_code(options, ["-a", "-b"])
def test_handler_simple(self):
# Test that a handler is called; use one that doesn't return None.
options = self.OptionsClass()
options.add("setting", None, "a:", handler=int)
options.realize(["-a2"])
self.assertEqual(options.setting, 2)
def test_handler_side_effect(self):
# Test that a handler is called and conflicts are not
# signalled when it returns None.
options = self.OptionsClass()
L = []
options.add("setting", None, "a:", "append=", handler=L.append)
options.realize(["-a2", "--append", "3"])
self.assert_(options.setting is None)
self.assertEqual(L, ["2", "3"])
def test_handler_with_bad_value(self):
options = self.OptionsClass()
options.add("setting", None, "a:", handler=int)
self.check_exit_code(options, ["-afoo"])
def test_raise_getopt_errors(self):
options = self.OptionsClass()
# note that we do not add "a" to the list of options;
# if raise_getopt_errors was true, this test would error
options.realize(["-afoo"], raise_getopt_errs=False)
# check_exit_code realizes the options with raise_getopt_errs=True
self.check_exit_code(options, ['-afoo'])
class EnvironmentOptions(ZDOptionsTestBase):
saved_schema = None
class OptionsClass(ZDOptions):
def __init__(self):
ZDOptions.__init__(self)
self.add("opt", "opt", "o:", "opt=",
default=42, handler=int, env="OPT")
def load_schema(self):
# Doing this here avoids needing a separate file for the schema:
if self.schema is None:
if EnvironmentOptions.saved_schema is None:
schema = ZConfig.loadSchemaFile(StringIO("""\
<schema>
<key name='opt' datatype='integer' default='12'/>
</schema>
"""))
EnvironmentOptions.saved_schema = schema
self.schema = EnvironmentOptions.saved_schema
def load_configfile(self):
if getattr(self, "configtext", None):
self.configfile = tempfile.mktemp()
f = open(self.configfile, 'w')
f.write(self.configtext)
f.close()
try:
ZDOptions.load_configfile(self)
finally:
os.unlink(self.configfile)
else:
ZDOptions.load_configfile(self)
# Save and restore the environment around each test:
def setUp(self):
self._oldenv = os.environ
env = {}
for k, v in os.environ.items():
env[k] = v
os.environ = env
def tearDown(self):
os.environ = self._oldenv
def create_with_config(self, text):
options = self.OptionsClass()
zdpkgdir = os.path.dirname(os.path.abspath(zdaemon.__file__))
options.schemadir = os.path.join(zdpkgdir, 'tests')
options.schemafile = "envtest.xml"
# configfile must be set for ZDOptions to use ZConfig:
if text:
options.configfile = "not used"
options.configtext = text
return options
class TestZDOptionsEnvironment(EnvironmentOptions):
def test_with_environment(self):
os.environ["OPT"] = "2"
self.check_from_command_line()
options = self.OptionsClass()
options.realize([])
self.assertEqual(options.opt, 2)
def test_without_environment(self):
self.check_from_command_line()
options = self.OptionsClass()
options.realize([])
self.assertEqual(options.opt, 42)
def check_from_command_line(self):
for args in (["-o1"], ["--opt", "1"]):
options = self.OptionsClass()
options.realize(args)
self.assertEqual(options.opt, 1)
def test_with_bad_environment(self):
os.environ["OPT"] = "Spooge!"
# make sure the bad value is ignored if the command-line is used:
self.check_from_command_line()
options = self.OptionsClass()
try:
self.save_streams()
try:
options.realize([])
finally:
self.restore_streams()
except SystemExit, e:
self.assertEqual(e.code, 2)
else:
self.fail("expected SystemExit")
def test_environment_overrides_configfile(self):
options = self.create_with_config("opt 3")
options.realize([])
self.assertEqual(options.opt, 3)
os.environ["OPT"] = "2"
options = self.create_with_config("opt 3")
options.realize([])
self.assertEqual(options.opt, 2)
class TestCommandLineOverrides(EnvironmentOptions):
def test_simple_override(self):
options = self.create_with_config("# empty config")
options.realize(["-X", "opt=-2"])
self.assertEqual(options.opt, -2)
def test_error_propogation(self):
self.check_exit_code(self.create_with_config("# empty"),
["-Xopt=1", "-Xopt=2"])
self.check_exit_code(self.create_with_config("# empty"),
["-Xunknown=foo"])
def test_suite():
suite = unittest.TestSuite()
for cls in [TestBasicFunctionality,
TestZDOptionsEnvironment,
TestCommandLineOverrides]:
suite.addTest(unittest.makeSuite(cls))
return suite
if __name__ == "__main__":
unittest.main(defaultTest='test_suite')
"""Test suite for zdrun.py."""
import os
import sys
import time
import signal
import tempfile
import unittest
import socket
from StringIO import StringIO
import ZConfig
from zdaemon import zdrun, zdctl
class ConfiguredOptions:
"""Options class that loads configuration from a specified string.
This always loads from the string, regardless of any -C option
that may be given.
"""
def set_configuration(self, configuration):
self.__configuration = configuration
self.configfile = "<preloaded string>"
def load_configfile(self):
sio = StringIO(self.__configuration)
cfg = ZConfig.loadConfigFile(self.schema, sio, self.zconfig_options)
self.configroot, self.confighandlers = cfg
class ConfiguredZDRunOptions(ConfiguredOptions, zdrun.ZDRunOptions):
def __init__(self, configuration):
zdrun.ZDRunOptions.__init__(self)
self.set_configuration(configuration)
class ZDaemonTests(unittest.TestCase):
python = os.path.abspath(sys.executable)
assert os.path.exists(python)
here = os.path.abspath(os.path.dirname(__file__))
assert os.path.isdir(here)
nokill = os.path.join(here, "nokill.py")
assert os.path.exists(nokill)
parent = os.path.dirname(here)
zdrun = os.path.join(parent, "zdrun.py")
assert os.path.exists(zdrun)
ppath = os.pathsep.join(sys.path)
def setUp(self):
self.zdsock = tempfile.mktemp()
self.new_stdout = StringIO()
self.save_stdout = sys.stdout
sys.stdout = self.new_stdout
self.expect = ""
def tearDown(self):
sys.stdout = self.save_stdout
for sig in (signal.SIGTERM,
signal.SIGHUP,
signal.SIGINT,
signal.SIGCHLD):
signal.signal(sig, signal.SIG_DFL)
try:
os.unlink(self.zdsock)
except os.error:
pass
output = self.new_stdout.getvalue()
self.assertEqual(self.expect, output)
def quoteargs(self, args):
for i in range(len(args)):
if " " in args[i]:
args[i] = '"%s"' % args[i]
return " ".join(args)
def _rundaemon(self, args):
# Add quotes, in case some pathname contains spaces (e.g. Mac OS X)
args = self.quoteargs(args)
cmd = ('PYTHONPATH="%s" "%s" "%s" -d -s "%s" %s' %
(self.ppath, self.python, self.zdrun, self.zdsock, args))
os.system(cmd)
# When the daemon crashes, the following may help debug it:
##os.system("PYTHONPATH=%s %s %s -s %s %s &" %
## (self.ppath, self.python, self.zdrun, self.zdsock, args))
def _run(self, args, cmdclass=None):
if type(args) is type(""):
args = args.split()
try:
zdctl.main(["-s", self.zdsock] + args, cmdclass=cmdclass)
except SystemExit:
pass
def testCmdclassOverride(self):
class MyCmd(zdctl.ZDCmd):
def do_sproing(self, rest):
print rest
self._run("-p echo sproing expected", cmdclass=MyCmd)
self.expect = "expected\n"
def testSystem(self):
self._rundaemon(["echo", "-n"])
self.expect = ""
## def testInvoke(self):
## self._run("echo -n")
## self.expect = ""
## def testControl(self):
## self._rundaemon(["sleep", "1000"])
## time.sleep(1)
## self._run("stop")
## time.sleep(1)
## self._run("exit")
## self.expect = "Sent SIGTERM\nExiting now\n"
## def testStop(self):
## self._rundaemon([self.python, self.nokill])
## time.sleep(1)
## self._run("stop")
## time.sleep(1)
## self._run("exit")
## self.expect = "Sent SIGTERM\nSent SIGTERM; will exit later\n"
def testHelp(self):
self._run("-h")
import __main__
self.expect = __main__.__doc__
def testOptionsSysArgv(self):
# Check that options are parsed from sys.argv by default
options = zdrun.ZDRunOptions()
save_sys_argv = sys.argv
try:
sys.argv = ["A", "B", "C"]
options.realize()
finally:
sys.argv = save_sys_argv
self.assertEqual(options.options, [])
self.assertEqual(options.args, ["B", "C"])
def testOptionsBasic(self):
# Check basic option parsing
options = zdrun.ZDRunOptions()
options.realize(["B", "C"], "foo")
self.assertEqual(options.options, [])
self.assertEqual(options.args, ["B", "C"])
self.assertEqual(options.progname, "foo")
def testOptionsHelp(self):
# Check that -h behaves properly
options = zdrun.ZDRunOptions()
try:
options.realize(["-h"], doc=zdrun.__doc__)
except SystemExit, err:
self.failIf(err.code)
else:
self.fail("SystemExit expected")
self.expect = zdrun.__doc__
def testSubprocessBasic(self):
# Check basic subprocess management: spawn, kill, wait
options = zdrun.ZDRunOptions()
options.realize(["sleep", "100"])
proc = zdrun.Subprocess(options)
self.assertEqual(proc.pid, 0)
pid = proc.spawn()
self.assertEqual(proc.pid, pid)
msg = proc.kill(signal.SIGTERM)
self.assertEqual(msg, None)
wpid, wsts = os.waitpid(pid, 0)
self.assertEqual(wpid, pid)
self.assertEqual(os.WIFSIGNALED(wsts), 1)
self.assertEqual(os.WTERMSIG(wsts), signal.SIGTERM)
proc.setstatus(wsts)
self.assertEqual(proc.pid, 0)
def testEventlogOverride(self):
# Make sure runner.eventlog is used if it exists
options = ConfiguredZDRunOptions("""\
<runner>
program /bin/true
<eventlog>
level 42
</eventlog>
</runner>
<eventlog>
level 35
</eventlog>
""")
options.realize(["/bin/true"])
self.assertEqual(options.config_logger.level, 42)
def testEventlogWithoutOverride(self):
# Make sure eventlog is used if runner.eventlog doesn't exist
options = ConfiguredZDRunOptions("""\
<runner>
program /bin/true
</runner>
<eventlog>
level 35
</eventlog>
""")
options.realize(["/bin/true"])
self.assertEqual(options.config_logger.level, 35)
def testRunIgnoresParentSignals(self):
# Spawn a process which will in turn spawn a zdrun process.
# We make sure that the zdrun process is still running even if
# its parent process receives an interrupt signal (it should
# not be passed to zdrun).
zdrun_socket = os.path.join(self.here, 'testsock')
zdctlpid = os.spawnvp(
os.P_NOWAIT,
sys.executable,
[sys.executable, os.path.join(self.here, 'parent.py')]
)
# Wait for it to start, but no longer than a minute.
deadline = time.time() + 60
is_started = False
while time.time() < deadline:
response = send_action('status\n', zdrun_socket)
if response is None:
time.sleep(0.05)
else:
is_started = True
break
self.assert_(is_started, "spawned process failed to start in a minute")
# Kill it, and wait a little to ensure it's dead.
os.kill(zdctlpid, signal.SIGINT)
time.sleep(0.25)
# Make sure the child is still responsive.
response = send_action('status\n', zdrun_socket)
self.assert_(response is not None and '\n' in response)
# Kill the process.
send_action('exit\n', zdrun_socket)
def testUmask(self):
path = tempfile.mktemp()
# With umask 666, we should create a file that we aren't able
# to write. If access says no, assume that umask works.
try:
touch_cmd = "/bin/touch"
if not os.path.exists(touch_cmd):
touch_cmd = "/usr/bin/touch" # Mac OS X
self._rundaemon(["-m", "666", touch_cmd, path])
for i in range(5):
if not os.path.exists(path):
time.sleep(0.1)
self.assert_(os.path.exists(path))
self.assert_(not os.access(path, os.W_OK))
finally:
if os.path.exists(path):
os.remove(path)
def send_action(action, sockname):
"""Send an action to the zdrun server and return the response.
Return None if the server is not up or any other error happened.
"""
sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
try:
sock.connect(sockname)
sock.send(action + "\n")
sock.shutdown(1) # We're not writing any more
response = ""
while 1:
data = sock.recv(1000)
if not data:
break
response += data
sock.close()
return response
except socket.error, msg:
return None
def test_suite():
suite = unittest.TestSuite()
if os.name == "posix":
suite.addTest(unittest.makeSuite(ZDaemonTests))
return suite
if __name__ == '__main__':
__file__ = sys.argv[0]
unittest.main(defaultTest='test_suite')
#!python
##############################################################################
#
# Copyright (c) 2001, 2002 Zope Corporation and Contributors.
# All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE.
#
##############################################################################
"""zdctl -- control an application run by zdaemon.
Usage: python zdctl.py [-C URL] [-S schema.xml] [-h] [-p PROGRAM]
[zdrun-options] [action [arguments]]
Options:
-C/--configure URL -- configuration file or URL
-S/--schema XML Schema -- XML schema for configuration file
-h/--help -- print usage message and exit
-b/--backoff-limit SECONDS -- set backoff limit to SECONDS (default 10)
-d/--daemon -- run as a proper daemon; fork a subprocess, close files etc.
-f/--forever -- run forever (by default, exit when backoff limit is exceeded)
-h/--help -- print this usage message and exit
-i/--interactive -- start an interactive shell after executing commands
-l/--logfile -- log file to be read by logtail command
-p/--program PROGRAM -- the program to run
-s/--socket-name SOCKET -- Unix socket name for client (default "zdsock")
-u/--user USER -- run as this user (or numeric uid)
-m/--umask UMASK -- use this umask for daemon subprocess (default is 022)
-x/--exit-codes LIST -- list of fatal exit codes (default "0,2")
-z/--directory DIRECTORY -- directory to chdir to when using -d (default off)
action [arguments] -- see below
Actions are commands like "start", "stop" and "status". If -i is
specified or no action is specified on the command line, a "shell"
interpreting actions typed interactively is started (unless the
configuration option default_to_interactive is set to false). Use the
action "help" to find out about available actions.
"""
import os
import re
import cmd
import sys
import time
import signal
import socket
import stat
if __name__ == "__main__":
# Add the parent of the script directory to the module search path
# (but only when the script is run from inside the zdaemon package)
from os.path import dirname, basename, abspath, normpath
scriptdir = dirname(normpath(abspath(sys.argv[0])))
if basename(scriptdir).lower() == "zdaemon":
sys.path.append(dirname(scriptdir))
from zdaemon.zdoptions import RunnerOptions
def string_list(arg):
return arg.split()
class ZDCtlOptions(RunnerOptions):
positional_args_allowed = 1
def __init__(self):
RunnerOptions.__init__(self)
self.add("schemafile", short="S:", long="schema=",
default="schema.xml",
handler=self.set_schemafile)
self.add("interactive", None, "i", "interactive", flag=1)
self.add("default_to_interactive", "runner.default_to_interactive",
default=1)
self.add("program", "runner.program", "p:", "program=",
handler=string_list,
required="no program specified; use -p or -C")
self.add("logfile", "runner.logfile", "l:", "logfile=")
self.add("python", "runner.python")
self.add("zdrun", "runner.zdrun")
programname = os.path.basename(sys.argv[0])
base, ext = os.path.splitext(programname)
if ext == ".py":
programname = base
self.add("prompt", "runner.prompt", default=(programname + ">"))
def realize(self, *args, **kwds):
RunnerOptions.realize(self, *args, **kwds)
# Maybe the config file requires -i or positional args
if not self.args and not self.interactive:
if not self.default_to_interactive:
self.usage("either -i or an action argument is required")
self.interactive = 1
# Where's python?
if not self.python:
self.python = sys.executable
# Where's zdrun?
if not self.zdrun:
if __name__ == "__main__":
file = sys.argv[0]
else:
file = __file__
file = os.path.normpath(os.path.abspath(file))
dir = os.path.dirname(file)
self.zdrun = os.path.join(dir, "zdrun.py")
def set_schemafile(self, file):
self.schemafile = file
class ZDCmd(cmd.Cmd):
def __init__(self, options):
self.options = options
self.prompt = self.options.prompt + ' '
cmd.Cmd.__init__(self)
self.get_status()
if self.zd_status:
m = re.search("(?m)^args=(.*)$", self.zd_status)
if m:
s = m.group(1)
args = eval(s, {"__builtins__": {}})
if args != self.options.program:
print "WARNING! zdrun is managing a different program!"
print "our program =", self.options.program
print "daemon's args =", args
def emptyline(self):
# We don't want a blank line to repeat the last command.
# Showing status is a nice alternative.
self.do_status()
def send_action(self, action):
"""Send an action to the zdrun server and return the response.
Return None if the server is not up or any other error happened.
"""
sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
try:
sock.connect(self.options.sockname)
sock.send(action + "\n")
sock.shutdown(1) # We're not writing any more
response = ""
while 1:
data = sock.recv(1000)
if not data:
break
response += data
sock.close()
return response
except socket.error, msg:
return None
def get_status(self):
self.zd_up = 0
self.zd_pid = 0
self.zd_status = None
resp = self.send_action("status")
if not resp:
return
m = re.search("(?m)^application=(\d+)$", resp)
if not m:
return
self.zd_up = 1
self.zd_pid = int(m.group(1))
self.zd_status = resp
def awhile(self, cond, msg):
try:
self.get_status()
while not cond():
sys.stdout.write(". ")
sys.stdout.flush()
time.sleep(1)
self.get_status()
except KeyboardInterrupt:
print "^C"
else:
print msg % self.__dict__
def help_help(self):
print "help -- Print a list of available actions."
print "help <action> -- Print help for <action>."
def do_EOF(self, arg):
print
return 1
def help_EOF(self):
print "To quit, type ^D or use the quit command."
def do_start(self, arg):
self.get_status()
if not self.zd_up:
args = [
self.options.python,
self.options.zdrun,
]
args += self._get_override("-S", "schemafile")
args += self._get_override("-C", "configfile")
args += self._get_override("-b", "backofflimit")
args += self._get_override("-d", "daemon", flag=1)
args += self._get_override("-f", "forever", flag=1)
args += self._get_override("-s", "sockname")
args += self._get_override("-u", "user")
args += self._get_override("-m", "umask", oct(self.options.umask))
args += self._get_override(
"-x", "exitcodes", ",".join(map(str, self.options.exitcodes)))
args += self._get_override("-z", "directory")
args.extend(self.options.program)
if self.options.daemon:
flag = os.P_NOWAIT
else:
flag = os.P_WAIT
os.spawnvp(flag, args[0], args)
elif not self.zd_pid:
self.send_action("start")
else:
print "daemon process already running; pid=%d" % self.zd_pid
return
self.awhile(lambda: self.zd_pid,
"daemon process started, pid=%(zd_pid)d")
def _get_override(self, opt, name, svalue=None, flag=0):
value = getattr(self.options, name)
if value is None:
return []
configroot = self.options.configroot
if configroot is not None:
for n, cn in self.options.names_list:
if n == name and cn:
v = configroot
for p in cn.split("."):
v = getattr(v, p, None)
if v is None:
break
if v == value: # We didn't override anything
return []
break
if flag:
if value:
args = [opt]
else:
args = []
else:
if svalue is None:
svalue = str(value)
args = [opt, svalue]
return args
def help_start(self):
print "start -- Start the daemon process."
print " If it is already running, do nothing."
def do_stop(self, arg):
self.get_status()
if not self.zd_up:
print "daemon manager not running"
elif not self.zd_pid:
print "daemon process not running"
else:
self.send_action("stop")
self.awhile(lambda: not self.zd_pid, "daemon process stopped")
def help_stop(self):
print "stop -- Stop the daemon process."
print " If it is not running, do nothing."
def do_restart(self, arg):
self.get_status()
pid = self.zd_pid
if not pid:
self.do_start(arg)
else:
self.send_action("restart")
self.awhile(lambda: self.zd_pid not in (0, pid),
"daemon process restarted, pid=%(zd_pid)d")
def help_restart(self):
print "restart -- Stop and then start the daemon process."
def do_kill(self, arg):
if not arg:
sig = signal.SIGTERM
else:
try:
sig = int(arg)
except: # int() can raise any number of exceptions
print "invalid signal number", `arg`
return
self.get_status()
if not self.zd_pid:
print "daemon process not running"
return
print "kill(%d, %d)" % (self.zd_pid, sig)
try:
os.kill(self.zd_pid, sig)
except os.error, msg:
print "Error:", msg
else:
print "signal %d sent to process %d" % (sig, self.zd_pid)
def help_kill(self):
print "kill [sig] -- Send signal sig to the daemon process."
print " The default signal is SIGTERM."
def do_wait(self, arg):
self.awhile(lambda: not self.zd_pid, "daemon process stopped")
self.do_status()
def help_wait(self):
print "wait -- Wait for the daemon process to exit."
def do_status(self, arg=""):
if arg not in ["", "-l"]:
print "status argument must be absent or -l"
return
self.get_status()
if not self.zd_up:
print "daemon manager not running"
elif not self.zd_pid:
print "daemon manager running; daemon process not running"
else:
print "program running; pid=%d" % self.zd_pid
if arg == "-l" and self.zd_status:
print self.zd_status
def help_status(self):
print "status [-l] -- Print status for the daemon process."
print " With -l, show raw status output as well."
def do_show(self, arg):
if not arg:
arg = "options"
try:
method = getattr(self, "show_" + arg)
except AttributeError, err:
print err
self.help_show()
return
method()
def show_options(self):
print "zdctl/zdrun options:"
print "schemafile: ", repr(self.options.schemafile)
print "configfile: ", repr(self.options.configfile)
print "interactive: ", repr(self.options.interactive)
print "default_to_interactive:",
print repr(self.options.default_to_interactive)
print "zdrun: ", repr(self.options.zdrun)
print "python: ", repr(self.options.python)
print "program: ", repr(self.options.program)
print "backofflimit:", repr(self.options.backofflimit)
print "daemon: ", repr(self.options.daemon)
print "forever: ", repr(self.options.forever)
print "sockname: ", repr(self.options.sockname)
print "exitcodes: ", repr(self.options.exitcodes)
print "user: ", repr(self.options.user)
print "umask: ", oct(self.options.umask)
print "directory: ", repr(self.options.directory)
print "logfile: ", repr(self.options.logfile)
print "hang_around: ", repr(self.options.hang_around)
def show_python(self):
print "Python info:"
version = sys.version.replace("\n", "\n ")
print "Version: ", version
print "Platform: ", sys.platform
print "Executable: ", repr(sys.executable)
print "Arguments: ", repr(sys.argv)
print "Directory: ", repr(os.getcwd())
print "Path:"
for dir in sys.path:
print " " + repr(dir)
def show_all(self):
self.show_options()
print
self.show_python()
def help_show(self):
print "show options -- show zdctl options"
print "show python -- show Python version and details"
print "show all -- show all of the above"
def complete_show(self, text, *ignored):
options = ["options", "python", "all"]
return [x for x in options if x.startswith(text)]
def do_logreopen(self, arg):
self.do_kill(str(signal.SIGUSR2))
def help_logreopen(self):
print "logreopen -- Send a SIGUSR2 signal to the daemon process."
print " This is designed to reopen the log file."
def do_logtail(self, arg):
if not arg:
arg = self.options.logfile
if not arg:
print "No default log file specified; use logtail <logfile>"
return
try:
helper = TailHelper(arg)
helper.tailf()
except KeyboardInterrupt:
print
except IOError, msg:
print msg
except OSError, msg:
print msg
def help_logtail(self):
print "logtail [logfile] -- Run tail -f on the given logfile."
print " A default file may exist."
print " Hit ^C to exit this mode."
def do_shell(self, arg):
if not arg:
arg = os.getenv("SHELL") or "/bin/sh"
try:
os.system(arg)
except KeyboardInterrupt:
print
def help_shell(self):
print "shell [command] -- Execute a shell command."
print " Without a command, start an interactive sh."
print "An alias for this command is ! [command]"
def do_reload(self, arg):
if arg:
args = arg.split()
if self.options.configfile:
args = ["-C", self.options.configfile] + args
else:
args = None
options = ZDCtlOptions()
options.positional_args_allowed = 0
try:
options.realize(args)
except SystemExit:
print "Configuration not reloaded"
else:
self.options = options
if self.options.configfile:
print "Configuration reloaded from", self.options.configfile
else:
print "Configuration reloaded without a config file"
def help_reload(self):
print "reload [options] -- Reload the configuration."
print " Without options, this reparses the command line."
print " With options, this substitutes 'options' for the"
print " command line, except that if no -C option is given,"
print " the last configuration file is used."
def do_foreground(self, arg):
self.get_status()
pid = self.zd_pid
if pid:
print "To run the program in the foreground, please stop it first."
return
program = " ".join(self.options.program)
print program
try:
os.system(program)
except KeyboardInterrupt:
print
def do_fg(self, arg):
self.do_foreground(arg)
def help_foreground(self):
print "foreground -- Run the program in the forground."
print "fg -- an alias for foreground."
def help_fg(self):
self.help_foreground()
def do_quit(self, arg):
self.get_status()
if not self.zd_up:
print "daemon manager not running"
elif not self.zd_pid:
print "daemon process not running; stopping daemon manager"
self.send_action("exit")
self.awhile(lambda: not self.zd_up, "daemon manager stopped")
else:
print "daemon process and daemon manager still running"
return 1
def help_quit(self):
print "quit -- Exit the zdctl shell."
print " If the daemon process is not running,"
print " stop the daemon manager."
class TailHelper:
MAX_BUFFSIZE = 1024
def __init__(self, fname):
self.f = open(fname, 'r')
def tailf(self):
sz, lines = self.tail(10)
for line in lines:
sys.stdout.write(line)
sys.stdout.flush()
while 1:
newsz = self.fsize()
bytes_added = newsz - sz
if bytes_added < 0:
sz = 0
print "==> File truncated <=="
bytes_added = newsz
if bytes_added > 0:
self.f.seek(-bytes_added, 2)
bytes = self.f.read(bytes_added)
sys.stdout.write(bytes)
sys.stdout.flush()
sz = newsz
time.sleep(1)
def tail(self, max=10):
self.f.seek(0, 2)
pos = sz = self.f.tell()
lines = []
bytes = []
num_bytes = 0
while 1:
if pos == 0:
break
self.f.seek(pos)
byte = self.f.read(1)
if byte == '\n':
if len(lines) == max:
break
bytes.reverse()
line = ''.join(bytes)
line and lines.append(line)
bytes = []
bytes.append(byte)
num_bytes = num_bytes + 1
if num_bytes > self.MAX_BUFFSIZE:
break
pos = pos - 1
lines.reverse()
return sz, lines
def fsize(self):
return os.fstat(self.f.fileno())[stat.ST_SIZE]
def main(args=None, options=None, cmdclass=ZDCmd):
if options is None:
options = ZDCtlOptions()
options.realize(args)
c = cmdclass(options)
if options.args:
c.onecmd(" ".join(options.args))
if options.interactive:
try:
import readline
except ImportError:
pass
print "program:", " ".join(options.program)
c.do_status()
c.cmdloop()
if __name__ == "__main__":
main()
##############################################################################
#
# Copyright (c) 2003 Zope Corporation and Contributors.
# All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE.
#
##############################################################################
"""Option processing for zdaemon and related code."""
import os
import sys
import getopt
import ZConfig
class ZDOptions:
doc = None
progname = None
configfile = None
schemadir = None
schemafile = "schema.xml"
schema = None
confighandlers = None
configroot = None
# Class variable to control automatic processing of an <eventlog>
# section. This should be the (possibly dotted) name of something
# accessible from configroot, typically "eventlog".
logsectionname = None
config_logger = None # The configured event logger, if any
# Class variable deciding whether positional arguments are allowed.
# If you want positional arguments, set this to 1 in your subclass.
positional_args_allowed = 0
def __init__(self):
self.names_list = []
self.short_options = []
self.long_options = []
self.options_map = {}
self.default_map = {}
self.required_map = {}
self.environ_map = {}
self.zconfig_options = []
self.add(None, None, "h", "help", self.help)
self.add("configfile", None, "C:", "configure=")
self.add(None, None, "X:", handler=self.zconfig_options.append)
def help(self, dummy):
"""Print a long help message (self.doc) to stdout and exit(0).
Occurrences of "%s" in self.doc are replaced by self.progname.
"""
doc = self.doc
if doc.find("%s") > 0:
doc = doc.replace("%s", self.progname)
print doc,
sys.exit(0)
def usage(self, msg):
"""Print a brief error message to stderr and exit(2)."""
sys.stderr.write("Error: %s\n" % str(msg))
sys.stderr.write("For help, use %s -h\n" % self.progname)
sys.exit(2)
def remove(self,
name=None, # attribute name on self
confname=None, # name in ZConfig (may be dotted)
short=None, # short option name
long=None, # long option name
):
"""Remove all traces of name, confname, short and/or long."""
if name:
for n, cn in self.names_list[:]:
if n == name:
self.names_list.remove((n, cn))
if self.default_map.has_key(name):
del self.default_map[name]
if self.required_map.has_key(name):
del self.required_map[name]
if confname:
for n, cn in self.names_list[:]:
if cn == confname:
self.names_list.remove((n, cn))
if short:
key = "-" + short[0]
if self.options_map.has_key(key):
del self.options_map[key]
if long:
key = "--" + long
if key[-1] == "=":
key = key[:-1]
if self.options_map.has_key(key):
del self.options_map[key]
def add(self,
name=None, # attribute name on self
confname=None, # name in ZConfig (may be dotted)
short=None, # short option name
long=None, # long option name
handler=None, # handler (defaults to string)
default=None, # default value
required=None, # message if not provided
flag=None, # if not None, flag value
env=None, # if not None, environment variable
):
"""Add information about a configuration option.
This can take several forms:
add(name, confname)
Configuration option 'confname' maps to attribute 'name'
add(name, None, short, long)
Command line option '-short' or '--long' maps to 'name'
add(None, None, short, long, handler)
Command line option calls handler
add(name, None, short, long, handler)
Assign handler return value to attribute 'name'
In addition, one of the following keyword arguments may be given:
default=... -- if not None, the default value
required=... -- if nonempty, an error message if no value provided
flag=... -- if not None, flag value for command line option
env=... -- if not None, name of environment variable that
overrides the configuration file or default
"""
if flag is not None:
if handler is not None:
raise ValueError, "use at most one of flag= and handler="
if not long and not short:
raise ValueError, "flag= requires a command line flag"
if short and short.endswith(":"):
raise ValueError, "flag= requires a command line flag"
if long and long.endswith("="):
raise ValueError, "flag= requires a command line flag"
handler = lambda arg, flag=flag: flag
if short and long:
if short.endswith(":") != long.endswith("="):
raise ValueError, "inconsistent short/long options: %r %r" % (
short, long)
if short:
if short[0] == "-":
raise ValueError, "short option should not start with '-'"
key, rest = short[:1], short[1:]
if rest not in ("", ":"):
raise ValueError, "short option should be 'x' or 'x:'"
key = "-" + key
if self.options_map.has_key(key):
raise ValueError, "duplicate short option key '%s'" % key
self.options_map[key] = (name, handler)
self.short_options.append(short)
if long:
if long[0] == "-":
raise ValueError, "long option should not start with '-'"
key = long
if key[-1] == "=":
key = key[:-1]
key = "--" + key
if self.options_map.has_key(key):
raise ValueError, "duplicate long option key '%s'" % key
self.options_map[key] = (name, handler)
self.long_options.append(long)
if env:
self.environ_map[env] = (name, handler)
if name:
if not hasattr(self, name):
setattr(self, name, None)
self.names_list.append((name, confname))
if default is not None:
self.default_map[name] = default
if required:
self.required_map[name] = required
def realize(self, args=None, progname=None, doc=None,
raise_getopt_errs=True):
"""Realize a configuration.
Optional arguments:
args -- the command line arguments, less the program name
(default is sys.argv[1:])
progname -- the program name (default is sys.argv[0])
doc -- usage message (default is __main__.__doc__)
"""
# Provide dynamic default method arguments
if args is None:
try:
args = sys.argv[1:]
except AttributeError:
args = ()
if progname is None:
try:
progname = sys.argv[0]
except (AttributeError, IndexError):
progname = 'zope'
if doc is None:
import __main__
doc = __main__.__doc__
self.progname = progname
self.doc = doc
self.options = []
self.args = []
# Call getopt
try:
self.options, self.args = getopt.getopt(
args, "".join(self.short_options), self.long_options)
except getopt.error, msg:
if raise_getopt_errs:
self.usage(msg)
# Check for positional args
if self.args and not self.positional_args_allowed:
self.usage("positional arguments are not supported")
# Process options returned by getopt
for opt, arg in self.options:
name, handler = self.options_map[opt]
if handler is not None:
try:
arg = handler(arg)
except ValueError, msg:
self.usage("invalid value for %s %r: %s" % (opt, arg, msg))
if name and arg is not None:
if getattr(self, name) is not None:
self.usage("conflicting command line option %r" % opt)
setattr(self, name, arg)
# Process environment variables
for envvar in self.environ_map.keys():
name, handler = self.environ_map[envvar]
if name and getattr(self, name, None) is not None:
continue
if os.environ.has_key(envvar):
value = os.environ[envvar]
if handler is not None:
try:
value = handler(value)
except ValueError, msg:
self.usage("invalid environment value for %s %r: %s"
% (envvar, value, msg))
if name and value is not None:
setattr(self, name, value)
if self.configfile is None:
self.configfile = self.default_configfile()
if self.zconfig_options and self.configfile is None:
self.usage("configuration overrides (-X) cannot be used"
" without a configuration file")
if self.configfile is not None:
# Process config file
self.load_schema()
try:
self.load_configfile()
except ZConfig.ConfigurationError, msg:
self.usage(str(msg))
# Copy config options to attributes of self. This only fills
# in options that aren't already set from the command line.
for name, confname in self.names_list:
if confname and getattr(self, name) is None:
parts = confname.split(".")
obj = self.configroot
for part in parts:
if obj is None:
break
# Here AttributeError is not a user error!
obj = getattr(obj, part)
setattr(self, name, obj)
# Process defaults
for name, value in self.default_map.items():
if getattr(self, name) is None:
setattr(self, name, value)
# Process required options
for name, message in self.required_map.items():
if getattr(self, name) is None:
self.usage(message)
if self.logsectionname:
self.load_logconf(self.logsectionname)
def default_configfile(self):
"""Return the name of the default config file, or None."""
# This allows a default configuration file to be used without
# affecting the -C command line option; setting self.configfile
# before calling realize() makes the -C option unusable since
# then realize() thinks it has already seen the option. If no
# -C is used, realize() will call this method to try to locate
# a configuration file.
return None
def load_schema(self):
if self.schema is None:
# Load schema
if self.schemadir is None:
self.schemadir = os.path.dirname(__file__)
self.schemafile = os.path.join(self.schemadir, self.schemafile)
self.schema = ZConfig.loadSchema(self.schemafile)
def load_configfile(self):
self.configroot, self.confighandlers = \
ZConfig.loadConfig(self.schema, self.configfile,
self.zconfig_options)
def load_logconf(self, sectname="eventlog"):
parts = sectname.split(".")
obj = self.configroot
for p in parts:
if obj == None:
break
obj = getattr(obj, p)
self.config_logger = obj
if obj is not None:
obj.startup()
class RunnerOptions(ZDOptions):
uid = gid = None
def __init__(self):
ZDOptions.__init__(self)
self.add("backofflimit", "runner.backoff_limit",
"b:", "backoff-limit=", int, default=10)
self.add("daemon", "runner.daemon", "d", "daemon", flag=1, default=0)
self.add("forever", "runner.forever", "f", "forever",
flag=1, default=0)
self.add("sockname", "runner.socket_name", "s:", "socket-name=",
ZConfig.datatypes.existing_dirpath, default="zdsock")
self.add("exitcodes", "runner.exit_codes", "x:", "exit-codes=",
list_of_ints, default=[0, 2])
self.add("user", "runner.user", "u:", "user=")
self.add("umask", "runner.umask", "m:", "umask=", octal_type,
default=022)
self.add("directory", "runner.directory", "z:", "directory=",
ZConfig.datatypes.existing_directory)
self.add("hang_around", "runner.hang_around", default=0)
def realize(self, *args, **kwds):
ZDOptions.realize(self, *args, **kwds)
# Additional checking of user option; set uid and gid
if self.user is not None:
import pwd
try:
uid = int(self.user)
except ValueError:
try:
pwrec = pwd.getpwnam(self.user)
except KeyError:
self.usage("username %r not found" % self.user)
uid = pwrec[2]
else:
try:
pwrec = pwd.getpwuid(uid)
except KeyError:
self.usage("uid %r not found" % self.user)
gid = pwrec[3]
self.uid = uid
self.gid = gid
# ZConfig datatype
def list_of_ints(arg):
if not arg:
return []
else:
return map(int, arg.split(","))
def octal_type(arg):
return int(arg, 8)
def _test():
# Stupid test program
z = ZDOptions()
z.add("program", "zdctl.program", "p:", "program=")
print z.names_list
z.realize()
names = z.names_list[:]
names.sort()
for name, confname in names:
print "%-20s = %.56r" % (name, getattr(z, name))
if __name__ == "__main__":
__file__ = sys.argv[0]
_test()
#!python
##############################################################################
#
# Copyright (c) 2001, 2002 Zope Corporation and Contributors.
# All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE
#
##############################################################################
"""zrdun -- run an application as a daemon.
Usage: python zrdun.py [zrdun-options] program [program-arguments]
Options:
-C/--configure URL -- configuration file or URL
-S/--schema XML Schema -- XML schema for configuration file
-b/--backoff-limit SECONDS -- set backoff limit to SECONDS (default 10)
-d/--daemon -- run as a proper daemon; fork a subprocess, setsid(), etc.
-f/--forever -- run forever (by default, exit when backoff limit is exceeded)
-h/--help -- print this usage message and exit
-s/--socket-name SOCKET -- Unix socket name for client (default "zdsock")
-u/--user USER -- run as this user (or numeric uid)
-m/--umask UMASK -- use this umask for daemon subprocess (default is 022)
-t/--transcript FILE -- transript of output from daemon-mode program
-x/--exit-codes LIST -- list of fatal exit codes (default "0,2")
-z/--directory DIRECTORY -- directory to chdir to when using -d (default off)
program [program-arguments] -- an arbitrary application to run
This daemon manager has two purposes: it restarts the application when
it dies, and (when requested to do so with the -d option) it runs the
application in the background, detached from the foreground tty
session that started it (if any).
Exit codes: if at any point the application exits with an exit status
listed by the -x option, it is not restarted. Any other form of
termination (either being killed by a signal or exiting with an exit
status not listed in the -x option) causes it to be restarted.
Backoff limit: when the application exits (nearly) immediately after a
restart, the daemon manager starts slowing down by delaying between
restarts. The delay starts at 1 second and is increased by one on
each restart up to the backoff limit given by the -b option; it is
reset when the application runs for more than the backoff limit
seconds. By default, when the delay reaches the backoff limit, the
daemon manager exits (under the assumption that the application has a
persistent fault). The -f (forever) option prevents this exit; use it
when you expect that a temporary external problem (such as a network
outage or an overfull disk) may prevent the application from starting
but you want the daemon manager to keep trying.
"""
"""
XXX TO DO
- Finish OO design -- use multiple classes rather than folding
everything into one class.
- Add unit tests.
- Add doc strings.
"""
import os
import sys
import time
import errno
import logging
import socket
import select
import signal
from stat import ST_MODE
if __name__ == "__main__":
# Add the parent of the script directory to the module search path
# (but only when the script is run from inside the zdaemon package)
from os.path import dirname, basename, abspath, normpath
scriptdir = dirname(normpath(abspath(sys.argv[0])))
if basename(scriptdir).lower() == "zdaemon":
sys.path.append(dirname(scriptdir))
from zdaemon.zdoptions import RunnerOptions
class ZDRunOptions(RunnerOptions):
positional_args_allowed = 1
logsectionname = "runner.eventlog"
program = None
def __init__(self):
RunnerOptions.__init__(self)
self.add("schemafile", short="S:", long="schema=",
default="schema.xml",
handler=self.set_schemafile)
self.add("transcript", "runner.transcript", "t:", "transcript=",
default="/dev/null")
def set_schemafile(self, file):
self.schemafile = file
def realize(self, *args, **kwds):
RunnerOptions.realize(self, *args, **kwds)
if self.args:
self.program = self.args
if not self.program:
self.usage("no program specified (use -C or positional args)")
if self.sockname:
# Convert socket name to absolute path
self.sockname = os.path.abspath(self.sockname)
if self.config_logger is None:
# This doesn't perform any configuration of the logging
# package, but that's reasonable in this case.
self.logger = logging.getLogger()
else:
self.logger = self.config_logger()
def load_logconf(self, sectname):
"""Load alternate eventlog if the specified section isn't present."""
RunnerOptions.load_logconf(self, sectname)
if self.config_logger is None and sectname != "eventlog":
RunnerOptions.load_logconf(self, "eventlog")
class Subprocess:
"""A class to manage a subprocess."""
# Initial state; overridden by instance variables
pid = 0 # Subprocess pid; 0 when not running
lasttime = 0 # Last time the subprocess was started; 0 if never
def __init__(self, options, args=None):
"""Constructor.
Arguments are a ZDRunOptions instance and a list of program
arguments; the latter's first item must be the program name.
"""
if args is None:
args = options.args
if not args:
options.usage("missing 'program' argument")
self.options = options
self.args = args
self._set_filename(args[0])
def _set_filename(self, program):
"""Internal: turn a program name into a file name, using $PATH."""
if "/" in program:
filename = program
try:
st = os.stat(filename)
except os.error:
self.options.usage("can't stat program %r" % program)
else:
path = get_path()
for dir in path:
filename = os.path.join(dir, program)
try:
st = os.stat(filename)
except os.error:
continue
mode = st[ST_MODE]
if mode & 0111:
break
else:
self.options.usage("can't find program %r on PATH %s" %
(program, path))
if not os.access(filename, os.X_OK):
self.options.usage("no permission to run program %r" % filename)
self.filename = filename
def spawn(self):
"""Start the subprocess. It must not be running already.
Return the process id. If the fork() call fails, return 0.
"""
assert not self.pid
self.lasttime = time.time()
try:
pid = os.fork()
except os.error:
return 0
if pid != 0:
# Parent
self.pid = pid
self.options.logger.info("spawned process pid=%d" % pid)
return pid
else:
# Child
try:
# Close file descriptors except std{in,out,err}.
# XXX We don't know how many to close; hope 100 is plenty.
for i in range(3, 100):
try:
os.close(i)
except os.error:
pass
try:
os.execv(self.filename, self.args)
except os.error, err:
sys.stderr.write("can't exec %r: %s\n" %
(self.filename, err))
finally:
os._exit(127)
# Does not return
def kill(self, sig):
"""Send a signal to the subprocess. This may or may not kill it.
Return None if the signal was sent, or an error message string
if an error occurred or if the subprocess is not running.
"""
if not self.pid:
return "no subprocess running"
try:
os.kill(self.pid, sig)
except os.error, msg:
return str(msg)
return None
def setstatus(self, sts):
"""Set process status returned by wait() or waitpid().
This simply notes the fact that the subprocess is no longer
running by setting self.pid to 0.
"""
self.pid = 0
class Daemonizer:
def main(self, args=None):
self.options = ZDRunOptions()
self.options.realize(args)
self.logger = self.options.logger
self.set_uid()
self.run()
def set_uid(self):
if self.options.uid is None:
return
uid = os.geteuid()
if uid != 0 and uid != self.options.uid:
self.options.usage("only root can use -u USER to change users")
os.setgid(self.options.gid)
os.setuid(self.options.uid)
def run(self):
self.proc = Subprocess(self.options)
self.opensocket()
try:
self.setsignals()
if self.options.daemon:
self.daemonize()
self.runforever()
finally:
try:
os.unlink(self.options.sockname)
except os.error:
pass
mastersocket = None
commandsocket = None
def opensocket(self):
sockname = self.options.sockname
tempname = "%s.%d" % (sockname, os.getpid())
self.unlink_quietly(tempname)
while 1:
sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
try:
sock.bind(tempname)
os.chmod(tempname, 0700)
try:
os.link(tempname, sockname)
break
except os.error:
# Lock contention, or stale socket.
self.checkopen()
# Stale socket -- delete, sleep, and try again.
msg = "Unlinking stale socket %s; sleep 1" % sockname
sys.stderr.write(msg + "\n")
self.logger.warn(msg)
self.unlink_quietly(sockname)
sock.close()
time.sleep(1)
continue
finally:
self.unlink_quietly(tempname)
sock.listen(1)
sock.setblocking(0)
self.mastersocket = sock
def unlink_quietly(self, filename):
try:
os.unlink(filename)
except os.error:
pass
def checkopen(self):
s = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
try:
s.connect(self.options.sockname)
s.send("status\n")
data = s.recv(1000)
s.close()
except socket.error:
pass
else:
while data.endswith("\n"):
data = data[:-1]
msg = ("Another zrdun is already up using socket %r:\n%s" %
(self.options.sockname, data))
sys.stderr.write(msg + "\n")
self.logger.critical(msg)
sys.exit(1)
def setsignals(self):
signal.signal(signal.SIGTERM, self.sigexit)
signal.signal(signal.SIGHUP, self.sigexit)
signal.signal(signal.SIGINT, self.sigexit)
signal.signal(signal.SIGCHLD, self.sigchild)
def sigexit(self, sig, frame):
self.logger.critical("daemon manager killed by %s" % signame(sig))
sys.exit(1)
waitstatus = None
def sigchild(self, sig, frame):
try:
pid, sts = os.waitpid(-1, os.WNOHANG)
except os.error:
return
if pid:
self.waitstatus = pid, sts
def daemonize(self):
# To daemonize, we need to become the leader of our own session
# (process) group. If we do not, signals sent to our
# parent process will also be sent to us. This might be bad because
# signals such as SIGINT can be sent to our parent process during
# normal (uninteresting) operations such as when we press Ctrl-C in the
# parent terminal window to escape from a logtail command.
# To disassociate ourselves from our parent's session group we use
# os.setsid. It means "set session id", which has the effect of
# disassociating a process from is current session and process group
# and setting itself up as a new session leader.
#
# Unfortunately we cannot call setsid if we're already a session group
# leader, so we use "fork" to make a copy of ourselves that is
# guaranteed to not be a session group leader.
#
# We also change directories, set stderr and stdout to null, and
# change our umask.
#
# This explanation was (gratefully) garnered from
# http://www.hawklord.uklinux.net/system/daemons/d3.htm
pid = os.fork()
if pid != 0:
# Parent
self.logger.debug("daemon manager forked; parent exiting")
os._exit(0)
# Child
self.logger.info("daemonizing the process")
if self.options.directory:
try:
os.chdir(self.options.directory)
except os.error, err:
self.logger.warn("can't chdir into %r: %s"
% (self.options.directory, err))
else:
self.logger.info("set current directory: %r"
% self.options.directory)
os.close(0)
sys.stdin = sys.__stdin__ = open("/dev/null")
os.close(1)
sys.stdout = sys.__stdout__ = open(self.options.transcript, "a", 0)
os.close(2)
sys.stderr = sys.__stderr__ = open(self.options.transcript, "a", 0)
os.setsid()
os.umask(self.options.umask)
# XXX Stevens, in his Advanced Unix book, section 13.3 (page
# 417) recommends calling umask(0) and closing unused
# file descriptors. In his Network Programming book, he
# additionally recommends ignoring SIGHUP and forking again
# after the setsid() call, for obscure SVR4 reasons.
mood = 1 # 1: up, 0: down, -1: suicidal
delay = 0 # If nonzero, delay starting or killing until this time
killing = 0 # If true, send SIGKILL when delay expires
proc = None # Subprocess instance
def runforever(self):
self.logger.info("daemon manager started")
min_mood = not self.options.hang_around
while self.mood >= min_mood or self.proc.pid:
if self.mood > 0 and not self.proc.pid and not self.delay:
pid = self.proc.spawn()
if not pid:
# Can't fork. Try again later...
self.delay = time.time() + self.backofflimit
if self.waitstatus:
self.reportstatus()
r, w, x = [self.mastersocket], [], []
if self.commandsocket:
r.append(self.commandsocket)
timeout = self.options.backofflimit
if self.delay:
timeout = max(0, min(timeout, self.delay - time.time()))
if timeout <= 0:
self.delay = 0
if self.killing and self.proc.pid:
self.proc.kill(signal.SIGKILL)
self.delay = time.time() + self.options.backofflimit
try:
r, w, x = select.select(r, w, x, timeout)
except select.error, err:
if err[0] != errno.EINTR:
raise
r = w = x = []
if self.waitstatus:
self.reportstatus()
if self.commandsocket and self.commandsocket in r:
try:
self.dorecv()
except socket.error, msg:
self.logger.exception("socket.error in dorecv(): %s"
% str(msg))
self.commandsocket = None
if self.mastersocket in r:
try:
self.doaccept()
except socket.error, msg:
self.logger.exception("socket.error in doaccept(): %s"
% str(msg))
self.commandsocket = None
self.logger.info("Exiting")
sys.exit(0)
def reportstatus(self):
pid, sts = self.waitstatus
self.waitstatus = None
es, msg = decode_wait_status(sts)
msg = "pid %d: " % pid + msg
if pid != self.proc.pid:
msg = "unknown " + msg
self.logger.warn(msg)
else:
killing = self.killing
if killing:
self.killing = 0
self.delay = 0
else:
self.governor()
self.proc.setstatus(sts)
if es in self.options.exitcodes and not killing:
msg = msg + "; exiting now"
self.logger.info(msg)
sys.exit(es)
self.logger.info(msg)
backoff = 0
def governor(self):
# Back off if respawning too frequently
now = time.time()
if not self.proc.lasttime:
pass
elif now - self.proc.lasttime < self.options.backofflimit:
# Exited rather quickly; slow down the restarts
self.backoff += 1
if self.backoff >= self.options.backofflimit:
if self.options.forever:
self.backoff = self.options.backofflimit
else:
self.logger.critical("restarting too frequently; quit")
sys.exit(1)
self.logger.info("sleep %s to avoid rapid restarts" % self.backoff)
self.delay = now + self.backoff
else:
# Reset the backoff timer
self.backoff = 0
self.delay = 0
def doaccept(self):
if self.commandsocket:
# Give up on previous command socket!
self.sendreply("Command superseded by new command")
self.commandsocket.close()
self.commandsocket = None
self.commandsocket, addr = self.mastersocket.accept()
self.commandbuffer = ""
def dorecv(self):
data = self.commandsocket.recv(1000)
if not data:
self.sendreply("Command not terminated by newline")
self.commandsocket.close()
self.commandsocket = None
self.commandbuffer += data
if "\n" in self.commandbuffer:
self.docommand()
self.commandsocket.close()
self.commandsocket = None
elif len(self.commandbuffer) > 10000:
self.sendreply("Command exceeds 10 KB")
self.commandsocket.close()
self.commandsocket = None
def docommand(self):
lines = self.commandbuffer.split("\n")
args = lines[0].split()
if not args:
self.sendreply("Empty command")
return
command = args[0]
methodname = "cmd_" + command
method = getattr(self, methodname, None)
if method:
method(args)
else:
self.sendreply("Unknown command %r; 'help' for a list" % args[0])
def cmd_start(self, args):
self.mood = 1 # Up
self.backoff = 0
self.delay = 0
self.killing = 0
if not self.proc.pid:
self.proc.spawn()
self.sendreply("Application started")
else:
self.sendreply("Application already started")
def cmd_stop(self, args):
self.mood = 0 # Down
self.backoff = 0
self.delay = 0
self.killing = 0
if self.proc.pid:
self.proc.kill(signal.SIGTERM)
self.sendreply("Sent SIGTERM")
self.killing = 1
self.delay = time.time() + self.options.backofflimit
else:
self.sendreply("Application already stopped")
def cmd_restart(self, args):
self.mood = 1 # Up
self.backoff = 0
self.delay = 0
self.killing = 0
if self.proc.pid:
self.proc.kill(signal.SIGTERM)
self.sendreply("Sent SIGTERM; will restart later")
self.killing = 1
self.delay = time.time() + self.options.backofflimit
else:
self.proc.spawn()
self.sendreply("Application started")
def cmd_exit(self, args):
self.mood = -1 # Suicidal
self.backoff = 0
self.delay = 0
self.killing = 0
if self.proc.pid:
self.proc.kill(signal.SIGTERM)
self.sendreply("Sent SIGTERM; will exit later")
self.killing = 1
self.delay = time.time() + self.options.backofflimit
else:
self.sendreply("Exiting now")
self.logger.info("Exiting")
sys.exit(0)
def cmd_kill(self, args):
if args[1:]:
try:
sig = int(args[1])
except:
self.sendreply("Bad signal %r" % args[1])
return
else:
sig = signal.SIGTERM
if not self.proc.pid:
self.sendreply("Application not running")
else:
msg = self.proc.kill(sig)
if msg:
self.sendreply("Kill %d failed: %s" % (sig, msg))
else:
self.sendreply("Signal %d sent" % sig)
def cmd_status(self, args):
if not self.proc.pid:
status = "stopped"
else:
status = "running"
self.sendreply("status=%s\n" % status +
"now=%r\n" % time.time() +
"mood=%d\n" % self.mood +
"delay=%r\n" % self.delay +
"backoff=%r\n" % self.backoff +
"lasttime=%r\n" % self.proc.lasttime +
"application=%r\n" % self.proc.pid +
"manager=%r\n" % os.getpid() +
"backofflimit=%r\n" % self.options.backofflimit +
"filename=%r\n" % self.proc.filename +
"args=%r\n" % self.proc.args)
def cmd_help(self, args):
self.sendreply(
"Available commands:\n"
" help -- return command help\n"
" status -- report application status (default command)\n"
" kill [signal] -- send a signal to the application\n"
" (default signal is SIGTERM)\n"
" start -- start the application if not already running\n"
" stop -- stop the application if running\n"
" (the daemon manager keeps running)\n"
" restart -- stop followed by start\n"
" exit -- stop the application and exit\n"
)
def sendreply(self, msg):
try:
if not msg.endswith("\n"):
msg = msg + "\n"
if hasattr(self.commandsocket, "sendall"):
self.commandsocket.sendall(msg)
else:
# This is quadratic, but msg is rarely more than 100 bytes :-)
while msg:
sent = self.commandsocket.send(msg)
msg = msg[sent:]
except socket.error, msg:
self.logger.warn("Error sending reply: %s" % str(msg))
# Helpers for dealing with signals and exit status
def decode_wait_status(sts):
"""Decode the status returned by wait() or waitpid().
Return a tuple (exitstatus, message) where exitstatus is the exit
status, or -1 if the process was killed by a signal; and message
is a message telling what happened. It is the caller's
responsibility to display the message.
"""
if os.WIFEXITED(sts):
es = os.WEXITSTATUS(sts) & 0xffff
msg = "exit status %s" % es
return es, msg
elif os.WIFSIGNALED(sts):
sig = os.WTERMSIG(sts)
msg = "terminated by %s" % signame(sig)
if hasattr(os, "WCOREDUMP"):
iscore = os.WCOREDUMP(sts)
else:
iscore = sts & 0x80
if iscore:
msg += " (core dumped)"
return -1, msg
else:
msg = "unknown termination cause 0x%04x" % sts
return -1, msg
_signames = None
def signame(sig):
"""Return a symbolic name for a signal.
Return "signal NNN" if there is no corresponding SIG name in the
signal module.
"""
if _signames is None:
_init_signames()
return _signames.get(sig) or "signal %d" % sig
def _init_signames():
global _signames
d = {}
for k, v in signal.__dict__.items():
k_startswith = getattr(k, "startswith", None)
if k_startswith is None:
continue
if k_startswith("SIG") and not k_startswith("SIG_"):
d[v] = k
_signames = d
def get_path():
"""Return a list corresponding to $PATH, or a default."""
path = ["/bin", "/usr/bin", "/usr/local/bin"]
if os.environ.has_key("PATH"):
p = os.environ["PATH"]
if p:
path = p.split(os.pathsep)
return path
# Main program
def main(args=None):
assert os.name == "posix", "This code makes many Unix-specific assumptions"
d = Daemonizer()
d.main(args)
if __name__ == "__main__":
main()
Markdown is supported
0%
or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment