Difference between revisions of "Forget Bandwidth control, Add a second DHCP router on a single Wireless link!"

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(New page: Requirements: 2 DSL lines feeding 1 RF link to 2 Access Points with customers We did not want heavily congested AP's, and we wanted to have separate IP ranges for each group of customers...)
 
 
(5 intermediate revisions by one other user not shown)
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Requirements:  2 DSL lines feeding 1 RF link to 2 Access Points with customers.
Requirements:  2 DSL lines feeding 1 RF link to 2 Access Points with customers
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We did not want heavily congested AP's, and we wanted to have separate IP ranges for each group of customers. This also eliminates all the problems with trying to do bandwidth control!
We did not want heavily congested AP's, and we wanted to have separate IP ranges for each group of customers.
 
  
 
Schematic:
 
Schematic:
Line 10: Line 9:
  
 
Ether1 on Board 1 will only pass traffic to Ether1 on Board 2
 
Ether1 on Board 1 will only pass traffic to Ether1 on Board 2
 +
 
Ether2 on Board 1 will only pass traffic to Ether2 on Board 2
 
Ether2 on Board 1 will only pass traffic to Ether2 on Board 2
  
 
3 IP addressing schemes are used:
 
3 IP addressing schemes are used:
 +
 
10.10.222.xxx for the Ether1 path
 
10.10.222.xxx for the Ether1 path
 +
 
192.168.1.xxx for the Ether2 path
 
192.168.1.xxx for the Ether2 path
 +
 
172.16.0.xxx and 172.17.0.xxx for use only by the WLAN boards and the EOIP tunnels
 
172.16.0.xxx and 172.17.0.xxx for use only by the WLAN boards and the EOIP tunnels
 +
 +
---------------------------------
  
 
Board 1, Source
 
Board 1, Source
  
 
First get the wireless link to work
 
First get the wireless link to work
 +
 
Set the Wireless connection to AP Bridge, no WDS, No default bridge.
 
Set the Wireless connection to AP Bridge, no WDS, No default bridge.
 +
 
Set the 5 ghz to 5ghz – 10 mhz.  Turn Nstream on.
 
Set the 5 ghz to 5ghz – 10 mhz.  Turn Nstream on.
  
 
IP Address 10.10.222.233/24 ether1
 
IP Address 10.10.222.233/24 ether1
 +
 
IP Address 172.16.0.1/24 wlan1
 
IP Address 172.16.0.1/24 wlan1
 +
 
Add EOIP tunnel 1.  Set the IP address to the Board 2 address, 172.16.0.2
 
Add EOIP tunnel 1.  Set the IP address to the Board 2 address, 172.16.0.2
Add a bridge.  Set the ports to ether1 and the EOIP tunnel 1
+
 
 +
Add a bridge = bridge1.  Set the ports to ether1 and the EOIP tunnel 1
  
 
Ip address  192.168.1.10/24 ether2
 
Ip address  192.168.1.10/24 ether2
 +
 
Ip address 172.17.0.1/24 wlan1
 
Ip address 172.17.0.1/24 wlan1
 +
 
Add EOIP tunnel 2.  Set the ip address to the board 2 address, 172.17.0.2
 
Add EOIP tunnel 2.  Set the ip address to the board 2 address, 172.17.0.2
Add a bridge.  Set the ports to ether2 and EOIP tunnel 2
+
 
 +
Add a bridge = bridge2.  Set the ports to ether2 and EOIP tunnel 2
 +
 
 +
---------------------------------------
  
 
Board 2, Client
 
Board 2, Client
  
 
Set the wireless connection to Station, no wds, no default bridge
 
Set the wireless connection to Station, no wds, no default bridge
 +
 
Set the 5 ghz to 5ghz – 10 mhz.  Turn Nstream on.
 
Set the 5 ghz to 5ghz – 10 mhz.  Turn Nstream on.
  
 
Ip address 10.10.222.234/24 ether1
 
Ip address 10.10.222.234/24 ether1
 +
 
IP address 172.16.0.2/24 wlan1
 
IP address 172.16.0.2/24 wlan1
 +
 
Add EOIP tunnel 1.  Set the IP address to the Board 1 address, 172.16.0.1
 
Add EOIP tunnel 1.  Set the IP address to the Board 1 address, 172.16.0.1
Add a bridge.  Set the ports to ether 1 and the EOIP tunnel 1
+
 
 +
Add a bridge = bridge1.  Set the ports to ether 1 and the EOIP tunnel 1
  
 
Ip address  192.168.1.11/24 ether2
 
Ip address  192.168.1.11/24 ether2
 +
 
Ip address 172.17.0.2/24 wlan1
 
Ip address 172.17.0.2/24 wlan1
 +
 
Add EOIP tunnel 2.  Set the ip address to the board 1 address, 172.17.0.1
 
Add EOIP tunnel 2.  Set the ip address to the board 1 address, 172.17.0.1
Add a bridge.  Set the ports to ether2 and EOIP tunnel 2
+
 
 +
Add a bridge = bridge2.  Set the ports to ether2 and EOIP tunnel 2
 +
 
 +
----------------------------------
  
 
I hope this helps you!
 
I hope this helps you!

Latest revision as of 19:12, 2 January 2009

Requirements: 2 DSL lines feeding 1 RF link to 2 Access Points with customers. We did not want heavily congested AP's, and we wanted to have separate IP ranges for each group of customers. This also eliminates all the problems with trying to do bandwidth control!

Schematic:

MikrotikSchematic.jpg

Here's the code done using Winbox:

Ether1 on Board 1 will only pass traffic to Ether1 on Board 2

Ether2 on Board 1 will only pass traffic to Ether2 on Board 2

3 IP addressing schemes are used:

10.10.222.xxx for the Ether1 path

192.168.1.xxx for the Ether2 path

172.16.0.xxx and 172.17.0.xxx for use only by the WLAN boards and the EOIP tunnels


Board 1, Source

First get the wireless link to work

Set the Wireless connection to AP Bridge, no WDS, No default bridge.

Set the 5 ghz to 5ghz – 10 mhz. Turn Nstream on.

IP Address 10.10.222.233/24 ether1

IP Address 172.16.0.1/24 wlan1

Add EOIP tunnel 1. Set the IP address to the Board 2 address, 172.16.0.2

Add a bridge = bridge1. Set the ports to ether1 and the EOIP tunnel 1

Ip address 192.168.1.10/24 ether2

Ip address 172.17.0.1/24 wlan1

Add EOIP tunnel 2. Set the ip address to the board 2 address, 172.17.0.2

Add a bridge = bridge2. Set the ports to ether2 and EOIP tunnel 2


Board 2, Client

Set the wireless connection to Station, no wds, no default bridge

Set the 5 ghz to 5ghz – 10 mhz. Turn Nstream on.

Ip address 10.10.222.234/24 ether1

IP address 172.16.0.2/24 wlan1

Add EOIP tunnel 1. Set the IP address to the Board 1 address, 172.16.0.1

Add a bridge = bridge1. Set the ports to ether 1 and the EOIP tunnel 1

Ip address 192.168.1.11/24 ether2

Ip address 172.17.0.2/24 wlan1

Add EOIP tunnel 2. Set the ip address to the board 1 address, 172.17.0.1

Add a bridge = bridge2. Set the ports to ether2 and EOIP tunnel 2


I hope this helps you!