Import Oslo's common rootwrap to Neutron

Use the common oslo-incubator rootwrap rather than maintain a
specific fork within Neutron.

- Migrated DnsmasqFilter use in dhcp.filters to the new EnvFilter
- Changed environment passing in ip_lib's netns.execute so that
  it can be properly matched using IpNetNsExecFilter + EnvFilter.
  It now calls "ip netns exec ns env A=B C=D command" instead of
  "A=B C=D ip netns exec ns command". Adjusted tests accordingly.

All the other changes are coming directly from the Oslo "rootwrap"
module sync.

Notes:
- Neutron locates its rootwrap.conf in etc/ rather than in etc/neutron
- Neutron maintains a specific bin/quantum-rootwrap-xen-dom0 which
  requires additional config in rootwrap.conf

Both behaviors were preserved in this commit, but this may need to be
addressed in the future to simplify future oslo-rootwrap updates.

Implements bp: quantum-common-rootwrap

Change-Id: I02879942a9d1169a71aa4d684c1b9ec109a6de32
This commit is contained in:
Thierry Carrez 2013-06-27 15:19:05 +02:00
parent 93efc1dd78
commit 042d15a314
13 changed files with 306 additions and 676 deletions

View File

@ -16,118 +16,6 @@
# License for the specific language governing permissions and limitations
# under the License.
"""Root wrapper for Neutron
from neutron.openstack.common.rootwrap import cmd
Filters which commands neutron is allowed to run as another user.
To use this, you should set the following in neutron.conf and the
various .ini files for the agent plugins:
root_helper=sudo neutron-rootwrap /etc/neutron/rootwrap.conf
You also need to let the neutron user run neutron-rootwrap as root in
/etc/sudoers:
neutron ALL = (root) NOPASSWD: /usr/bin/neutron-rootwrap
/etc/neutron/rootwrap.conf *
Filter specs live in /etc/neutron/rootwrap.d/*.filters, or
other locations pointed to by /etc/neutron/rootwrap.conf.
To make allowed commands node-specific, your packaging should only
install apropriate .filters for commands which are needed on each
node.
"""
from __future__ import print_function
import ConfigParser
import logging
import os
import pwd
import signal
import subprocess
import sys
RC_UNAUTHORIZED = 99
RC_NOCOMMAND = 98
RC_BADCONFIG = 97
RC_NOEXECFOUND = 96
def _subprocess_setup():
# Python installs a SIGPIPE handler by default. This is usually not what
# non-Python subprocesses expect.
signal.signal(signal.SIGPIPE, signal.SIG_DFL)
def _exit_error(execname, message, errorcode, log=True):
print("%s: %s" % (execname, message))
if log:
logging.error(message)
sys.exit(errorcode)
if __name__ == '__main__':
# Split arguments, require at least a command
execname = sys.argv.pop(0)
if len(sys.argv) < 2:
_exit_error(execname, "No command specified", RC_NOCOMMAND, log=False)
configfile = sys.argv.pop(0)
userargs = sys.argv[:]
# Add ../ to sys.path to allow running from branch
possible_topdir = os.path.normpath(os.path.join(os.path.abspath(execname),
os.pardir, os.pardir))
if os.path.exists(os.path.join(possible_topdir, "neutron", "__init__.py")):
sys.path.insert(0, possible_topdir)
from neutron.rootwrap import wrapper
# Load configuration
try:
rawconfig = ConfigParser.RawConfigParser()
rawconfig.read(configfile)
config = wrapper.RootwrapConfig(rawconfig)
except ValueError as exc:
msg = "Incorrect value in %s: %s" % (configfile, exc.message)
_exit_error(execname, msg, RC_BADCONFIG, log=False)
except ConfigParser.Error:
_exit_error(execname, "Incorrect configuration file: %s" % configfile,
RC_BADCONFIG, log=False)
if config.use_syslog:
wrapper.setup_syslog(execname,
config.syslog_log_facility,
config.syslog_log_level)
# Execute command if it matches any of the loaded filters
filters = wrapper.load_filters(config.filters_path)
try:
filtermatch = wrapper.match_filter(filters, userargs,
exec_dirs=config.exec_dirs)
if filtermatch:
command = filtermatch.get_command(userargs,
exec_dirs=config.exec_dirs)
if config.use_syslog:
logging.info("(%s > %s) Executing %s (filter match = %s)" % (
os.getlogin(), pwd.getpwuid(os.getuid())[0],
command, filtermatch.name))
obj = subprocess.Popen(command,
stdin=sys.stdin,
stdout=sys.stdout,
stderr=sys.stderr,
preexec_fn=_subprocess_setup,
env=filtermatch.get_environment(userargs))
obj.wait()
sys.exit(obj.returncode)
except wrapper.FilterMatchNotExecutable as exc:
msg = ("Executable not found: %s (filter match = %s)"
% (exc.match.exec_path, exc.match.name))
_exit_error(execname, msg, RC_NOEXECFOUND, log=config.use_syslog)
except wrapper.NoFilterMatched:
msg = ("Unauthorized command: %s (no filter matched)"
% ' '.join(userargs))
_exit_error(execname, msg, RC_UNAUTHORIZED, log=config.use_syslog)
cmd.main()

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@ -16,118 +16,6 @@
# License for the specific language governing permissions and limitations
# under the License.
"""Root wrapper for Neutron
from neutron.openstack.common.rootwrap import cmd
Filters which commands neutron is allowed to run as another user.
To use this, you should set the following in neutron.conf and the
various .ini files for the agent plugins:
root_helper=sudo neutron-rootwrap /etc/neutron/rootwrap.conf
You also need to let the neutron user run neutron-rootwrap as root in
/etc/sudoers:
neutron ALL = (root) NOPASSWD: /usr/bin/neutron-rootwrap
/etc/neutron/rootwrap.conf *
Filter specs live in /etc/neutron/rootwrap.d/*.filters, or
other locations pointed to by /etc/neutron/rootwrap.conf.
To make allowed commands node-specific, your packaging should only
install apropriate .filters for commands which are needed on each
node.
"""
from __future__ import print_function
import ConfigParser
import logging
import os
import pwd
import signal
import subprocess
import sys
RC_UNAUTHORIZED = 99
RC_NOCOMMAND = 98
RC_BADCONFIG = 97
RC_NOEXECFOUND = 96
def _subprocess_setup():
# Python installs a SIGPIPE handler by default. This is usually not what
# non-Python subprocesses expect.
signal.signal(signal.SIGPIPE, signal.SIG_DFL)
def _exit_error(execname, message, errorcode, log=True):
print("%s: %s" % (execname, message))
if log:
logging.error(message)
sys.exit(errorcode)
if __name__ == '__main__':
# Split arguments, require at least a command
execname = sys.argv.pop(0)
if len(sys.argv) < 2:
_exit_error(execname, "No command specified", RC_NOCOMMAND, log=False)
configfile = sys.argv.pop(0)
userargs = sys.argv[:]
# Add ../ to sys.path to allow running from branch
possible_topdir = os.path.normpath(os.path.join(os.path.abspath(execname),
os.pardir, os.pardir))
if os.path.exists(os.path.join(possible_topdir, "neutron", "__init__.py")):
sys.path.insert(0, possible_topdir)
from neutron.rootwrap import wrapper
# Load configuration
try:
rawconfig = ConfigParser.RawConfigParser()
rawconfig.read(configfile)
config = wrapper.RootwrapConfig(rawconfig)
except ValueError as exc:
msg = "Incorrect value in %s: %s" % (configfile, exc.message)
_exit_error(execname, msg, RC_BADCONFIG, log=False)
except ConfigParser.Error:
_exit_error(execname, "Incorrect configuration file: %s" % configfile,
RC_BADCONFIG, log=False)
if config.use_syslog:
wrapper.setup_syslog(execname,
config.syslog_log_facility,
config.syslog_log_level)
# Execute command if it matches any of the loaded filters
filters = wrapper.load_filters(config.filters_path)
try:
filtermatch = wrapper.match_filter(filters, userargs,
exec_dirs=config.exec_dirs)
if filtermatch:
command = filtermatch.get_command(userargs,
exec_dirs=config.exec_dirs)
if config.use_syslog:
logging.info("(%s > %s) Executing %s (filter match = %s)" % (
os.getlogin(), pwd.getpwuid(os.getuid())[0],
command, filtermatch.name))
obj = subprocess.Popen(command,
stdin=sys.stdin,
stdout=sys.stdout,
stderr=sys.stderr,
preexec_fn=_subprocess_setup,
env=filtermatch.get_environment(userargs))
obj.wait()
sys.exit(obj.returncode)
except wrapper.FilterMatchNotExecutable as exc:
msg = ("Executable not found: %s (filter match = %s)"
% (exc.match.exec_path, exc.match.name))
_exit_error(execname, msg, RC_NOEXECFOUND, log=config.use_syslog)
except wrapper.NoFilterMatched:
msg = ("Unauthorized command: %s (no filter matched)"
% ' '.join(userargs))
_exit_error(execname, msg, RC_UNAUTHORIZED, log=config.use_syslog)
cmd.main()

View File

@ -95,7 +95,7 @@ def filter_command(exec_name, filters_path, user_args, exec_dirs):
if os.path.exists(os.path.join(possible_topdir, "quantum", "__init__.py")):
sys.path.insert(0, possible_topdir)
from quantum.rootwrap import wrapper
from neutron.openstack.common.rootwrap import wrapper
# Execute command if it matches any of the loaded filters
filters = wrapper.load_filters(filters_path)

View File

@ -9,9 +9,7 @@
[Filters]
# dhcp-agent
ip_exec_dnsmasq: DnsmasqNetnsFilter, ip, root
dnsmasq: DnsmasqFilter, /sbin/dnsmasq, root
dnsmasq_usr: DnsmasqFilter, /usr/sbin/dnsmasq, root
dnsmasq: EnvFilter, dnsmasq, root, NEUTRON_RELAY_SOCKET_PATH=, NEUTRON_NETWORK_ID=
# dhcp-agent uses kill as well, that's handled by the generic KillFilter
# it looks like these are the only signals needed, per
# neutron/agent/linux/dhcp.py

View File

@ -1,3 +1,6 @@
# Configuration for neutron-rootwrap
# This file should be owned by (and only-writeable by) the root user
[DEFAULT]
# List of directories to load filter definitions from (separated by ',').
# These directories MUST all be only writeable by root !
@ -9,6 +12,20 @@ filters_path=/etc/quantum/rootwrap.d,/usr/share/quantum/rootwrap
# These directories MUST all be only writeable by root !
exec_dirs=/sbin,/usr/sbin,/bin,/usr/bin
# Enable logging to syslog
# Default value is False
use_syslog=False
# Which syslog facility to use.
# Valid values include auth, authpriv, syslog, user0, user1...
# Default value is 'syslog'
syslog_log_facility=syslog
# Which messages to log.
# INFO means log all usage
# ERROR means only log unsuccessful attempts
syslog_log_level=ERROR
[xenapi]
# XenAPI configuration is only required by the L2 agent if it is to
# target a XenServer/XCP compute host's dom0.

View File

@ -424,9 +424,13 @@ class IpNetnsCommand(IpCommandBase):
elif not self._parent.namespace:
raise Exception(_('No namespace defined for parent'))
else:
env_params = []
if addl_env:
env_params = (['env'] +
['%s=%s' % pair for pair in addl_env.items()])
return utils.execute(
['%s=%s' % pair for pair in addl_env.items()] +
['ip', 'netns', 'exec', self._parent.namespace] + list(cmds),
['ip', 'netns', 'exec', self._parent.namespace] +
env_params + list(cmds),
root_helper=self._parent.root_helper,
check_exit_code=check_exit_code)

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@ -1,6 +1,6 @@
# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2012 OpenStack Foundation.
# Copyright (c) 2011 OpenStack Foundation.
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may

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@ -0,0 +1,130 @@
#!/usr/bin/env python
# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2011 OpenStack Foundation.
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
"""Root wrapper for OpenStack services
Filters which commands a service is allowed to run as another user.
To use this with neutron, you should set the following in
neutron.conf:
rootwrap_config=/etc/neutron/rootwrap.conf
You also need to let the neutron user run neutron-rootwrap
as root in sudoers:
neutron ALL = (root) NOPASSWD: /usr/bin/neutron-rootwrap
/etc/neutron/rootwrap.conf *
Service packaging should deploy .filters files only on nodes where
they are needed, to avoid allowing more than is necessary.
"""
from __future__ import print_function
import ConfigParser
import logging
import os
import pwd
import signal
import subprocess
import sys
RC_UNAUTHORIZED = 99
RC_NOCOMMAND = 98
RC_BADCONFIG = 97
RC_NOEXECFOUND = 96
def _subprocess_setup():
# Python installs a SIGPIPE handler by default. This is usually not what
# non-Python subprocesses expect.
signal.signal(signal.SIGPIPE, signal.SIG_DFL)
def _exit_error(execname, message, errorcode, log=True):
print("%s: %s" % (execname, message))
if log:
logging.error(message)
sys.exit(errorcode)
def main():
# Split arguments, require at least a command
execname = sys.argv.pop(0)
if len(sys.argv) < 2:
_exit_error(execname, "No command specified", RC_NOCOMMAND, log=False)
configfile = sys.argv.pop(0)
userargs = sys.argv[:]
# Add ../ to sys.path to allow running from branch
possible_topdir = os.path.normpath(os.path.join(os.path.abspath(execname),
os.pardir, os.pardir))
if os.path.exists(os.path.join(possible_topdir, "neutron", "__init__.py")):
sys.path.insert(0, possible_topdir)
from neutron.openstack.common.rootwrap import wrapper
# Load configuration
try:
rawconfig = ConfigParser.RawConfigParser()
rawconfig.read(configfile)
config = wrapper.RootwrapConfig(rawconfig)
except ValueError as exc:
msg = "Incorrect value in %s: %s" % (configfile, exc.message)
_exit_error(execname, msg, RC_BADCONFIG, log=False)
except ConfigParser.Error:
_exit_error(execname, "Incorrect configuration file: %s" % configfile,
RC_BADCONFIG, log=False)
if config.use_syslog:
wrapper.setup_syslog(execname,
config.syslog_log_facility,
config.syslog_log_level)
# Execute command if it matches any of the loaded filters
filters = wrapper.load_filters(config.filters_path)
try:
filtermatch = wrapper.match_filter(filters, userargs,
exec_dirs=config.exec_dirs)
if filtermatch:
command = filtermatch.get_command(userargs,
exec_dirs=config.exec_dirs)
if config.use_syslog:
logging.info("(%s > %s) Executing %s (filter match = %s)" % (
os.getlogin(), pwd.getpwuid(os.getuid())[0],
command, filtermatch.name))
obj = subprocess.Popen(command,
stdin=sys.stdin,
stdout=sys.stdout,
stderr=sys.stderr,
preexec_fn=_subprocess_setup,
env=filtermatch.get_environment(userargs))
obj.wait()
sys.exit(obj.returncode)
except wrapper.FilterMatchNotExecutable as exc:
msg = ("Executable not found: %s (filter match = %s)"
% (exc.match.exec_path, exc.match.name))
_exit_error(execname, msg, RC_NOEXECFOUND, log=config.use_syslog)
except wrapper.NoFilterMatched:
msg = ("Unauthorized command: %s (no filter matched)"
% ' '.join(userargs))
_exit_error(execname, msg, RC_UNAUTHORIZED, log=config.use_syslog)

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@ -1,6 +1,6 @@
# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2012 OpenStack Foundation.
# Copyright (c) 2011 OpenStack Foundation.
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
@ -34,7 +34,7 @@ class CommandFilter(object):
if self.real_exec is not None:
return self.real_exec
self.real_exec = ""
if self.exec_path.startswith('/'):
if os.path.isabs(self.exec_path):
if os.access(self.exec_path, os.X_OK):
self.real_exec = self.exec_path
else:
@ -62,11 +62,6 @@ class CommandFilter(object):
return None
class ExecCommandFilter(CommandFilter):
def exec_args(self, userargs):
return []
class RegExpFilter(CommandFilter):
"""Command filter doing regexp matching for every argument."""
@ -140,62 +135,39 @@ class PathFilter(CommandFilter):
class DnsmasqFilter(CommandFilter):
"""Specific filter for the dnsmasq call (which includes env)."""
def is_dnsmasq_cmd(self, argv):
if (argv[0] == "dnsmasq"):
return True
return False
def is_dnsmasq_env_vars(self, argv):
if (argv[0].startswith("NEUTRON_RELAY_SOCKET_PATH=") and
argv[1].startswith("NEUTRON_NETWORK_ID=")):
return True
return False
CONFIG_FILE_ARG = 'CONFIG_FILE'
def match(self, userargs):
"""This matches the combination of the leading env
vars plus "dnsmasq"
"""
if (self.is_dnsmasq_env_vars(userargs) and
self.is_dnsmasq_cmd(userargs[2:])):
if (userargs[0] == 'env' and
userargs[1].startswith(self.CONFIG_FILE_ARG) and
userargs[2].startswith('NETWORK_ID=') and
userargs[3] == 'dnsmasq'):
return True
return False
def get_command(self, userargs, exec_dirs=[]):
to_exec = self.get_exec(exec_dirs=exec_dirs) or self.exec_path
return [to_exec] + userargs[3:]
dnsmasq_pos = userargs.index('dnsmasq')
return [to_exec] + userargs[dnsmasq_pos + 1:]
def get_environment(self, userargs):
env = os.environ.copy()
env['NEUTRON_RELAY_SOCKET_PATH'] = userargs[0].split('=')[-1]
env['NEUTRON_NETWORK_ID'] = userargs[1].split('=')[-1]
env[self.CONFIG_FILE_ARG] = userargs[1].split('=')[-1]
env['NETWORK_ID'] = userargs[2].split('=')[-1]
return env
class DnsmasqNetnsFilter(DnsmasqFilter):
"""Specific filter for the dnsmasq call (which includes env)."""
def is_ip_netns_cmd(self, argv):
if ((argv[0] == "ip") and
(argv[1] == "netns") and
(argv[2] == "exec")):
return True
return False
def match(self, userargs):
"""This matches the combination of the leading env
vars plus "ip" "netns" "exec" <foo> "dnsmasq"
"""
if (self.is_dnsmasq_env_vars(userargs) and
self.is_ip_netns_cmd(userargs[2:]) and
self.is_dnsmasq_cmd(userargs[6:])):
return True
return False
class DeprecatedDnsmasqFilter(DnsmasqFilter):
"""Variant of dnsmasq filter to support old-style FLAGFILE."""
CONFIG_FILE_ARG = 'FLAGFILE'
class KillFilter(CommandFilter):
"""Specific filter for the kill calls.
1st argument is the user to run /bin/kill under
2nd argument is the location of the affected executable
if the argument is not absolute, it is checked against $PATH
Subsequent arguments list the accepted signals (if any)
This filter relies on /proc to accurately determine affected
@ -224,17 +196,28 @@ class KillFilter(CommandFilter):
return False
try:
command = os.readlink("/proc/%d/exe" % int(args[1]))
# NOTE(dprince): /proc/PID/exe may have ' (deleted)' on
# the end if an executable is updated or deleted
if command.endswith(" (deleted)"):
command = command[:command.rindex(" ")]
if command != self.args[0]:
# Affected executable does not match
return False
except (ValueError, OSError):
# Incorrect PID
return False
return True
# NOTE(yufang521247): /proc/PID/exe may have '\0' on the
# end, because python doen't stop at '\0' when read the
# target path.
command = command.partition('\0')[0]
# NOTE(dprince): /proc/PID/exe may have ' (deleted)' on
# the end if an executable is updated or deleted
if command.endswith(" (deleted)"):
command = command[:-len(" (deleted)")]
kill_command = self.args[0]
if os.path.isabs(kill_command):
return kill_command == command
return (os.path.isabs(command) and
kill_command == os.path.basename(command) and
os.path.dirname(command) in os.environ['PATH'].split(':'))
class ReadFileFilter(CommandFilter):
@ -260,22 +243,106 @@ class IpFilter(CommandFilter):
def match(self, userargs):
if userargs[0] == 'ip':
if userargs[1] == 'netns':
if userargs[2] in ('list', 'add', 'delete'):
return True
else:
return False
return (userargs[2] in ('list', 'add', 'delete'))
else:
return True
class IpNetnsExecFilter(ExecCommandFilter):
"""Specific filter for the ip utility to that does match exec."""
class EnvFilter(CommandFilter):
"""Specific filter for the env utility.
Behaves like CommandFilter, except that it handles
leading env A=B.. strings appropriately.
"""
def _extract_env(self, arglist):
"""Extract all leading NAME=VALUE arguments from arglist."""
envs = set()
for arg in arglist:
if '=' not in arg:
break
envs.add(arg.partition('=')[0])
return envs
def __init__(self, exec_path, run_as, *args):
super(EnvFilter, self).__init__(exec_path, run_as, *args)
env_list = self._extract_env(self.args)
# Set exec_path to X when args are in the form of
# env A=a B=b C=c X Y Z
if "env" in exec_path and len(env_list) < len(self.args):
self.exec_path = self.args[len(env_list)]
def match(self, userargs):
if userargs[:3] == ['ip', 'netns', 'exec']:
return True
else:
# ignore leading 'env'
if userargs[0] == 'env':
userargs.pop(0)
# require one additional argument after configured ones
if len(userargs) < len(self.args):
return False
# extract all env args
user_envs = self._extract_env(userargs)
filter_envs = self._extract_env(self.args)
user_command = userargs[len(user_envs):len(user_envs) + 1]
# match first non-env argument with CommandFilter
return (super(EnvFilter, self).match(user_command)
and len(filter_envs) and user_envs == filter_envs)
def exec_args(self, userargs):
args = userargs[:]
# ignore leading 'env'
if args[0] == 'env':
args.pop(0)
# Throw away leading NAME=VALUE arguments
while args and '=' in args[0]:
args.pop(0)
return args
def get_command(self, userargs, exec_dirs=[]):
to_exec = self.get_exec(exec_dirs=exec_dirs) or self.exec_path
return [to_exec] + self.exec_args(userargs)[1:]
def get_environment(self, userargs):
env = os.environ.copy()
# ignore leading 'env'
if userargs[0] == 'env':
userargs.pop(0)
# Handle leading NAME=VALUE pairs
for a in userargs:
env_name, equals, env_value = a.partition('=')
if not equals:
break
if env_name and env_value:
env[env_name] = env_value
return env
class ChainingFilter(CommandFilter):
def exec_args(self, userargs):
return []
class IpNetnsExecFilter(ChainingFilter):
"""Specific filter for the ip utility to that does match exec."""
def match(self, userargs):
# Network namespaces currently require root
# require <ns> argument
if self.run_as != "root" or len(userargs) < 4:
return False
return (userargs[:3] == ['ip', 'netns', 'exec'])
def exec_args(self, userargs):
args = userargs[4:]
if args:

View File

@ -1,6 +1,6 @@
# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2012 OpenStack Foundation.
# Copyright (c) 2011 OpenStack Foundation.
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
@ -22,7 +22,7 @@ import logging.handlers
import os
import string
from neutron.rootwrap import filters
from neutron.openstack.common.rootwrap import filters
class NoFilterMatched(Exception):
@ -119,10 +119,10 @@ def load_filters(filters_path):
def match_filter(filter_list, userargs, exec_dirs=[]):
"""Return first matched filter from command filters.
"""Checks user command and arguments through command filters.
Returns the first matching filter.
Checks user command and arguments through command filters and
returns the first matching filter.
Raises NoFilterMatched if no filter matched.
Raises FilterMatchNotExecutable if no executable was found for the
best filter match.
@ -131,15 +131,18 @@ def match_filter(filter_list, userargs, exec_dirs=[]):
for f in filter_list:
if f.match(userargs):
if isinstance(f, filters.ExecCommandFilter):
if isinstance(f, filters.ChainingFilter):
# This command calls exec verify that remaining args
# matches another filter.
def non_chain_filter(fltr):
return (fltr.run_as == f.run_as
and not isinstance(fltr, filters.ChainingFilter))
leaf_filters = [fltr for fltr in filter_list
if not isinstance(fltr,
filters.ExecCommandFilter)]
if non_chain_filter(fltr)]
args = f.exec_args(userargs)
if (not args or not
match_filter(leaf_filters, args, exec_dirs=exec_dirs)):
if (not args or not match_filter(leaf_filters,
args, exec_dirs=exec_dirs)):
continue
# Try other filters if executable is absent

View File

@ -428,12 +428,13 @@ class TestDnsmasq(TestBase):
raise IndexError
expected = [
'NEUTRON_RELAY_SOCKET_PATH=/dhcp/lease_relay',
'NEUTRON_NETWORK_ID=cccccccc-cccc-cccc-cccc-cccccccccccc',
'ip',
'netns',
'exec',
'qdhcp-ns',
'env',
'NEUTRON_RELAY_SOCKET_PATH=/dhcp/lease_relay',
'NEUTRON_NETWORK_ID=cccccccc-cccc-cccc-cccc-cccccccccccc',
'dnsmasq',
'--no-hosts',
'--no-resolv',

View File

@ -670,8 +670,8 @@ class TestIpNetnsCommand(TestIPCmdBase):
env = dict(FOO=1, BAR=2)
self.netns_cmd.execute(['ip', 'link', 'list'], env)
execute.assert_called_once_with(
['FOO=1', 'BAR=2', 'ip', 'netns', 'exec', 'ns', 'ip', 'link',
'list'],
['ip', 'netns', 'exec', 'ns', 'env', 'FOO=1', 'BAR=2',
'ip', 'link', 'list'],
root_helper='sudo', check_exit_code=True)

View File

@ -1,366 +0,0 @@
# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2011 OpenStack Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import ConfigParser
import logging
import logging.handlers
import os
import subprocess
import uuid
import fixtures
from neutron.rootwrap import filters
from neutron.rootwrap import wrapper
from neutron.tests import base
class RootwrapTestCase(base.BaseTestCase):
def setUp(self):
super(RootwrapTestCase, self).setUp()
self.filters = [
filters.RegExpFilter("/bin/ls", "root", 'ls', '/[a-z]+'),
filters.CommandFilter("/usr/bin/foo_bar_not_exist", "root"),
filters.RegExpFilter("/bin/cat", "root", 'cat', '/[a-z]+'),
filters.CommandFilter("/nonexistent/cat", "root"),
filters.CommandFilter("/bin/cat", "root") # Keep this one last
]
def test_RegExpFilter_match(self):
usercmd = ["ls", "/root"]
filtermatch = wrapper.match_filter(self.filters, usercmd)
self.assertFalse(filtermatch is None)
self.assertEqual(filtermatch.get_command(usercmd),
["/bin/ls", "/root"])
def test_RegExpFilter_reject(self):
usercmd = ["ls", "root"]
self.assertRaises(wrapper.NoFilterMatched,
wrapper.match_filter, self.filters, usercmd)
def test_missing_command(self):
valid_but_missing = ["foo_bar_not_exist"]
invalid = ["foo_bar_not_exist_and_not_matched"]
self.assertRaises(wrapper.FilterMatchNotExecutable,
wrapper.match_filter,
self.filters, valid_but_missing)
self.assertRaises(wrapper.NoFilterMatched,
wrapper.match_filter, self.filters, invalid)
def test_DnsmasqFilter(self):
usercmd = ['NEUTRON_RELAY_SOCKET_PATH=A', 'NEUTRON_NETWORK_ID=foobar',
'dnsmasq', 'foo']
f = filters.DnsmasqFilter("/usr/bin/dnsmasq", "root")
self.assertTrue(f.match(usercmd))
self.assertEqual(f.get_command(usercmd), ['/usr/bin/dnsmasq', 'foo'])
env = f.get_environment(usercmd)
self.assertEqual(env.get('NEUTRON_RELAY_SOCKET_PATH'), 'A')
self.assertEqual(env.get('NEUTRON_NETWORK_ID'), 'foobar')
def test_DnsmasqNetnsFilter(self):
usercmd = ['NEUTRON_RELAY_SOCKET_PATH=A', 'NEUTRON_NETWORK_ID=foobar',
'ip', 'netns', 'exec', 'foo', 'dnsmasq', 'foo']
f = filters.DnsmasqNetnsFilter("/sbin/ip", "root")
self.assertTrue(f.match(usercmd))
self.assertEqual(f.get_command(usercmd), ['/sbin/ip', 'netns', 'exec',
'foo', 'dnsmasq', 'foo'])
env = f.get_environment(usercmd)
self.assertEqual(env.get('NEUTRON_RELAY_SOCKET_PATH'), 'A')
self.assertEqual(env.get('NEUTRON_NETWORK_ID'), 'foobar')
def test_KillFilter(self):
if not os.path.exists("/proc/%d" % os.getpid()):
self.skipTest("Test requires /proc filesystem (procfs)")
p = subprocess.Popen(["cat"], stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
try:
f = filters.KillFilter("root", "/bin/cat", "-9", "-HUP")
f2 = filters.KillFilter("root", "/usr/bin/cat", "-9", "-HUP")
usercmd = ['kill', '-ALRM', p.pid]
# Incorrect signal should fail
self.assertFalse(f.match(usercmd) or f2.match(usercmd))
usercmd = ['kill', p.pid]
# Providing no signal should fail
self.assertFalse(f.match(usercmd) or f2.match(usercmd))
# Providing matching signal should be allowed
usercmd = ['kill', '-9', p.pid]
self.assertTrue(f.match(usercmd) or f2.match(usercmd))
f = filters.KillFilter("root", "/bin/cat")
f2 = filters.KillFilter("root", "/usr/bin/cat")
usercmd = ['kill', os.getpid()]
# Our own PID does not match /bin/sleep, so it should fail
self.assertFalse(f.match(usercmd) or f2.match(usercmd))
usercmd = ['kill', 999999]
# Nonexistent PID should fail
self.assertFalse(f.match(usercmd) or f2.match(usercmd))
usercmd = ['kill', p.pid]
# Providing no signal should work
self.assertTrue(f.match(usercmd) or f2.match(usercmd))
finally:
# Terminate the "cat" process and wait for it to finish
p.terminate()
p.wait()
def test_KillFilter_no_raise(self):
"""Makes sure ValueError from bug 926412 is gone."""
f = filters.KillFilter("root", "")
# Providing anything other than kill should be False
usercmd = ['notkill', 999999]
self.assertFalse(f.match(usercmd))
# Providing something that is not a pid should be False
usercmd = ['kill', 'notapid']
self.assertFalse(f.match(usercmd))
def test_KillFilter_deleted_exe(self):
"""Makes sure deleted exe's are killed correctly."""
# See bug #967931.
def fake_readlink(blah):
return '/bin/commandddddd (deleted)'
f = filters.KillFilter("root", "/bin/commandddddd")
usercmd = ['kill', 1234]
# Providing no signal should work
self.stubs.Set(os, 'readlink', fake_readlink)
self.assertTrue(f.match(usercmd))
def test_ReadFileFilter(self):
goodfn = '/good/file.name'
f = filters.ReadFileFilter(goodfn)
usercmd = ['cat', '/bad/file']
self.assertFalse(f.match(['cat', '/bad/file']))
usercmd = ['cat', goodfn]
self.assertEqual(f.get_command(usercmd), ['/bin/cat', goodfn])
self.assertTrue(f.match(usercmd))
def test_IpFilter_non_netns(self):
f = filters.IpFilter('/sbin/ip', 'root')
self.assertTrue(f.match(['ip', 'link', 'list']))
def _test_IpFilter_netns_helper(self, action):
f = filters.IpFilter('/sbin/ip', 'root')
self.assertTrue(f.match(['ip', 'link', action]))
def test_IpFilter_netns_add(self):
self._test_IpFilter_netns_helper('add')
def test_IpFilter_netns_delete(self):
self._test_IpFilter_netns_helper('delete')
def test_IpFilter_netns_list(self):
self._test_IpFilter_netns_helper('list')
def test_IpNetnsExecFilter_match(self):
f = filters.IpNetnsExecFilter('/sbin/ip', 'root')
self.assertTrue(
f.match(['ip', 'netns', 'exec', 'foo', 'ip', 'link', 'list']))
def test_IpNetnsExecFilter_nomatch(self):
f = filters.IpNetnsExecFilter('/sbin/ip', 'root')
self.assertFalse(f.match(['ip', 'link', 'list']))
def test_match_filter_recurses_exec_command_filter_matches(self):
filter_list = [filters.IpNetnsExecFilter('/sbin/ip', 'root'),
filters.IpFilter('/sbin/ip', 'root')]
args = ['ip', 'netns', 'exec', 'foo', 'ip', 'link', 'list']
self.assertIsNotNone(wrapper.match_filter(filter_list, args))
def test_match_filter_recurses_exec_command_filter_does_not_match(self):
filter_list = [filters.IpNetnsExecFilter('/sbin/ip', 'root'),
filters.IpFilter('/sbin/ip', 'root')]
args = ['ip', 'netns', 'exec', 'foo', 'ip', 'netns', 'exec', 'bar',
'ip', 'link', 'list']
self.assertRaises(wrapper.NoFilterMatched,
wrapper.match_filter, filter_list, args)
def test_exec_dirs_search(self):
# This test supposes you have /bin/cat or /usr/bin/cat locally
f = filters.CommandFilter("cat", "root")
usercmd = ['cat', '/f']
self.assertTrue(f.match(usercmd))
self.assertTrue(f.get_command(usercmd,
exec_dirs=['/bin', '/usr/bin'])
in (['/bin/cat', '/f'], ['/usr/bin/cat', '/f']))
def test_skips(self):
# Check that all filters are skipped and that the last matches
usercmd = ["cat", "/"]
filtermatch = wrapper.match_filter(self.filters, usercmd)
self.assertTrue(filtermatch is self.filters[-1])
def test_RootwrapConfig(self):
raw = ConfigParser.RawConfigParser()
# Empty config should raise ConfigParser.Error
self.assertRaises(ConfigParser.Error, wrapper.RootwrapConfig, raw)
# Check default values
raw.set('DEFAULT', 'filters_path', '/a,/b')
config = wrapper.RootwrapConfig(raw)
self.assertEqual(config.filters_path, ['/a', '/b'])
self.assertEqual(config.exec_dirs, os.environ["PATH"].split(':'))
self.assertFalse(config.use_syslog)
self.assertEqual(config.syslog_log_facility,
logging.handlers.SysLogHandler.LOG_SYSLOG)
self.assertEqual(config.syslog_log_level, logging.ERROR)
# Check general values
raw.set('DEFAULT', 'exec_dirs', '/a,/x')
config = wrapper.RootwrapConfig(raw)
self.assertEqual(config.exec_dirs, ['/a', '/x'])
raw.set('DEFAULT', 'use_syslog', 'oui')
self.assertRaises(ValueError, wrapper.RootwrapConfig, raw)
raw.set('DEFAULT', 'use_syslog', 'true')
config = wrapper.RootwrapConfig(raw)
self.assertTrue(config.use_syslog)
raw.set('DEFAULT', 'syslog_log_facility', 'moo')
self.assertRaises(ValueError, wrapper.RootwrapConfig, raw)
raw.set('DEFAULT', 'syslog_log_facility', 'local0')
config = wrapper.RootwrapConfig(raw)
self.assertEqual(config.syslog_log_facility,
logging.handlers.SysLogHandler.LOG_LOCAL0)
raw.set('DEFAULT', 'syslog_log_facility', 'LOG_AUTH')
config = wrapper.RootwrapConfig(raw)
self.assertEqual(config.syslog_log_facility,
logging.handlers.SysLogHandler.LOG_AUTH)
raw.set('DEFAULT', 'syslog_log_level', 'bar')
self.assertRaises(ValueError, wrapper.RootwrapConfig, raw)
raw.set('DEFAULT', 'syslog_log_level', 'INFO')
config = wrapper.RootwrapConfig(raw)
self.assertEqual(config.syslog_log_level, logging.INFO)
class PathFilterTestCase(base.BaseTestCase):
def setUp(self):
super(PathFilterTestCase, self).setUp()
tmpdir = fixtures.TempDir('/tmp')
self.useFixture(tmpdir)
self.f = filters.PathFilter('/bin/chown', 'root', 'nova', tmpdir.path)
gen_name = lambda: str(uuid.uuid4())
self.SIMPLE_FILE_WITHIN_DIR = os.path.join(tmpdir.path, 'some')
self.SIMPLE_FILE_OUTSIDE_DIR = os.path.join('/tmp', 'some')
self.TRAVERSAL_WITHIN_DIR = os.path.join(tmpdir.path, 'a', '..',
'some')
self.TRAVERSAL_OUTSIDE_DIR = os.path.join(tmpdir.path, '..', 'some')
self.TRAVERSAL_SYMLINK_WITHIN_DIR = os.path.join(tmpdir.path,
gen_name())
os.symlink(os.path.join(tmpdir.path, 'a', '..', 'a'),
self.TRAVERSAL_SYMLINK_WITHIN_DIR)
self.TRAVERSAL_SYMLINK_OUTSIDE_DIR = os.path.join(tmpdir.path,
gen_name())
os.symlink(os.path.join(tmpdir.path, 'a', '..', '..', '..', 'etc'),
self.TRAVERSAL_SYMLINK_OUTSIDE_DIR)
self.SYMLINK_WITHIN_DIR = os.path.join(tmpdir.path, gen_name())
os.symlink(os.path.join(tmpdir.path, 'a'), self.SYMLINK_WITHIN_DIR)
self.SYMLINK_OUTSIDE_DIR = os.path.join(tmpdir.path, gen_name())
os.symlink(os.path.join('/tmp', 'some_file'), self.SYMLINK_OUTSIDE_DIR)
def test_argument_pass_constraint(self):
f = filters.PathFilter('/bin/chown', 'root', 'pass', 'pass')
args = ['chown', 'something', self.SIMPLE_FILE_OUTSIDE_DIR]
self.assertTrue(f.match(args))
def test_argument_equality_constraint(self):
f = filters.PathFilter('/bin/chown', 'root', 'nova', '/tmp/spam/eggs')
args = ['chown', 'nova', '/tmp/spam/eggs']
self.assertTrue(f.match(args))
args = ['chown', 'neutron', '/tmp/spam/eggs']
self.assertFalse(f.match(args))
def test_wrong_arguments_number(self):
args = ['chown', '-c', 'nova', self.SIMPLE_FILE_WITHIN_DIR]
self.assertFalse(self.f.match(args))
def test_wrong_exec_command(self):
args = ['wrong_exec', self.SIMPLE_FILE_WITHIN_DIR]
self.assertFalse(self.f.match(args))
def test_match(self):
args = ['chown', 'nova', self.SIMPLE_FILE_WITHIN_DIR]
self.assertTrue(self.f.match(args))
def test_match_traversal(self):
args = ['chown', 'nova', self.TRAVERSAL_WITHIN_DIR]
self.assertTrue(self.f.match(args))
def test_match_symlink(self):
args = ['chown', 'nova', self.SYMLINK_WITHIN_DIR]
self.assertTrue(self.f.match(args))
def test_match_traversal_symlink(self):
args = ['chown', 'nova', self.TRAVERSAL_SYMLINK_WITHIN_DIR]
self.assertTrue(self.f.match(args))
def test_reject(self):
args = ['chown', 'nova', self.SIMPLE_FILE_OUTSIDE_DIR]
self.assertFalse(self.f.match(args))
def test_reject_traversal(self):
args = ['chown', 'nova', self.TRAVERSAL_OUTSIDE_DIR]
self.assertFalse(self.f.match(args))
def test_reject_symlink(self):
args = ['chown', 'nova', self.SYMLINK_OUTSIDE_DIR]
self.assertFalse(self.f.match(args))
def test_reject_traversal_symlink(self):
args = ['chown', 'nova', self.TRAVERSAL_SYMLINK_OUTSIDE_DIR]
self.assertFalse(self.f.match(args))
def test_get_command(self):
args = ['chown', 'nova', self.SIMPLE_FILE_WITHIN_DIR]
expected = ['/bin/chown', 'nova', self.SIMPLE_FILE_WITHIN_DIR]
self.assertEqual(expected, self.f.get_command(args))
def test_get_command_traversal(self):
args = ['chown', 'nova', self.TRAVERSAL_WITHIN_DIR]
expected = ['/bin/chown', 'nova',
os.path.realpath(self.TRAVERSAL_WITHIN_DIR)]
self.assertEqual(expected, self.f.get_command(args))
def test_get_command_symlink(self):
args = ['chown', 'nova', self.SYMLINK_WITHIN_DIR]
expected = ['/bin/chown', 'nova',
os.path.realpath(self.SYMLINK_WITHIN_DIR)]
self.assertEqual(expected, self.f.get_command(args))
def test_get_command_traversal_symlink(self):
args = ['chown', 'nova', self.TRAVERSAL_SYMLINK_WITHIN_DIR]
expected = ['/bin/chown', 'nova',
os.path.realpath(self.TRAVERSAL_SYMLINK_WITHIN_DIR)]
self.assertEqual(expected, self.f.get_command(args))