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proper _ entity. Both the LaTeX and HTML output are good now. Please someone close doc/1360.
537 lines
21 KiB
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537 lines
21 KiB
Plaintext
<!-- $Id: firewalls.sgml,v 1.6 1996/06/30 02:46:44 alex Exp $ -->
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<!-- The FreeBSD Documentation Project -->
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<sect><heading>Firewalls<label id="firewalls"></heading>
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<p><em>Contributed by &a.gpalmer; and &a.alex;.</em>
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Firewalls are an area of increasing interest for people who are
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connected to the Internet, and are even finding applications on
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private networks to provide enhanced security. This section will
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hopefully explain what firewalls are, how to use them, and how to use
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the facilities provided in the FreeBSD kernel to implement them.
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<quote><bf>Note</bf>: People often think that having a firewall between
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your companies internal network and the ``Big Bad Internet'' will
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solve all your security problems. It may help, but a poorly setup
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firewall system is more of a security risk than not having one at all.
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A firewall can only add another layer of security to your systems, but
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they will not be able to stop a really determined hacker from
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penetrating your internal network. If you let internal security lapse
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because you believe your firewall to be impenetrable, you have just
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made the hackers job that bit easier.</quote>
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<sect1><heading>What is a firewall?</heading>
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<p>There are currently two distinct types of firewalls in common
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use on the Internet today. The first type is more properly called
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a <bf>packet filtering router</bf>, where the kernel on a
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multi-homed machine chooses whether to forward or block packets
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based on a set of rules. The second type, known as <bf>proxy
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servers</bf>, rely on daemons to provide authentication and to
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forward packets, possibly on a multi-homed machine which has
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kernel packet forwarding disabled.
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<p>Sometimes sites combine the two types of firewalls, so that only a
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certain machine (known as a <bf>bastion host</bf>) is allowed to send
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packets through a packet filtering router onto an internal
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network. Proxy services are run on the bastion host, which are
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generally more secure than normal authentication mechanisms.
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<p>FreeBSD comes with a kernel packet filter (known as <tt>IPFW</tt>),
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which is what the rest of this section will concentrate on. Proxy
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servers can be built on FreeBSD from third party software, but there
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is such a variety of proxy servers available that it would be
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impossible to cover them in this document.
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<sect2><heading>Packet filtering routers<label id="firewalls:packet_filters"></heading>
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<p>A router is a machine which forwards packets between two or more
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networks. A packet filtering router has an extra piece of code in its
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kernel, which compares each packet to a list of rules before deciding
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if it should be forwarded or not. Most modern IP routing software has
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packet filtering code in it, which defaults to forwarding all
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packets. To enable the filters, you need to define a set of rules for
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the filtering code, so that it can decide if the packet should be
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allowed to pass or not.
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<p>To decide if a packet should be passed on or not, the code looks
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through its set of rules for a rule which matches the contents of
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this packets headers. Once a match is found, the rule action is
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obeyed. The rule action could be to drop the packet, to forward the
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packet, or even to send an ICMP message back to the originator. Only
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the first match counts, as the rules are searched in order. Hence, the
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list of rules can be referred to as a ``rule chain''.
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<p>The packet matching criteria varies depending on the software used,
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but typically you can specify rules which depend on the source IP
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address of the packet, the destination IP address, the source port
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number, the destination port number (for protocols which support
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ports), or even the packet type (UDP, TCP, ICMP, etc).
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<sect2><heading>Proxy servers<label id="firewalls:proxy_servers"></heading>
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<p>Proxy servers are machines which have had the normal system daemons
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(telnetd, ftpd, etc) replaced with special servers. These servers are
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called <bf>proxy servers</bf> as they normally only allow onward
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connections to be made. This enables you to run (for example) a proxy
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telnet server on your firewall host, and people can telnet in to your
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firewall from the outside, go through some authentication mechanism,
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and then gain access to the internal network (alternatively, proxy
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servers can be used for signals coming from the internal network and
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heading out).
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<p>Proxy servers are normally more secure than normal servers, and
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often have a wider variety of authentication mechanisms available,
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including ``one-shot'' password systems so that even if someone
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manages to discover what password you used, they will not be able to use
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it to gain access to your systems as the password instantly
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expires. As they do not actually give users access to the host machine,
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it becomes a lot more difficult for someone to install backdoors
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around your security system.
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<p>Proxy servers often have ways of restricting access further, so
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that only certain hosts can gain access to the servers, and often they
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can be set up so that you can limit which users can talk to which
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destination machine. Again, what facilities are available depends
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largely on what proxy software you choose.
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<sect1><heading>What does IPFW allow me to do?</heading>
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<p><tt>IPFW</tt>, the software supplied with FreeBSD, is a packet
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filtering and accounting system which resides in the kernel, and has a
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user-land control utility, <tt>ipfw(8)</tt>. Together, they
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allow you to define and query the rules currently used by the kernel
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in its routing decisions.
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<p>There are two related parts to <tt>IPFW</tt>. The firewall section
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allows you to perform packet filtering. There is also an IP accounting
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section which allows you to track usage of your router, based on
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similar rules to the firewall section. This allows you to see (for
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example) how much traffic your router is getting from a certain
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machine, or how much WWW (World Wide Web) traffic it is forwarding.
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<p>As a result of the way that <tt>IPFW</tt> is designed, you can use
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<tt>IPFW</tt> on non-router machines to perform packet filtering on
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incoming and outgoing connections. This is a special case of the more
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general use of <tt>IPFW</tt>, and the same commands and techniques
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should be used in this situation.
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<sect1><heading>Enabling IPFW on FreeBSD</heading>
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<p>As the main part of the <tt>IPFW</tt> system lives in the kernel, you will
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need to add one or more options to your kernel configuration
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file, depending on what facilities you want, and recompile your kernel. See
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<ref id="kernelconfig" name="reconfiguring the kernel"> for more
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details on how to recompile your kernel.
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<p>There are currently three kernel configuration options
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relevant to IPFW:
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<descrip>
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<tag/options IPFIREWALL/ Compiles into the kernel the code for packet
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filtering.
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<tag/options IPFIREWALL_VERBOSE/ Enables code to allow logging of
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packets through <tt>syslogd(8)</tt>. Without this option, even if you
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specify that packets should be logged in the filter rules, nothing
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will happen.
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<tag/options "IPFIREWALL_VERBOSE_LIMIT=10"/ Limits the number of
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packets logged through <tt>syslogd(8)</tt> on a per entry basis.
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You may wish to use this option in hostile environments in which
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you want to log firewall activity, but do not want to be open to
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a denial of serivce attack via syslog flooding.
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<p>When a chain entry reaches the packet limit specified, logging
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is turned off for that particular entry. To resume logging, you
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will need to reset the associated counter using the <tt>ipfw(8)</tt>
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utility:
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<tscreen><verb>
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ipfw zero 4500
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</verb></tscreen>
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Where 4500 is the chain entry you wish to continue logging.
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</descrip>
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Previous versions of FreeBSD contained an <tt>IPFIREWALL_ACCT</tt>
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option. This is now obsolete as the firewall code automatically
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includes accounting facilities.
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<sect1><heading>Configuring IPFW</heading>
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<p>The configuration of the <tt>IPFW</tt> software is done through the
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<tt>ipfw(8)</tt> utility. The syntax for this command looks
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quite complicated, but it is relatively simple once you understand
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its structure.
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<p>There are currently four different command categories used by the
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utility: addition/deletion, listing, flushing, and clearing.
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Addition/deletion is used to build the rules that control how packets
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are accepted, rejected, and logged. Listing is used to examine the
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contents of your rule set (otherwise known as the chain) and packet
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counters (accounting). Flushing is used to remove all entries from
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the chain. Clearing is used to zero out one or more accounting
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entries.
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<sect2><heading>Altering the IPFW rules</heading>
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<p>The syntax for this form of the command is:
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<tscreen>
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ipfw [-N] <em>command</em> [<em>index</em>]
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<em>action</em> [log] <em>protocol</em> <em>addresses</em>
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[<em>options</em>]
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</tscreen>
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<p>There is one valid flag when using this form of the command:
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<descrip>
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<tag/-N/Resolve addresses and service names.
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</descrip>
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The <em>command</em> given can be shortened to the shortest unique
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form. The valid <em>commands</em> are:
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<descrip>
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<tag/add/Add an entry to the firewall/accounting rule list
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<tag/delete/Delete an entry from the firewall/accounting rule list
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</descrip>
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Previous versions of <tt>IPFW</tt> used separate firewall and
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accounting entries. The present version provides packet accounting
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with each firewall entry.
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<p>If an <tt>index</tt> value is supplied, it used to place the entry
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at a specific point in the chain. Otherwise, the entry is placed at
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the end of the chain at an index 100 greater than the last chain
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entry (this does not include the default policy, rule 65535, deny).
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<p>The <bf>log</bf> option causes matching rules to be output to the
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system console if the kernel was compiled with <bf>IPFIREWALL_VERBOSE</bf>.
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<p>Valid <em>actions</em> are:
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<descrip>
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<tag/reject/Drop the packet, and send an ICMP host or port
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unreachable (as appropriate) packet to the source.
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<tag/allow/Pass the packet on as normal.
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<tag/deny/Drop the packet. The source is not notified via an ICMP
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message (thus it appears that the packet never arrived at the
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destination).
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<tag/count/Update packet counters but do not allow/deny the packet
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based on this rule. The search continues with the next chain entry.
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<tag/reject/Discard the packet, sending an ICMP host/port unreachable
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message back to the source.
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</descrip>
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<p>Each <em>action</em> will be recognized by the shortest unambiguous
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prefix.
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The <em>protocols</em> which can be specified are:
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<descrip>
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<tag/all/Matches any IP packet
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<tag/icmp/Matches ICMP packets
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<tag/tcp/Matches TCP packets
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<tag/udp/Matches UDP packets
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</descrip>
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<p>The <em>address</em> specification is:
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<tscreen>
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<bf>from</bf> <<em>address/mask</em>>[<em>port</em>] <bf>to</bf>
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<<em>address/mask</em>>[<em>port</em>&rsqb [<bf>via</bf> <<em>interface</em>>]
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</tscreen>
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<p>You can only specify <em>port</em> in conjunction with
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<em>protocols</em> which support ports (UDP and TCP).
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<p>The <bf>via</bf> is optional and may specify the IP address or
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domain name of a local IP interface, or an interface name (e.g.
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<tt>ed0</tt>) to match only packets coming through this interface.
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Interface unit numbers can be specified with an optional wildcard.
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For example, <tt>ppp*</tt> would match all kernel PPP interfaces.
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<p>The syntax used to specify an <tt><address/mask></tt> is:
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<tscreen>
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<address>
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</tscreen>
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or
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<tscreen>
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<address>/mask-bits
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</tscreen>
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or
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<tscreen>
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<address>:mask-pattern
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</tscreen>
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<p>A valid hostname may be specified in place of the IP
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address. <tt>mask-bits</tt> is a decimal number representing how many
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bits in the address mask should be set. e.g. specifying
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<tscreen>
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192.216.222.1/24
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</tscreen>
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will create a mask which will allow any address in a class C subnet
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(in this case, 192.216.222) to be matched. <tt>mask-pattern</tt> is an IP
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address which will be logically AND'ed with the address given. The
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keyword <tt>any</tt> may be used to specify ``any IP address''.
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<p>The port numbers to be blocked are specified as:
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<tscreen>
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port[,port[,port[...]]]
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</tscreen>
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to specify either a single port or a list of ports, or
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<tscreen><verb>
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port-port
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</verb></tscreen>
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to specify a range of ports. You may also combine a single range with a
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list, but the range must always be specified first.
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<p>The <em>options</em> available are:
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<descrip>
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<tag/frag/Matches if the packet is the first fragment of the datagram.
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<tag/in/Matches if the packet is on the way in.
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<tag/out/Matches if the packet is on the way out.
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<tag/ipoptions <em>spec</em>/Matches if the IP header contains the
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comma separated list of options specified in <em>spec</em>. The
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supported list of IP options are: <bf>ssrr</bf> (strict source route),
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<bf>lsrr</bf> (loose source route), <bf>rr</bf> (record packet route),
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and <bf>ts</bf> (timestamp). The absence of a particular option may
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be denoted with a leading '!'.
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<tag/established/Matches if the packet is part of an already established
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TCP connection (i.e. it has the RST or ACK bits set). You can optimize
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the performance of the firewall by placing <em>established</em> rules
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early in the chain.
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<tag/setup/Matches if the packet is an attempt to establish a TCP connection
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(the SYN bit set is set but the ACK bit is not).
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<tag/tcpflags <em>flags</em>/Matches if the TCP header contains
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the comma separated list of <em>flags</em>. The supported flags
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are <bf>fin</bf>, <bf>syn</bf>, <bf>rst</bf>, <bf>psh</bf>, <bf>ack</bf>,
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and <bf>urg</bf>. The absence of a particular flag may be indicated
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by a leading '!'.
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<tag/icmptypes <em>types</em>/Matches if the ICMP type is present in
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the list <em>types</em>. The list may be specified as any combination
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of ranges and/or individual types separated by commas. Commonly used
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ICMP types are: <bf>0</bf> echo reply (ping reply), <bf>5</bf>
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redirect, <bf>8</bf> echo request (ping request), and <bf>11</bf>
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time exceeded (used to indicate TTL expiration as with
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<tt>traceroute(8)</tt>).
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</descrip>
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<sect2><heading>Listing the IPFW rules</heading>
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<p>The syntax for this form of the command is:
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<tscreen>
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ipfw [-atN] l
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</tscreen>
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<p>There are three valid flags when using this form of the command:
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<descrip>
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<tag/-a/While listing, show counter values. This option is the only
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way to see accounting counters.
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<tag/-t/Display the last match times for each chain entry. The time
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listing is incompatible with the input syntax used by the
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<tt>ipfw(8)</tt> utility.
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<tag/-N/Do not attempt to resolve given addresses.
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</descrip>
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<sect2><heading>Flushing the IPFW rules</heading>
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<p>The syntax for flushing the chain is:
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<tscreen>
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ipfw flush
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</tscreen>
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<p>This causes all entries in the firewall chain to be removed except
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the fixed default policy enforced by the kernel (index 65535). Use
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caution when flushing rules, the default deny policy will leave your
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system cut off from the network until allow entries are added to the
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chain.
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<sect2><heading>Clearing the IPFW packet counters</heading>
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<p>The syntax for clearing one or more packet counters is:
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<tscreen>
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ipfw zero [index]
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</tscreen>
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<p>When used without an <em>index</em> argument, all packet counters
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are cleared. If an <em>index</em> is supplied, the clearing operation
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only affects a specific chain entry.
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<sect1><heading>Example commands for ipfw</heading>
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<p>This command will deny all packets from the host
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<bf>evil.hacker.org</bf> to the telnet port of the host
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<bf>nice.people.org</bf> by being forwarded by the router:
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<tscreen><verb>
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ipfw add deny tcp from evil.hacker.org to nice.people.org 23
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</verb></tscreen>
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<p>The next example denies and logs any TCP traffic from the entire
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<bf>hacker.org</bf> network (a class C) to the <bf>nice.people.org</bf>
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machine (any port).
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<tscreen><verb>
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ipfw add deny log tcp from evil.hacker.org/24 to nice.people.org
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</verb></tscreen>
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If you do not want people sending X sessions to your internal network
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(a subnet of a class C), the following command will do the necessary
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filtering:
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<tscreen><verb>
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ipfw add deny from any to my.org/28 6000 setup
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</verb></tscreen>
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To allow access to the SUP server on <bf>sup.FreeBSD.ORG</bf>, use the
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following command:
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<tscreen><verb>
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ipfw add accept from any to sup.FreeBSD.ORG 871
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</verb></tscreen>
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To see the accounting records:
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<tscreen><verb>
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ipfw -a list
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</verb></tscreen>
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or in the short form
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<tscreen><verb>
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ipfw -a l
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</verb></tscreen>
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You can also see the last time a chain entry was matched with
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<tscreen><verb>
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ipfw -at l
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</verb></tscreen>
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<sect1><heading>Building a packet filtering firewall</heading>
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<p><quote><bf>Note:</bf> The following suggestions are just that:
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suggestions. The requirements of each firewall are different and I
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cannot tell you how to build a firewall to meet your particular
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requirements.</quote>
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<p>When initially setting up your firewall, unless you have a test
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bench setup where you can configure your firewall host in a controlled
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environment, I strongly recommend you use the logging version of the
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commands and enable logging in the kernel. This will allow you to
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quickly identify problem areas and cure them without too much
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disruption. Even after the initial setup phase is complete, I
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recommend using the logging for of `deny' as it allows tracing of
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possible attacks and also modification of the firewall rules if your
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requirements alter.
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<quote><bf>Note:</BF> If you use the logging versions of the
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<bf>accept</bf> command, it can generate <em>large</em> amounts
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of log data as one log line will be generated for every packet
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that passes through the firewall, so large ftp/http transfers,
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etc, will really slow the system down. It also increases the
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latencies on those packets as it requires more work to be done by
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the kernel before the packet can be passed on. syslogd with also
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start using up a lot more processor time as it logs all the extra
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data to disk, and it could quite easily fill the partition
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<tt>/var/log</tt> is located on.</quote>
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<p>As currently supplied, FreeBSD does not have the ability to
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load firewall rules at boot time. My suggestion is to put a call
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to a shell script in the <tt>/etc/netstart</tt> script. Put the
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call early enough in the netstart file so that the firewall is
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configured before any of the IP interfaces are configured. This
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means that there is no window during which time your network is
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open.
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<p>The actual script used to load the rules is entirely up to
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you. There is currently no support in the <tt>ipfw</tt> utility for
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|
loading multiple rules in the one command. The system I use is to use
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|
the command:
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|
|
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<tscreen><verb>
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# ipfw list
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|
</verb></tscreen>
|
|
|
|
to write a list of the current rules out to a file, and then use a
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|
text editor to prepend ``<tt>ipfw </tt>'' before all the lines. This
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|
will allow the script to be fed into /bin/sh and reload the rules into
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|
the kernel. Perhaps not the most efficient way, but it works.
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|
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|
<p>The next problem is what your firewall should actually <bf>DO</bf>!
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|
This is largely dependent on what access to your network you want to
|
|
allow from the outside, and how much access to the outside world you
|
|
want to allow from the inside. Some general rules are:
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|
|
|
<itemize>
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|
|
|
<item>Block all incoming access to ports below 1000 for TCP. This is
|
|
where most of the security sensitive services are, like finger, SMTP
|
|
(mail) and telnet.
|
|
|
|
<item>Block incoming SYN (<bf>setup</bf>) connections to ports
|
|
between 1001 and 1024 (this will allow internal users to rsh/rlogin to
|
|
the outside). If you do not want to allow rsh/rlogin connections from
|
|
the inside to the outside, then extend the above suggestion to cover
|
|
ports 1-1024.
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|
|
|
<item>Block <bf>all</bf> incoming UDP traffic. There are very few
|
|
useful services that travel over UDP, and what useful traffic there is
|
|
is normally a security threat (e.g. Suns RPC and NFS protocols). This
|
|
has its disadvantages also, since UDP is a connectionless protocol,
|
|
denying incoming UDP traffic also blocks the replies to outgoing UDP
|
|
traffic. This can cause a problem for people (on the inside)
|
|
using external archie (prospero) servers. If you want to allow access
|
|
to archie, you'll have to allow packets coming from ports 191 and 1525
|
|
to any internal UDP port through the firewall. ntp is another service
|
|
you may consider allowing through, which comes from port 123.
|
|
|
|
<item>Block traffic to port 6000 from the outside. Port 6000 is the
|
|
port used for access to X11 servers, and can be a security threat
|
|
(especially if people are in the habit of doing <tt>xhost +</tt> on
|
|
their workstations). X11 can actually use a range of ports starting at
|
|
6000, the upper limit being how many X displays you can run on the
|
|
machine. The upper limit as defined by RFC 1700 (Assigned Numbers) is
|
|
6063.
|
|
|
|
<item>Check what ports any internal servers use (e.g. SQL servers,
|
|
etc). It's probably a good idea to block those as well, as they
|
|
normally fall outside the 1-1024 range specified above.
|
|
|
|
</itemize>
|
|
|
|
<p>Another checklist for firewall configuration is available from CERT
|
|
at <htmlurl url="ftp://ftp.cert.org/pub/tech_tips/packet_filtering"
|
|
name="ftp://ftp.cert.org/pub/tech_tips/packet_filtering">
|
|
|
|
<p>As I said above, these are only <em>guidelines</em>. You will have
|
|
to decide what filter rules you want to use on your firewall
|
|
yourself. I cannot accept ANY responsibility if someone breaks into
|
|
your network, even if you follow the advice given above.
|