Provided by: sudo-ldap_1.9.15p5-3ubuntu5_amd64 
NAME
sudo.conf — configuration for sudo front-end
DESCRIPTION
The sudo.conf file is used to configure the sudo front-end. It is used to configure sudo plugins, plugin-
agnostic path names, debug flags, and other settings.
The sudo.conf file supports the following directives, described in detail below.
Plugin an approval, audit, I/O logging, or security policy plugin
Path a plugin-agnostic path
Set a front-end setting, such as disable_coredump or group_source
Debug debug flags to aid in debugging sudo, sudoreplay, visudo, and the sudoers plugin.
The pound sign (‘#’) is used to indicate a comment. Both the comment character and any text after it, up
to the end of the line, are ignored.
Long lines can be continued with a backslash (‘\’) as the last character on the line. Leading white space
is removed from the beginning of lines even when a continuation character is used.
Non-comment lines that don't begin with Plugin, Path, Debug, or Set are silently ignored.
The sudo.conf file is always parsed in the ‘C’ locale.
Plugin configuration
sudo supports a plugin architecture for security policies and input/output logging. Third parties can
develop and distribute their own policy and I/O logging plugins to work seamlessly with the sudo front-end.
Plugins are dynamically loaded based on the contents of sudo.conf.
A Plugin line consists of the Plugin keyword, followed by the symbol_name and the path to the dynamic
shared object that contains the plugin. The symbol_name is the name of the struct approval_plugin, struct
audit_plugin, struct io_plugin, or struct policy_plugin defined by the plugin. If a plugin implements
multiple plugin types, there must be a Plugin line for each unique symbol name. The path may be fully
qualified or relative. If not fully qualified, it is relative to the directory specified by the plugin_dir
Path setting, which defaults to /usr/libexec/sudo. In other words:
Plugin sudoers_policy sudoers.so
is equivalent to:
Plugin sudoers_policy /usr/libexec/sudo/sudoers.so
If the plugin was compiled statically into the sudo binary instead of being installed as a dynamic shared
object, the path should be specified without a leading directory, as it does not actually exist in the file
system. For example:
Plugin sudoers_policy sudoers.so
On AIX systems, the plugin may be either a shared object ending in ‘.so’ or an archive file containing a
shared object ending in ‘.a’ with the name of the shared object in parentheses at the end.
Starting with sudo 1.8.5, any additional parameters after the path are passed as arguments to the plugin's
open function. For example, to override the compile-time default sudoers file mode:
Plugin sudoers_policy sudoers.so sudoers_mode=0440
See the sudoers(5) manual for a list of supported arguments.
The same dynamic shared object may contain multiple plugins, each with a different symbol name. The file
must be owned by user-ID 0 and only writable by its owner. Because of ambiguities that arise from
composite policies, only a single policy plugin may be specified. This limitation does not apply to I/O
plugins.
If no sudo.conf file is present, or if it contains no Plugin lines, the sudoers plugin will be used as the
default security policy, for I/O logging (if enabled by the policy), and for auditing. This is equivalent
to the following:
Plugin sudoers_policy sudoers.so
Plugin sudoers_io sudoers.so
Plugin sudoers_audit sudoers.so
Starting with sudo version 1.9.1, some of the logging functionality of the sudoers plugin has been moved
from the policy plugin to an audit plugin. To maintain compatibility with sudo.conf files from older sudo
versions, if sudoers is configured as the security policy, it will be used as an audit plugin as well.
This guarantees that the logging behavior will be consistent with that of sudo versions 1.9.0 and below.
For more information on the sudo plugin architecture, see the sudo_plugin(5) manual.
Path settings
A Path line consists of the Path keyword, followed by the name of the path to set and its value. For
example:
Path intercept /usr/libexec/sudo/sudo_intercept.so
Path noexec /usr/libexec/sudo/sudo_noexec.so
Path askpass /usr/X11R6/bin/ssh-askpass
If no path name is specified, features relying on the specified setting will be disabled. Disabling Path
settings is only supported in sudo version 1.8.16 and higher.
The following plugin-agnostic paths may be set in the /etc/sudo.conf file:
askpass
The fully qualified path to a helper program used to read the user's password when no terminal is
available. This may be the case when sudo is executed from a graphical (as opposed to text-based)
application. The program specified by askpass should display the argument passed to it as the prompt
and write the user's password to the standard output. The value of askpass may be overridden by the
SUDO_ASKPASS environment variable.
devsearch
An ordered, colon-separated search path of directories to look in for device nodes. This is used
when mapping the process's tty device number to a device name on systems that do not provide such a
mechanism. Sudo will not recurse into sub-directories. If terminal devices may be located in a sub-
directory of /dev, that path must be explicitly listed in devsearch. The default value is
/dev/pts:/dev/vt:/dev/term:/dev/zcons:/dev/pty:/dev
This option is ignored on systems that support either the devname() or _ttyname_dev() functions, for
example BSD, macOS and Solaris.
intercept
The path to a shared library containing a wrappers for the execve(2), execl(3), execle(3), execlp(3),
execv(3), execvp(3), execvpe(3), and system(3) library functions that intercepts attempts to run
further commands and performs a policy check before allowing them to be executed. This is used to
implement the intercept and log_subcmds functionality on systems that support LD_PRELOAD or the
equivalent.
The intercept path may be set to either a single fully-qualified path, or, for systems that support
separate LD_PRELOAD environment variables for 32-bit and 64-bit executables, it may optionally be set
to two fully-qualified paths separated by a colon (‘:’). The first path should be the 32-bit version
and the second the 64-bit version. This two-path form is currently only supported on AIX and Solaris
systems. The default value is /usr/libexec/sudo/sudo_intercept.so.
noexec
The path to a shared library containing wrappers for the execve(2), execl(3), execle(3), execlp(3),
exect(3), execv(3), execveat(3), execvP(3), execvp(3), execvpe(3), fexecve(3), popen(3),
posix_spawn(3), posix_spawnp(3), system(3), and wordexp(3) library functions that prevent the
execution of further commands. This is used to implement the noexec functionality on systems that
support LD_PRELOAD or the equivalent.
The noexec path may be set to either a single fully-qualified path, or, for systems that support
separate LD_PRELOAD environment variables for 32-bit and 64-bit executables, it may optionally be set
to two fully-qualified paths separated by a colon (‘:’). The first path should be the 32-bit version
and the second the 64-bit version. This two-path form is currently only supported on AIX and Solaris
systems. The default value is /usr/libexec/sudo/sudo_noexec.so.
plugin_dir
The default directory to use when searching for plugins that are specified without a fully qualified
path name. The default value is /usr/libexec/sudo.
sesh The fully-qualified path to the sesh binary. This setting is only used when sudo is built with
SELinux support. The default value is /usr/libexec/sudo/sesh.
Other settings
The sudo.conf file also supports the following front-end settings:
disable_coredump
Core dumps of sudo itself are disabled by default to prevent the disclosure of potentially sensitive
information. To aid in debugging sudo crashes, you may wish to re-enable core dumps by setting
“disable_coredump” to false in sudo.conf as follows:
Set disable_coredump false
All modern operating systems place restrictions on core dumps from set-user-ID processes like sudo so
this option can be enabled without compromising security. To actually get a sudo core file you will
likely need to enable core dumps for set-user-ID processes. On BSD and Linux systems this is
accomplished in the sysctl(8) command. On Solaris, the coreadm(1m) command is used to configure core
dump behavior.
This setting is only available in sudo version 1.8.4 and higher.
group_source
sudo passes the invoking user's group list to the policy and I/O plugins. On most systems, there is
an upper limit to the number of groups that a user may belong to simultaneously (typically 16 for
compatibility with NFS). On systems with the getconf(1) utility, running:
getconf NGROUPS_MAX
will return the maximum number of groups.
However, it is still possible to be a member of a larger number of groups--they simply won't be
included in the group list returned by the kernel for the user. Starting with sudo version 1.8.7, if
the user's kernel group list has the maximum number of entries, sudo will consult the group database
directly to determine the group list. This makes it possible for the security policy to perform
matching by group name even when the user is a member of more than the maximum number of groups.
The group_source setting allows the administrator to change this default behavior. Supported values
for group_source are:
static
Use the static group list that the kernel returns. Retrieving the group list this way is very
fast but it is subject to an upper limit as described above. It is “static” in that it does
not reflect changes to the group database made after the user logs in. This was the default
behavior prior to sudo 1.8.7.
dynamic
Always query the group database directly. It is “dynamic” in that changes made to the group
database after the user logs in will be reflected in the group list. On some systems, querying
the group database for all of a user's groups can be time consuming when querying a network-
based group database. Most operating systems provide an efficient method of performing such
queries. Currently, sudo supports efficient group queries on AIX, BSD, Linux, macOS, and
Solaris. This is the default behavior on macOS in sudo 1.9.6 and higher.
adaptive
Only query the group database if the static group list returned by the kernel has the maximum
number of entries. This is the default behavior on systems other than macOS in sudo 1.8.7 and
higher.
For example, to cause sudo to only use the kernel's static list of groups for the user:
Set group_source static
This setting is only available in sudo version 1.8.7 and higher.
max_groups
The maximum number of user groups to retrieve from the group database. Values less than one or
larger than 1024 will be ignored. This setting is only used when querying the group database
directly. It is intended to be used on systems where it is not possible to detect when the array to
be populated with group entries is not sufficiently large. By default, sudo will allocate four times
the system's maximum number of groups (see above) and retry with double that number if the group
database query fails.
This setting is only available in sudo version 1.8.7 and higher. It should not be required in sudo
versions 1.8.24 and higher and may be removed in a later release.
probe_interfaces
By default, sudo will probe the system's network interfaces and pass the IP address of each enabled
interface to the policy plugin. This makes it possible for the plugin to match rules based on the IP
address without having to query DNS. On Linux systems with a large number of virtual interfaces,
this may take a non-negligible amount of time. If IP-based matching is not required, network
interface probing can be disabled as follows:
Set probe_interfaces false
This setting is only available in sudo version 1.8.10 and higher.
Debug settings
sudo versions 1.8.4 and higher support a flexible debugging framework that can log what sudo is doing
internally if there is a problem.
A Debug line consists of the Debug keyword, followed by the name of the program, plugin, or shared object
to debug, the debug file name, and a comma-separated list of debug flags. The debug flag syntax used by
sudo, the sudoers plugin along with its associated programs and shared objects is subsystem@priority but a
third-party plugin is free to use a different format so long as it does not include a comma (‘,’).
On AIX systems, a Debug line will match a plugin specified as either the name of an SVR4-style shared
object file ending in ‘.so’, an archive file ending in ‘.a’, or an archive file ending in ‘.a’ with the
name of the shared object in parentheses.
Examples:
Debug sudo /var/log/sudo_debug all@warn,plugin@info
would log all debugging statements at the warn level and higher in addition to those at the info level for
the plugin subsystem.
Debug sudo_intercept.so /var/log/intercept_debug all@debug
would log all debugging statements, regardless of level, for the sudo_intercept.so shared library that
implements sudo's intercept functionality on some systems.
Debug sudoers.so /var/log/sudoers_debug all@debug
would log all debugging statements, regardless of level, for the sudoers plugin. See sudoers(5) for the
full list of subsystems supported by the sudoers plugin.
As of sudo 1.8.12, multiple Debug entries may be specified per program. Older versions of sudo only
support a single Debug entry per program. Plugin-specific Debug entries are also supported starting with
sudo 1.8.12 and are matched by either the base name of the plugin that was loaded (for example sudoers.so)
or by the plugin's fully-qualified path name. Previously, the sudoers plugin shared the same Debug entry
as the sudo front-end and could not be configured separately.
The following priorities are supported, in order of decreasing severity: crit, err, warn, notice, diag,
info, trace, and debug. Each priority, when specified, also includes all priorities higher than it. For
example, a priority of notice would include debug messages logged at notice and higher.
The priorities trace and debug also include function call tracing which logs when a function is entered and
when it returns. For example, the following trace is for the get_user_groups() function located in
src/sudo.c:
sudo[123] -> get_user_groups @ src/sudo.c:385
sudo[123] <- get_user_groups @ src/sudo.c:429 := groups=10,0,5
When the function is entered, indicated by a right arrow ‘->’, the program, process ID, function, source
file, and line number are logged. When the function returns, indicated by a left arrow ‘<-’, the same
information is logged along with the return value. In this case, the return value is a string.
The following subsystems are used by the sudo front-end:
all matches every subsystem
args command line argument processing
conv user conversation
edit sudoedit
event event subsystem
exec command execution
main sudo main function
netif network interface handling
pcomm communication with the plugin
plugin plugin configuration
pty pseudo-terminal related code
selinux SELinux-specific handling
util utility functions
utmp utmp handling
The sudoers(5) plugin includes support for additional subsystems.
FILES
/etc/sudo.conf sudo front-end configuration
EXAMPLES
#
# Default /etc/sudo.conf file
#
# Sudo plugins:
# Plugin plugin_name plugin_path plugin_options ...
#
# The plugin_path is relative to /usr/libexec/sudo unless
# fully qualified.
# The plugin_name corresponds to a global symbol in the plugin
# that contains the plugin interface structure.
# The plugin_options are optional.
#
# The sudoers plugin is used by default if no Plugin lines are present.
#Plugin sudoers_policy sudoers.so
#Plugin sudoers_io sudoers.so
#Plugin sudoers_audit sudoers.so
#
# Sudo askpass:
# Path askpass /path/to/askpass
#
# An askpass helper program may be specified to provide a graphical
# password prompt for "sudo -A" support. Sudo does not ship with its
# own askpass program but can use the OpenSSH askpass.
#
# Use the OpenSSH askpass
#Path askpass /usr/X11R6/bin/ssh-askpass
#
# Use the Gnome OpenSSH askpass
#Path askpass /usr/libexec/openssh/gnome-ssh-askpass
#
# Sudo device search path:
# Path devsearch /dev/path1:/dev/path2:/dev
#
# A colon-separated list of paths to check when searching for a user's
# terminal device.
#
#Path devsearch /dev/pts:/dev/vt:/dev/term:/dev/zcons:/dev/pty:/dev
#
# Sudo command interception:
# Path intercept /path/to/sudo_intercept.so
#
# Path to a shared library containing replacements for the execv()
# and execve() library functions that perform a policy check to verify
# the command is allowed and simply return an error if not. This is
# used to implement the "intercept" functionality on systems that
# support LD_PRELOAD or its equivalent.
#
# The compiled-in value is usually sufficient and should only be changed
# if you rename or move the sudo_intercept.so file.
#
#Path intercept /usr/libexec/sudo/sudo_intercept.so
#
# Sudo noexec:
# Path noexec /path/to/sudo_noexec.so
#
# Path to a shared library containing replacements for the execv()
# family of library functions that just return an error. This is
# used to implement the "noexec" functionality on systems that support
# LD_PRELOAD or its equivalent.
#
# The compiled-in value is usually sufficient and should only be changed
# if you rename or move the sudo_noexec.so file.
#
#Path noexec /usr/libexec/sudo/sudo_noexec.so
#
# Sudo plugin directory:
# Path plugin_dir /path/to/plugins
#
# The default directory to use when searching for plugins that are
# specified without a fully qualified path name.
#
#Path plugin_dir /usr/libexec/sudo
#
# Core dumps:
# Set disable_coredump true|false
#
# By default, sudo disables core dumps while it is executing (they
# are re-enabled for the command that is run).
# To aid in debugging sudo problems, you may wish to enable core
# dumps by setting "disable_coredump" to false.
#
#Set disable_coredump false
#
# User groups:
# Set group_source static|dynamic|adaptive
#
# Sudo passes the user's group list to the policy plugin.
# If the user is a member of the maximum number of groups (usually 16),
# sudo will query the group database directly to be sure to include
# the full list of groups.
#
# On some systems, this can be expensive so the behavior is configurable.
# The "group_source" setting has three possible values:
# static - use the user's list of groups returned by the kernel.
# dynamic - query the group database to find the list of groups.
# adaptive - if user is in less than the maximum number of groups.
# use the kernel list, else query the group database.
#
#Set group_source static
#
# Sudo interface probing:
# Set probe_interfaces true|false
#
# By default, sudo will probe the system's network interfaces and
# pass the IP address of each enabled interface to the policy plugin.
# On systems with a large number of virtual interfaces this may take
# a noticeable amount of time.
#
#Set probe_interfaces false
#
# Sudo debug files:
# Debug program /path/to/debug_log subsystem@priority[,subsyste@priority]
#
# Sudo and related programs support logging debug information to a file.
# The program is typically sudo, sudoers.so, sudoreplay, or visudo.
#
# Subsystems vary based on the program; "all" matches all subsystems.
# Priority may be crit, err, warn, notice, diag, info, trace, or debug.
# Multiple subsystem@priority may be specified, separated by a comma.
#
#Debug sudo /var/log/sudo_debug all@debug
#Debug sudoers.so /var/log/sudoers_debug all@debug
SEE ALSO
sudo_plugin(5), sudoers(5), sudo(8)
AUTHORS
Many people have worked on sudo over the years; this version consists of code written primarily by:
Todd C. Miller
See the CONTRIBUTORS.md file in the sudo distribution (https://www.sudo.ws/about/contributors/) for an
exhaustive list of people who have contributed to sudo.
BUGS
If you believe you have found a bug in sudo, you can submit a bug report at https://bugzilla.sudo.ws/
SUPPORT
Limited free support is available via the sudo-users mailing list, see
https://www.sudo.ws/mailman/listinfo/sudo-users to subscribe or search the archives.
DISCLAIMER
sudo is provided “AS IS” and any express or implied warranties, including, but not limited to, the implied
warranties of merchantability and fitness for a particular purpose are disclaimed. See the LICENSE.md file
distributed with sudo or https://www.sudo.ws/about/license/ for complete details.