Difference between revisions of "WRT54GL Linksys Routers"
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+ | == Introduction == | ||
+ | Note that most of the below information is out of date, as the vlan trunking configuration can now be done completely via the web interface. Custom DHCP settings and iptables firewall rules can also be entered via the web interface now, so startup scripts are no longer needed. | ||
+ | |||
Things I have done with a WRT54GL router running ddwrt custom firmware: | Things I have done with a WRT54GL router running ddwrt custom firmware: | ||
− | * Single router with 2 subnets each with seperate IP block, DHCP server, | + | * Single router with 2 subnets each with seperate vlan, IP block, DHCP server, and firewall rules. |
* VLAN trunking | * VLAN trunking | ||
* QoS traffic prioritization based on IP address | * QoS traffic prioritization based on IP address | ||
+ | * WPA encrypted wireless point to multipoint bridging | ||
+ | |||
+ | Things I may implement in the future: | ||
+ | |||
+ | * Multiple wireless networks on the same router with different SSIDs and different vlan tags | ||
+ | |||
+ | == WRT54GL port diagram == | ||
+ | [[Image:WRT54_sw2_internal_architecture.png|640px]] | ||
+ | |||
+ | == Useful Links == | ||
+ | |||
+ | === WRT54GL ports in a table === | ||
+ | http://nuwiki.openwrt.org/toh/linksys/wrt54gl#switch.ports.for.vlans | ||
+ | |||
+ | === VLAN Detached Networks (Separate Networks With Internet) === | ||
+ | http://www.dd-wrt.com/wiki/index.php/VLAN_Detached_Networks_(Separate_Networks_With_Internet) | ||
+ | |||
+ | === 802.1q trunking instructions (old method) === | ||
+ | http://www.geek-pages.com/articles/latest/802.1q_trunking_on_the_linksys_wrt54g/s/l_with_dd-wrt.html | ||
+ | |||
+ | === Additional DNSmasq notes (for setting default gateway, etc) === | ||
+ | http://www.dd-wrt.com/wiki/index.php/DNSMasq_as_DHCP_server<br> | ||
+ | http://osdir.com/ml/network.dns.dnsmasq.general/2005-08/msg00046.html | ||
+ | |||
+ | == Details == | ||
+ | |||
+ | === Custom IPTables Rules === | ||
+ | To be pasted into Administration -> Commands | ||
+ | |||
+ | ==== IPTables Rule to reject traffic from vlan3 to br0 ==== | ||
+ | The following rule will block traffic from vlan3 to the default bridge: | ||
+ | <pre> | ||
+ | iptables -I FORWARD -i vlan3 -o br0 -j REJECT | ||
+ | </pre> | ||
+ | |||
+ | ==== IPTables Rules to isolate vlans (doesn't address bridging though) ==== | ||
+ | <pre> | ||
+ | iptables -I FORWARD -i vlan+ -o vlan+ -j DROP | ||
+ | iptables -I FORWARD -i vlan+ -o vlan1 -j ACCEPT | ||
+ | iptables -I FORWARD -i vlan1 -o vlan+ -j ACCEPT | ||
+ | </pre> | ||
+ | |||
+ | === Configuring multiple DHCP ranges === | ||
+ | The instructions linked above suggest adding only the second range under services>Additional DNSMasq Options, however we ran into trouble when the number of connected clients got too large. The primary range as configured under setup>network setup uses the maximum number of clients to define the end of the range. This is a problem because your total maximum clients may be much larger when you combine multiple ranges or use subnets larger than /24. In order to work around this issue we did the following: | ||
+ | |||
+ | # Disable DHCP under setup>network | ||
+ | # Add statements to services>Additional DNSMasq Options to configure all of the DHCP ranges, including the primary one and the maximum number of clients. | ||
+ | <pre> | ||
+ | dhcp-leasefile=/tmp/dnsmasq.leases | ||
+ | dhcp-lease-max=301 | ||
+ | dhcp-option=3,192.168.1.1 | ||
+ | dhcp-authoritative | ||
+ | dhcp-range=192.168.1.101,192.168.1.200,255.255.255.0,1440m | ||
+ | interface=vlan3 | ||
+ | dhcp-range=wifi,192.168.2.50,192.168.2.250,255.255.255.0,60m | ||
+ | dhcp-option=wifi,3,192.168.2.1 | ||
+ | </pre> | ||
+ | |||
+ | You can check your work by viewing the config file on the router via ssh at /tmp/dnsmasq.conf before and after making the change. | ||
+ | |||
+ | One side effect of doing this is that you lose the ability to view DHCP status via the web interface. As a workaround you can view the leases at /tmp/dnsmasq.leases via ssh. | ||
+ | |||
+ | === Configure an AP running DDWRT to do trunking === | ||
+ | These steps assume you want to split out the wireless and the wired ports. Wired will be on vlan2 and wireless will be on vlan3 with both vlans trunked via the WAN port to a vlan aware switch. This router already has DHCP disabled and is not acting as a firewall, only an AP. | ||
+ | <pre> | ||
+ | nvram set vlan0ports= | ||
+ | nvram set vlan2ports="0 1 2 3 4t" | ||
+ | nvram set vlan3ports="4t 5t" | ||
+ | nvram set vlan3hwname=et0 | ||
+ | nvram commit | ||
+ | reboot | ||
+ | </pre> | ||
+ | The last step is to configure your vlans in the web interface as follows:<br> | ||
+ | <br> | ||
+ | [[Image:ddwrt_ap_vlans.jpg]] | ||
+ | <br> | ||
+ | The end result is that you can use the same router to connect wired and wireless devices while keeping them on separate vlans. | ||
+ | |||
+ | === Adding a third vlan and network === | ||
+ | These steps assume you already have two other vlans configured and you only want to trunk the new vlan up to another switch. Also, there are additional steps required if you wanted to enable DHCP service on the new network. | ||
+ | |||
+ | ==== Add ports to the new vlan ==== | ||
+ | <pre> | ||
+ | nvram set vlan4ports="0t 5t" | ||
+ | nvram commit | ||
+ | </pre> | ||
+ | ==== Create a startup script to load firewall rules and configure the interface ==== | ||
+ | <pre> | ||
+ | echo ' | ||
+ | #!/bin/ash | ||
+ | PATH="/sbin:/usr/sbin:/bin:/usr/bin:${PATH}" | ||
+ | iptables -I FORWARD -i br0 -o vlan4 -j ACCEPT | ||
+ | iptables -I FORWARD -i vlan4 -o br0 -j ACCEPT | ||
+ | iptables -I FORWARD -i vlan4 -o vlan1 -j ACCEPT | ||
+ | iptables -I INPUT -i vlan4 -j ACCEPT | ||
+ | ip addr add x.x.x.x/yy brd + dev vlan4 | ||
+ | ifconfig vlan4 up | ||
+ | ' > /jffs/etc/config/vlan4.startup | ||
+ | chmod 750 /jffs/etc/config/vlan4.startup | ||
+ | </pre> | ||
+ | x.x.x.x/yy is the IP and mask you want to assign to the router on the new vlan. | ||
+ | |||
+ | ==== Add the new vlan to the trunk port ==== | ||
+ | In the web based DDWRT GUI add the additional vlan to your trunk port. |
Latest revision as of 16:09, 15 December 2015
Contents
Introduction
Note that most of the below information is out of date, as the vlan trunking configuration can now be done completely via the web interface. Custom DHCP settings and iptables firewall rules can also be entered via the web interface now, so startup scripts are no longer needed.
Things I have done with a WRT54GL router running ddwrt custom firmware:
- Single router with 2 subnets each with seperate vlan, IP block, DHCP server, and firewall rules.
- VLAN trunking
- QoS traffic prioritization based on IP address
- WPA encrypted wireless point to multipoint bridging
Things I may implement in the future:
- Multiple wireless networks on the same router with different SSIDs and different vlan tags
WRT54GL port diagram
Useful Links
WRT54GL ports in a table
http://nuwiki.openwrt.org/toh/linksys/wrt54gl#switch.ports.for.vlans
VLAN Detached Networks (Separate Networks With Internet)
http://www.dd-wrt.com/wiki/index.php/VLAN_Detached_Networks_(Separate_Networks_With_Internet)
802.1q trunking instructions (old method)
http://www.geek-pages.com/articles/latest/802.1q_trunking_on_the_linksys_wrt54g/s/l_with_dd-wrt.html
Additional DNSmasq notes (for setting default gateway, etc)
http://www.dd-wrt.com/wiki/index.php/DNSMasq_as_DHCP_server
http://osdir.com/ml/network.dns.dnsmasq.general/2005-08/msg00046.html
Details
Custom IPTables Rules
To be pasted into Administration -> Commands
IPTables Rule to reject traffic from vlan3 to br0
The following rule will block traffic from vlan3 to the default bridge:
iptables -I FORWARD -i vlan3 -o br0 -j REJECT
IPTables Rules to isolate vlans (doesn't address bridging though)
iptables -I FORWARD -i vlan+ -o vlan+ -j DROP iptables -I FORWARD -i vlan+ -o vlan1 -j ACCEPT iptables -I FORWARD -i vlan1 -o vlan+ -j ACCEPT
Configuring multiple DHCP ranges
The instructions linked above suggest adding only the second range under services>Additional DNSMasq Options, however we ran into trouble when the number of connected clients got too large. The primary range as configured under setup>network setup uses the maximum number of clients to define the end of the range. This is a problem because your total maximum clients may be much larger when you combine multiple ranges or use subnets larger than /24. In order to work around this issue we did the following:
- Disable DHCP under setup>network
- Add statements to services>Additional DNSMasq Options to configure all of the DHCP ranges, including the primary one and the maximum number of clients.
dhcp-leasefile=/tmp/dnsmasq.leases dhcp-lease-max=301 dhcp-option=3,192.168.1.1 dhcp-authoritative dhcp-range=192.168.1.101,192.168.1.200,255.255.255.0,1440m interface=vlan3 dhcp-range=wifi,192.168.2.50,192.168.2.250,255.255.255.0,60m dhcp-option=wifi,3,192.168.2.1
You can check your work by viewing the config file on the router via ssh at /tmp/dnsmasq.conf before and after making the change.
One side effect of doing this is that you lose the ability to view DHCP status via the web interface. As a workaround you can view the leases at /tmp/dnsmasq.leases via ssh.
Configure an AP running DDWRT to do trunking
These steps assume you want to split out the wireless and the wired ports. Wired will be on vlan2 and wireless will be on vlan3 with both vlans trunked via the WAN port to a vlan aware switch. This router already has DHCP disabled and is not acting as a firewall, only an AP.
nvram set vlan0ports= nvram set vlan2ports="0 1 2 3 4t" nvram set vlan3ports="4t 5t" nvram set vlan3hwname=et0 nvram commit reboot
The last step is to configure your vlans in the web interface as follows:
The end result is that you can use the same router to connect wired and wireless devices while keeping them on separate vlans.
Adding a third vlan and network
These steps assume you already have two other vlans configured and you only want to trunk the new vlan up to another switch. Also, there are additional steps required if you wanted to enable DHCP service on the new network.
Add ports to the new vlan
nvram set vlan4ports="0t 5t" nvram commit
Create a startup script to load firewall rules and configure the interface
echo ' #!/bin/ash PATH="/sbin:/usr/sbin:/bin:/usr/bin:${PATH}" iptables -I FORWARD -i br0 -o vlan4 -j ACCEPT iptables -I FORWARD -i vlan4 -o br0 -j ACCEPT iptables -I FORWARD -i vlan4 -o vlan1 -j ACCEPT iptables -I INPUT -i vlan4 -j ACCEPT ip addr add x.x.x.x/yy brd + dev vlan4 ifconfig vlan4 up ' > /jffs/etc/config/vlan4.startup chmod 750 /jffs/etc/config/vlan4.startup
x.x.x.x/yy is the IP and mask you want to assign to the router on the new vlan.
Add the new vlan to the trunk port
In the web based DDWRT GUI add the additional vlan to your trunk port.