14.3. Övervakning: Förebyggande, Upptäckt och Avskräckning
Monitoring is an integral part of any security policy for several reasons. Among them, that the goal of security is usually not restricted to guaranteeing data confidentiality, but it also includes ensuring availability of the services. It is therefore imperative to check that everything works as expected, and to detect in a timely manner any deviant behavior or change in quality of the service(s) rendered. Monitoring activity can help detecting intrusion attempts and enable a swift reaction before they cause grave consequences. This section reviews some tools that can be used to monitor several aspects of a Debian system. As such, it completes
Avsnitt 12.4, ”Övervakning”.
14.3.1. Övervakning av loggar med logcheck
logcheck
programmet övervakar loggfiler varje timme som standard. Det skickar ovanliga loggmeddelanden i e-postmeddelanden till administratören för vidare analys.
The list of monitored files is stored in /etc/logcheck/logcheck.logfiles
and /etc/logcheck/logcheck.logfiles.d/
; the default values work fine with systemd and rsyslog if their configuration files have not been completely overhauled.
logcheck
can work in one of three more or less detailed modes: paranoid, server and workstation. The first one is very verbose, and should probably be restricted to specific servers such as firewalls. The second (and default) mode is recommended for most servers. The last one is designed for workstations, and is even terser (it filters out more messages).
In all three cases, logcheck
should probably be customized to exclude some extra messages (depending on installed services), unless the admin really wishes to receive hourly batches of long uninteresting emails. Since the message selection mechanism is rather complex, /usr/share/doc/logcheck-database/README.logcheck-database.gz
is a required — if challenging — read.
De tillämpade reglerna kan delas upp i flera olika typer:
those that qualify a message as a cracking attempt (stored in a file in the /etc/logcheck/cracking.d/
directory);
those canceling such a qualification (/etc/logcheck/cracking.ignore.d/
);
those classifying a message as a security alert (/etc/logcheck/violations.d/
);
those canceling this classification (/etc/logcheck/violations.ignore.d/
);
finally, those applying to the remaining messages (considered as system events).
A system event is always signaled unless a rule in one of the /etc/logcheck/ignore.d.{paranoid,server,workstation}/
directories states the event should be ignored. Of course, the only directories taken into account are those corresponding to verbosity levels equal or greater than the selected operation mode.
14.3.2. Monitoring Activity
top
is an interactive tool that displays a list of currently running processes. The default sorting is based on the current amount of processor use and can be obtained with the P key. Other sort orders include a sort by occupied memory (M key), by total processor time (T key) and by process identifier (N key). The k key allows killing a process by entering its process identifier. The r key allows renicing a process, i.e. changing its priority.
When the system seems to be overloaded, top
is a great tool to see which processes are competing for processor time or consume too much memory. In particular, it is often interesting to check if the processes consuming resources match the real services that the machine is known to host. An unknown process running as the www-data user should really stand out and be investigated, since it is probably an instance of software installed and executed on the system through a vulnerability in a web application.
top
is a very flexible tool and its manual page gives details on how to customize its display and adapt it to one's personal needs and habits.
The gnome-system-monitor
graphical tool is similar to top
and it provides roughly the same features. Alternatives are atop
and htop
, which provide similar functionality, but differ in usability features, like the scrolling ability.
Processor load, memory usage, network traffic and free disk space are information that are constantly varying. Keeping a history of their evolution is often useful in determining exactly how the computer is used.
There are many dedicated tools for this task. The sysstat package, for example, collects and displays system performance statistics locally. The data can then be visualized with the sar
command. Most tools, though, can fetch data via SNMP (Simple Network Management Protocol) in order to centralize this information. An added benefit is that this allows fetching data from network elements that may not be general-purpose computers, such as dedicated network routers or switches.
This book deals with Munin in some detail (see
Avsnitt 12.4.1, ”Ställa in Munin”) as part of
Kapitel 12: ”Avancerad administration”. Debian also provides a similar tool,
cacti. Its deployment is slightly more complex, since it is based solely on SNMP. Despite having a web interface, grasping the concepts involved in configuration still requires some effort. Reading the HTML documentation (
/usr/share/doc/cacti/html/Table-of-Contents.html
) should be considered a prerequisite.
Attackers try to get access to servers by guessing passwords, which is why strong passwords must always be used. Even then, you should also establish measures against brute-force attacks. A brute-force attack is an attempt to log into an unauthorized software system by performing multiple login attempts in a short period of time.
The best way to stop a brute-force attack is to limit the number of login attempts coming from the same origin, usually by temporarily banning an IP address.
Fail2Ban is an intrusion prevention software suite that can be configured to monitor any service that writes login attempts to a log file or the system journal. It can be found in the package fail2ban.
Fail2Ban is configured through a simple protocol by fail2ban-client
, which also reads configuration files and issues corresponding configuration commands to the server, fail2ban-server
. It has four configuration file types, all stored in /etc/fail2ban/
:
fail2ban.conf
and fail2ban.d/*.conf
. Global configuration (such as logging).
filter.d/*.conf
. Filters specifying how to detect authentication failures. The Debian package already contains filters for many common programs.
action.d/*.conf
. Actions defining the commands for banning and “unbanning“ of IP addresses.
jail.conf
and jail.d/*.conf
. It is where jails, the combinations of filters and actions, are defined.
Let us have a look at the configuration of sshd
in /etc/fail2ban/jail.conf
to better understand how Fail2Ban works...
[...]
[DEFAULT]
[...]
bantime = 1h
[...]
findtime = 10m
[...]
maxretry = 5
[...]
[sshd]
port = ssh
logpath = %(sshd_log)s
backend = %(sshd_backend)s
Fail2Ban will check for failed login attempts for sshd
using Python regular expressions defined in /etc/fail2ban/filter.d/sshd.conf
against the log file of sshd
, which is defined in the variable sshd_log
in the file /etc/fail2ban/paths-common.conf
. If Fail2Ban detects five failed login attempts within 10 minutes, it will ban the IP address where those attempts originated for 1 hour.
The default backend
used now is systemd
. The old log files, like auth.log
are only available if rsyslog has been installed and enabled.
To enable, disable, or configure “jails“, the main configuration file /etc/fail2ban/jail.conf
is not supposed to be altered. Instead this is supposed to be done in /etc/fail2ban/jail.d/defaults-debian.conf
or files within the same directory.
If docker containers are involved, the rules injected into iptables
by fail2ban
to block traffic from specific IPs must be applied to the right chain by chain = DOCKER-USER
. Otherwise, the ban will not work.
Fail2Ban is a very simple and effective way to protect against the most common brute-force attacks, but it cannot protect against distributed brute-force attacks, which is when an attacker uses a large number of machines spread around the Internet.
A good way to provide extra protection against distributed brute force attacks is to artificially increase the login time after each failed attempt. It is also possible to increase the block time with each ban for the same IP.
14.3.4. Upptäcka förändringar
Once the system is installed and configured, and barring security upgrades, there is usually no reason for most of the files and directories to evolve, data excepted. It is therefore interesting to make sure that files actually do not change: any unexpected change would therefore be worth investigating. This section presents a few tools able to monitor files and to warn the administrator when an unexpected change occurs (or simply to list such changes).
14.3.4.1. Granskning av paket med dpkg --verify
dpkg --verify
(or dpkg -V
) is an interesting tool since it allows finding what installed files have been modified (potentially by an attacker), but this should be taken with a grain of salt. To do its job it relies on checksums stored in dpkg's own database which is stored on the hard disk (they can be found in /var/lib/dpkg/info/package.md5sums
); a thorough attacker will therefore update these files so they contain the new checksums for the subverted files. The same is true for debsums
.
Running dpkg -V
will verify all installed packages and will print out a line for each file with a failing test. The output format is the same as the one of rpm -V
where each character denotes a test on some specific meta-data. Unfortunately dpkg
does not store the meta-data needed for most tests and will thus output question marks for them. Currently only the checksum test can yield a "5" on the third character (when it fails).
#
dpkg -V
??5?????? c /etc/logcheck/logcheck.logfiles.d/syslog.logfiles
??5?????? c /etc/logrotate.d/apt
??5?????? /lib/systemd/system/ssh.service
??5?????? c /etc/systemd/journald.conf
??5?????? c /etc/lvm/lvm.conf
In the sample above, dpkg reports a change to SSH's service file that the administrator made to the packaged file instead of using an appropriate /etc/systemd/system/ssh.service.d/override.conf
override (which would be stored below /etc
like any configuration change should be). It also lists multiple configuration files (identified by the "c" letter on the second field) that had been legitimately modified.
14.3.4.2. Auditing Packages: debsums
and its Limits
debsums
is the ancestor of dpkg -V
and is thus mostly obsolete. It suffers from the same limitations than dpkg. Fortunately, some of the limitations can be worked-around (whereas dpkg does not offer similar workarounds).
Since the data on the disk cannot be trusted, debsums
offers to do its checks based on .deb
files instead of relying on dpkg's database. To download trusted .deb
files of all the packages installed, we can rely on APT's authenticated downloads. This operation can be slow and tedious, and should therefore not be considered a proactive technique to be used on a regular basis.
#
apt-get --reinstall -d install `grep-status -e 'Status: install ok installed' -n -s Package`
[ ... ]
#
debsums -p /var/cache/apt/archives --generate=all
Note that this example uses the grep-status
command from the dctrl-tools package, which is not installed by default.
debsums
can be run frequently as a cronjob setting CRON_CHECK
in /etc/default/debsums
. To ignore certain files outside the /etc
directory, which have been altered on purpose or which are expected to change (like /usr/share/misc/pci.ids
) you can add them to /etc/debsums-ignore
.
14.3.4.3. Övervaka filer: AIDE
The AIDE tool (Advanced Intrusion Detection Environment) allows checking file integrity, and detecting any change against a previously recorded image of the valid system. This image is stored as a database (/var/lib/aide/aide.db
) containing the relevant information on all files of the system (fingerprints, permissions, timestamps and so on). This database is first initialized with aideinit
; it is then used daily (by the /etc/cron.daily/aide
script) to check that nothing relevant changed. When changes are detected, AIDE records them in log files (/var/log/aide/*.log
) and sends its findings to the administrator by email.
Many options in /etc/default/aide
can be used to tweak the behavior of the aide package. The AIDE configuration proper is stored in /etc/aide/aide.conf
and /etc/aide/aide.conf.d/
(actually, these files are only used by update-aide.conf
to generate /var/lib/aide/aide.conf.autogenerated
). Configuration indicates which properties of which files need to be checked. For instance, the contents of log files changes routinely, and such changes can be ignored as long as the permissions of these files stay the same, but both contents and permissions of executable programs must be constant. Although not very complex, the configuration syntax is not fully intuitive, and reading the aide.conf(5) manual page is therefore recommended.
En ny version av databasen genereras dagligen i /var/lib/aide/aide.db.new
; om alla lagrade ändringar var legitima kan de användas för att ersätta referensdatabasen.
14.3.5. Upptäcka intrång (IDS/NIDS)
suricata
(in the Debian package of the same name) is a NIDS — a
Network Intrusion Detection System. Its function is to listen to the network and try to detect infiltration attempts and/or hostile acts (including denial of service attacks). All these events are logged in multiple files in
/var/log/suricata
. There are third party tools (Kibana/logstash) to better browse all the data collected. The tool can be considered the successor of
snort
, which has been removed from Debian.
Configuring suricata involves reviewing and editing /etc/suricata/suricata.yaml
, which is very long because each parameter is abundantly commented. A minimal configuration requires describing the range of addresses that the local network covers (HOME_NET
parameter). In practice, this means the set of all potential attack targets. But getting the most of it requires reading it in full and adapting it to the local situation.
On top of this, you should also edit to define the network interface
. You might also want to set LISTENMODE=pcap
in /etc/default/suricata
because the default LISTENMODE=nfqueue
requires further configuration to work properly (the netfilter firewall must be configured to pass packets to some user-space queue handled by suricata via the NFQUEUE
target).
To detect bad behavior, suricata
needs a set of monitoring rules: you can find such rules in the snort-rules-default package. snort
is the historical reference in the IDS ecosystem and suricata
is able to reuse rules written for it.
Alternatively, oinkmaster
(in the package of the same name) can be used to download Snort rule sets from external sources.
Unfortunately, the mentioned packages are not part of the current Debian
Bookworm release. But they can still be retrieved via the Debian package search or from the Debian snapshot archive.