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675 lines
26 KiB
Plaintext
675 lines
26 KiB
Plaintext
Shorewall 4.3.12
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Shorewall 4.3 is the development thread for Shorewall 4.4 which will be
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released late in 2009.
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----------------------------------------------------------------------------
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R E L E A S E 4 . 3 H I G H L I G H T S
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----------------------------------------------------------------------------
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1) Support for Shorewall-shell has been discontinued. Shorewall-perl
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has been combined with Shorewall-common to produce a single
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Shorewall package.
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2) Support for the "Hierarchical Fair Service Curve" (HFSC) queuing
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discipline has been added. HFSC is superior to the "Hierarchical
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Token Bucket" queuing discipline where realtime traffic such as
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VOIP is being used.
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3) Support for the "flow" traffic classifier has been added. This
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classifier can help prevent multi-connection applications such as
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BitTorrent from using an unfair amount of bandwidth.
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4) The Shorewall documentation and man pages have been purged of
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information about earlier Shorewall releases. The documentation
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describes only the behavior of Shorewall 4.3 and later versions.
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5) The interfaces file OPTIONs have been extended to largely remove the
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need for the hosts file.
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6) It is now possible to define PREROUTING and OUTPUT marking rules
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that cause new connections to use the same provider as an existing
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connection of the same kind.
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7) Dynamic Zone support is once again available for IPv4; ipset support is
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required in your kernel and in iptables.
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8) A new AUTOMAKE option has been added to shorewall.conf and
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shorewall6.conf. Setting this option will allow Shorewall to skip
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the compilation phase during start/restart if no configuration
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changes have occurred since the last start/restart.
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9) The LIMIT:BURST column in /etc/shorewall/policy
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(/etc/shorewall6/policy) and the RATE LIMIT column in
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/etc/shorewall/rules (/etc/shorewall6/rules) may now be used to
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limit on a per source IP or per destination IP basis.
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10) Support for per-IP traffic shaping classes has been added.
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----------------------------------------------------------------------------
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M I G R A T I O N I S S U E S
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----------------------------------------------------------------------------
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1) The 'shorewall stop', 'shorewall clear', 'shorewall6 stop' and
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'shorewall6 clear' commands no longer read the 'routestopped'
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file. The 'routestopped' file used is the one that was present at
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the last 'start', 'restart' or 'restore' command.
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2) The old macro parameter syntax (e.g., SSH/ACCEPT) is now deprecated
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in favor of the new syntax (e.g., SSH(ACCEPT)). The 4.3 documentation
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uses the new syntax exclusively, although the old syntax
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continues to be supported.
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3) Support for the SAME target in /etc/shorewall/masq and
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/etc/shorewall/rules has been removed, following the removal of the
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underlying support in the Linux kernel.
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4) Supplying an interface name in the SOURCE column of
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/etc/shorewall/masq is now deprecated. Entering the name of an
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interface there will result in a compile-time warning:
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WARNING: Using an interface as the masq SOURCE requires the
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interface to be up and configured when Shorewall
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starts/restarts
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To avoid this warning, replace interface names by the corresponding
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network addresses (e.g., 192.168.144.0/24).
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5) Previously, Shorewall has treated traffic shaping class IDs as
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decimal numbers (or pairs of decimal numbers). That worked fine
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until IPMARK was implemented. IPMARK requires Shorewall to generate
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class Ids in numeric sequence. In 4.3.9, that didn't work correctly
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because Shorewall was generating the sequence "..8,9,10,11..." when
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the correct sequence was "...8,9,a,b,...". Shorewall now treats
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class IDs as hex, as do 'tc' and 'iptables'.
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This should only be an issue if you have more than 9 interfaces
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defined in /etc/shorewall/tcdevices and if you use class IDs in
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/etc/shorewall/tcrules or /etc/shorewall/tcfilters. You will need
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to renumber the class IDs for devices 10 and greater.
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6) Jozsef Kadlecsik has removed the set binding capability from ipset
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3.1. As a consequence, Shorewall 4.3 no longer supports set binding.
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----------------------------------------------------------------------------
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P R O B L E M S C O R R E C T E D I N 4 . 3 . 12
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----------------------------------------------------------------------------
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1) A 'large quantum' warning log message during restart has been
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eliminated. The log message occurred when an interface with a large
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OUT-BANDWIDTH was defined in /etc/shorewall/tcdevices.
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----------------------------------------------------------------------------
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K N O W N P R O B L E M S R E M A I N I N G
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----------------------------------------------------------------------------
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None.
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----------------------------------------------------------------------------
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N E W F E A T U R E S I N 4 . 3 . 12
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----------------------------------------------------------------------------
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1) Support for the "Hierarchical Fair Service Curve" (HFSC) queuing
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discipline has been added. HFSC is superior to the "Hierarchical
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Token Bucket" queuing discipline where realtime traffic such as
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VOIP is being used.
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An excellent overview of HFSC on Linux may be found at
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http://linux-ip.net/articles/hfsc.en/.
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To use HFSC, several changes need to be made to your traffic
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shaping configuration:
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- To use HFSC on an interface rather than HTB, specify the
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'hfsc' option in the OPTIONS column in the interfaces's
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entry in /etc/shorewall/tcdevices.
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- Modify the RATE colum for each 'leaf' class (class with no
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parent class specified) defined for the interface.
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When using HFSC, the RATE column may specify 1, 2 or 3
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pieces of information separated by colons (":").
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1. The Guaranteed bandwidth (as always).
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2. The Maximum delay (DMAX) that the first queued packet
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in the class should experience. The delay is expressed
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in milliseconds and may be followed by 'ms' (e.g.,
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10ms. Note that there may be no white space between the
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number and 'ms').
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3. The maximum transmission unit (UMAX) for this class of
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traffic. If not specified, the MTU of the interface is
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used. The length is specified in bytes and may be
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followed by 'b' (e.g., 800b. Note that there may be no
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white space between the number and 'b').
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DMAX should be specified for each leaf class. The Shorewall
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compiler will issue a warning if DMAX is omitted.
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Example:
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full/2:10ms:1500b
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Guaranteed bandwidth is 1/2 of the devices
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OUT-BANDWIDTH. Maximum delay is 10ms. Maximum packet
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size is 1500 bytes.
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----------------------------------------------------------------------------
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N E W F E A T U R E S IN 4 . 3
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----------------------------------------------------------------------------
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1) The Shorewall packaging has been completely revamped in Shorewall
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4.3.
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The new packages are:
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- Shorewall. Includes the former Shorewall-common and
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Shorewall-perl packages. Includes everything needed
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to create an IPv4 firewall.
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- Shorewall6. Requires Shorewall. Adds the components necessary to
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create an IPv6 firewall.
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- Shorewall-lite
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May be installed on a firewall system to run
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IPv4 firewall scripts generated by Shorewall.
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- Shorewall6-lite
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May be installed on a firewall system to run
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IPv6 firewall scripts generated by Shorewall6.
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2) The interfaces file supports a new 'nets=' option. This option
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allows users to restrict a zone's definition to particular networks
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through an interface without having to use the hosts file.
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Example interfaces file:
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#ZONE INTERFACE BROADCAST OPTIONS
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loc eth3 detect dhcp,logmartians=1,routefilter=1,nets=172.20.1.0/24
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dmz eth4 detect logmartians=1,routefilter=1,nets=206.124.146.177
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net eth0 detect dhcp,blacklist,tcpflags,optional,routefilter=0,nets=(!172.20.0.0/24,206.124.146.177)
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net eth2 detect dhcp,blacklist,tcpflags,optional,upnp,routefilter=0,nets=(!172.20.0.0/24,206.124.146.177)
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loc tun+ detect nets=172.20.0.0/24
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#LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVE
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Note that when more than one network address is listed, the list
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must be enclosed in parentheses. Notice also that exclusion may be
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used.
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The first entry in the above interfaces file is equivalent to the
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following:
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interfaces:
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#ZONE INTERFACE BROADCAST OPTIONS
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- eth0 detect dhcp,logmartians=1,routefilter=1
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hosts:
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#ZONE HOST(S) OPTIONS
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loc $INT_IF:192.20.1.0/24 broadcast
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Note that the 'broadcast' option is automatically assumed and need
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not be explicitly specified.
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3) Some websites run applications that require multiple connections
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from a client browser. Where multiple 'balanced' providers are
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configured, this can lead to problems when some of the connections
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are routed through one provider and some through another.
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To work around this issue, the SAME target has been added to
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/etc/shorewall/tcrules. SAME may be used in the PREROUTING and
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OUTPUT chains. When used in PREROUTING, it causes matching
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connections from an individual local system to all use the same
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provider.
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For example:
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SAME:P 192.168.1.0/24 - tcp 80,443
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If a host in 192.168.1.0/24 attempts a connection on TCP port 80 or
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443 and it has sent a packet on either of those ports in the last
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five minutes then the new connection will use the same provider as
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the connection over which that last packet was sent.
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When used in the OUTPUT chain, it causes all matching connections
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to an individual remote system to all use the same provider.
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For example:
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SAME $FW - tcp 80,443
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If the firewall attempts a connection on TCP port 80 or
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443 and it has sent a packet on either of those ports in the last
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five minutes to the same remote system then the new connection will
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use the same provider as the connection over which that last packet
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was sent.
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Important note: SAME only works with providers that have the
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'track' option specified in /etc/shorewall/providers.
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4) The file /var/lib/shorewall/.restore has been renamed to
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/var/lib/shorewall/firewall. A similar change has been made in
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Shorewall6.
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When a successful start or restart is completed, the script that
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executed the command copies itself to to
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/var/lib/shorewall[6]/firewall.
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5) Dynamic zone support is once again available for IPv4. This support
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is built on top of ipsets so you must have the xtables-addons
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installed on the firewall system.
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Dynamic zones are available when Shorewall-lite is used as well.
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Note that the dynamic zone support built into Shorewall provides no
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additional functionality over what is provided by simply defining a
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zone in terms of an ipset (see
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http://www1.shorewall.net/ipsets.html#Dynamic).
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You define a zone as having dynamic content in one of two ways:
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- By specifying nets=dynamic in the OPTIONS column of an entry for
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the zone in /etc/shorewall/interfaces; or
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- By specifying <interface>:dynamic in the HOST(S) column of an
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entry for the zone in /etc/shorewall/hosts.
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When there are any dynamic zones present in your configuration,
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Shorewall (Shorewall-lite) will:
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a) Execute the following commands during 'shorewall start' or
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'shorewall-lite start'.
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ipset -U :all: :all:
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ipset -U :all: :default:
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ipset -F
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ipset -X
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ipset -R < ${VARDIR}/ipsets.save
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where $VARDIR normally contains /var/lib/shorewall
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(/var/lib/shorewall-lite) but may be modified by
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/etc/shorewall/vardir (/etc/shorewall-lite/vardir).
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b) During 'start', 'restart' and 'restore' processing, Shorewall
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will then attempt to create an ipset named <zone>_<interface>
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for each zone/interface pair that has been specified as
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dynamic. The type of ipset created is 'iphash' so that only
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individual IPv4 addresses may be added to the set.
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c) Execute the following commands during 'shorewall stop' or
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'shorewall-lite stop':
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if ipset -S > ${VARDIR}/ipsets.tmp; then
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mv -f ${VARDIR}/ipsets.tmp ${VARDIR}/ipsets.save
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fi
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The 'shorewall add' and 'shorewall delete' commands are supported
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with their original syntax:
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add <interface>[:<host-list>] ... <zone>
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delete <interface>[:<host-list>] ... <zone>
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In addition, the 'show dynamic' command is added that lists the dynamic
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content of a zone.
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show dynamic <zone>
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These commands are supported by shorewall-lite as well.
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6) The generated program now attempts to detect all dynamic
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information when it first starts. If any of those steps fail, an
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error message is generated and the state of the firewall is not
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changed.
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7) Shorewall will now attempt to detect a dynamic gateway by reading
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the dhclient lease file for the interface
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(/var/run/dhcp/dhclient-<if>.lease).
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8) To improve readability of the configuration files, Shorewall now
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allows leading white space in continuation lines when the continued
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line ends in ":" or ",".
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Example (/etc/shorewall/rules):
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#ACTION SOURCE DEST PROTO DEST
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# PORT(S)
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ACCEPT net:\
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206.124.146.177,\
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206.124.146.178,\
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206.124.146.180\
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dmz tcp 873
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The leading white space on the lines that contain just an IP
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address is ignored so the SOURCE column effectively contains
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"net:206.124.146.177,206.124.147.178,206.124.146.180".
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9) The generated script now uses iptables[6]-restore to instantiate
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the Netfilter ruleset during processing of the 'stop' command. As a
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consequence, the 'critical' option in /etc/shorewall/route_stopped
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is no longer needed and will result in a warning.
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10) A new AUTOMAKE option has been added to shorewall.conf and
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shorewall6.conf. When set to 'Yes', this option causes new behavior
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during processing of the 'start' and 'restart' commands; if no
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files in /etc/shorewall/ (/etc/shorewall6) have changed since the last
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'start' or 'restart', then the compilation step is skipped and the
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script used during the last 'start' or 'restart' is used to
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start/restart the firewall.
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Note that if a <directory> is specified in the start/restart
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command (e.g., "shorewall restart /etc/shorewall.new") then the
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setting of AUTOMAKE is ignored.
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Note that the 'make' utility must be installed on the firewall
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system in order for AUTOMAKE=Yes to work correctly.
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11) The 'compile' command now allows you to omit the <pathname>. When
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you do that, the <pathname> defaults to /var/lib/shorewall/firewall
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(/var/lib/shorewall6/firewall) unless you have overridden VARDIR
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using /etc/shorewall/vardir (/etc/shorewall6/vardir).
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When combined with AUTOMAKE=Yes, it allows the following:
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gateway:~ # shorewall compile
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Compiling...
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Shorewall configuration compiled to /root/shorewall/firewall
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gateway:~ #
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...
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gateway:~ # shorewall restart
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Restarting Shorewall....
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done.
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gateway:~ #
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In other words, you can compile the current configuration then
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install it at a later time.
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12) Thanks to I. Buijs, it is now possible to rate-limit connections by
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source IP or destination IP. The LIMIT:BURST column in
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/etc/shorewall/policy (/etc/shorewall6/policy) and the RATE LIMIT
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column /etc/shorewall/rules (/etc/shorewall6/rules) have been
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extended as follows:
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[{s|d}:[[<name>]:]]<rate>/{sec|min}[:<burst>]
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When s: is specified, the rate is per source IP address.
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When d: is specified, the rate is per destination IP address.
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The <name> specifies the name of a hash table -- you get to choose
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the name. If you don't specify a name, the name 'shorewall' is
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assumed. Rules with the same name have their connection counts
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aggregated and the individual rates are applied to the aggregate.
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Example:
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ACCEPT net fw tcp 22 - - s:ssh:3/min
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This will limit SSH connections from net->fw to 3 per minute.
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ACCEPT net fw tcp 25 - - s:mail:3/min
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ACCEPT net fw tcp 587 - - s:mail:3/min
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Since the same hash table name is used in both rules, the above is
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equivalent to this single rule:
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ACCEPT net fw tcp 25,587 - - s:mail:3/min
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13) Rules that specify a log level with a target other than LOG or NFLOG
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are now implemented through a separate chain. While this may increase
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the processing cost slightly for packets that match these rules, it
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is expected to reduce the overall cost of such rules because each
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packet that doesn't match the rules only has to be processed once
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per rule rather than twice.
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Example:
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/etc/shorewall/rules:
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REJECT:info loc net tcp 25
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This previously generated these two rules (long rules folded):
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-A loc2net -p 6 --dport 25 -j LOG --log-level 6
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--log-prefix "Shorewall:loc2net:reject:"
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-A loc2net -p 6 --dport 25 -j reject
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It now generates these rules:
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:log0 - [0:0]
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...
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-A loc2net -p 6 --dport 25 -g log0
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...
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-A log0 -j LOG --log-level 6
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--log-prefix "Shorewall:loc2net:REJECT:"
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-A log0 -p 6 --dport 25 -j reject
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Notice that now there is only a single rule generated in the
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'loc2net' chain where before there were two. Packets for other than
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TCP port 25 had to be processed by both rules.
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Notice also that the new LOG rule reflects the original action
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("REJECT") rather than what Shorewall maps that to ("reject").
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14) Shorewall6 has now been tested on kernel 2.6.24 (Ubuntu Hardy) and
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hence will now start successfully when running on that kernel.
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15) Three new options (IP, TC and IPSET) have been added to
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shorewall.conf and shorwall6.conf. These options specify the name
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of the executable for the 'ip', 'tc' and 'ipset' utilities
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respectively.
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If not specified, the default values are:
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IP=ip
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TC=tc
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IPSET=ipset
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In other words, the utilities will be located via the current PATH
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setting.
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16) There has been a desire in the user community to limit traffic by
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IP address using Shorewall traffic shaping. Heretofore, that has
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required a very inefficient process:
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a) Define a tcclass for each internal host (two, if shaping both in
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and out).
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b) Define a tcrule for each host to mark to classify the packets
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accordingly.
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Beginning with Shorewall 4.3.9, this process is made easier IF YOU
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ARE WILLING TO INSTALL xtables-addons. The feature requires IPMARK
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support in iptables[6] and your kernel. That support is available
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in xtables-addons.
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The new facility has two components:
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a) A new IPMARK MARKing command in /etc/shorewall/tcrules.
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b) A new 'occurs' OPTION in /etc/shorewall/tcclasses.
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The facility is currently only available with IPv4.
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In a sense, the IPMARK target is more like an IPCLASSIFY target in
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that the mark value is later interpreted as a class ID. A packet
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mark is 32 bits wide; so is a class ID. The <major> class occupies
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the high-order 16 bits and the <minor> class occupies the low-order
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|
16 bits. So the class ID 1:4ff (remember that class IDs are always
|
|
in hex) is equivalent to a mark value of 0x104ff. Remember that
|
|
Shorewall uses the interface number as the <major> number where the
|
|
first interface in tcdevices has <major> number 1, the second has
|
|
<major> number 2, and so on.
|
|
|
|
The IPMARK target assigns a mark to each matching packet based on
|
|
the either the source or destination IP address. By default, it
|
|
assigns a mark value equal to the low-order 8 bits of the source
|
|
address.
|
|
|
|
The syntax is as follows:
|
|
|
|
IPMARK[([{src|dst}][,[<mask1>][,[<mask2>][,[<shift>]]]])]
|
|
|
|
Default values are:
|
|
|
|
src
|
|
<mask1> = 0xFF
|
|
<mask2> = 0x00
|
|
<shift> = 0
|
|
|
|
'src' and 'dst' specify whether the mark is to be based on the
|
|
source or destination address respectively.
|
|
|
|
The selected address is first shifted right by <shift>, then
|
|
LANDed with <mask1> and then LORed with <mask2>. The <shift>
|
|
argument is intended to be used primarily with IPv6 addresses.
|
|
|
|
Example:
|
|
|
|
IPMARK(src,0xff,0x10100)
|
|
|
|
Destination IP address is 192.168.4.3 = 0xc0a80403
|
|
|
|
0xc0a80403 >> 0 = 0xc0a80403
|
|
0xc0a80403 LAND 0xFF = 0x03
|
|
0x03 LOR 0x10100 = 0x10103
|
|
|
|
So the mark value is 0x10103 which corresponds to class id
|
|
1:103.
|
|
|
|
It is important to realize that, while class IDs are composed of a
|
|
<major> and a <minor> value, the set of <minor> values must be
|
|
unique. You must keep this in mind when deciding how to map IP
|
|
addresses to class IDs.
|
|
|
|
For example, suppose that your internal network is 192.168.1.0/29
|
|
(host IP addresses 192.168.1.1 - 192.168.1.6). Your first notion
|
|
might be to use IPMARK(src,0xFF,0x10000) so as to produce class IDs
|
|
1:1 through 1:6. But 1:1 is the class ID if the base HTB class on
|
|
interface 1. So you might chose instent to use
|
|
IPMARK(src,0xFF,0x10100) as shown in the example above so as to
|
|
avoid minor class 1.
|
|
|
|
The 'occurs' option in /etc/shorewall/tcclasses causes the class
|
|
definition to be replicated many times. The synax is:
|
|
|
|
occurs=<number>
|
|
|
|
When 'occurs' is used:
|
|
|
|
a) The associated device may not have the 'classify' option.
|
|
b) The class may not be the default class.
|
|
c) The class may not have any 'tos=' options (including
|
|
'tcp-ack').
|
|
d) The class should not specify a MARK value. Any MARK value
|
|
given is ignored with a warning.
|
|
|
|
The 'RATE' and 'CEIL' parameters apply to each instance of the
|
|
class. So the total RATE represented by an entry with 'occurs' will
|
|
be the listed RATE multiplied by the 'occurs' number.
|
|
|
|
Example:
|
|
|
|
/etc/shorewall/tcdevices:
|
|
|
|
#INTERFACE IN-BANDWIDTH OUT-BANDWIDTH
|
|
eth0 100mbit 100mbit
|
|
|
|
/etc/shorewall/tcclasses:
|
|
|
|
#DEVICE MARK RATE CEIL PRIORITY OPTIONS
|
|
eth0:101 - 1kbit 230kbit 4 occurs=6
|
|
|
|
The above defines 6 classes with class IDs 0x101-0x106. Each
|
|
class has a guaranteed rate of 1kbit/second and a ceiling of
|
|
230kbit.
|
|
|
|
/etc/shoreall/tcrules:
|
|
|
|
#MARK SOURCE DEST
|
|
IPMARK(src,0xff,0x10100):F 192.168.1.0/29 eth0
|
|
|
|
This change also altered the way in which Shorewall generates a
|
|
class number when none is given.
|
|
|
|
- Prior to this change, the class number was constructed by concatinating
|
|
the mark value with the either '1' or '10'. '10' is used when
|
|
there are more than 10 devices defined in /etc/shorewall/tcdevices.
|
|
|
|
- Beginning with this change, a new method is added; class numbers
|
|
are assigned sequentially beginning with 2.
|
|
|
|
The WIDE_TC_MARKS option in shorewall.conf selects which
|
|
construction to use. WIDE_TC_MARKS=No (the default) produces
|
|
pre-4.3.9 behavior. WIDE_TC_MARKS=Yes produces the new behavior.
|
|
|
|
In addition to determining the method of constructing class Ids,
|
|
WIDE_TC_MARKS=Yes provides for larger mark values for traffic
|
|
shaping. Traffic shaping marks may have values up to 16383 (0x3fff)
|
|
with WIDE_TC_MARKS=Yes. This means that when both WIDE_TC_MARKS=Yes and
|
|
HIGH_ROUTE_MARKS=Yes, routing marks (/etc/shorewall/providers MARK
|
|
column) must be >= 65536 (0x10000) and must be a multiple of 65536
|
|
(0x1000, 0x20000, 0x30000, ...).
|
|
|
|
17) In the 'shorewall compile' command, the filename '-' is now causes
|
|
the compiled script to be written to Standard Out. As a side
|
|
effect, the effective VERBOSITY is set to -1 (silent).
|
|
|
|
Examples:
|
|
|
|
shorewall compile -v-1 -- - # Compile the configuration in
|
|
# /etc/shorewall and send the
|
|
# output to STDOUT
|
|
shorewall compile -v-1 . - # Compile the configuration in the
|
|
# current working directory
|
|
# and send the output to STDOUT
|
|
|
|
Note that the '-v-1' suppresses the 'Compiling...' message normally
|
|
issued by /sbin/shorewall (/sbin/shorewall6) when a compilation
|
|
begins.
|
|
|
|
18) Supplying an interface name in the SOURCE column of
|
|
/etc/shorewall/masq is now deprecated. Entering the name of an
|
|
interface there will result in a compile-time warning.
|
|
|
|
19) Shorewall now supports nested HTB traffic shaping classes. The
|
|
nested classes within a class can borrow from their parent class in
|
|
the same way as the first level classes can borrow from the root
|
|
class.
|
|
|
|
To use nested classes, you must explicitly number your
|
|
classes. That does not imply that you must use the 'classify'
|
|
option.
|
|
|
|
Example:
|
|
|
|
/etc/shorewall/tcdevices
|
|
|
|
#INTERFACE IN-BANDWITH OUT-BANDWIDTH OPTIONS
|
|
eth2 - 100mbps classify
|
|
|
|
/etc/shorewall/tcclasses
|
|
|
|
#INTERFACE MARK RATE CEIL PRIORITY OPTIONS
|
|
1:10 - full/2 full 1
|
|
1:100 - 16mbit 20mbit 2
|
|
1:100:101 - 8mbit 20mbit 3 default
|
|
1:100:102 - 8mbit 20mbit 3
|
|
|
|
/etc/shorewall/tcrules
|
|
|
|
#MARK SOURCE DEST
|
|
1:102 0.0.0.0/0 eth2:172.20.1.107
|
|
1:10 206.124.146.177 eth2
|
|
1:10 172.20.1.254 eth2
|
|
|
|
The above controls download for internal interface eth2. The
|
|
external interface has a download rate of 20mbit so we guarantee
|
|
that to class 1:100. 1:100 has two subclasses, each of which is
|
|
guaranteed half of their parent's bandwidth.
|
|
|
|
Local traffic (that coming from the firewall and from the DMZ
|
|
server) is placed in the effectively unrestricted class 1:10. The
|
|
default class is guaranteed half of the download capacity and my
|
|
work system (172.20.1.107) is guarandeed the other half.
|
|
|