Shorewall and Multiple Internet Connections Tom Eastep 2005 2006 Thomas M. Eastep Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, with no Front-Cover, and with no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License. Make sure you are running a current, vendor-supported distribution, before attempting to perform this setup, older distributions do not meet the minimum requirements,and you will need to recompile iptables, kernel and other software on your system. If you don't follow this advice,we will not be able to help you. Reading just Shorewall documentation is probably not going to give you enough background to use this material. Shorewall may make iptables easy but the Shorewall team doesn't have the resources to be able to spoon-feed Linux policy routing to you (please remember that the user's manual for a tractor doesn't teach you to grow corn either). You will likely need to refer to the following additional information: The LARTC HOWTO: http://www.lartc.org Output of man ip Output of ip route help and ip rule help
Multiple Internet Connection Support Beginning with Shorewall 2.3.2, limited support is included for multiple internet connections. Limitations of this support are as follows: It utilizes static routing configuration. As such, there is no provision for reacting to the failure of either of the uplinks. The routing changes are made and the route cache is purged when Shorewall is started and when Shorewall is restarted (unless you specify the "-n" option to shorewall restart). Ideally, restarting the packet filter should have no effect on routing.
Overview Let's assume that a firewall is connected via two separate ethernet interfaces to two different ISPs as in the following diagram. eth0 connects to ISP1. The IP address of eth0 is 206.124.146.176 and the ISP's gateway router has IP address 206.124.146.254. eth1 connects to ISP 2. The IP address of eth1 is 130.252.99.27 and the ISP's gateway router has IP address 130.252.99.254. eth2 connects to the local LAN. Its IP configuration is not relevant to this discussion. Each of these providers is described in an entry in the file /etc/shorewall/providers. Entries in /etc/shorewall/providers can specify that outgoing connections are to be load-balanced between the two ISPs. Entries in /etc/shorewall/tcrules can be used to direct particular outgoing connections to one ISP or the other. Use of /etc/shorewall/tcrules is not required for /etc/shorewall/providers to work, but you must select a unique MARK value for each provider so Shorewall can set up the correct marking rules for you. When you use the track option in /etc/shorewall/providers, connections from the internet are automatically routed back out of the correct interface and through the correct ISP gateway. This works whether the connection is handled by the firewall itself or if it is routed or port-forwarded to a system behind the firewall. Shorewall will set up the routing and will update the /etc/iproute2/rt_tables to include the table names and number of the tables that it adds. This feature uses packet marking to control the routing. As a consequence, there are some restrictions concerning entries in /etc/shorewall/tcrules: Packet marking for traffic control purposes may not be done in the PREROUTING table for connections involving providers with 'track' specified (see below). You may not use the SAVE or RESTORE options. You may not use connection marking. The /etc/shorewall/providers file can also be used in other routing scenarios. See the Squid documentation for an example.
/etc/shorewall/providers File Entries in this file have the following columns. As in all Shorewall configuration files, enter "-" in a column if you don't want to enter any value. NAME The provider name. Must begin with a letter and consist of letters and digits. The provider name becomes the name of the generated routing table for this provider. NUMBER A number between 1 and 252. This becomes the routing table number for the generated table for this provider. MARK A mark value used in your /etc/shorewall/tcrules file to direct packets to this provider. Shorewall will also mark connections that have seen input from this provider with this value and will restore the packet mark in the PREROUTING CHAIN. Mark values must be in the range 1-255. Beginning with Shorewall version 3.2.0 Beta 6, you may use may set HIGH_ROUTE_MARKS=Yes in /etc/shorewall/shorewall.conf. This allows you to: Use connection marks for traffic shaping, provided that you assign those marks in the FORWARD table. Use mark values > 255 for provider marks in this column. These mark values must be a multiple of 256 in the range 256-65280 (hex equivalent 0x100 - 0xFF00 with the low-order 8 bits being zero). DUPLICATE Gives the name or number of a routing table to duplicate. May be 'main' or the name or number of a previously declared provider. For most applications, you want to specify 'main' here. INTERFACE The name of the interface to the provider. GATEWAY The IP address of the provider's Gateway router. You can enter detect here and Shorewall will attempt to automatically determine the gateway IP address. Hint: "detect" is appropriate for use in cases where the interface named in the INTERFACE column is dynamically configured via DHCP etc. OPTIONS A comma-separated list from the following: track If specified, connections FROM this interface are to be tracked so that responses may be routed back out this same interface. You want to specify 'track' if internet hosts will be connecting to local servers through this provider. Any time that you specify 'track', you will also want to specify 'balance' (see below). Use of this feature requires that your kernel and iptables support CONNMARK target and connmark match support. It does not require the ROUTE target extension. iptables 1.3.1 is broken with respect to CONNMARK and iptables-save/iptables-restore. This means that if you configure multiple ISPs, shorewall restore may fail. If it does, you may patch your iptables using the patch at http://shorewall.net/pub/shorewall/contrib/iptables/CONNMARK.diff. If you are using /etc/shorewall/providers because you have multiple internet connections, we recommend that you specify 'track' even if you don't need it. It helps maintain long-term connections in which there are significant periods with no traffic. balance The providers that have 'balance' specified will get outbound traffic load-balanced among them. Balancing will not be perfect, as it is route based, and routes are cached. This means that routes to often-used sites will always be over the same provider. By default, each provider is given the same weight (1) . You can change the weight of a given provider by following balance with "=" and the desired weight (e.g., balance=2). The weights reflect the relative bandwidth of the providers connections and should be small numbers since the kernel actually creates additional default routes for each weight increment. If you are using /etc/shorewall/providers because you have multiple internet connections, we recommend that you specify 'balance' even if you don't need it. You can still use entries in /etc/shorewall/tcrules to force traffic to one provider or another. If you specify 'balance' and still find that all traffic is going out through only one provider, you may need to install a kernel built with CONFIG_IP_ROUTE_MULTIPATH_CACHED=n. Several users have reported that this change has corrected similar problems. The SUSE 10.0 kernel is subject to this problem, and a kernel oops may result in this circumstance. SUSE 10.1 and SLES 10 have CONFIG_IP_ROUTE_MULTIPATH_CACHED=n set by default. The source of the problem seems to be an incompatibility between the LARTC patches and CONFIG_IP_ROUTE_MULTIPATH_CACHED. loose Do not include routing rules that force traffic whose source IP is an address of the INTERFACE to be routed to this provider. Useful for defining providers that are to be used only when the appropriate packet mark is applied. optional (added in Shorewall 3.2.2) Shorewall will determine of this interface is up and has a configured IPv4 address. If it is not, a warning is issued and this provider is not configured. 'optional' is designed to detect interface states that will cause shorewall start or shorewall restart to fail; just because an interface is in a state that Shorewall can [re]start without error doesn't mean that traffic can actually be sent through the interface. COPY When you specify an existing table in the DUPLICATE column, Shorewall copies all routes through the interface specified in the INTERFACE column plus the interfaces listed in this column. At a minumum, you should list all interfaces on your firewall in this column except those internet interfaces specified in the INTERFACE column of entries in this file.
What an entry in the Providers File Does Adding another entry in the providers file simply creates an alternate routing table for you. In addition: Unless loose is specified, an ip rule is generated for each IP address on the INTERFACE that routes traffic from that address through the associated routing table. If you specify track, then connections which have had at least one packet arrive on the interface listed in the INTERFACE column have their connection mark set to the value in the MARK column. In the PREROUTING chain, packets with a connection mark have their packet mark set to the value of the associated connection mark; packets marked in this way bypass any prerouting rules that you create in /etc/shorewall/tcrules. This ensures that packets associated with connections from outside are always routed out of the correct interface. If you specify balance, then Shorewall will replace the 'default' route with weight 100 in the 'main' routing table with a load-balancing route among those gateways where balance was specified. So if you configure default routes, be sure that their weight is less than 100 or the route added by Shorewall will not be used. That's all that these entries do. You still have to follow the principle stated in the Shorewall Routing documentation: Routing determines where packets are to be sent. Once routing determines where the packet is to go, the firewall (Shorewall) determines if the packet is allowed to go there. The bottom line is that if you want traffic to go out through a particular provider then you must mark that traffic with the provider's MARK value in /etc/shorewall/tcrules and you must do that marking in the PREROUTING chain. Entries in /etc/shorewall/providers permanently alter your firewall/gateway's routing; that is, the effect of these changes is not reversed by shorewall stop or shorewall clear. To restore routing to its original state, you may have to restart your network. This can usually be done by /etc/init.d/network restart or /etc/init.d/networking restart. Check your distribution's networking documentation. Here are some additional things to consider: You can mitigate the effect of the Shorewall-generated changes to your routing table by specifying a metric for each default route that you configure. Shorewall will generate a load-balancing default route (assuming that balance has been specified for some of the providers) that does not include a metric and that will therefore not replace any existing route that has a non-zero metric. The -n option to shorewall restart and shorewall restore can be used to prevent the command from changing your routing. The /etc/shorewall/stopped file can also be used to restore routing when you stop Shorewall. With your firewall in its normal (single-table) routing configuration, you can capture the contents as follows: ip route ls > routes Here's what the routes file looked like after I did that on my firewall: 192.168.1.1 dev eth3 scope link 206.124.146.177 dev eth1 scope link 192.168.2.2 dev tun0 proto kernel scope link src 192.168.2.1 192.168.2.0/24 via 192.168.2.2 dev tun0 192.168.1.0/24 dev eth0 proto kernel scope link src 192.168.1.254 206.124.146.0/24 dev eth3 proto kernel scope link src 206.124.146.176 169.254.0.0/16 dev eth0 scope link 127.0.0.0/8 dev lo scope link default via 206.124.146.254 dev eth3 Now edit the file as shown below: ip route flush table main ip route add 192.168.1.1 dev eth3 scope link ip route add 206.124.146.177 dev eth1 scope link ip route add 192.168.2.2 dev tun0 proto kernel scope link src 192.168.2.1 ip route add 192.168.2.0/24 via 192.168.2.2 dev tun0 ip route add 192.168.1.0/24 dev eth0 proto kernel scope link src 192.168.1.254 ip route add 206.124.146.0/24 dev eth3 proto kernel scope link src 206.124.146.176 ip route add 169.254.0.0/16 dev eth0 scope link ip route add 127.0.0.0/8 dev lo scope link ip route add default via 206.124.146.254 dev eth3 ip route flush cache Now paste the contents of that file into /etc/shorewall/stopped. You might also want to consider adding the following to the file: ip rule ls | while read priority rule; do case ${priority%:} in 0|3276[67]) ;; *) ip rule del $rule ;; esac done That code will delete all but the default routing rules.
What an entry in the Providers File Does NOT Do Given that Shorewall is simply a tool to configure Netfilter and does not run continuously in your system, entries in the providers file do not provide any automatic failover in the event of failure of one of your Internet connections.
Example The configuration in the figure at the top of this section would be specified in /etc/shorewall/providers as follows. #NAME NUMBER MARK DUPLICATE INTERFACE GATEWAY OPTIONS COPY ISP1 1 1 main eth0 206.124.146.254 track,balance eth2 ISP2 2 2 main eth1 130.252.99.254 track,balance eth2 Other configuration files go something like this: /etc/shorewall/interfaces: #ZONE INTERFACE BROADCAST OPTIONS net eth0 detect … net eth1 detect … /etc/shorewall/policy: #SOURCE DESTINATION POLICY LIMIT:BURST net net DROP Regardless of whether you have masqueraded hosts or not, YOU MUST ADD THESE TWO ENTRIES TO /etc/shorewall/masq: #INTERFACE SUBNET ADDRESS eth0 130.252.99.27 206.124.146.176 eth1 206.124.146.176 130.252.99.27 Those entries ensure that traffic originating on the firewall always has the source IP address corresponding to the interface that it is routed out of. If you have a Dynamic IP address on either of the interfaces, you can use shell variables to construct the above rules. For example, if eth0 had a dynamic IP address, then: /etc/shorewall/params: ETH0_IP=$(find_first_interface_address eth0) /etc/shorewall/masq: #INTERFACE SUBNET ADDRESS eth0 130.252.99.27 $ETH0_IP eth1 $ETH0_IP 130.252.99.27 If you have masqueraded hosts, be sure to update /etc/shorewall/masq to masquerade to both ISPs. For example, if you masquerade all hosts connected to eth2 then: #INTERFACE SUBNET ADDRESS eth0 eth2 206.124.146.176 eth1 eth2 130.252.99.27 Entries in /etc/shorewall/masq have no effect on which ISP a particular connection will be sent through. That is rather the purpose of entries in /etc/shorewall/tcrules. Now suppose that you want to route all outgoing SMTP traffic from your local network through ISP 2. You would make this entry in /etc/shorewall/tcrules (and if you are running a version of Shorewall earlier than 3.0.0, you would set TC_ENABLED=Yes in /etc/shorewall/shorewall.conf). #MARK SOURCE DEST PROTO PORT(S) CLIENT USER TEST # PORT(S) 2:P <local network> 0.0.0.0/0 tcp 25
/etc/shorewall/route_rules The /etc/shorewall/route_rules file was added in Shorewall version 3.2.0. The route_rules file allows assigning certain traffic to a particular provider just as entries in the tcrules file. The difference between the two files is that entries in route_rules are independent of Netfilter.
Routing Rules Routing rules are maintained by the Linux kernel and can be displayed using the ip rule ls command. When routing a packet, the rules are processed in turn until the packet is successfully routed. gateway:~ # ip rule ls 0: from all lookup local <=== Local (to the firewall) IP addresses 10001: from all fwmark 0x1 lookup Blarg <=== This and the next rule are generated by the 10002: from all fwmark 0x2 lookup Comcast 'MARK' values in /etc/shorewall/providers. 20000: from 206.124.146.176 lookup Blarg <=== This and the next rule are generated unless 20256: from 24.12.22.33 lookup Comcast 'loose' is specified; based in the output of 'ip addr ls' 32766: from all lookup main <=== This is the routing table shown by 'iproute -n' 32767: from all lookup default <=== This table is usually empty gateway:~ # In the above example, there are two providers: Blarg and Comcast with MARK 1 going to Blarg and mark 2 going to Comcast.
Columns in the route_rules file Columns in the file are: SOURCE (Optional) An ip address (network or host) that matches the source IP address in a packet. May also be specified as an interface name optionally followed by ":" and an address. If the device 'lo' is specified, the packet must originate from the firewall itself. DEST (Optional) An ip address (network or host) that matches the destination IP address in a packet. If you choose to omit either SOURCE or DEST, place "-" in that column. Note that you may not omit both SOURCE and DEST. PROVIDER The provider to route the traffic through. May be expressed either as the provider name or the provider number. PRIORITY The rule's priority which determines the order in which the rules are processed. 1000-1999 Before Shorewall-generated 'MARK' rules 11000- 11999 After 'MARK' rules but before Shorewall-generated rules for ISP interfaces. 26000-26999 After ISP interface rules but before 'default' rule. Rules with equal priority are applied in the order in which they appear in the file. Example 1: You want all traffic entering the firewall on eth1 to be routed through Comcast. #SOURCE DEST PROVIDER PRIORITY eth1 - Comcast 1000 With this entry, the output of ip rule ls would be as follows. gateway:~ # ip rule ls 0: from all lookup local 1000: from all iif eth1 lookup Comcast 10001: from all fwmark 0x1 lookup Blarg 10002: from all fwmark 0x2 lookup Comcast 20000: from 206.124.146.176 lookup Blarg 20256: from 24.12.22.33 lookup Comcast 32766: from all lookup main 32767: from all lookup default gateway:~ #Note that because we used a priority of 1000, the test for eth1 is inserted before the fwmark tests. Example 2: You use OpenVPN (routed setup /tunX) in combination with multiple providers. In this case you have to set up a rule to ensure that the OpenVPN traffic is routed back through the tunX interface(s) rather than through any of the providers. 10.8.0.0/24 is the subnet choosen in your OpenVPN configuration (server 10.8.0.0 255.255.255.0). #SOURCE DEST PROVIDER PRIORITY - 10.8.0.0/24 main 1000