pam_apparmor
This chapter shows how to set up a simple audit scenario. Every step involved in configuring and enabling audit is explained in detail. After you have learned to set up audit, consider a real-world example scenario in Chapter 42, Introducing an Audit Rule Set.
To set up audit on openSUSE Leap, you need to complete the following steps:
Make sure that all required packages are installed:
audit
,
audit-libs
, and optionally
audit-libs-python
. To use the
log visualization as described in Section 41.6, “Configuring Log Visualization”,
install gnuplot
and
graphviz
from the
openSUSE Leap media.
Determine the components to audit. Refer to Section 41.1, “Determining the Components to Audit” for details.
Check or modify the basic audit daemon configuration. Refer to Section 41.2, “Configuring the Audit Daemon” for details.
Enable auditing for system calls. Refer to Section 41.3, “Enabling Audit for System Calls” for details.
Compose audit rules to suit your scenario. Refer to Section 41.4, “Setting Up Audit Rules” for details.
Generate logs and configure tailor-made reports. Refer to Section 41.5, “Configuring Audit Reports” for details.
Configure optional log visualization. Refer to Section 41.6, “Configuring Log Visualization” for details.
Before configuring any of the components of the audit system, make sure
that the audit daemon is not running by entering systemctl
status auditd
as root
. On a default
openSUSE Leap system, audit is started on boot, so you need to turn it
off by entering systemctl stop auditd
. Start
the daemon after configuring it with systemctl start
auditd
.
Before starting to create your own audit configuration, determine to which degree you want to use it. Check the following general rules to determine which use case best applies to you and your requirements:
If you require a full security audit for CAPP/EAL certification, enable full audit for system calls and configure watches on various configuration files and directories, similar to the rule set featured in Chapter 42, Introducing an Audit Rule Set.
If you need to trace a process based on the audit rules, use
autrace
.
If you require file and directory watches to track access to important or security-sensitive data, create a rule set matching these requirements. Enable audit as described in Section 41.3, “Enabling Audit for System Calls” and proceed to Section 41.4, “Setting Up Audit Rules”.
The basic setup of the audit daemon is done by editing
/etc/audit/auditd.conf
. You may also use YaST
to configure the basic settings by calling › › . Use the
tabs and for
configuration.
log_file = /var/log/audit/audit.log log_format = RAW log_group = root priority_boost = 4 flush = INCREMENTAL freq = 20 num_logs = 5 disp_qos = lossy dispatcher = /sbin/audispd name_format = NONE ##name = mydomain max_log_file = 6 max_log_file_action = ROTATE space_left = 75 space_left_action = SYSLOG action_mail_acct = root admin_space_left = 50 admin_space_left_action = SUSPEND disk_full_action = SUSPEND disk_error_action = SUSPEND ##tcp_listen_port = tcp_listen_queue = 5 tcp_max_per_addr = 1 ##tcp_client_ports = 1024-65535 tcp_client_max_idle = 0 cp_client_max_idle = 0
The default settings work reasonably well for many setups. Some values,
such as num_logs
, max_log_file
,
space_left
, and admin_space_left
depend on the size of your deployment. If disk space is limited, you
should reduce the number of log files to keep if they are rotated
and you should get an earlier warning if disk space is running out.
For a CAPP-compliant setup, adjust the values for
log_file
, flush
,
max_log_file
, max_log_file_action
,
space_left
, space_left_action
,
admin_space_left
,
admin_space_left_action
,
disk_full_action
, and
disk_error_action
, as described in
Section 40.2, “Configuring the Audit Daemon”. An example CAPP-compliant
configuration looks like this:
log_file = PATH_TO_SEPARATE_PARTITION/audit.log log_format = RAW priority_boost = 4 flush = SYNC ### or DATA freq = 20 num_logs = 4 dispatcher = /sbin/audispd disp_qos = lossy max_log_file = 5 max_log_file_action = KEEP_LOGS space_left = 75 space_left_action = EMAIL action_mail_acct = root admin_space_left = 50 admin_space_left_action = SINGLE ### or HALT disk_full_action = SUSPEND ### or HALT disk_error_action = SUSPEND ### or HALT
The ###
precedes comments where you can choose from
several options. Do not add the comments to your actual configuration
files.
Refer to Section 40.2, “Configuring the Audit Daemon” for detailed background
information about the auditd.conf
configuration
parameters.
If the audit framework is not installed, install the
audit
package. A standard openSUSE Leap
system does not have auditd running by default. Enable it with:
tux >
sudo
systemctl enable auditd
There are different levels of auditing activity available:
Out of the box (without any further configuration) auditd logs only
events concerning its own configuration changes to
/var/log/audit/audit.log
. No events (file access,
system call, etc.) are generated by the kernel audit component until
requested by auditctl
. However, other kernel
components and modules may log audit events outside of the control of
auditctl
and these appear in the audit log. By
default, the only module that generates audit events is AppArmor.
To audit system calls and get meaningful file watches, you need to enable audit contexts for system calls.
As you need system call auditing capabilities even when you are
configuring plain file or directory watches, you need to enable audit
contexts for system calls. To enable audit contexts for the duration of
the current session only, execute auditctl -e 1
as
root
. To disable this feature, execute auditctl -e
0
as root
.
The audit contexts are enabled by default. To turn this feature off
temporarily, use auditctl -e 0
.
Using audit rules, determine which aspects of the system should be analyzed by audit. Normally this includes important databases and security-relevant configuration files. You may also analyze various system calls in detail if a broad analysis of your system is required. A very detailed example configuration that includes most of the rules that are needed in a CAPP compliant environment is available in Chapter 42, Introducing an Audit Rule Set.
Audit rules can be passed to the audit daemon on the
auditctl
command line and by composing a rule
set in /etc/audit/audit.rules
which is processed
whenever the audit daemon is started. To customize
/etc/audit/audit.rules
either edit it directly, or
use YaST: › › . Rules passed on the command line are
not persistent and need to be re-entered when the audit daemon is
restarted.
A simple rule set for very basic auditing on a few important files and directories could look like this:
# basic audit system parameters -D -b 8192 -f 1 -e 1 # some file and directory watches with keys -w /var/log/audit/ -k LOG_audit -w /etc/audit/auditd.conf -k CFG_audit_conf -p rxwa -w /etc/audit/audit.rules -k CFG_audit_rules -p rxwa -w /etc/passwd -k CFG_passwd -p rwxa -w /etc/sysconfig/ -k CFG_sysconfig # an example system call rule -a entry,always -S umask ### add your own rules
When configuring the basic audit system parameters (such as the backlog
parameter -b
) test these settings with your intended
audit rule set to determine whether the backlog size is appropriate for
the level of logging activity caused by your audit rule set. If your
chosen backlog size is too small, your system might not be able to handle
the audit load and consult the failure flag (-f
) when
the backlog limit is exceeded.
When choosing the failure flag, note that -f 2
tells
your system to perform an immediate shutdown without flushing any
pending data to disk when the limits of your audit system are exceeded.
Because this shutdown is not a clean shutdown, restrict the use of
-f 2
to only the most security-conscious environments
and use -f 1
(system continues to run, issues a warning
and audit stops) for any other setup to avoid loss of data or data
corruption.
Directory watches produce less verbose output than separate file watches
for the files under these directories. To get detailed logging for your
system configuration in /etc/sysconfig
, for example,
add watches for each file. Audit does not support globbing,
which means you cannot create a rule that says -w
/etc/*
and watches all files and directories below
/etc
.
For better identification in the log file, a key has been added to each
of the file and directory watches. Using the key, it is easier to comb
the logs for events related to a certain rule. When creating keys,
distinguish between mere log file watches and configuration file watches
by using an appropriate prefix with the key, in this case
LOG
for a log file watch and CFG
for a configuration file watch. Using the file name as part of the key
also makes it easier for you to identify events of this type in the log
file.
Another thing to keep in mind when creating file and directory watches is that audit cannot deal with files that do not exist when the rules are created. Any file that is added to your system while audit is already running is not watched unless you extend the rule set to watch this new file.
For more information about creating custom rules, refer to Section 40.4, “Passing Parameters to the Audit System”.
After you change audit rules, always restart the audit daemon with
systemctl restart auditd
to reread the
changed rules.
To avoid having to dig through the raw audit logs to get an impression of what your system is currently doing, run custom audit reports at certain intervals. Custom audit reports enable you to focus on areas of interest and get meaningful statistics on the nature and frequency of the events you are monitoring. To analyze individual events in detail, use the ausearch tool.
Before setting up audit reporting, consider the following:
What types of events do you want to monitor by generating regular reports? Select the appropriate aureport command lines as described in Section 40.5.2, “Generating Custom Audit Reports”.
What do you want to do with the audit reports? Decide whether to create graphical charts from the data accumulated or whether it should be transferred into any sort of spreadsheet or database. Set up the aureport command line and further processing similar to the examples shown in Section 41.6, “Configuring Log Visualization” if you want to visualize your reports.
When and at which intervals should the reports run? Set up appropriate automated reporting using cron.
For this example, assume that you are interested in finding out about any attempts to access your audit, PAM, and system configuration. Proceed as follows to find out about file events on your system:
Generate a full summary report of all events and check for any anomalies in the summary report, for example, have a look at the “failed syscalls” record, because these might have failed because of insufficient permissions to access a file or a file not being there:
tux >
sudo
aureport
Summary Report ====================== Range of time in logs: 03/02/09 14:13:38.225 - 17/02/09 16:30:10.352 Selected time for report: 03/02/09 14:13:38 - 17/02/09 16:30:10.352 Number of changes in configuration: 24 Number of changes to accounts, groups, or roles: 0 Number of logins: 9 Number of failed logins: 15 Number of authentications: 19 Number of failed authentications: 578 Number of users: 3 Number of terminals: 15 Number of host names: 4 Number of executables: 20 Number of files: 279 Number of AVC's: 0 Number of MAC events: 0 Number of failed syscalls: 994 Number of anomaly events: 0 Number of responses to anomaly events: 0 Number of crypto events: 0 Number of keys: 2 Number of process IDs: 1238 Number of events: 5435
Run a summary report for failed events and check the “files” record for the number of failed file access events:
tux >
sudo
aureport
--failed
Failed Summary Report ====================== Range of time in logs: 03/02/09 14:13:38.225 - 17/02/09 16:30:10.352 Selected time for report: 03/02/09 14:13:38 - 17/02/09 16:30:10.352 Number of changes in configuration: 0 Number of changes to accounts, groups, or roles: 0 Number of logins: 0 Number of failed logins: 15 Number of authentications: 0 Number of failed authentications: 578 Number of users: 1 Number of terminals: 7 Number of host names: 4 Number of executables: 12 Number of files: 77 Number of AVC's: 0 Number of MAC events: 0 Number of failed syscalls: 994 Number of anomaly events: 0 Number of responses to anomaly events: 0 Number of crypto events: 0 Number of keys: 2 Number of process IDs: 713 Number of events: 1589
To list the files that could not be accessed, run a summary report of failed file events:
tux >
sudo
aureport
-f -i --failed --summary
Failed File Summary Report =========================== total file =========================== 80 /var 80 spool 80 cron 80 lastrun 46 /usr/lib/locale/en_GB.UTF-8/LC_CTYPE 45 /usr/lib/locale/locale-archive 38 /usr/lib/locale/en_GB.UTF-8/LC_IDENTIFICATION 38 /usr/lib/locale/en_GB.UTF-8/LC_MEASUREMENT 38 /usr/lib/locale/en_GB.UTF-8/LC_TELEPHONE 38 /usr/lib/locale/en_GB.UTF-8/LC_ADDRESS 38 /usr/lib/locale/en_GB.UTF-8/LC_NAME 38 /usr/lib/locale/en_GB.UTF-8/LC_PAPER 38 /usr/lib/locale/en_GB.UTF-8/LC_MESSAGES 38 /usr/lib/locale/en_GB.UTF-8/LC_MONETARY 38 /usr/lib/locale/en_GB.UTF-8/LC_COLLATE 38 /usr/lib/locale/en_GB.UTF-8/LC_TIME 38 /usr/lib/locale/en_GB.UTF-8/LC_NUMERIC 8 /etc/magic.mgc ...
To focus this summary report on a few files or directories of interest
only, such as /etc/audit/auditd.conf
,
/etc/pam.d
, and
/etc/sysconfig
, use a command similar to the
following:
tux >
sudo
aureport -f -i --failed --summary |grep -e "/etc/audit/auditd.conf" -e "/etc/pam.d/" -e "/etc/sysconfig"
1 /etc/sysconfig/displaymanager
From the summary report, then proceed to isolate these items of interest from the log and find out their event IDs for further analysis:
tux >
sudo
aureport -f -i --failed |grep -e "/etc/audit/auditd.conf" -e "/etc/pam.d/" -e "/etc/sysconfig"
993. 17/02/09 16:47:34 /etc/sysconfig/displaymanager readlink no /bin/vim-normal root 7887 994. 17/02/09 16:48:23 /etc/sysconfig/displaymanager getxattr no /bin/vim-normal root 7889
Use the event ID to get a detailed record for each item of interest:
tux >
sudo
ausearch -a
7887 -i ---- time->Tue Feb 17 16:48:23 2009 type=PATH msg=audit(1234885703.090:7889): item=0 name="/etc/sysconfig/displaymanager" inode=369282 dev=08:06 mode=0100644 ouid=0 ogid=0 rdev=00:00 type=CWD msg=audit(1234885703.090:7889): cwd="/root" type=SYSCALL msg=audit(1234885703.090:7889): arch=c000003e syscall=191 success=no exit=-61 a0=7e1e20 a1=7f90e4cf9187 a2=7fffed5b57d0 a3=84 items=1 ppid=25548 pid=23045 auid=0 uid=0 gid=0 euid=0 suid=0 fsuid=0 egid=0 sgid=0 fsgid=0 tty=pts2 ses=1166 comm="vim" exe="/bin/vim-normal" key=(null)
If you are interested in events during a particular period of time, trim
down the reports by using start and end dates and times with your
aureport
commands (-ts
and
-te
). For more information, refer to
Section 40.5.2, “Generating Custom Audit Reports”.
All steps (except for the last one) can be run automatically and would
easily be scriptable and configured as cron jobs. Any of the
--failed --summary
reports could be transformed easily
into a bar chart that plots files versus failed access attempts. For more
information about visualizing audit report data, refer to
Section 41.6, “Configuring Log Visualization”.
Using the scripts mkbar
and mkgraph
you can illustrate your audit statistics with various graphs and charts.
As with any other aureport
command, the plotting
commands are scriptable and can easily be configured to run as cron jobs.
mkbar
and mkgraph
were created by
Steve Grubb at Red Hat. They are available from
http://people.redhat.com/sgrubb/audit/visualize/.
Because the current version of audit in openSUSE Leap does not ship
with these scripts, proceed as follows to make them available on your
system:
Use mkbar
and mkgraph
at your own
risk. Any content downloaded from the Web is potentially dangerous
to your system, even more so when run with root
privileges.
Download the scripts to root
's ~/bin
directory:
tux >
sudo
wget http://people.redhat.com/sgrubb/audit/visualize/mkbar -O ~/bin/mkbartux >
sudo
wget http://people.redhat.com/sgrubb/audit/visualize/mkgraph -O ~/bin/mkgraph
Adjust the file permissions to read, write, and execute for
root
:
tux >
sudo
chmod 744 ~/bin/mk{bar,graph}
To plot summary reports, such as the ones discussed in
Section 41.5, “Configuring Audit Reports”, use the script
mkbar
. Some example commands could look like the
following:
tux >
sudo
aureport -e -i --summary | mkbar events
tux >
sudo
aureport -f -i --summary | mkbar files
tux >
sudo
aureport -l -i --summary | mkbar login
tux >
sudo
aureport -u -i --summary | mkbar users
tux >
sudo
aureport -s -i --summary | mkbar syscalls
To create a summary chart of failed events of any of the above event
types, add the --failed
option to the respective
aureport
command. To cover a certain period of time
only, use the -ts
and -te
options on
aureport. Any of these commands can be tweaked further by narrowing down
its scope using grep or egrep and regular expressions. See the comments
in the mkbar
script for an example. Any of the above
commands produces a PNG file containing a bar chart of the requested
data.
To illustrate the relationship between different kinds of audit objects,
such as users and system calls, use the script
mkgraph
. Some example commands could look like the
following:
tux >
sudo
LC_ALL=C aureport -u -i | awk '/^[0-9]/ { print $4" "$7 }' | sort | uniq | mkgraph users_vs_exec
tux >
sudo
LC_ALL=C aureport -f -i | awk '/^[0-9]/ { print $8" "$4 }' | sort | uniq | mkgraph users_vs_files
tux >
sudo
LC_ALL=C aureport -s -i | awk '/^[0-9]/ { print $4" "$6 }' | sort | uniq | mkgraph syscall_vs_com
tux >
sudo
LC_ALL=C aureport -s -i | awk '/^[0-9]/ { print $5" "$4 }' | sort | uniq | mkgraph | syscall_vs_file
Graphs can also be combined to illustrate complex relationships. See the
comments in the mkgraph
script for further information
and an example. The graphs produced by this script are created in
PostScript format by default, but you can change the output format by
changing the EXT
variable in the script from
ps
to png
or
jpg
.