mirror of
https://git.FreeBSD.org/src.git
synced 2024-11-25 07:49:18 +00:00
…
|
||
---|---|---|
.. | ||
bin | ||
diff | ||
etc | ||
include | ||
lib | ||
libexec | ||
port | ||
test | ||
Makefile | ||
Makefile.inc | ||
README | ||
TODO |
# $NetBSD: README,v 1.8 2017/04/13 17:59:34 christos Exp $ This package contains library that can be used by network daemons to communicate with a packet filter via a daemon to enforce opening and closing ports dynamically based on policy. The interface to the packet filter is in libexec/blacklistd-helper (this is currently designed for npf) and the configuration file (inspired from inetd.conf) is in etc/blacklistd.conf. On NetBSD you can find an example npf.conf and blacklistd.conf in /usr/share/examples/blacklistd; you need to adjust the interface in npf.conf and copy both files to /etc; then you just enable blacklistd=YES in /etc/rc.conf, start it up, and you are all set. There is also a startup file in etc/rc.d/blacklistd Patches to various daemons to add blacklisting capabilitiers are in the "diff" directory: - OpenSSH: diff/ssh.diff [tcp socket example] - Bind: diff/named.diff [both tcp and udp] - ftpd: diff/ftpd.diff [tcp] These patches have been applied to NetBSD-current. The network daemon (for example sshd) communicates to blacklistd, via a unix socket like syslog. The library calls are simple and everything is handled by the library. In the simplest form the only thing the daemon needs to do is to call: blacklist(action, acceptedfd, message); Where: action = 0 -> successful login clear blacklist state 1 -> failed login, add to the failed count acceptedfd -> the file descriptor where the server is connected to the remote client. It is used to determine the listening socket, and the remote address. This allows any program to contact the blacklist daemon, since the verification if the program has access to the listening socket is done by virtue that the port number is retrieved from the kernel. message -> an optional string that is used in debugging logs. Unfortunately there is no way to get information about the "peer" from a udp socket, because there is no connection and that information is kept with the server. In that case the daemon can provide the peer information to blacklistd via: blacklist_sa(action, acceptedfd, sockaddr, sockaddr_len, message); The configuration file contains entries of the form: # Blacklist rule # host/Port type protocol owner name nfail disable 192.168.1.1:ssh stream tcp * -int 10 1m 8.8.8.8:ssh stream tcp * -ext 6 60m ssh stream tcp6 * * 6 60m http stream tcp * * 6 60m Here note that owner is * because the connection is done from the child ssh socket which runs with user privs. We treat ipv4 connections differently by maintaining two different rules one for the external interface and one from the internal We also register for both tcp and tcp6 since those are different listening sockets and addresses; we don't bother with ipv6 and separate rules. We use nfail = 6, because ssh allows 3 password attempts per connection, and this will let us have 2 connections before blocking. Finally we block for an hour; we could block forever too by specifying * in the duration column. blacklistd and the library use syslog(3) to report errors. The blacklist filter state is persisted automatically in /var/db/blacklistd.db so that if the daemon is restarted, it remembers what connections is currently handling. To start from a fresh state (if you restart npf too for example), you can use -f. To watch the daemon at work, you can use -d. The current control file is designed for npf, and it uses the dynamic rule feature. You need to create a dynamic rule in your /etc/npf.conf on the group referring to the interface you want to block called blacklistd as follows: ext_if=bge0 int_if=sk0 group "external" on $ext_if { ... ruleset "blacklistd-ext" ruleset "blacklistd" ... } group "internal" on $int_if { ... ruleset "blacklistd-int" ... } You can use 'blacklistctl dump -a' to list all the current entries in the database; the ones that have nfail <c>/<t> where <c>urrent >= <t>otal, should have an id assosiated with them; this means that there is a packet filter rule added for that entry. For npf, you can examine the packet filter dynamic rule entries using 'npfctl rule <rulename> list'. The number of current entries can exceed the total. This happens because entering packet filter rules is asynchronous; there could be other connection before the rule becomes activated. Enjoy, christos