Shorewall and Multiple Internet ConnectionsTomEastep20052006200720082009Thomas M. EastepPermission 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.This document describes the Multi-ISP facility in Shorewall 4.0 and
later. If you are running an earlier release, please see the documentation
for that release.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.orgOutput of man ipOutput of ip route help and ip rule
helpMultiple Internet Connection SupportBeginning 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 any 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.Prior to Shorewall 3.4.0, the routes and route rules added by
this support were not completely removed during shorewall
stop, shorewall clear or
shorewall restart.For most routing applications, Quagga is a better solution
although it requires that your ISPs offer routing protocol
support.OverviewLet'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 numbers 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 FileEntries 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.NAMEThe 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.NUMBERA number between 1 and 252. This becomes the routing table
number for the generated table for this provider.MARKA 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 chain.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).DUPLICATEGives 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.
This field should be be specified as '-' when USE_DEFAULT_RT=Yes
in shorewall.confINTERFACEThe name of the interface to the provider. Where multiple
providers share the same interface (which is not recommended), you
must follow the name of the interface by a colon (":") and the IP
address assigned by this provider (e.g., eth0:206.124.146.176).
See below for additional
considerations.GATEWAYThe 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.The GATEWAY may be omitted (enter '-') for point-to-point
links.OPTIONSA comma-separated list from the following:trackIf 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 normally want to also
specify 'balance' (see below).Use of this feature requires that your kernel and
iptables include CONNMARK target and connmark match support
(Warning: Standard
Debian and
Ubuntu kernels are lacking that
support!).A bug in Shorewall
versions 3.2.0-3.2.10, 3.4.0-3.4.6 and 4.0.0-4.0.2
prevents proper handling of PREROUTING marks when
HIGH_ROUTE_MARKS=No and the track option is specified. Patches
are available to correct this problem:Shorewall version 3.2.0-3.4.3: http://www1.shorewall.net/pub/shorewall/3.2/shorewall-3.2.10/errata/patches/Shorewall/patch-3.2.10-2.diff
Shorewall version 3.4.4-3.4.6: http://www1.shorewall.net/pub/shorewall/3.4/shorewall-3.4.6/errata/patches/Shorewall/patch-3.4.6-1.diffShorewall-shell version 4.0.0-4.0.2: http://www1.shorewall.net/pub/shorewall/4.0/shorewall-4.0.2/errata/patches/Shorewall-shell/patch-shell-4.0.2-2.diffIf 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.balanceThe 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 all traffic to one provider or another.If you don't heed this advice then please read
and follow the advice in FAQ 57 and FAQ 58.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.looseDo 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.
Should not be specified together with balance.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.Beginning with Shorewall-perl 4.0.3, you can supply
an 'isusable' extension
script to extend Shorewall's interface state
detection.src=source-address (Added in
Shorewall-perl 4.1.5)Specifies the source address to use when routing to
this provider and none is known (the local client has bound
to the 0 address). May not be specified when an
address is given in the INTERFACE
column. If this option is not used, Shorewall substitutes
the primary IP address on the interface named in the
INTERFACE column.mtu=number (Added in
Shorewall-perl 4.1.5)Specifies the MTU when forwarding through this
provider. If not given, the MTU of the interface named in
the INTERFACE column is assumed.fallback[=weight]
(Added in Shorewall-perl 4.2.5)Indicates that a default route through the provider
should be added to the default routing table (table 253). If
a weight is given, a balanced
route is added with the weight of this provider equal to the
specified weight. If the option
is given without a weight, an
separate default route is added through the provider's
gateway; the route has a metric equal to the provider's
NUMBER. The option is ignored with a warning message if
USE_DEFAULT_RT=Yes in
shorewall.conf.For those of you who are terminally confused
between track and balance:track governs incoming
connections.balance governs
outgoing connections.COPYA comma-separated list if interface names. Wildcards
specified using an asterisk ("*") are permitted (e.g., tun*
).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.
Normally, you will 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 DoesAdding another entry in the providers file simply creates an
alternate routing table for you. The table will usually contain two
routes:A host route to the specified GATEWAY through the specified
INTERFACE.A default route through the GATEWAY.Note that the first route is omitted if "-" is specified as the
GATEWAY; in that case, the default route does not specify a gateway
(point-to-point link).If the DUPLICATE column is non-empty, then routes from the table
named in that column are copied into the new table. By default, all
routes (except default routes) are copied. The set of routes copied can
be restricted using the COPY column which lists the interfaces whose
routes you want copied. You will generally want to include all local
interfaces in this list. You should exclude the loopback interface (lo)
and any interfaces that do not have an IPv4 configuration. You should
also omit interfaces like tun
interfaces that are created dynamically. Traffic to networks handled by
those interfaces should be routed through the main table using entries
in /etc/shorewall/route_rules (see Example 2 below).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; or, you must provide the appropriate rules in
/etc/shorewall/route_rules.MartiansOne problem that often arises with Multi-ISP configuration is
'Martians'. If your Internet interfaces are configured with the
routefilter option in
/etc/shorewall/interfaces (remember that if you set
that option, you should also select logmartians), then things may not work correctly
and you will see messages like this:Feb 9 17:23:45 gw.ilinx kernel: martian source 206.124.146.176 from 64.86.88.116, on dev eth1
Feb 9 17:23:45 gw.ilinx kernel: ll header: 00:a0:24:2a:1f:72:00:13:5f:07:97:05:08:00The above message is somewhat awkwardly phrased. The source IP in
this incoming packet was 64.86.88.116 and the destination IP address is
206.124.146.176. Another gotcha is that the incoming packet has already
had the destination IP address changed for DNAT or because the original
outgoing connection was altered by an entry in
/etc/shorewall/masq (SNAT or Masquerade). So the
destination IP address (206.124.146.176) may not have been the
destination IP address in the packet as it was initially
received.There a couple of common causes for these problems:You have connected both of your external interfaces to the
same hub/switch. Connecting multiple firewall interfaces to a common
hub or switch is always a bad idea that will result in
hard-to-diagnose problems.You are specifying both the loose and balance options on your provider(s). This
causes individual connections to ping-pong back and forth between
the interfaces which is guaranteed to cause problems.You are redirecting traffic from the local system out of one
interface or the other using packet marking in your
/etc/shorewall/tcrules file. A better approach
is to configure the application to use the appropriate local IP
address (the IP address of the interface that you want the
application to use). See below.If all else fails, remove the routefilter option from your external interfaces.
If you do this, you may wish to add rules to log and drop packets from
the Internet that have source addresses in your local networks. For
example, if the local LAN in the above diagram is 192.168.1.0/24, then
you would add this rule:#ACTION SOURCE DEST
DROP:info net:192.168.1.0/24 allBe sure the above rule is added before any other rules with
net in the SOURCE column.ExampleThe 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 eth2Other 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 DROPRegardless of whether you have masqueraded hosts or not, the
following entries are required in
/etc/shorewall/masq if you plan to redirect
connections from the firewall using entries in
/etc/shorewall/tcrules or if you specify balance on your providers.#INTERFACE SUBNET ADDRESS
eth0 130.252.99.27 206.124.146.176
eth1 206.124.146.176 130.252.99.27Those entries ensure that traffic originating on the firewall and
redirected via packet marks 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)For optional interfaces, use
find_first_interface_address_if_any in place of
find_first_interface_address./etc/shorewall/masq:#INTERFACE SUBNET ADDRESS
eth0 130.252.99.27 $ETH0_IP
eth1 $ETH0_IP 130.252.99.27If 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 130.252.99.27Entries 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 or
/etc/shorewall/route_rules.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 25More than 2 ProvidersWhen there are more than two providers, you need to extend the
two-provider case in the expected way:For each external address, you need an entry in
/etc/shorewall/masq to handle the case where a
connection using that address as the SOURCE is sent out of the
interfaces other than the one that the address is configured
on.For each external interface, you need to add an entry to
/etc/shorewall/masq for each internal network
that needs to be masqueraded (or use SNAT) through that
interface.If we extend the above example to add eth3 with IP address
16.105.78.4 with gateway 16.105.78.254, then:/etc/shorewall/providers:#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
ISP3 3 3 main eth3 16.105.78.254 track,balance eth2/etc/shorewall/masq:#INTERFACE SUBNET ADDRESS
eth0 130.252.99.27 206.124.146.176
eth3 130.252.99.27 16.105.78.4
eth1 206.124.146.176 130.252.99.27
eth3 206.124.146.176 16.105.78.4
eth0 16.106.78.4 206.124.146.176
eth1 16.106.78.4 130.252.99.27
eth0 eth2 206.124.146.176
eth1 eth2 130.252.99.27
eth3 eth2 16.105.78.4Applications running on the FirewallExperience has shown that in some cases, problems occur with
applications running on the firewall itself. This is especially true
when you have specified routefilter on
your external interfaces in /etc/shorewall/interfaces (see above). When this happens, it is suggested
that you have the application use specific local IP addresses rather
than 0.Examples:Squid: In squid.conf, set tcp_outgoing_address to the IP address of the
interface that you want Squid to use.In OpenVPN, set local
(--local on the command
line) to the IP address that you want the server to receive
connections on.Note that some traffic originating on the firewall doesn't have a
SOURCE IP address before routing. At least one Shorewall user reports
that an entry in /etc/shorewall/route_rules with
'lo' in the SOURCE column seems to be the most reliable way to direct
such traffic to a particular ISP.IPSECIf you have an IPSEC gateway on your firewall, be sure to arrange
for ESP packets to be routed out of the same interface that you have
configured your keying daemon to use./etc/shorewall/route_rulesThe /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 RulesRouting 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 fileColumns 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.PROVIDERThe provider to route the traffic through. May be
expressed either as the provider name or the provider
number.PRIORITYThe rule's priority which determines the order in which
the rules are processed.1000-1999 Before Shorewall-generated 'MARK' rules11000- 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.ExamplesExample 1: You want all traffic
entering the firewall on eth1 to be routed through Comcast.#SOURCE DEST PROVIDER PRIORITY
eth1 - Comcast 1000With 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 w/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 chosen in your
OpenVPN configuration (server 10.8.0.0 255.255.255.0).#SOURCE DEST PROVIDER PRIORITY
- 10.8.0.0/24 main 1000USE_DEFAULT_RTBeginning with Shorewall 4.2.0 Beta3, Shorewall-perl has supported
a USE_DEFAULT_RT option in shorewall.conf (5).One of the drawbacks of the Multi-ISP support as described in the
preceding sections is that changes to the main table made by
applications are not added to the individual provider tables. This makes
route rules such as described in one of the
examples above necessary.USE_DEFAULT_RT=Yes works around that problem by passing packets
through the main table first rather than last. This has a number of
implications:Both the DUPLICATE and the COPY columns in the providers file
must remain empty or contain "-". The individual provider routing
tables generated when USE_DEFAULT_RT=Yes contain only a host route
to the gateway and a default route via the gateway.The balance option is assumed
for all interfaces that do not have the loose option. When you want both balance and loose, both must be specified.The default route generated by Shorewall is added to the
default routing table (253) rather than to the
main routing table (254).Packets are sent through the main routing table by a routing
rule with priority 999. In ), the priority range 1-998 may be used
for inserting rules that bypass the main table.All provider gateways must be specified explicitly in the
GATEWAY column. 'detect' may not be specified. Note that for ppp
interfaces, the GATEWAY may remain unspecified ("-").Beginning with Shorewall 4.2.6, 'detect' may be specified
for interfaces whose configuration is managed by dhcpcd.
Shorewall will use dhcpcd's database to determine the gateway IP
address.You should disable all default route management outside of
Shorewall. If a default route is inadvertently added to the main
table while Shorewall is started, then all policy routing will stop
working except for those routing rules in the priority range
1-998.Although 'balance' is automatically assumed when
USE_DEFAULT_RT=Yes, you can easily cause all traffic to use one provider
except when you explicitly direct it to use the other provider via
shorewall-route_rules
(5) or shorewall-tcrules
(5).Example (send all traffic through the 'shorewall' provider unless
otherwise directed)./etc/shorewall/providers:#NAME NUMBER MARK DUPLICATE INTERFACE GATEWAY OPTIONS
linksys 1 1 - wlan0 172.20.1.1 track,balance=1,optional
shorewall 2 2 - eth0 192.168.1.254 track,balance=2,optional/etc/shorewall/route_rules:#SOURCE DEST PROVIDER PRIORITY
- - shorewall 11999Gateway Monitoring and FailoverThere are a couple of options available for monitoring the status
of provider links and taking action when a failure occurs.SWPINGBeginning with Shorewall 4.2.6, Shorewall includes a sample
monitoring script swping. The
swping file is available in the main directory
contained in the Shorewall-common tarball and is included in the
Shorewall-common documentation directory on the Shorewall-common RPM.
The script is inspired by Angsuman Chakraborty's gwping
script.For those not on 4.2.6 yet, the script may be downloaded from
http://www.shorewall.net/pub/shorewall/contrib/MultiISP-failover/.These samples are offered as is — they
work for me but I don't make any claim that they will work for
anyone else. But if you have a need for automated link monitoring,
they offer you a place to start.The script should be copied to a directory on root's PATH such
as /usr/local/sbin/.The script works by sending pings to target
IP addresses through each external interface. These targets must not
depend on any routes other than those that are present in the main
routing table. That ensures that a route is available to the target
even when the target's interface is not working and Shorewall has
omitted it from the routing configuration. An interface is assumed to
be up when a specified number (UP_COUNT) of
consecutive ping operations succeed. Similarly, an interface is
assumed to be down when a specified number
(DOWN_COUNT) of consecutive ping operations fail. You can specify the
interval between pings (PING_INTERVAL).The script monitors two interfaces but it is a trivial exercise
to extend it to more than two. At the top are a number of variables to
set:#
# IP family -- 4 or 6
#
FAMILY=4
#
# The commands to run when the status of a line changes. Multiple commands may be specified
# when separated by semicolons (";")
#
COMMAND=
...
#
# Interfaces to monitor -- you may use shell variables from your params file
#
IF1=eth0
IF2=eth1
#
# Sites to Ping. Must depend only on routes in the 'main' routing table. If not specified,
# the interface is assumed to be managed by dhcpcd and the script uses the gateway address
# from /var/lib/dhcpcd/dhcpcd-${IFx}.info
#
TARGET1=
TARGET2=
#
# How often to ping
#
PING_INTERVAL=5
#
# Value for ping's -W option
#
PING_TIMEOUT=2
#
# This many successive pings must succeed for the interface to be marked up when it is down
#
UP_COUNT=5
#
# This many successive pings must fail for the interface to be marked down when it is up
#
DOWN_COUNT=2If you leave COMMAND empty, the script sets its value
automatically depending on whether Shorewall-lite is installed.When the status of an interface changes:For each interface, a file is placed in /etc/shorewall to
record the status of the interface: either 0 (UP) or 1 (DOWN). The
name of the file is
interface.status
where interface is the interface (e.g.,
eth0.status).A shorewall -f restart command is
executed (shorewall-lite restart, if
Shorewall-lite is installed).The contents of the main routing table are displayed.The .status files are intended to be used with the following
/etc/shorewall/isusable script.local status=0
case $1 in
eth0|eth1)
[ -f /etc/shorewall/${1}.status ] && status=$(cat /etc/shorewall/${1}.status)
;;
esac
return $statusBe sure that you modify the interface names to match your
configuration.Also included is a sample init script
(swping.init) to start the monitoring daemon.
Copy it to /etc/init.d/swping and use your
distribution's SysV init tools to cause it to be run at boot. It works
on OpenSuSE 11.0 -- YMMV. Modify the PROG and
STATEDIR variables as needed.As an alternative to using the init script, you can add the
following to /etc/shorewall/started:if [ "$COMMAND" = start ]; then
killall -9 swping 2> /dev/null #be sure that there are none left running
/usr/local/sbin/swping &
fiand add this to
/etc/shorewall/stopped.if [ "$COMMAND" = stop -o "$COMMAND" = clear ]; then
killall -9 swping 2> /dev/null
fiThis simple script has a number of limitations:It only works on IPv4 or IPv6 but not both at once. So if
you want to monitor both IPv4 and IPv6, you need to clone the
script are run two copies; one for IPv4 and one for IPv6.It can only detect the gateway for interfaces managed by
dhcpcd.It's method of determining whether an interface is up or
down is crude. You will normally specify the default gateway for
each provider as the sites to ping and being able to ping the
default gateway is not a surefire indication that the provider is
usable. The method of determining whether a site is up or down is
also crude.Because of the crudeness of the algorithm, hysteresis may
occur.It is tricky to configure a system such that the system
works correctly when one of its providers is down unless you
largely don't care which interface is used.Link Status Monitor (LSM)Link Status Monitor
was written by Mika Ilmaranta <ilmis at nullnet.fi> and performs
more sophisticated monitoring than the simple swping script described
in the preceding section.I personally use LSM here at shorewall.net (configuration is
described below). Here are my relevant
configuration files:/etc/shorewall/isusable:local status
status=0
case $1 in
eth0|eth3)
[ -f /etc/shorewall/${1}.status ] && status=$(cat /etc/shorewall/${1}.status)
;;
esac
return $status/etc/shorewall/started:###############################################################################
# My 'restored' script calls this one if there is no lsm process running
###############################################################################
if [ "$COMMAND" = start -o "$COMMAND" = restore ]; then
killproc lsm 2> /dev/null
cat <<EOF > /etc/lsm/shorewall.conf
connection {
name=Avvanta
checkip=206.124.146.254
device=eth0
ttl=2
}
connection {
name=Comcast
checkip=$ETH3_GATEWAY
device=eth3
ttl=1
}
EOF
rm -f /etc/shorewall/*.status
/usr/sbin/lsm /etc/lsm/lsm.conf >> /var/log/lsm
fieth3 has a dynamic IP address so I need to use the
Shorewall-detected gateway address ($ETH3_GATEWAY)./etc/shorewall/restored:if [ -z "$(ps ax | grep 'lsm ' | grep -v 'grep ' )" ]; then
run_started_exit
fi/etc/lsm/lsm.conf:#
# Defaults for the connection entries
#
defaults {
name=defaults
checkip=127.0.0.1
eventscript=/etc/lsm/script
max_packet_loss=20
max_successive_pkts_lost=7
min_packet_loss=5
min_successive_pkts_rcvd=10
interval_ms=2000
timeout_ms=2000
warn_email=teastep@shorewall.net
check_arp=0
sourceip=
device=eth0
ttl=64
}
include /etc/lsm/shorewall.conf/etc/lsm/script#!/bin/sh
#
# (C) 2009 Mika Ilmaranta <ilmis@nullnet.fi>
# (C) 2009 Tom Eastep <teastep@shorewall.net>
#
# License: GPLv2
#
STATE=${1}
NAME=${2}
CHECKIP=${3}
DEVICE=${4}
WARN_EMAIL=${5}
REPLIED=${6}
WAITING=${7}
TIMEOUT=${8}
REPLY_LATE=${9}
CONS_RCVD=${10}
CONS_WAIT=${11}
CONS_MISS=${12}
AVG_RTT=${13}
cat <<EOM | mail -s "${NAME} ${STATE}, DEV ${DEVICE}" ${WARN_EMAIL}
Hi,
Connection ${NAME} is now ${STATE}.
Following parameters were passed:
newstate = ${STATE}
name = ${NAME}
checkip = ${CHECKIP}
device = ${DEVICE}
warn_email = ${WARN_EMAIL}
Packet counters:
replied = ${REPLIED} packets replied
waiting = ${WAITING} packets waiting for reply
timeout = ${TIMEOUT} packets that have timed out (= packet loss)
reply_late = ${REPLY_LATE} packets that received a reply after timeout
cons_rcvd = ${CONS_RCVD} consecutively received replies in sequence
cons_wait = ${CONS_WAIT} consecutive packets waiting for reply
cons_miss = ${CONS_MISS} consecutive packets that have timed out
avg_rtt = ${AVG_RTT} average rtt, notice that waiting and timed out packets have rtt = 0 when calculating this
Your LSM Daemon
EOM
[ ${STATE} = up ] && state=0 || state=1
echo $state > /etc/shorewall/${DEVICE}.status
/sbin/shorewall -f restart >> /var/log/lsm 2>&1
/sbin/shorewall show routing >> /var/log/lsm
exit 0;
#EOF:Two Providers Sharing an InterfaceShared interface support is available only in Shorewall-perl 4.2.0
and later.Only Ethernet (or Ethernet-like) interfaces can be used. For
inbound traffic, the MAC addresses of the gateway routers are used
to determine which provider a packet was received through. Note that
only routed traffic can be categorized using this technique.You must specify the address on the interface that corresponds
to a particular provider in the INTERFACE column by following the
interface name with a colon (":") and the address.Entries in /etc/shorewall/masq must be
qualified by the provider name (or number).This feature requires Realm Match support in your kernel and
iptables.You must add route_rules entries for networks that are
accessed through a particular provider.If you have additional IP addresses through either provider,
you must add route_rules to direct traffic FROM
each of those addresses through the appropriate provider.You must manually add MARK rules for traffic known to come
from each provider.You must specify a gateway IP address in the GATEWAY column
of /etc/shorewall/providers; detect is not permitted.Taken together, b. and h. effectively preclude using this
technique with dynamic IP addresses.Example:This is our home network circa fall 2008. We have two Internet
providers:Comcast -- Cable modem with one dynamic IP address.Avvanta -- ADSL with 5 static IP addresses.Because the old CompaqPresario that I use for a firewall only has three
PCI slots and no onboard Ethernet, it doesn't have enough Ethernet
controllers to support both providers. So I use a Linksys WRT300n pre-N
router as a gateway to Comcast. Note that because the Comcast IP address
is dynamic, I could not share a single firewall interface between the
two providers directly.On my personal laptop (ursa), I have 9 virtual machines running
various Linux distributions. It is the Shorewall configuration
on ursa that I will describe here.Below is a diagram of our network:The local wired network in my office is connected to both gateways
and uses the private (RFC 1918) network 172.20.1.0/24. The Comcast
gateway has local IP address 172.20.1.1 while the Avvanta gateway has
local IP address 172.20.1.254. Ursa's eth0 interface has a single IP
address (172.20.1.130).This configuration uses USE_DEFAULT_RT=Yes in
shorewall.conf (see above).Here is the providers file:#NAME NUMBER MARK DUPLICATE INTERFACE GATEWAY OPTIONS COPY
comcast 1 1 - eth0:172.20.1.130 172.20.1.1 track,loose,balance,optional
avvanta 2 2 - eth0:172.20.1.130 172.20.1.254 track,optional,loose
wireless 3 3 - wlan0 172.20.1.1 track,optionalSeveral things to note:172.20.1.130 is specified as the eth0 IP address for both
providers.Both wired providers have the loose option. This prevents Shorewall from
automatically generating routing rules based on the source IP
address.Only comcast has the
balance option. With
USE_DEFAULT_RT=yes, that means that comcast will be the default provider. While
balance is the default, with
USE_DEFAULT_RT=Yes, it must be specified explicitly when loose is also specified.I always disable the wireless
interface when the laptop is connected to the wired network.I use a different Shorewall configuration when I take the
laptop on the road.Here is the route_rules file:#SOURCE DEST PROVIDER PRIORITY
- 206.124.146.176/31 avvanta 1000
- 206.124.146.178/31 avvanta 1000
- 206.124.146.180/32 avvanta 1000Those rules direct traffic to the five static Avvanta IP addresses
(only two are currently used) through the avvanta provider.Here is the tcrules file (MARK_IN_FORWARD_CHAIN=No in
shorewall.conf):#MARK SOURCE DEST PROTO PORT(S) CLIENT USER TEST LENGTH TOS CONNBYTES HELPER
# PORT(S)
2 $FW 0.0.0.0/0 tcp 21
2 $FW 0.0.0.0/0 tcp - - - - - - - ftp
2 $FW 0.0.0.0/0 tcp 119These rules:Use avvanta for FTP.Use avvanta for NTTPThe remaining files are for a rather standard two-interface config
with a bridge as the local interface.zones:#ZONE IPSEC OPTIONS IN OUT
# ONLY OPTIONS OPTIONS
fw firewall
net ipv4
kvm ipv4policy:net net NONE
fw net ACCEPT
fw kvm ACCEPT
kvm all ACCEPT
net all DROP info
all all REJECT infointerfaces:#ZONE INTERFACE BROADCAST OPTIONS GATEWAY
#
net eth0 detect dhcp,tcpflags,routefilter,blacklist,logmartians,optional,arp_ignore
net wlan0 detect dhcp,tcpflags,routefilter,blacklist,logmartians,optional
kvm br0 detect routeback #Virtual Machineswlan0 is the wireless
adapter in the notebook. Used when the laptop is in our home but not
connected to the wired network.masq:#INTERFACE SUBNET ADDRESS PROTO PORT(S) IPSEC
eth0 192.168.0.0/24
wlan0 192.168.0.0/24Because the firewall has only a single external IP address, I
don't need to specify the providers in the masq rules.A Complete Working ExampleThis section describes the network at shorewall.net early in 2009.
The configuration is as follows:Two providers:Avvanta -- A slow (1.5mb/384kb) DSL service with 5 static IP
addresses.Comcast -- A fast (20mb/10mb) Cable circuit with a single
dynamic address.A local network consisting of wired and wireless client systems.
A Linksys WRT300N wireless router is used as an access point for the
wireless hosts.A DMZ hosting a single server (lists.shorewall.net aka
www1.shorewall.net, ftp1.shorewall.net,etc.)The network is pictured in the following diagram:Because of the speed of the cable provider, all traffic uses that
provider unless there is a specific need for the traffic to use the DSL
line.Responses to connections from the Internet to one of the DSL IP
addresses -- the track option takes
care of that.Connections initiated by the server and connections requested by
clients on the firewall that have bound their local socket to one of
the DSL IP addresses. Two entries in
/etc/shorewall/route_rules take care of that
traffic.As a consequence, I have disabled all route filtering on the
firewall and only use the balance option
in /etc/shorewall/providers on the Comcast provider
whose default route in the main table is established by DHCP. By
specifying the fallback option on
Avvanta, I ensure that there is still a default route if Comcast is down.
lsm is used to monitor the links./etc/sysctl.conf:net.ipv4.conf.all.rp_filter = 0/etc/shorewall/shorewall.conf:ROUTE_FILTER=No
RESTORE_DEFAULT_ROUTE=NoThe RESTORE_DEFAULT_ROUTE option was added in Shorewall-perl 4.2.6
and causes the default route in the main table to be deleted when the
Comcast link is unavailable. That way, the default route in the default
table will be used until Comcast is available again./etc/shorewall/providers:#NAME NUMBER MARK DUPLICATE INTERFACE GATEWAY OPTIONS COPY
Avvanta 1 0x100 main eth0 206.124.146.254 track,loose,fallback eth2,eth4,tun*
Comcast 2 0x200 main eth3 detect track,balance eth2,eth4,tun*
#LAST LINE -- ADD YOUR ENTRIES ABOVE THIS LINE -- DO NOT REMOVEThe loose option on Avvanta results
in fewer routing rules. The first two routing rules below insure that all
traffic from Avvanta-assigned IP addresses is sent via the Avvanta
provider. The 'tun*' included in the COPY column is there because I run a
routed OpenVPN server on the firewall./etc/shorewall/route_rules:#SOURCE DEST PROVIDER PRIORITY
- 172.20.0.0/24 main 1000 # Addresses assigned by routed OpenVPN server
206.124.146.176/30 - Avvanta 26000
206.124.146.180 - Avvanta 26000
- 216.168.3.44 Avvanta 26000 # Avvanta NNTP Server -- verifies source IP address
#LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVEThe /etc/shorewall/route_rules entries provide
all of the provider selection necessary so my
/etc/shorewall/tcrules file is used exclusively for
traffic shaping of the Avvanta line. Note that I still need to provide
values in the MARK colum of /etc/shorewall/providers
because I specify track on both
providers.Here is the output of shorewall show
routing:Routing Rules
0: from all lookup local
1000: from all to 172.20.0.0/24 lookup main
10000: from all fwmark 0x100 lookup Avvanta
10001: from all fwmark 0x200 lookup Comcast
20256: from 71.227.156.229 lookup Comcast
26000: from 206.124.146.176/30 lookup Avvanta
26000: from 206.124.146.180 lookup Avvanta
26000: from all to 216.168.3.44 lookup Avvanta
32766: from all lookup main
32767: from all lookup default
Table Avvanta:
206.124.146.254 dev eth0 scope link src 206.124.146.176
206.124.146.177 dev eth4 scope link
172.20.1.0/24 dev eth2 proto kernel scope link src 172.20.1.254
206.124.146.0/24 dev eth0 proto kernel scope link src 206.124.146.176
169.254.0.0/16 dev eth0 scope link
default via 206.124.146.254 dev eth0 src 206.124.146.176
Table Comcast:
206.124.146.177 dev eth4 scope link
71.227.156.1 dev eth3 scope link src 71.227.156.229
172.20.1.0/24 dev eth2 proto kernel scope link src 172.20.1.254
71.227.156.0/23 dev eth3 proto kernel scope link src 71.227.156.229
default via 71.227.156.1 dev eth3 src 71.227.156.229
Table default:
default via 206.124.146.254 dev eth0 metric 1
Table local:
broadcast 127.255.255.255 dev lo proto kernel scope link src 127.0.0.1
broadcast 172.20.1.0 dev eth2 proto kernel scope link src 172.20.1.254
broadcast 206.124.146.255 dev eth0 proto kernel scope link src 206.124.146.176
local 206.124.146.179 dev eth0 proto kernel scope host src 206.124.146.176
local 206.124.146.178 dev eth0 proto kernel scope host src 206.124.146.176
local 206.124.146.176 dev eth0 proto kernel scope host src 206.124.146.176
local 206.124.146.176 dev eth4 proto kernel scope host src 206.124.146.176
broadcast 71.227.157.255 dev eth3 proto kernel scope link src 71.227.156.229
broadcast 71.227.156.0 dev eth3 proto kernel scope link src 71.227.156.229
local 172.20.1.254 dev eth2 proto kernel scope host src 172.20.1.254
local 127.0.0.2 dev lo proto kernel scope host src 127.0.0.1
broadcast 172.20.1.255 dev eth2 proto kernel scope link src 172.20.1.254
local 71.227.156.229 dev eth3 proto kernel scope host src 71.227.156.229
broadcast 206.124.146.0 dev eth0 proto kernel scope link src 206.124.146.176
broadcast 127.0.0.0 dev lo proto kernel scope link src 127.0.0.1
local 206.124.146.180 dev eth0 proto kernel scope host src 206.124.146.176
local 127.0.0.1 dev lo proto kernel scope host src 127.0.0.1
local 127.0.0.0/8 dev lo proto kernel scope host src 127.0.0.1
Table main:
206.124.146.177 dev eth4 scope link
172.20.1.0/24 dev eth2 proto kernel scope link src 172.20.1.254
206.124.146.0/24 dev eth0 proto kernel scope link src 206.124.146.176
71.227.156.0/23 dev eth3 proto kernel scope link src 71.227.156.229
169.254.0.0/16 dev eth0 scope link
127.0.0.0/8 dev lo scope link
default via 71.227.156.1 dev eth3 /etc/shorewall/interfaces:#ZONE INTERFACE BROADCAST OPTIONS
loc eth2 detect dhcp,routeback
dmz eth4 detect
net eth0 detect dhcp,blacklist,tcpflags,optional
net eth3 detect dhcp,blacklist,tcpflags,optional
#LAST LINE -- ADD YOUR ENTRIES BEFORE THIS ONE -- DO NOT REMOVE/etc/shorewall/masq:#INTERFACE SOURCE ADDRESS PROTO PORT(S) IPSEC
COMMENT Masquerade Local Network
eth3 0.0.0.0/0
eth0 !206.124.146.0/24 206.124.146.179
#LAST LINE -- ADD YOUR ENTRIES ABOVE THIS LINE -- DO NOT REMOVEAll traffic leaving eth3 must use the dynamic IP address assigned to
that interface as the SOURCE address. All traffic leaving eth0 that does
not have a SOURCE address falling within the Avvanta subnet
(206.124.146.0/24) must have its SOURCE address changed to
206.124.146.179.