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SSHGUARD(8)                     SSHGuard Manual                    SSHGUARD(8)

NAME

sshguard - block brute-force attacks by aggregating system logs

SYNOPSIS

sshguard [-v] [-a thresh] [-b thresh:file] [-e script] [-f service:pidfile] [-i pidfile] [-l source] [-p interval] [-s interval] [-w address | file]

DESCRIPTION

sshguard protects hosts from brute-force attacks against SSH and other services. It aggregates system logs and blocks repeat offenders using one of several firewall backends, including iptables, ipfw, and pf. sshguard can read log messages from standard input (suitable for piping from syslog) or monitor one or more log files. Log messages are parsed, line-by-line, for recognized patterns. If an attack, such as several login failures within a few seconds, is detected, the offending IP is blocked. Offenders are unblocked after a set interval, but can be semi-permanently banned using the blacklist option. For clarification on some specific terms used in the source code and documentation, please see http://www.sshguard.net/docs/terminology/.

FEATURES

sshguard can block attackers using one of several backends: o AIX native firewall, for IBM AIX operating systems o netfilter/iptables, for Linux-based operating systems o pf, for several BSD operating systems o ipfw, for FreeBSD and Mac OS X o ipfilter, for FreeBSD, NetBSD and Solaris o hosts.allow, which uses TCP Wrappers to block attackers o null, which runs sshguard without blocking any attackers sshguard understands several log formats: o syslog(-ng) o metalog o multilog o raw messages See http://www.sshguard.net/docs/reference/attack-signatures/ for a list of recognized attacks.

SETUP

Please see http://www.sshguard.net/docs/setup/ for instructions on setting up sshguard with specific log systems and backends.

OPTIONS

-a thresh (default 40) Block an attacker when its dangerousness exceeds thresh. Currently, all recognized patterns have a dangerousness of 10. -b thresh:file Enable blacklisting. When a repeat attacker's dangerousness exceeds thresh, add its address to the blacklist file stored in file. See TOUCHINESS & BLACKLISTING below. -e script Execute an external program when an event is triggered. See EXTERNAL PROGRAMS below. -f service:pidfile See LOG VALIDATION below. -i pidfile Write the PID of sshguard to pidfile. -l source Monitor source for log messages. By default, sshguard reads log messages from standard input. Give this option once for every source to monitor instead. sshguard transparently handles log rotations. When using this option, standard input is ignored, but can be re-added by giving '-l -'. -p interval (default 420 secs, or 7 minutes) Wait at least interval seconds before releasing a blocked address. In practice it takes longer for an attacker to be unblocked, because sshguard checks only at periodic intervals. -s interval (default 1200 secs, or 20 minutes) Forget about an attacker interval seconds after its last attempt. Its dangerousness will be reset to zero. -w address | file Whitelist the given address, hostname, or address block. Alternatively, read whitelist entires from file. This option can be given multiple times. See WHITELISTING below for details. -v Print version information and exit. When sshguard is signalled with SIGTSTP, it suspends activity. When sshguard is signalled with SIGCONT, it resumes monitoring. During suspension, log entries are discarded without being analyzed.

ENVIRONMENT

When sshguard senses the SSHGUARD_DEBUG environment variable, it enables debugging mode: logging is directed to standard error instead of syslog, and includes comprehensive details of the activity and parsing process. Debugging mode can help investigating attack signatures: once enabled, a log message can be directly pasted into the tool from the console, and the behavior is immediately and minutely shown beneath.

EXTERNAL PROGRAMS

sshguard can be instructed to execute an external program whenever an event relevant to the firewall is triggered. The logic and capabilities of external programs are similar to those of a database trigger. When an event is triggered, the external program can: o add behavior to the firewall action (e.g. custom notifications) o change behavior of the firewall action (e.g. block different address) o cancel the firewall action (e.g. custom whitelisting) External programs are run on all firewall events. Every external program has these responsibilities: o to define the behavior associated with every event (action), and especially to not behave on events of disinterest. o to run the final firewall intended firewall action (or not). o to exit with a relevant status for success (0) or failure (non-0). The action that the external process is called to carry out determines the information passed to it. All information passed from sshguard to external programs is via environment variables: SSHG_ACTION (all actions) The name of the trigger event: one value amongst: o init o fin o block (*) o block_list (*) o release (*) o flush SSHG_PID (all actions) The PID of the sshguard process running the program. SSHG_FWCMD (all actions) The firewall command that sshguard intended to run if no extra program were given. The external program shall run this within a shell. SSHG_ADDR (marked actions) The address, or the comma-separated list of addresses, to operate. SSHG_ADDRKIND (marked actions) The type of the address(es) to operate: '4' for IPv4, '6' for IPv6. SSHG_SERVICE (marked actions) The service target of the event, expressed as service code. See http://www.sshguard.net/docs/reference/service-codes/.

WHITELISTING

sshguard supports address whitelisting. Whitelisted addresses are not blocked even if they appear to generate attacks. This is useful for protecting lame LAN users (or external friendly users) from being incidentally blocked. Whitelist addresses are controlled through the -w command-line option. This option can add explicit addresses, host names and address blocks: addresses specify the numeric IPv4 or IPv6 address directly, like: -w 192.168.1.10 or in multiple occurrences: -w 192.168.1.10 -w 2001:0db8:85a3:0000:0000:8a2e:0370:7334 host names specify the host name directly, like: -w friendhost.enterprise.com or in multiple occurrences: -w friendhost.enterprise.com -w friend2.enterprise.com All IPv4 and IPv6 addresses that the host resolves to are whitelisted. Hosts are resolved to addresses once, when sshguard starts up. address blocks specify the IPv4 or IPv6 address block in the usual CIDR notation: -w 2002:836b:4179::836b:0000/126 or in multiple occurrences: -w 192.168.0.0/24 -w 1.2.3.128/26 file When longer lists are needed for whitelisting, they can be wrapped into a plain text file, one address/hostname/block per line, with the same syntax given above. sshguard can take whitelists from files when the -w option argument begins with a '.' (dot) or '/' (slash). This is a sample whitelist file (say /etc/friends): # comment line (a '#' as very first character) # a single IPv4 and IPv6 address 1.2.3.4 2001:0db8:85a3:08d3:1319:8a2e:0370:7344 # address blocks in CIDR notation 127.0.0.0/8 10.11.128.0/17 192.168.0.0/24 2002:836b:4179::836b:0000/126 # hostnames rome-fw.enterprise.com hosts.friends.com And this is how sshguard is told to make a whitelist up from the /etc/friends file: sshguard -w /etc/friends The -w option can be used only once for files. For addresses, host names and address blocks it can be used with any multiplicity, even with mixes of them.

LOG VALIDATION

Syslog and syslog-ng typically insert a PID of the generating process in every log message. This can be checked for authenticating the source of the message and avoid false attacks to be detected because malicious local users inject crafted log messages. This way sshguard can be safely used even on hosts where this assumption does not hold. Log validation is only needed when sshguard is fed log messages from syslog or from syslog-ng. When a process logs directly to a raw file and sshguard is configured for polling logs directly from it, you only need to adjust the log file permissions so that only root can write on it. For enabling log validation on a given service the -f option is used as follows: -f 100:/var/run/sshd.pid which associates the given pidfile to the ssh service (code 100). A list of well-known service codes is available at http://www.sshguard.net/docs/reference/service-codes/. The -f option can be used multiple times for associating different services with their pidfile: sshguard -f 100:/var/run/sshd.pid -f 123:/var/run/mydaemon.pid Services that are not configured for log validation follow a default-allow policy (all of their log messages are accepted by default). PIDs are checked with the following policy: 1. the logging service is searched in the list of services configured for validation. If not found, the entry is accepted. 2. the logged PID is compared with the pidfile. If it matches, the entry is accepted 3. the PID is checked for being a direct child of the authoritative process. If it is, the entry is accepted. 4. the entry is ignored. Low I/O load is committed to the operating system because of an internal caching mechanism. Changes in the pidfile value are handled transparently. TOUCHINESS & BLACKLISTING In many cases, attacks against services are performed in bulk in an automated form. For example, the attacker goes trough a dictionary of 1500 username/password pairs and sequentially tries to violate the SSH service with any of them, continuing blindly while blocked, and re-appearing once the block expires. To counteract these cases, sshguard by default behaves with touchiness. Besides observing abuses from the log activity, it also monitors the overall behavior of attackers. The decision on when and how to block is thus made respective to the entire history of the offender as well. For example, if address A attacks repeatedly and the base blocking time is 420 seconds, A will be blocked for 420 seconds (7 mins) at the first abuse, 2*420 (14 mins) the second, 2*2*420 (28 mins) the third ... and 2^(n-1)*420 the n-th time. Touchiness has two major benefits: to legitimate users, it grants forgiving blockings on failed logins; to real attackers, it effectively renders large scale attacks infeasible, because the time to perform one explodes with the number of attempts. Touchiness can be augmented with blacklisting (-b). With this option, after a certain total danger committed, the address is added to a list of offenders to be blocked permanently. The list is intended to be loaded at each startup, and maintained/extended with new entries during operation. sshguard inserts a new address after it exceeded a threshold of danger committed over recorded history. This threshold is configurable within the -b option argument. Blacklisted addresses are never scheduled for releasing. The -b command line option enables blacklisting and requires the filename to use for permanent storage of the blacklist. Optionally, a custom blacklist threshold can be prefixed to this path, separated by ':'. For example, -b 50:/var/db/sshguard/blacklist.db requires to blacklist addresses after having committed attacks for danger 50 (default per-attack danger is 10), and store the blacklist in file /var/db/sshguard/blacklist.db. Although the blacklist file is not meant to be in human-readable format, the strings(1) command can be used to peek in it for listing the blacklisted addresses.

CONTRIBUTING

sshguard operates firewalls through a general interface, which enables easy extension, and allows back-ends to be non-local (e.g. remote appliances), and non-blocking (e.g. report tools). Additions can be suggested at http://www.sshguard.net/feedback/firewall/submit/. Extending attack signatures needs some expertise with context-free parsers; users are welcome to submit samples of the desired log messages to http://www.sshguard.net/support/attacks/submit/.

HISTORY

sshguard was originally written by Michele Mazzucchi <mij@bitchx.it>.

SEE ALSO

syslog(1), syslog.conf(5), hosts_access(5) <http://www.sshguard.net/> 1.6 April 15, 2015 SSHGUARD(8)

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