Usage¶
Rootwrap should be used as a separate Python process calling the
oslo_rootwrap.cmd:main
function. You can set up a specific console_script
calling into oslo_rootwrap.cmd:main
, called for example nova-rootwrap
.
To keep things simple, this document will consider that your console_script
is called /usr/bin/nova-rootwrap
.
The rootwrap command line should be called under sudo. It’s first parameter is the configuration file to use, and the remainder of the parameters are the command line to execute:
sudo nova-rootwrap ROOTWRAP_CONFIG COMMAND_LINE
How rootwrap works¶
OpenStack services generally run under a specific, unprivileged user. However,
sometimes they need to run a command as root
. Instead of just calling
sudo make me a sandwich
and have a blanket sudoers
permission to always
escalate rights from their unprivileged users to root
, those services can
call sudo nova-rootwrap /etc/nova/rootwrap.conf make me a sandwich
.
A sudoers entry lets the unprivileged user run nova-rootwrap
as root
.
nova-rootwrap
looks for filter definition directories in its configuration
file, and loads command filters from them. Then it checks if the command
requested by the OpenStack service matches one of those filters, in which
case it executes the command (as root
). If no filter matches, it denies
the request. This allows for complex filtering of allowed commands, as well
as shipping filter definitions together with the OpenStack code that needs
them.
Security model¶
The escalation path is fully controlled by the root
user. A sudoers
entry
(owned by root
) allows the unprivileged user to run (as root
) a specific
rootwrap executable, and only with a specific configuration file (which should
be owned by root
) as its first parameter.
nova-rootwrap
imports the Python modules it needs from a cleaned (and
system-default) PYTHONPATH
. The configuration file points to root-owned
filter definition directories, which contain root-owned filters definition
files. This chain ensures that the unprivileged user itself is never in
control of the configuration or modules used by the nova-rootwrap
executable.
Installation¶
All nodes wishing to run nova-rootwrap
should contain a sudoers
entry that
lets the unprivileged user run nova-rootwrap
as root
, pointing to the
root-owned rootwrap.conf
configuration file and allowing any parameter
after that. For example, Nova nodes should have this line in their sudoers
file, to allow the nova
user to call sudo nova-rootwrap
:
nova ALL = (root) NOPASSWD: /usr/bin/nova-rootwrap /etc/nova/rootwrap.conf *
Then the node also should ship the filter definitions corresponding to its
usage of nova-rootwrap
. You should not install any other filters file on
that node, otherwise you would allow extra unneeded commands to be run as
root
.
The filter file(s) corresponding to the node must be installed in one of the
filters_path directories. For example, on Nova compute nodes, you should only
have compute.filters
installed. The file should be owned and writeable only
by the root
user.
Rootwrap configuration¶
The rootwrap.conf
file is used to influence how nova-rootwrap
works. Since
it’s in the trusted security path, it needs to be owned and writeable only by
the root
user. Its location is specified in the sudoers
entry, and must be
provided on nova-rootwrap
command line as its first argument.
rootwrap.conf
uses an INI file format with the following sections and
parameters:
[DEFAULT] section¶
- filters_path
- Comma-separated list of directories containing filter definition files.
All directories listed must be owned and only writeable by
root
. This is the only mandatory parameter. Example:filters_path=/etc/nova/rootwrap.d,/usr/share/nova/rootwrap
- exec_dirs
- Comma-separated list of directories to search executables in, in case
filters do not explicitly specify a full path. If not specified, defaults
to the system
PATH
environment variable. All directories listed must be owned and only writeable byroot
. Example:exec_dirs=/sbin,/usr/sbin,/bin,/usr/bin
- use_syslog
- Enable logging to syslog. Default value is False. Example:
use_syslog=True
- syslog_log_facility
- Which syslog facility to use for syslog logging. Valid values include
auth
,authpriv
,syslog
,user0
,user1
… Default value issyslog
. Example:syslog_log_facility=syslog
- syslog_log_level
- Which messages to log.
INFO
means log all usage,ERROR
means only log unsuccessful attempts. Example:syslog_log_level=ERROR
.filters files¶
Filters definition files contain lists of filters that nova-rootwrap
will
use to allow or deny a specific command. They are generally suffixed by
.filters
. Since they are in the trusted security path, they need to be
owned and writeable only by the root
user. Their location is specified
in the rootwrap.conf
file.
It uses an INI file format with a [Filters]
section and several lines,
each with a unique parameter name (different for each filter you define):
[Filters] section¶
- filter_name (different for each filter)
- Comma-separated list containing first the Filter class to use, followed
by that Filter arguments (which vary depending on the Filter class
selected). Example:
kpartx: CommandFilter, /sbin/kpartx, root
Available filter classes¶
CommandFilter¶
Basic filter that only checks the executable called. Parameters are:
- Executable allowed
- User to run the command under
Example: allow to run kpartx as the root user, with any parameters:
kpartx: CommandFilter, kpartx, root
RegExpFilter¶
Generic filter that checks the executable called, then uses a list of regular expressions to check all subsequent arguments. Parameters are:
- Executable allowed
- User to run the command under
- (and following) Regular expressions to use to match first (and subsequent) command arguments
Example: allow to run /usr/sbin/tunctl
, but only with three parameters with
the first two being -b and -t:
tunctl: RegExpFilter, /usr/sbin/tunctl, root, tunctl, -b, -t, .*
PathFilter¶
Generic filter that lets you check that paths provided as parameters fall under a given directory. Parameters are:
- Executable allowed
- User to run the command under
- (and following) Command arguments.
There are three types of command arguments: pass
will accept any parameter
value, a string will only accept the corresponding string as a parameter,
except if the string starts with ‘/’ in which case it will accept any path
that resolves under the corresponding directory.
Example: allow to chown to the ‘nova’ user any file under /var/lib/images:
chown: PathFilter, /bin/chown, root, nova, /var/lib/images
EnvFilter¶
Filter allowing extra environment variables to be set by the calling code. Parameters are:
env
- User to run the command under
- (and following) name of the environment variables that can be set,
suffixed by
=
- Executable allowed
Example: allow to run CONFIG_FILE=foo NETWORK_ID=bar dnsmasq ...
as root:
dnsmasq: EnvFilter, env, root, CONFIG_FILE=, NETWORK_ID=, dnsmasq
ReadFileFilter¶
Specific filter that lets you read files as root
using cat
.
Parameters are:
- Path to the file that you want to read as the
root
user.
Example: allow to run cat /etc/iscsi/initiatorname.iscsi
as root
:
read_initiator: ReadFileFilter, /etc/iscsi/initiatorname.iscsi
KillFilter¶
Kill-specific filter that checks the affected process and the signal sent before allowing the command. Parameters are:
- User to run
kill
under - Only affect processes running that executable
- (and following) Signals you’re allowed to send
Example: allow to send -9
or -HUP
signals to
/usr/sbin/dnsmasq
processes:
kill_dnsmasq: KillFilter, root, /usr/sbin/dnsmasq, -9, -HUP
IpFilter¶
ip-specific filter that allows to run any ip
command, except for ip netns
(in which case it only allows the list, add and delete subcommands).
Parameters are:
ip
- User to run
ip
under
Example: allow to run any ip
command except ip netns exec
and
ip netns monitor
:
ip: IpFilter, ip, root
IpNetnsExecFilter¶
ip-specific filter that allows to run any otherwise-allowed command under
ip netns exec
. The command specified to ip netns exec
must match another
filter for this filter to accept it. Parameters are:
ip
- User to run
ip
under
Example: allow to run ip netns exec <namespace> <command>
as long as
<command>
matches another filter:
ip: IpNetnsExecFilter, ip, root
ChainingRegExpFilter¶
Filter that allows to run the prefix command, if the beginning of its arguments match to a list of regular expressions, and if remaining arguments are any otherwise-allowed command. Parameters are:
- Executable allowed
- User to run the command under
- (and following) Regular expressions to use to match first (and subsequent) command arguments.
This filter regards the length of the regular expressions list as the number of arguments to be checked, and remaining parts are checked by other filters.
Example: allow to run /usr/bin/nice
, but only with first two parameters being
-n and integer, and followed by any allowed command by the other filters:
nice: ChainingRegExpFilter, /usr/bin/nice, root, nice, -n, -?\d+
Note: this filter can’t be used to impose that the subcommand is always run under the prefix command. In particular, it can’t enforce that a particular command is only run under “nice”, since the subcommand can explicitly be called directly.
Calling rootwrap from OpenStack services¶
Standalone mode (sudo
way)¶
The oslo.processutils
library ships with a convenience execute()
function
that can be used to call shell commands as root
, if you call it with the
following parameters:
run_as_root=True
root_helper='sudo nova-rootwrap /etc/nova/rootwrap.conf
NB: Some services ship with a utils.execute()
convenience function that
automatically sets root_helper
based on the value of a rootwrap_config
parameter, so only run_as_root=True
needs to be set.
If you want to call as root
a previously-unauthorized command, you will also
need to modify the filters (generally shipped in the source tree under
etc/rootwrap.d
so that the command you want to run as root
will actually
be allowed by nova-rootwrap
.
Daemon mode¶
Since 1.3.0 version oslo.rootwrap
supports “daemon mode”. In this mode
rootwrap would start, read config file and wait for commands to be run with
root privileges. All communications with the daemon should go through
Client
class that resides in oslo_rootwrap.client
module.
Its constructor expects one argument - a list that can be passed to Popen
to create rootwrap daemon process. For root_helper
above it will be
["sudo", "nova-rootwrap-daemon", "/etc/neutron/rootwrap.conf"]
,
for example. Note that it uses a separate script that points to
oslo_rootwrap.cmd:daemon
endpoint (instead of :main
).
The class provides one method execute
with following arguments:
userargs
- list of command line arguments that are to be used to run the command;stdin
- string to be passed to standard input of child process.
The method returns 3-tuple containing:
- return code of child process;
- string containing everything captured from its stdout stream;
- string containing everything captured from its stderr stream.
The class lazily creates an instance of the daemon, connects to it and passes
arguments. This daemon can die or be killed, Client
will respawn it and/or
reconnect to it as necessary.