mwan3 (Load balancing/failover with multiple WAN interfaces)

  • 22.03: Latest release: 2.11.1
  • 21.02: Latest release: 2.10.13-1
  • 19.07: Latest release: 2.8.16-1
  • 18.06 or older: No longer supported or maintained.

The mwan3 package provides the following functionality and capabilities:

  • Outbound WAN traffic load balancing or fail-over with multiple WAN interfaces based on a numeric weight assignment
  • Monitors each WAN connection using repeated tests and can automatically route outbound traffic to another WAN interface if the first WAN interface loses connectivity
  • Creating outbound traffic rules to customize which outbound connections should use which WAN interface (policy based routing). This can be customised based on source IP, destination IP, source port(s), destination port(s), type of IP protocol etc
  • Physical and/or logical WAN interfaces are supported
  • The firewall mask (default 0x3F00) which is used to mark outgoing traffic can be configured in the /etc/config/mwan3 globals section. This is useful if you also use other packages (nodogsplash) which use the firewall masking feature. This value is also used to set how many interfaces are supported.
  • If you have multiple internet connections and you want to control what traffic goes through which specific WAN interface.
  • Mwan3 can handle multiple levels of primary and backup interfaces, load-balanced or not. Different sources can have different primary or backup WANs.
  • Mwan3 uses netfilter mark mask to be compatible with other packages (such as OpenVPN, PPTP VPN, QoS-script, Tunnels, etc) as you can configure traffic to use the default routing table.
  • Mwan3 can also load-balance traffic originating from the router itself
  • mwan3 uses normal Linux policy routing to balance outgoing traffic over multiple WAN connections
  • Linux outgoing network traffic load-balancing is performed on a per-IP connection basis – it is not channel-bonding, where a single connection (e.g. a single download) will use multiple WAN connections simultaneously
  • As such load-balancing will help speed multiple separate downloads or traffic generated from a group of source PCs all accessing different sites but it will not speed up a single download from one PC (unless the download is spread across multiple IP streams such as by using a download manager)
  • mwan3 is triggered by hotplug-events. When an interface comes up, it creates a custom routing table and iptables rules. A new routing table is created for each interface. It then sets up iptables rules and uses iptables MARK to mark certain traffic. Based on these rules, the kernel determines which routing table to use. When an interface goes down, mwan3 deletes all the rules and routes to that interface.
  • Once all the routes and rules are initially set up, mwan3 exits. The kernel takes care of all the routing decisions. If a new interface hotplug event occurs, mwan3 will run again to adjust route and tables as needed.
  • A monitoring script (mwan3track) runs in the background checking if each WAN interface is up using a connectivity test (default is ping). If an interface goes down, the script issues a hotplug event to cause mwan3 to adjust the routing tables of the interface that has gone down.
  • Any routing table changes are constantly monitored by an another component (mwan3rtmon) which is responsible for keeping the main routing table in sync with the interface routing tables.

The following steps are taken to route a packet with mwan3:

Every incoming packet (this includes router originated traffic) is handled by the iptables mwan3_hook. This hook takes 5 steps:

  1. Restore mark if previous set. If successful marked, goto step 5.
  2. Check if the packet arrives on a wan interface. If originated from a local connected ip network, then mark packet with default iface_id. If the packet is from another (non-local) network and arrives on wan interface, then mark it with iface_id. If successful marked, goto step 5.
  3. Check if packet destined for a known ip network (has a route for it other than default). If so then mark packet with default iface_id and goto step 5.
  4. Check if packet source address is that of a wan interface. If so use that wan interface for routing regardless of user defined rules and mark packet with iface_id of corresponding wan.
  5. Apply user rules and mark with configured iface_id. If no match leave unmarked.
  6. If marked then save mark.

Remember that iptables only marks the packet, it does not make routing decisions. Next in line are the ip rules. In following order they are:

  1. Ip rules 1001 till 1250 are for wan interface 1 till 250 respectively. This rule says: If packet is incoming from wan interface use main routing table, regardless of mark.
  2. Ip rules 2001 till 2250 are for wan interface 1 till 250 respectively. This rule says: If packet is marked with iface_id [1-252], use the corresponding wan interface routing table.
  3. Ip rule 2253 is a blackhole rule. This rule states: If packet is marked with iface_id 253 (blackhole), silently drop packet.
  4. Ip rule 2254 is a blackhole/unreachable rule. This rule states: If packet is marked with iface_id 254 (unreachable), drop packet and return icmp unreachable.

Next up are the routing tables. These are really simple. There is just the standard main routing table and one routing table containing one gateway for each wan interface. Route table 1 for the first wan, route table 2 for the second and so on. Hopes this make troubleshooting easier.

Using mwan3 with IPv6 requires additional configuration such as IPv6 masquerading through methods like NETMAP or NAT6. This is currently not implemented in mwan3 directly and requires additional configuration.

mwan3 does support IPv6 interfaces, but there are few guidelines you need to follow in order to configure IPv6 with mwan3.

  • Where possible you should use the latest version of mwan3 available from the package repository for your router. Continuous improvements are being made regularly to mwan3 in relation to IPv6 support and other areas.
  • If your IPv6 is using a tunnel type connection such as 6in4 or Wireguard, you are strongly advised to be using OpenWrt 19.07.5 and above or a recent snapshot build which has important kernel patches that fix issues with ping which affects the mwan3track component.
  • You will need to split your network interfaces if they are dual-stack. i.e. wan and wan6, wanb and wanb6 etc. You can create alias interfaces to achieve this requirement. You would then define each interface in mwan3 with the address family of either ipv4 or ipv6 and create a member profile for each to be used in policies assigned to your rules so IPv4 and IPv6 traffic is handled. mwan3 cannot currently handle IPv4 and IPv6 on a single interface.
  • You will likely need to implement some form of IPv6 masquerading such as NETMAP or NAT6 for mwan3 to work properly across multiple WAN interfaces.

NAT6 is potentially a controversial suggestion for many, but realistically without BGP, it is often required for IPv6 multihoming. Currently mwan3 does not implement any IPv6 masquerading as part of it's configuration. This is something that needs to be configured outside of mwan3 itself.

The default configuration that ships with mwan3 provides an example configuration of having two WAN interfaces with dual-stack connectivity (note that the second example interface is not enabled by default). This is a good template to start with if you wish to explore routing IPv6 with mwan3.

Preventing IPv6 rules

You can prevent mwan3 from trying to route IPv6 traffic by declaring option family 'ipv4' on all rules and removing the default IPv6 rule. This will prevent any mwan3 IPv6 routing rules being created in ip6tables. You should also add option last_resort 'default' on your policies to fall back to the main routing table to allow IPv6 traffic (if present). However, doing this means your IPv6 traffic cannot be balanced or fail over if not handled by mwan3.

Ensure no other multiple WAN or policy routing packages are installed such as multiwan. Having multiwan installed at the same time as mwan3 is known not to work and is an obsolete package. Equally make sure you aren't using an other package that makes use of the same firewall mask value mwan3 uses as this will cause conflicts. The firewall mask value used by mwan3 is able to be changed in the configuration to avoid this problem.

Using the latest stable branch build is recommended as this is actively supported and maintained.

The old stable 19.07 branch should also work but it has an older version of mwan3 which does not include some newer features and fixes. It was also discovered there were a few 4.14 kernel issues that affect certain network configurations which can cause problems for mwan3. This has been resolved by a specific kernel patch related to netfilter. These patches help fix issues with tunnel based network connections like 6in4, P2TP, PPPoE, Wireguard etc. This kernel patch is only present in 19.07.5 and above, so it is recommended to use at least this version if using 19.07.

Older branches before 19.07 are no longer supported.

You can find the current open issues for mwan3 on the OpenWrt packages repository. User feedback is welcome to help with identifying bugs and issues found with different network setups. Features requests or contributions are also welcome!

Any router that is officially supported by OpenWrt should be suitable to run mwan3. Preferably using a supported router with working VLAN support would be recommended. This is because the simplest way to create additional WAN interfaces is to use VLANs by putting individual LAN switch ports into their own VLAN, thus each becoming separate interfaces.

Check the table of hardware list and device page for details on your router to confirm what is supported.

Single WAN Port

If having LAN ports repurposed as WAN ports is not possible, it is also possible create virtual eths with kmod-macvlan.

opkg update
opkg install kmod-macvlan

Here is a basic example of creating virtual eth interfaces.

config device 'veth5'
    option name 'veth5'
    option type 'macvlan'
    option ifname 'eth1'
config device 'veth7'
    option name 'veth7'
    option type 'macvlan'
    option ifname 'eth1'

You will need a minimum of two WAN interfaces for mwan3 to work effectively. While mwan3 is primarily designed for physical and independent WAN connections it can also be used with logical interfaces like OpenVPN or Wireguard.

The simplest way to create more WAN interfaces is to have a VLAN-capable router. This will allow you to convert existing LAN ports into individual ports to become its own separate interface and act as a WAN.

Here is the general procedure using LuCI to create a new VLAN and assign a single port to it in order to create a second WAN interface.

Routers using swconfig

  1. Go to Network > Switch
  2. Remove a single physical port from the default VLAN 1; this port will be the new physical WANB port
    1. Assign the port to a new VLAN number such as 3 and set the port to be untagged in this single new VLAN and off in all other VLANs (note this VLAN, as with all VLANs, should also include the built-in CPU port as a tagged member, so there are a total of two ports in the new VLAN)
    2. Reboot the router for the new VLAN interface to become active (e.g. eth0.3 for what will be the new WANB interface)
  3. Go to Network > Interfaces and add a new interface name for the new eth0.x adapter
    1. Name the new VLAN physical interface “wanb”
    2. Configure the new wanb interface IP details
    3. Assign the new wanb interface to the wan firewall zone

For routers that have more than one CPU, make sure to only tag one of the CPUs for any new VLAN created. One methodology for dual-CPU routers is that CPU1 will often be assigned to the built in WAN port, and you can tag CPU0 for any VLANs you wish to create.

Routers using Distributed Switch Architecture (DSA)

From 21.02 onwards some targets will use DSA which is different and not compatible with the instructions for swconfig. You can find a converting to DSA guide for additional guidance for switch/VLAN management for router targets using DSA.

  1. Go to Network > Interfaces and select the Devices tab. Click configure on the br-lan device.
    1. Remove a lan port from the switch bridge ports option by selecting the menu and unchecking a switch port such as “lan1”. This port will become it's own WAN port.
    2. Apply these changes to remove the selected LAN port from the LAN bridge.
  2. While still on the Devices page, scroll down and click the “Add device configuration”
    1. For device type select “VLAN (802.1q)”
    2. For base device select the lan port e.g. lan1 which was removed from the LAN bridge earlier.
    3. Assign the desired VLAN ID for this device.
    4. Save the changes and apply.
  3. Go to Network > Interfaces and “Add new interface”
    1. Give the interface a name such as “wanb”
    2. Select whatever protocol is required for this interface DHCP, PPPoE etc. For device select the lan port you removed from br-lan earlier.
    3. Assign the new interface to the wan firewall zone
    4. Apply any remaining changes.

Note for PPPoE WAN interfaces: If you are using PPPoE for multiple ADSL lines from the same company or provider, you may need to use option macaddr 'XX:XX:XX:XX:XX:XX' to give each interface a unique MAC. A symptom of not doing is that the ISP will drop the connection on one line when another connects with the same (default) MAC.

If you are using a newer release branch build of OpenWrt after 18.06, this step is not necessary anymore. Router initiated traffic is also load-balanced and can fail-over correctly. A new service mwan3rtmon was added by Chen Minqiang. The service is responsible for syncing the main routing table with the interface routing tables. Also as inbound traffic has no dedicated firewall tables anymore. This is now working out of the box without any workarounds needed.

On routers with just one WAN interface (and one default route), there is no issue on which source address to use for new initiated sessions. But with two or more wWAN interfaces you may wish to have control over this. Up until version 2.0, mwan3 did not respect the already set source address of router originated packets. Packets were load-balanced regardless of source address, based on configured user rules.

As of version 2.0 mwan3 does respect the already set source address. The advantage of this is that an applications can have control over which WAN interface to use. The downside of this is that when an application does not specify which source address to use (most of the time) the kernel will pick a source address based on the routing table. In practice this means the default route with the lowest metric is used to determine which source address to use. So if you don't configure a routable loopback address with corresponding more preferred default route, all traffic originating from the router itself will leave the primary WAN with the source address of that wan interface, regardless of configured user mwan3 rules.

This however only effects router initiated traffic. Traffic from LAN clients will always be balanced based on mwan3 configured rules even if no routable loopback address is configured.

Configuring a routable loopback (lede-17.01):

Add the following interface to /etc/config/network.

config interface 'self'
	option ifname 'lo'
	option proto 'static'
	option ipaddr ''
	option netmask ''
	option gateway ''

After this all traffic originating from router itself (if no more specific route is found) will have source address of (before NAT).

Extra advantage is that configuring mwan3 rules for router only traffic is much easier.

Configuring a routable loopback (openwrt-18.06):

You have to add into “/etc/config/mwan3” the option “local_source”. The value must be one of the interfaces in /etc/config/network. Normally this would be lan.

config globals 'globals'
	option local_source 'lan'
	option mmx_mask '0x3F00'

After this all traffic originating from router itself (if no more specific route is found) will have source address of the lan interface (before NAT).

The address will be configured to the loopback interface lo by netifd on the *ifup/ifdown* hotplug script.

Extra advantage is that configuring mwan3 rules for router only traffic is much easier.

Before doing anything with mwan3 (installing or configuring), ensure that each WAN interface is working and that the default routing table is correctly configured for each WAN connection. Test each interface with a manual ping before installing mwan3! It is strongly recommended to do some pre-configuration and test your connectivity for each WAN interface prior to enabling mwan3, this will help with troubleshooting and ensure your WAN interfaces are correctly configured before using mwan3.

Configure a different metric for each WAN interface

This is an important step and is compulsory. Time and time again fail to configure this and have a none working setup.

  • You must configure each WAN interface with a different routing metric. This metric will only have an effect on the default routing table, not on the mwan3 routing tables.
  • The default (primary) WAN interface should have the lowest metric (e.g. 10) and each additional WAN interface a higher metric (e.g. 20, 30, etc.). Values are not important, but should always be unique.
  • Every WAN interface should have a default gateway configured.

Note: PPPoE connections only show the “Use gateway metric” option if “Use default gateway” option is enabled.

WAN setting

WAN is the default wan interface in this example, and so will get a metric of 10.

  • Network > Interfaces
    • WAN > Edit
      • Advanced Settings
  • Use default gateway: enabled
  • Use gateway metric: 10
    • Save & Apply

WANB setting

WANB is the second wan interface in this example, and so will get the a metric of 20.

  • Network > Interfaces
    • wanb > Edit
      • Advanced Settings
  • Use default gateway: enabled
  • Use gateway metric: 20
    • Save & Apply

Verify the routing table

If configured correctly, you should have a default gateway (the lines with a target address of with a unique metric set for each WAN interface. For example:

# ip route show
default via dev eth1  proto static  src  metric 10 
default via dev eth2  proto static  src  metric 20

Ensure that every WAN interface has a gateway IP and metric defined! This is very important as otherwise mwan3 will likely not work!

Check that each WAN interfaces works by trying to ping out from each interface. Ensure all interfaces are correctly sending and receiving traffic before proceeding.

Test the WAN connection

  • WAN is hardware interface eth0.1 in this example:
# ping -c 1 -I eth0.1
PING ( 56 data bytes
64 bytes from seq=0 ttl=54 time=19.637 ms
--- ping statistics ---
1 packets transmitted, 1 packets received, 0% packet loss
round-trip min/avg/max = 19.637/19.637/19.637 ms
  • Ensure the single ping is successful on this interface (“1 packets transmitted, 1 packets received, 0% packet loss” should be displayed)

Test the WANB connection

  • WANB is hardware interface eth0.2 in this example:
# ping -c 1 -I eth0.2
PING ( 56 data bytes
64 bytes from seq=0 ttl=56 time=25.552 ms
--- ping statistics ---
1 packets transmitted, 1 packets received, 0% packet loss
round-trip min/avg/max = 25.552/25.552/25.552 ms
  • Ensure the single ping is successful on this interface (“1 packets transmitted, 1 packets received, 0% packet loss” should be displayed)

Test all other WAN connections

  • Repeat as above to ensure every WAN connection that has been created is working

When implementing mwan3 you may experience issues with your ISPs DNS or email services depending your setup. This is due to many ISPs configuring their DNS/email servers to only allow source IP addresses within their network. Any attempts to use such services from “unknown” IP addresses will likely result in the traffic being dropped due to the source address not matching the ISP network.

ISP DNS resolvers

For DNS, you can either use public open DNS resolvers outside of your ISP network to avoid this problem, or alternatively implement a specific rule in mwan3 to make sure DNS traffic goes over the right WAN interface for such requests. An example rule in mwan3 could be:

config rule 'example_dns_wan'
	option dest_ip ','
	option family 'ipv4'
	option use_policy 'wan_only'

Here I am using Virgin Media UK as the example ISP. Their DNS resolvers are and Any request to these destination IPs are made to use the specific WAN interface this connection goes through, in order for the traffic to correctly traverse the right WAN. You could adapt this rule to be more specific with UDP and port 53, however for easy debugging, this would also work for traceroute, ping etc. The disadvantage to having such a rule however is this traffic can not be load balanced or failover, given a specific WAN policy has been set. Using public DNS resolvers would be the best solution to maintain this, unless you really need to have your ISPs DNS working for your configuration.

ISP mail servers

In a similar fashion to DNS. An ISP mail server will typically only accept POP3/IMAP/SMTP traffic from IP addresses within their network and block any attempt of sending mail from unknown IP addresses. You will have to ensure mail traffic goes through the right interface as well:

config rule 'example_mail_wan'
	option dest_ip ''
	option family 'ipv4'
	option use_policy 'wan_only'

This is the IP of, you may need to add more IP addresses in order to cover IMAP, POP3 and other SMTP servers if used. You could also add use the proto and dest_port on rules to limit it to mail related ports.

On the command line (SSH)

opkg update
opkg install mwan3
opkg install luci-app-mwan3

luci-app-mwan3 is optional, if you don't wish to manage rules through LuCI.

On the web interface (LuCI)

  • Go to System → Software
    • click “Update lists” to get the latest package databases
    • In the “Download and install package:” box, enter “luci-app-mwan3” and click OK to download and install the luci-app-mwan3 package and all related packages, including mwan3 itself and all dependencies.

To ensure the new menu item for mwan3 appears, logout of your existing session and restart the service hosting the LuCI interface i.e. uhttpd or just reboot the router.

  • Go to System > Startup
    • click the “Restart” button next to the process running LuCI i.e. uhttpd, nginx etc.
    • Login into the web interface again.

A new menu entry “Network > MultiWAN Manager” should now be present. In older versions of luci-app-mwan3 this will be labelled as “Load balancing”.

If there is a newer version of mwan3 available, you can upgrade mwan3 through either opkg or LuCI.

opkg upgrade mwan3

Or through LuCI: SystemSoftwareUpdates

Your existing configuration will not be modified and instead if there any changes from the default, these will be able to be viewed in a mwan3-opkg file alongside your mwan3 configuration file in /etc/config. Occasionally there may be changes to the configuration options so it is a good idea to inspect the default configuration on upgrades to ensure your configuration has the latest changes in various sections.

The mwan3 configuration consists of five section elements, namely:

  • Globals
  • Interfaces
  • Members
  • Policies
  • Rules

Essentially the configuration can be summarised to the following. Globals are settings that apply to all of mwan3, interfaces are configured in mwan3 to be tracked and relate to the interface names present in your network configuration. For routing rules, one or more members must be defined targeting a specific interface, which in turn are assigned to a policy and a policy is assigned to one or more rules.

The globals configuration provides the following options.

Name Type Required Default Description
mmx_mask string yes 0x3F00 Firewall mask value
logging boolean no 0 Global firewall logging. This must be enabled for any rule specific logging to occur.
loglevel emerg
No notice Firewall loglevel
rtmon_interval number No 5 How often should mwan3rtmon update the interface routing table (in seconds)
:!: Deprecated since v2.9.0
rt_table_lookup number No (none) Specify an additional routing table to be scanned for connected networks

Since version 2.9.0 rtmon_interval has been deprecated and will no longer have any effect in configurations. The way routing table changes are monitored was refactored and no longer requires an interval being set.

For each WAN interface configure an interface section and define how each WAN interface is tested for up/down status. Each interface section must have a name that corresponds with the interface name in your network config. The settings are described below.

Name Type Required Default Description
Interface name string yes (none) The OpenWrt interface name as defined in /etc/config/network. Do not use interface names like pppoe-wanX
track_method ping
no ping Tracking method for mwan3track
enabled boolean no 0 Should mwan3 run on/track this interface?
track_ip list of ip addresses no (none) The host(s) to test if interface is still alive. If this value is missing the interface is always considered up
flush_conntrack list no (none) Flush global firewall conntrack table on interface events. See alerts/notifications for a list of interface events
reliability number no 1 Number of track_ip hosts that must reply for the test to be considered as successful. Ensure there are at least this many track_ip hosts defined or the interface will always be considered down
count number no 1 Number of checks to send to each host with each test
timeout seconds no 4 Number of seconds to wait for an echo-reply after an echo-request
interval seconds no 10 Number of seconds between each test
failure_interval seconds no <interval> Number of seconds between each test during teardown on failure detection
recovery_interval seconds no <interval> Number of seconds between each test during tearup on recovery detection
keep_failure_interval boolean no 0 In the event of an error, keep the number of seconds between each test during teardown (failure detection)
check_quality boolean no 0 In addition to the interface being up, the check_quality options can check the overall link quality with packet loss and/or latency measurements
failure_latency number no 1000 Maximum packet latency milliseconds when check_quality is enabled
recovery_latency number no 500 Minimum packet latency in milliseconds when check_quality is enabled
failure_loss number no 40 Maximum packet loss as a percentage when check_quality is enabled
recovery_loss number no 10 Minimum packet loss as a percentage when check_quality is enabled
initial_state online
no online If the value is offline, then traffic goes via this interface only if mwan3track checked the connection first. If the value is online, then the mwan3track test is not waited for. The Interface is marked as online immediately
family ipv4
no ipv4 The specific protocol family this interface handles
max_ttl number no 60 Time to live (TTL) or hop limit. Only valid if track_method is ping
size number no 56 Size of ping packets to use in bytes. Only valid if track_method is ping
up number no 5 Number of successful tests to considered link as alive
down number no 5 Number of failed tests to considered link as dead

In most cases the default values should work for most configurations. The primary reason to change the default settings is to shorten the time before an interface is failed-over (by reducing the ping interval and number of pings before the interface is down) or lengthen the time to avoid a false link failure report. Please note that if you change the timeout value on low bandwidth interfaces (e.g. 3G) or busy interfaces, that false positives of marking a WAN down can occur. A timeout value of less then 2 seconds is not recommended.

A typical interface section looks like this, mostly using the default values of all options described above:

config interface 'wan'
	option enabled '1'
	list track_ip ''
	list track_ip ''
	list track_ip ''
	list track_ip ''
	option family 'ipv4'

Reliable public IP addresses to ping

Below are a collection of public IPv4 and IPv6 endpoints that accept ICMP and can be used with mwan3track for tracking the connection state of interfaces. These are public DNS resolvers with high availability and generally reliable to use as endpoints to confirm network connectivity. Alternatively you can also use your ISPs DNS resolvers, but these are often limited to source networks originating from the ISP and on average can be less reliable.

DNS service IPv4 resolvers IPv6 resolvers
Level 3 communications
Google DNS
Hurricane Electric ( 2001:470:20::2

Flushing conntrack

In some cases you may need to have the global firewall conntrack table flushed on interface events such as ifup for traffic to correctly flow with mwan3 enabled. This can be achieved by adding the following option to your interface configuration.

config interface 'wan'
    option enabled '1'
    list flush_conntrack 'ifup'

This will trigger the conntrack table to be flushed on the ifup event.

It has been observed that in some cases inbound traffic can end up being routed over the wrong WAN interface. One example is inbound ICMP, but it is likely it can occur with other protocols and traffic that is inbound. If you are having problems with ICMP or port forwarding you might want to use tcpdump to inspect the traffic and investigate if this the case i.e. traffic is received but replied to over the wrong interface. As a test, you can quickly flush conntrack outside of mwan3 with conntrack -F, if this resolves the issue, configure mwan3 to flush conntrack on an ifup event as above automatically to avoid this problem.

Each member represents an interface with a metric and a weight value. Members are referenced in policies to define a pool of interfaces with corresponding metric and load-balancing weight. Members can't be used for rules directly. The default settings are described below:

Name Type Required Default Description
Member name string yes (none) The name of this member configuration, which is then referenced in policies
interface string yes (none) Member applies to this interface (use the same interface name as used in the mwan3 interface section, above)
metric number no 1 Members within one policy with a lower metric have precedence over higher metric members
weight number no 1 Members with same metric will distribute load based on this weight value

A typical member section looks like this:

config member 'wan_m1_w3'
	option interface 'wan'
	option metric '1'
	option weight '3'
  • A working mwan3 config has at least 2 members configured.

Policies define how traffic is routed through the different WAN interface(s). Every policy has to have one or more members assigned to it, which defines the policy's traffic behaviour. If a policy has a single member, traffic will only go out that member. If a policy has more than one member, it will either load-balance among members or use one member but fail-over to another, depending on how the members are configured.

If there is more than one member assigned to a policy, members within the policy with a lower metric have precedence over higher metric members. Members with the same metric will load-balance. Load-balancing members (with same metric) will distribute load based on assigned weights values.

Key points about policies:

  • Policies are profiles grouping one or more members controlling how MWAN distributes traffic
  • Member interfaces with lower metrics are used first
  • Member interfaces with the same metric will be load-balanced
  • Load-balanced member interfaces distribute more traffic out those with higher weights
  • Names may contain characters A-Z, a-z, 0-9, _ and no spaces
  • Names must be 15 characters or less
  • Policies may not share the same name as configured interfaces, members or rules
Name Type Required Default Description
Policy name string yes (none) Unique name for the policy.
:!: Must be no more than 15 characters
Members assigned string yes (none) One or more members assigned to this policy
last_resort unreachable (reject)
blackhole (drop)
default (use main routing table)
no unreachable Determine the fallback routing behaviour if all WAN members in the policy are down

A typical policy section looks like this:

config policy 'balanced'
	list use_member 'wan_m1_w3'
	list use_member 'wanb_m1_w2'
	list use_member 'wan6_m1_w3'
	list use_member 'wanb6_m1_w2'
	option last_resort 'unreachable'
  • If a policy is not referenced by a specific traffic rule, the policy will not do anything, so it is fine to leave unused policies in place in case they are desired in the future.
  • If you have a traffic rule that matches a policy, but all the members (interfaces) for that policy are down, the exit strategy for that policy defaults to unreachable.
  • A working mwan3 config has at least 1 policy configured.

A rule describes what traffic to match and what policy to assign for that traffic.

When creating rules from LuCI, the family option is currently not available to configure in 19.07 and older builds. This will mean rules created through LuCI default to the family value of all, applying the rule for both IPv4 and IPv6 which may or may not be valid and can cause iptables-related errors. You will need to manually edit the /etc/config/mwan3 to explicitly define a valid family value. This has been fixed in 21.02.

Key points about rules:

  • Rules specify which traffic will use a particular policy
  • Rules are based on IP address, port or protocol
  • Rules are matched from top to bottom
  • Rules below a matching rule are ignored
  • Traffic not matching any rule is routed using the main routing table
  • Traffic destined for known (other than default) networks is handled by the main routing table
  • Traffic matching a rule where all interfaces for that policy are down will be blackholed
  • Rule names may contain characters A-Z, a-z, 0-9, _ and no spaces
  • Rules may not share the same name as configured interfaces, members or policies
Name Type Required Default Description
Rule name string yes (none) The unique name of the rule.
:!: Must be no more than 15 characters
use_policy string yes (none) Use this policy for traffic that matches or set to default to use the default routing table to lookup
src_ip IP address no any Match traffic from the specified source IP address
src_port port or range no any Match traffic from the specified source port or port range, if relevant proto is specified
proto tcp
no all Match traffic using the given protocol.
dest_ip IP address no any Match traffic directed to the specified destination IP address
dest_port port or range no any Match traffic directed at the given destination port or port range, if relevant proto is specified
ipset string no (none) Match traffic directed at the given destination IP address to an ipset set
sticky boolean no 0 Allow traffic from the same source IP address within the timeout limit to use same wan interface as prior session
timeout number no 600 Stickiness timeout value in seconds
family ipv4
no any Address family for which to apply the rule.
logging boolean no 0 Enables firewall rule logging (global mwan3 logging setting must also be enabled)

The default configuration provides three standard rules, a https sticky rule for both IPv4 and IPv6 and two default rules (one for IPv4 and one for IPv6) to match any other traffic which would not have been matched by any preceding rules. You can add your rules above these or modify them as needed.

A typical rule section looks like this:

config rule 'default_rule_v4'
	option dest_ip ''
	option family 'ipv4'
	option use_policy 'wan_wanb'

It is also possible to group multiple ports or source/destination IP addresses under a single rule using a comma.

config rule 'multi_ip_rule'
       option dest_ip ',,,'
       option family 'ipv4'
       option use_policy 'wan_only'

The comma will be translated by iptables and correctly create the required entries from a single rule.

For rules that require a large amount of destination IP addresses, it is recommended to use ipset as this more optimised to group large amounts of IP addresses, or CIDR ranges.

ipset and sticky support

Stickiness lets you route a new session over the same WAN interface as the previous session, as long as the time between the new and the previous session is shorter then the timeout value (default 600 seconds). This can solve some problems with HTTPS sites, which don't allow a new source address within the same cookie/HTTPS session. Using ipset lets you route traffic over WAN interfaces based on set of IP addresses. A set can be created by hand, by dnsmasq based on domain names, or your own script. Rules with ipset option will try to match destination IP address to the configured ipset.

config rule 'youtube'
    option sticky '1'
    option timeout '300'
    option ipset 'youtube'
    option dest_port '80,443'
    option proto 'tcp'
    option use_policy 'balanced'

With sticky set to 1, this rule has now sticky enabled. When a packet for a new session matches this rule, its source IP address and interface mark are stored in an ipmark set with a timeout of 300 seconds. When a packet for a second new session from the same LAN host within the timeout period matches this rule, it will use the same WAN interface as the first packet and the timeout counter is reset back to 300 again.

Stickiness is on a per rule basis. With this example, all traffic from LAN hosts will use the same WAN interface for all hosts in the ipset, even if the source or destination IP address differs.

The option ipset matches only destination IP addresses. This example will only work if your LAN clients use the dnsmasq server as their one and only DNS server or have your configured existing upstream DNS resolvers use the dnsmasq server as their forwarder.

If the ipset chain does not already exist, mwan3 will create the ipset set for you. For this to work you need to configure a rule for dnsmasq in your /etc/config/dhcp.

config dnsmasq
    list ipset '/'

Or add directly to /etc/dnsmasq.conf


You will then need to restart dnsmasq for the ipset change to be applied.

This is an example configuration based off the version provided in the master branch of mwan3. By default only a single WAN interface is enabled, but it provides the necessary configuration for having two WAN interfaces that are dual stack. You can adapt this configuration to your specific needs.

config globals 'globals'
	option mmx_mask '0x3F00'
config interface 'wan'
	option enabled '1'
	list track_ip ''
	list track_ip ''
	list track_ip ''
	list track_ip ''
	option reliability '2'
	option family 'ipv4'
config interface 'wan6'
	option enabled '0'
	list track_ip '2001:4860:4860::8844'
	list track_ip '2001:4860:4860::8888'
	list track_ip '2620:0:ccd::2'
	list track_ip '2620:0:ccc::2'
	option reliability '2'
	option family 'ipv6'
config interface 'wanb'
	option enabled '0'
	list track_ip ''
	list track_ip ''
	list track_ip ''
	list track_ip ''
	option reliability '1'
	option family 'ipv4'
config interface 'wanb6'
	option enabled '0'
	list track_ip '2001:4860:4860::8844'
	list track_ip '2001:4860:4860::8888'
	list track_ip '2620:0:ccd::2'
	list track_ip '2620:0:ccc::2'
	option reliability '1'
	option family 'ipv6'
config member 'wan_m1_w3'
	option interface 'wan'
	option metric '1'
	option weight '3'
config member 'wan_m2_w3'
	option interface 'wan'
	option metric '2'
	option weight '3'
config member 'wanb_m1_w2'
	option interface 'wanb'
	option metric '1'
	option weight '2'
config member 'wanb_m2_w2'
	option interface 'wanb'
	option metric '2'
	option weight '2'
config member 'wan6_m1_w3'
	option interface 'wan6'
	option metric '1'
	option weight '3'
config member 'wan6_m2_w3'
	option interface 'wan6'
	option metric '2'
	option weight '3'
config member 'wanb6_m1_w2'
	option interface 'wanb6'
	option metric '1'
	option weight '2'
config member 'wanb6_m2_w2'
	option interface 'wanb6'
	option metric '2'
	option weight '2'
config policy 'wan_only'
	list use_member 'wan_m1_w3'
	list use_member 'wan6_m1_w3'
config policy 'wanb_only'
	list use_member 'wanb_m1_w2'
	list use_member 'wanb6_m1_w2'
config policy 'balanced'
	list use_member 'wan_m1_w3'
	list use_member 'wanb_m1_w2'
	list use_member 'wan6_m1_w3'
	list use_member 'wanb6_m1_w2'
config policy 'wan_wanb'
	list use_member 'wan_m1_w3'
	list use_member 'wanb_m2_w2'
	list use_member 'wan6_m1_w3'
	list use_member 'wanb6_m2_w2'
config policy 'wanb_wan'
	list use_member 'wan_m2_w3'
	list use_member 'wanb_m1_w2'
	list use_member 'wan6_m2_w3'
	list use_member 'wanb6_m1_w2'
config rule 'https'
	option sticky '1'
	option dest_port '443'
	option proto 'tcp'
	option use_policy 'balanced'
config rule 'default_rule_v4'
	option dest_ip ''
	option family 'ipv4'
	option use_policy 'balanced'
config rule 'default_rule_v6'
	option dest_ip '::/0'
	option family 'ipv6'
	option use_policy 'balanced'
  • Network > Load Balancing
    • Overview
      • MWAN3 Multi-WAN Interface Live Status
  • this area should show all WAN interfaces as “ONLINE”
    • MWAN3 Multi-WAN Interface Systemlog
  • this area will show recent mwan3 log messages
  • “ip route show table x” (where x is interface ID) should show a routing table specifically for that interface – these tables are generated by mwan3
  • Go to Network > Interfaces
    • Send traffic from a test inside PC
      • Note: Load-balancing is connection-based (not channel bonding), so use multiple programs accessing different servers to generate traffic (such as two downloads, each from a separate site)
    • Observe the interface packet counts (counters are updated automatically)
    • Verify that traffic is going out all expected WAN interfaces
  • Go to Network > Load Balancing > Overview
    • Manually disconnect a WAN connection
    • Wait for interface failure detection to happen – the mwan3 status display should update
  • Go to Network > Interfaces
    • Send traffic from a test inside PC and observe the interface packet counts to ensure traffic is now going out the alternate WAN port (counters are updated automatically)
    • Check that the external IP address has changed to the wanb interface (such as by going to
  • Restore the primary WAN connection
  • Wait for detection that the WAN link is back up
  • Repeat the same tests as above to ensure traffic has moved back to the now-working WAN interface

There are various CLI commands to help you troubleshoot or show the current mwan3 configuration:

# mwan3
Syntax: mwan3 [command]

Available commands:
        start              Load iptables rules, ip rules and ip routes
        stop               Unload iptables rules, ip rules and ip routes
        restart            Reload iptables rules, ip rules and ip routes
        ifup <iface>       Load rules and routes for specific interface
        ifdown <iface>     Unload rules and routes for specific interface
        interfaces         Show interfaces status
        policies           Show currently active policy
        connected          Show directly connected networks
        rules              Show active rules
        status             Show all status
        use <iface> <cmd>  Run a command bound to <iface> and avoid mwan3 rules

Changes in version 2.10.0:

mwan3 use was added in version 2.10. This additional option is designed to allow you test network commands like ping, iperf3 etc by binding the command to a specific interface. A known issue with mwan3 is it can skew the output of commands that rely on binding to specific interfaces, as traffic will be routed according to the rules defined in /etc/config/mwan3 and essentially bypass it. An example if you wanted to run an iperf test on a secondary WAN, your mwan3 policy will most likely override this and instead test your primary WAN which is not desirable for this purpose.

Changes in version 2.8.11:

# mwan3 interfaces
Interface status:
 interface wan is online 50h:39m:26s, uptime 345h:27m:03s and tracking is active
 interface wan6 is online 50h:39m:27s, uptime 345h:26m:05s and tracking is active
 interface wanb is online 50h:39m:26s, uptime 256h:12m:17s and tracking is active
 interface wanb6 is online 50h:39m:28s, uptime 256h:12m:14s and tracking is active

In version 2.8.11 and above the mwan3 interfaces command shows the online time and the overall interface uptime. This is not shown on older versions.

The key command will be mwan3 status which will show the overall status of interfaces, policies, rules and connected networks

# mwan3 status
Interface status:
 interface wan is online 00h:00m:54s, uptime 71h:53m:14s and tracking is active
 interface wan6 is online 00h:00m:54s, uptime 71h:51m:35s and tracking is active
 interface wanb is online 00h:00m:54s, uptime 71h:53m:15s and tracking is active
 interface wanb6 is online 00h:00m:54s, uptime 71h:53m:11s and tracking is active
Current ipv4 policies:
 wan (100%)
 wan (100%)
 wanb (100%)
 wanb (100%)
Current ipv6 policies:
 wan6 (100%)
 wan6 (100%)
 wanb6 (100%)
 wanb6 (100%)
Directly connected ipv4 networks:
Directly connected ipv6 networks:
Active ipv4 user rules:
   11   851 S https  tcp  --  *      *              multiport dports 443 
   72 12381 - wan_wanb  all  --  *      *              
Active ipv6 user rules:
   14  1120 S https  tcp      *      *       ::/0                 ::/0                 multiport dports 443 
    2   184 - wan_wanb  all      *      *       ::/0                 ::/0     

luci-app-mwan3 provides a LuCI front end to mwan3 functionality. It will add additional options within the Status and Network top menus:

  • Status > MultiWAN Manager
  • Network > MultiWAN Manager

In previous versions of luci-app-mwan3 the label in the status and network section was “Load balancing”. This was changed to be more representative of the functionality mwan3 offers.

  • The status section is designed to show the same information from mwan3 using CLI directly in LuCI with diagnostics and troubleshooting information.
  • The network section allows for editing the mwan3 configuration through LuCI, being able change any part of the config file.

Note: The luci-app-mwan3 interface currently lacks a lot of IPv6 awareness for interface configurations and will typically show warnings about no default route being present. This is most likely false, due to the LuCI package not being IPv6 aware. In addition diagnostics information is also mainly limited to IPv4 only at present.

mwan3 includes in a /etc/mwan3.user file in OpenWrt version 18.06 and above which is interpreted as a shell script. Here you can extend mwan3 to perform additional actions or notifications on certain hotplug events for one or more interfaces which mwan3 is tracking. e.g. When an interface goes down or up.

This file provides the following environment variables for use with additional custom logic requirements.

Variable name Definition
$ACTION Hotplug events mwan3 uses. Which are ifdown, ifup, connected, disconnected
$INTERFACE Name of the interface which an hotplug event relates to (e.g. wan or wwan)
$DEVICE Physical device name which an hotplug event relates to (e.g. eth0 or wwan0)

The /etc/mwan3.user file in some cases will also be able to target additional iface hotplug events that mwan3 doesn't directly use but netifd does e.g. ifupdate. While these events are not directly used by mwan3track, they are still available to hook into in this script.

Note: $DEVICE is not populated on an ifdown event, use $INTERFACE instead for this event.

There are various use cases for the /etc/mwan3.user file. One might be implementing custom notifications when an interface state changes i.e. email notifications. Be mindful when implementing something like notifications without limiting what $ACTION you wish to target you will have multiple notifications per interface when the state changes. This will further increase for each interface you have configured with mwan3track. You can use conditional statements to limit your custom logic only applying to certain events, below are a couple of examples of demonstrating this.

Example 1: Target ifup event on the wan interface

if [ "${ACTION}" = "ifup" ] && [ "${INTERFACE}" = "wan" ] ; then
   # Do something on an ifup event for the wan interface only

Example 2: Target any ifup and ifdown events excluding certain interfaces

if [ "${ACTION}" = "ifdown" ] || [ "${ACTION}" = "ifup" ] ; then
 # Only on either an ifdown or ifup event for any interface
 if [ "${INTERFACE}" != "loopback" ] && [ "${INTERFACE}" != "self" ] ; then
 # Exclude events for interfaces loopback and self
   (/bin/sleep 10; /usr/bin/mailsend -to -from -ssl -port 465 -auth \
   -smtp -sub "$HOSTNAME $ACTION $INTERFACE $DEVICE" +cc +bc -user "" \
   -pass "user_password" -cs "us-ascii" -enc-type "7bit" -M "mwan3: $ACTION $INTERFACE $DEVICE" >/dev/null) &

Some notes about the last example:

  • The “sleep 10” statement, a somewhat artificial delay, is required in cases when /etc/mwan3.user gets executed before connectivity is completely “settled” (for instance: ifup of the first active wan interface)
  • mailsend with SSL support was chosen as mail client, for other options and SMTP clients: smtp.client
  • Finally observe that the whole sleep/mailsend statement is parenthesis enclosed and ended with and & (ampersand) sending its execution to background so that /etc/mwan3.user finishes in a timely manner

When using multiple WAN connections, there will be multiple external IPs which can be used as the external IP for outgoing NATed traffic. In particular, an external interface might have a block of external IPs that should be mapped in a particular way to specified internal servers. For example, the internal mail server should send out traffic on the same external IP identified in its MX record. This is the procedure to do this.

Add an mwan3 traffic rule that directs the specific desired source IP out the correct WAN interface. Rules are processed in top-down order, so be sure this specific rule is higher in the list (thus higher priority) than more general rules below that implement load-balancing or failover in the default case.

  • Define a mwan3 interface member setting for the desired external interface (called “wanb” in the example below)
  • Create a mwan3 policy that only sends traffic out the external interface that has the desired external IP
config policy 'wanb_only'
	list use_member 'wanb_m1_w2'
	list use_member 'wanb6_m1_w2'
  • Create a mwan3 rule to have traffic from the internal IP always go out the interface named wanb using the policy “wanb_only”
config rule 'mailserver_uses_wanb_only'
	option src_ip ''
	option family 'ipv4'
	option use_policy 'wanb_only'

If the external WAN interface only has a single external IP, this is all that is needed. If the interface has multiple external IPs, both the next two steps are also needed.

This step is only needed if the desired external interface needs to have multiple external IP addresses assigned to it.

The specified external interface may have multiple IPs assigned to it. For OpenWrt 12.09, the preferred way to do this is using multiple interface definitions – see reference.

  • Network > Interfaces > Add new interface…
    • Create Interface
      • Name of the new interface: e.g. “wan3_2”, “wan3_3”, …
      • Protocol of the new interface: Static address
      • Create a bridge over multiple interfaces: do not enable
      • Cover the following interface: select the physical interface that will have this (additional) IP address, e.g. eth0.2
    • Submit
  • Network > Interfaces > Interfaces - (new interface name)
    • Common Configuration > General Setup
      • Protocol: Static address
      • IPv4 address: (enter the desired additional external IP)
      • IPv4 netmask: select or enter the correct netmask
      • IPv4 gateway: (leave blank as the already defined default gateway will be used)
      • IPv4 broadcast: (leave blank to auto-set this)
      • Use custom DNS servers: (leave blank as DNS servers should be set through the WAN interface settings)
    • Common Configuration > Firewall Settings
      • Create / Assign firewall-zone: select the desired firewall zone, usually “wan” for an additional external IP
    • Save & Apply

This step is only needed if the desired external interface has multiple external IP addresses assigned to it.

With multiple external IP addresses, we want to control which address is used when sending out traffic from particular servers. This is configured using a source NAT rule in OpenWrt.

Note that both a mwan3 rule to select the interface and an SNAT rule to select the specific IP on that interface are needed to correctly send traffic out a specific external IP.

  • Network > Firewall > Traffic Rules
    • Source NAT
      • add a source NAT rule and edit details to specify the desired inside source IP and the desired external IP – the following code block is an example of the resulting configuration in /etc/config/firewall
config redirect
	option target 'SNAT'
	option name 'Mail server goes out'
	option src 'lan'
	option dest 'wan'
	option src_ip ''
	option src_dip ''
	option proto 'all'

Example 1: Register the external IP of the active WAN interface

This is the case where you want external clients using a DDNS name to automatically reconnect to the alternate WAN interface if the primary WAN interface fails.

  • Configure ddns-scripts to use the “web” update mechanism as this will reflect the current active external IP

Example 2: Register the external IP of a specific WAN interface using the "interface" source

This is the case where you want each specific WAN interface to register its own DDNS name and the WAN interface in question has an external IP directly assigned to it.

  • Configure ddns-scripts to use the “interface” source and specify the desired WAN physical interface name (e.g. eth0.50)

Example 3: Register the external IP of a specific WAN interface using the "web" source

This is the case where you want each specific WAN interface to register its own DDNS name but the WAN interface in question is behind a NAT device and so does not directly have the correct external IP.

This is tricky when the WAN interface is not the default WAN interface, as ddns-scripts cannot be configured to use a specific interface to check its IP.

Option 1: use a static route
  • Looking up the hostname shows there are four valid IPs for this DNS name
  • Choose one of them and create a static route to that specific IP through the desired (non-default) WAN interface
    • Do a traceroute to the IP to verify traffic is going out the desired WAN interface
  • Change the ddns-scripts ip_url to be this specific IP, e.g.
  • Ensure any other web update ddns-scripts configurations don't use the hostname, as this may be forced out the specified WAN interface using the static route without realizing
Option 2: use curl
  • ddns-scripts has the option of using curl instead of wget to check a web site to retrieve an IP address
  • curl has an option (–interface) to force it to use a specified interface
  • This involves installing curl and configuring ddns-scripts specifying which interface curl must use
  • Tested on OpenWRT/Lede 17.01.7, should work on newer releases, perhaps in earlier versions too, relevant configuration below.
              config ddns 'global'
                      option use_curl '1'
                      ... (other options)
              config service 'mwan3ddns'
                      option interface 'wanb'
                      option ip_source 'web'
                      option ip_url ''
                      option bind_network 'wanb'
                      ... (other options)

Possible problems

If the openwrt system is an openvpn client and a zone 'vpn' is defined on the vpn interface and this zone has the masquerading active, for reasons (yet) unknown the traffic from the internal lan to the vpn will be able to reach the destination and go back to the router but then will be not dispatched back to the lan clients. Disabling mwan3, instead, let the traffic be dispatched properly.

It could be a misconfiguration, more testing is needed.

Example 1: Have OpenVPN Server be accessible through multiple WAN interfaces (server mode)

If load-balancing between multiple WAN interfaces, it is desirable to have OpenVPN clients be able to connect through all active WAN interfaces.

In a multiple WAN interface failover scenario, OpenVPN will not accept client connections on the secondary WAN interface after a failover, as it started listening on the primary WAN interface when it was started.

The following configuration will allow multiple WAN interface to be used with OpenVPN Server.

Step 1: Listen only on the internal LAN interface
  • Configure OpenVPN Server to listen on the internal LAN interface only, not on any WAN interface. The internal LAN interface will not go down or change, and so it provides a stable listening interface for OpenVPN.
vi /etc/openvpn/my-vpn.conf
# Which local IP address should OpenVPN
# listen on? (optional)
;local a.b.c.d
## Customization: have OpenVPN listen on the internal LAN interface IP only to allow client re-connections after a WAN interface failover
Step 2: Set up port-forward(s)
  • Configure a port-forward on the “wan” source zone to OpenVPN Server listening on the internal LAN interface. The port-forward will be active on every WAN interface and work the same way regardless of what WAN interface is active.
  • Create a firewall rule like the following:
    • Network > Firewall > Port Forwards
      • Name: OpenVPN forward to unchanging inside IP
      • Protocol: UDP
      • Source zone: wan
      • Source IP address: any
      • External IP address: any
      • External port: 1194 (the default OpenVPN UDP port)
      • Internal zone: lan
      • Internal IP address: (the internal LAN interface IP address) . Careful on this point. If the internal LAN ip address mentioned is the same of the one mentioned in ifconfig, the redirect will transform in a DNAT+input accept rule, and the vpn server would be reachable. If the router has more than one ip address on the LAN interface, using one of them not mentioned in the ifconfig will cause the firewall application to transform it in a DNAT+forward rule and this means that the packet will be not routed on the router itself, therefore showing that then vpn port is unreachable.
      • Internal port: 1194 (this is not really needed)
      • Enable NAT Loopback: enabled (the default)

OpenWrt 15.05.x (Chaos Calmer) note: Unfortunately, the above approach doesn't work for UDP port-forwards to the router's LAN interface fail to work. TCP port-forwards are fine. This bug report talks about the issue: Apparently the change in the firewall3 package that broke this functionality has been reverted but the fix happened after the 15.05.x CC release.

Step 3: OpenVPN client and DNS configuration
  • If load-balancing between multiple active WAN interfaces, the suggested approach is to register multiple DNS A records for the same DNS name. Clients will use just one of the IPs. As per the OpenVPN man page description of the –remote client parameter, “If host is a DNS name which resolves to multiple IP addresses, one will be randomly chosen, providing a sort of basic load-balancing and failover capability.”
  • If failing over from a primary to a secondary WAN interface, one approach is to use ddns-scripts to update the IP of the DNS name used by OpenVPN clients

Example 2: Use OpenVPN tunnels as virtual wan(s) (client mode)

If you want to use your OpenVPN client tunnels as virtual wan interfaces in mwan3, you have to make sure that you set a default route with different metric for each tunnel interface. Also most commercial VPN solutions push two static routes to override the standard default gateway. In most cases you don't want this override when using OpenVPN client tunnels in conjunction with mwan3.

As a solution you can add the following lines to your OpenVPN client config:

route vpn_gateway 20

This example will ignore the routes pushed from the OpenVPN server and will add a default route with metric 20 over the OpenVPN tunnel interface.

Transparent HTTP proxying relies on using iptables rules to transparently redirect outgoing traffic to port 80 first through the local proxy at another port number.

For example, here is a OpenWrt redirect rule to redirect outgoing traffic to TCP 80 port and re-send it to the local proxy listening on TCP port 8118. This will go into iptables NAT table rules.

config redirect
    option target 'DNAT'
    option dest 'lan'
    option proto 'tcp'
    option src 'lan'
    option src_dip '!'
    option src_dport '80'
    option dest_ip ''
    option dest_port '8118'
    option name 'Transparent Proxy [privoxy]'
    option enabled '1'

The problem is that mwan3 adds rules to the iptables's MANGLE table, and this is handled before the NAT table. So when a client makes a request to fetch a web page, it is first marked by mwan3. Mwan3 decides based on your mwan3 rules which wan interface to exit and marks the session accordingly.

Next, iptable nat rule handling takes place and diverts the web page request to privoxy. The reply from privoxy however is part of the same session and is already marked to leave a wan interface. The reply from privoxy is then send over the internet, which is obviously incorrect.

To fix this add the following rules to your mwan3 config:

config rule 'rule1'
    option proto 'tcp'
    option dest_port '80'
    option src_ip ''
    option dest_ip ''
    option family 'ipv4'
    option use_policy 'wan_wanb_loadbalanced'
config rule 'rule2'
    option proto 'tcp'
    option dest_port '80'
    option src_ip ''
    option dest_ip ''
    option family 'ipv4'
    option use_policy 'default'
config rule 'rule3'
    option dest_ip ''
    option family 'ipv4'
    option use_policy 'wan_wanb_loadbalanced'

The policy “wan_wanb_loadbalanced” is just an example. Change it to whatever policy you like.

Since NoDogSplash v3.1.0, mwan3 and NoDogSplash work fine together without any configuration changes. Both use iptables mark bits but NoDogSplash defaults to using bits carefully chosen for compatibility with other packages. A common symptom of any incompatibility would be the NoDogSplash splash page appearing for every page even as an authenticated client.

It is possible to change the settings for NoDogSplash in the UCI config file (/etc/config/nodogsplash).

The default settings are shown in this section from the config file:

  # Nodogsplash uses specific HEXADECIMAL values to mark packets used by iptables as a bitwise mask.
  # This mask can conflict with the requirements of other packages such as mwan3, sqm etc
  # Any values set here are interpreted as in hex format.
  # Option: fw_mark_authenticated
  # Default: 30000 (0011|0000|0000|0000|0000 binary)
  # Option: fw_mark_trusted
  # Default: 20000 (0010|0000|0000|0000|0000 binary)
  # Option: fw_mark_blocked
  # Default: 10000 (0001|0000|0000|0000|0000 binary)
  #option fw_mark_authenticated '30000'
  #option fw_mark_trusted '20000'
  #option fw_mark_blocked '10000'

These values let NoDogSplash work with mwan3, SQM etc. but can be changed if necessary.

Testing WAN links using iperf3 with mwan3 enabled can be a little tricky due to the fact mwan3 routing rules will often override the desired behaviour. More recently iperf3 has been updated to support SO_BINDTODEVICE which should make it more compatible with mwan3, version 3.10 and above now implements SO_BINDTODEVICE.

In order to be able to use iperf3 successfully with mwan3 enabled you have a few options

  1. Upgrade to iperf3 version 3.10 or later, this may not be available in all OpenWrt package repositories currently.
  2. Upgrade to mwan3 2.10.0 or above, which provides the mwan3 use command to be able to specifically bind network commands to the interface required regardless of SO_BINDTODEVICE support.
  3. Implement custom mwan3 rules in /etc/config/mwan3 that targets iperf3 traffic to use the main routing table, or set a specific interface policy.

As an example you can have something like this:

config rule 'iperf3_default'
	option dest_port '5201'
	option proto 'tcp'
	option use_policy 'default'

This rule targets any iperf3 test both IPv4 and IPv6 using the default TCP port of 5201 and makes mwan3 use the main routing table for this traffic.

You may also need to specifically implement rules that target a WAN interface directly in some cases:

config rule 'iperf3_wanb'
	option dest_port '5201'
	option src_ip 'xx.xx.xx.xx' # External WAN IP of WANB
	option proto 'tcp'
	option family 'ipv4'
	option use_policy 'wanb_only'
  • Forum member Adze wrote mwan3
  • Forum member Arfett wrote luci-app-mwan3
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  • Last modified: 2022/04/16 15:51
  • by jamesmacwhite