Provided by: auditd_2.3.2-2ubuntu1_amd64 
NAME
auditctl - a utility to assist controlling the kernel's audit system
SYNOPSIS
auditctl [options]
DESCRIPTION
The auditctl program is used to control the behavior, get status, and add or delete rules into the 2.6
kernel's audit system.
OPTIONS
-b backlog
Set max number of outstanding audit buffers allowed (Kernel Default=64) If all buffers are full,
the failure flag is consulted by the kernel for action.
-e [0..2]
Set enabled flag. When 0 is passed, this can be used to temporarily disable auditing. When 1 is
passed as an argument, it will enable auditing. To lock the audit configuration so that it can't
be changed, pass a 2 as the argument. Locking the configuration is intended to be the last command
in audit.rules for anyone wishing this feature to be active. Any attempt to change the
configuration in this mode will be audited and denied. The configuration can only be changed by
rebooting the machine.
-f [0..2]
Set failure flag 0=silent 1=printk 2=panic. This option lets you determine how you want the kernel
to handle critical errors. Example conditions where this flag is consulted includes: transmission
errors to userspace audit daemon, backlog limit exceeded, out of kernel memory, and rate limit
exceeded. The default value is 1. Secure environments will probably want to set this to 2.
-h Help
-i Ignore errors when reading rules from a file. This causes auditctl to always return a success exit
code.
-c Continue loading rules in spite of an error. This summarizes the results of loading the rules. The
exit code will not be success if any rule fails to load.
-C [f=f | f!=f]
Build an inter-field comparison rule: field, operation, field. You may pass multiple comparisons
on a single command line. Each one must start with -C. Each inter-field equation is anded with
each other as well as equations starting with -F to trigger an audit record. There are 2 operators
supported - equal, and not equal. Valid fields are:
auid, uid, euid, suid, fsuid, obj_uid; and gid, egid, sgid, fsgid, obj_gid
The two groups of uid and gid cannot be mixed. But any comparison within the group can be made. The
obj_uid/gid fields are collected from the object of the event such as a file or directory.
-l List all rules 1 per line. This can take a key option (-k), too.
-k key Set a filter key on an audit rule. The filter key is an arbitrary string of text that can be up to
31 bytes long. It can uniquely identify the audit records produced by a rule. Typical use is for
when you have several rules that together satisfy a security requirement. The key value can be
searched on with ausearch so that no matter which rule triggered the event, you can find its
results. The key can also be used on delete all (-D) and list rules (-l) to select rules with a
specific key. You may have more than one key on a rule if you want to be able to search logged
events in multiple ways or if you have an audispd plugin that uses a key to aid its analysis.
-m text
Send a user space message into the audit system. This can only be done if you have CAP_AUDIT_WRITE
capability (normally the root user has this). The resulting event will be the USER type.
-p [r|w|x|a]
Describe the permission access type that a file system watch will trigger on. r=read, w=write,
x=execute, a=attribute change. These permissions are not the standard file permissions, but rather
the kind of syscall that would do this kind of thing. The read & write syscalls are omitted from
this set since they would overwhelm the logs. But rather for reads or writes, the open flags are
looked at to see what permission was requested.
-q mount-point,subtree
If you have an existing directory watch and bind or move mount another subtree in the watched
subtree, you need to tell the kernel to make the subtree being mounted equivalent to the directory
being watched. If the subtree is already mounted at the time the directory watch is issued, the
subtree is automatically tagged for watching. Please note the comma separating the two values.
Omitting it will cause errors.
-r rate
Set limit in messages/sec (0=none). If this rate is non-zero and is exceeded, the failure flag is
consulted by the kernel for action. The default value is 0.
-R file
Read rules from a file. The rules must be 1 per line and in the order that they are to be executed
in. The rule file must be owned by root and not readable by other users or it will be rejected.
The rule file may have comments embedded by starting the line with a '#' character. Rules that are
read from a file are identical to what you would type on a command line except they are not
preceded by auditctl (since auditctl is the one executing the file).
-s Report the kernel's audit subsystem status. It will tell you the in-kernel values that can be set
by -e, -f, -r, and -b options. The pid value is the process number of the audit daemon. Note that
a pid of 0 indicates that the audit daemon is not running. The lost entry will tell you how many
event records that have been discarded due to the kernel audit queue overflowing. The backlog
field tells how many event records are currently queued waiting for auditd to read them.
-t Trim the subtrees after a mount command.
-v Print the version of auditctl.
-a [list,action|action,list]
Append rule to the end of list with action. Please note the comma separating the two values.
Omitting it will cause errors. The fields may be in either order. It could be list,action or
action,list. The following describes the valid list names:
task Add a rule to the per task list. This rule list is used only at the time a task is
created -- when fork() or clone() are called by the parent task. When using this list,
you should only use fields that are known at task creation time, such as the uid, gid,
etc.
exit Add a rule to the syscall exit list. This list is used upon exit from a system call to
determine if an audit event should be created.
user Add a rule to the user message filter list. This list is used by the kernel to filter
events originating in user space before relaying them to the audit daemon. It should
be noted that the only fields that are valid are: uid, auid, gid, pid, subj_user,
subj_role, subj_type, subj_sen, subj_clr, and msgtype. All other fields will be
treated as non-matching. It should be understood that any event originating from user
space from a process that has CAP_AUDIT_WRITE will be recorded into the audit trail.
This means that the most likely use for this filter is with rules that have an action
of never since nothing has to be done to allow events to be recorded.
exclude Add a rule to the event type exclusion filter list. This list is used to filter events
that you do not want to see. For example, if you do not want to see any avc messages,
you would using this list to record that. The message type that you do not wish to see
is given with the msgtype field.
The following describes the valid actions for the rule:
never No audit records will be generated. This can be used to suppress event generation. In
general, you want suppressions at the top of the list instead of the bottom. This is
because the event triggers on the first matching rule.
always Allocate an audit context, always fill it in at syscall entry time, and always write
out a record at syscall exit time.
-A list,action
Add rule to the beginning list with action.
-d list,action
Delete rule from list with action. The rule is deleted only if it exactly matches syscall name(s)
and every field name and value.
-D Delete all rules and watches. This can take a key option (-k), too.
-S [Syscall name or number|all]
Any syscall name or number may be used. The word 'all' may also be used. If the given syscall is
made by a program, then start an audit record. If a field rule is given and no syscall is
specified, it will default to all syscalls. You may also specify multiple syscalls in the same
rule by using multiple -S options in the same rule. Doing so improves performance since fewer
rules need to be evaluated. If you are on a bi-arch system, like x86_64, you should be aware that
auditctl simply takes the text, looks it up for the native arch (in this case b64) and sends that
rule to the kernel. If there are no additional arch directives, IT WILL APPLY TO BOTH 32 & 64 BIT
SYSCALLS. This can have undesirable effects since there is no guarantee that, for example, the
open syscall has the same number on both 32 and 64 bit interfaces. You will likely want to control
this and write 2 rules, one with arch equal to b32 and one with b64 to make sure the kernel finds
the events that you intend. See the arch field discussion for more info.
-F [n=v | n!=v | n<v | n>v | n<=v | n>=v | n&v | n&=v]
Build a rule field: name, operation, value. You may have up to 64 fields passed on a single
command line. Each one must start with -F. Each field equation is anded with each other (as well
as equations starting with -C) to trigger an audit record. There are 8 operators supported -
equal, not equal, less than, greater than, less than or equal, and greater than or equal, bit
mask, and bit test respectively. Bit test will "and" the values and check that they are equal, bit
mask just "ands" the values. Fields that take a user ID may instead have the user's name; the
program will convert the name to user ID. The same is true of group names. Valid fields are:
a0, a1, a2, a3
Respectively, the first 4 arguments to a syscall. Note that string arguments are not
supported. This is because the kernel is passed a pointer to the string. Triggering on
a pointer address value is not likely to work. So, when using this, you should only
use on numeric values. This is most likely to be used on platforms that multiplex
socket or IPC operations.
arch The CPU architecture of the syscall. The arch can be found doing 'uname -m'. If you do
not know the arch of your machine but you want to use the 32 bit syscall table and
your machine supports 32 bit, you can also use b32 for the arch. The same applies to
the 64 bit syscall table, you can use b64. In this way, you can write rules that are
somewhat arch independent because the family type will be auto detected. However,
syscalls can be arch specific and what is available on x86_64, may not be available on
ppc. The arch directive should precede the -S option so that auditctl knows which
internal table to use to look up the syscall numbers.
auid The original ID the user logged in with. Its an abbreviation of audit uid. Sometimes
its referred to as loginuid. Either the user account text or number may be used.
devmajor Device Major Number
devminor Device Minor Number
dir Full Path of Directory to watch. This will place a recursive watch on the directory
and its whole subtree. It can only be used on exit list. See "-w".
egid Effective Group ID. May be numeric or the groups name.
euid Effective User ID. May be numeric or the user account name.
exit Exit value from a syscall. If the exit code is an errno, you may use the text
representation, too.
fsgid Filesystem Group ID. May be numeric or the groups name.
fsuid Filesystem User ID. May be numeric or the user account name.
filetype The target file's type. Can be either file, dir, socket, link, character, block, or
fifo.
gid Group ID. May be numeric or the groups name.
inode Inode Number
key This is another way of setting a filter key. See discussion above for -k option.
msgtype This is used to match the event's record type. It should only be used on the exclude
or user filter lists.
obj_uid Object's UID
obj_gid Object's GID
obj_user Resource's SE Linux User
obj_role Resource's SE Linux Role
obj_type Resource's SE Linux Type
obj_lev_low Resource's SE Linux Low Level
obj_lev_high
Resource's SE Linux High Level
path Full Path of File to watch. It can only be used on exit list.
perm Permission filter for file operations. See "-p". It can only be used on exit list. You
can use this without specifying a syscall and the kernel will select the syscalls that
satisfy the permissions being requested.
pers OS Personality Number
pid Process ID
ppid Parent's Process ID
subj_user Program's SE Linux User
subj_role Program's SE Linux Role
subj_type Program's SE Linux Type
subj_sen Program's SE Linux Sensitivity
subj_clr Program's SE Linux Clearance
sgid Saved Group ID. See getresgid(2) man page.
success If the exit value is >= 0 this is true/yes otherwise its false/no. When writing a
rule, use a 1 for true/yes and a 0 for false/no
suid Saved User ID. See getresuid(2) man page.
uid User ID. May be numeric or the user account name.
-w path
Insert a watch for the file system object at path. You cannot insert a watch to the top level
directory. This is prohibited by the kernel. Wildcards are not supported either and will generate
a warning. The way that watches work is by tracking the inode internally. If you place a watch on
a file, its the same as using the -F path option on a syscall rule. If you place a watch on a
directory, its the same as using the -F dir option on a syscall rule. The -w form of writing
watches is for backwards compatibility and the syscall based form is more expressive. Unlike most
syscall auditing rules, watches do not impact performance based on the number of rules sent to the
kernel. The only valid options when using a watch are the -p and -k. If you need to anything fancy
like audit a specific user accessing a file, then use the syscall auditing form with the path or
dir fields. See the EXAMPLES section for an example of converting one form to another.
-W path
Remove a watch for the file system object at path. The rule must match exactly. See -d discussion
for more info.
PERFORMANCE TIPS
Syscall rules get evaluated for each syscall for every program. If you have 10 syscall rules, every
program on your system will delay during a syscall while the audit system evaluates each rule. Too many
syscall rules will hurt performance. Try to combine as many as you can whenever the filter, action, key,
and fields are identical. For example:
auditctl -a always,exit -S open -F success=0
auditctl -a always,exit -S truncate -F success=0
could be re-written as one rule:
auditctl -a always,exit -S open -S truncate -F success=0
Also, try to use file system auditing wherever practical. This improves performance. For example, if you
were wanting to capture all failed opens & truncates like above, but were only concerned about files in
/etc and didn't care about /usr or /sbin, its possible to use this rule:
auditctl -a always,exit -S open -S truncate -F dir=/etc -F success=0
This will be higher performance since the kernel will not evaluate it each and every syscall. It will be
handled by the filesystem auditing code and only checked on filesystem related syscalls.
EXAMPLES
To see all syscalls made by a specific program:
auditctl -a always,exit -S all -F pid=1005
To see files opened by a specific user:
auditctl -a always,exit -S open -F auid=510
To see unsuccessful open calls:
auditctl -a always,exit -S open -F success=0
To watch a file for changes (2 ways to express):
auditctl -w /etc/shadow -p wa
auditctl -a always,exit -F path=/etc/shadow -F perm=wa
To recursively watch a directory for changes (2 ways to express):
auditctl -w /etc/ -p wa
auditctl -a always,exit -F dir=/etc/ -F perm=wa
To see if an admin is accessing other user's files:
auditctl -a always,exit -F dir=/home/ -F uid=0 -C auid!=obj_uid
FILES
/etc/audit/audit.rules
SEE ALSO
audit.rules(7), auditd(8).
AUTHOR
Steve Grubb
Red Hat Oct 2012 AUDITCTL:(8)