Ubuntu Linux Gateway Example: Difference between revisions

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When you ask for a "static" IPv4 address, your ISP will provide you with the following information that you will need to configure your server.  
When you ask for a "static" IPv4 address, your ISP will provide you with the following information that you will need to configure your server.  


'''Caution!!!: Once you request a "static" IPv4 address from your ISP, you will need to complete the rest of this setup before you will be able to connect your "non-ham" devices to the Internet!!!'''
'''Caution!!!: Once you request a "static" IPv4 address from your ISP, you will need to complete the rest of this setup before you will be able to re-connect your "non-ham" devices to the Internet!!!'''


; IP Address (example - <tt>192.0.2.2</tt>) : The "static" IP Address itself.
; IP Address (example - <tt>192.0.2.2</tt>) : The "static" IP Address itself.

Revision as of 15:02, 30 March 2014

The following are the steps necessary to create a general purpose gateway to AMPRNet using an Ubuntu Linux Server.

Not everyone needs a gateway!

You only need to setup a gateway if:

  • You want to access AMPRNet resources that are not accessible from the global Internet.
  • You want to provide access to AMPRNet over RF (via packet or using WiFi) and there doesn't exist such a service in your area.

Design

The basic design consists of a standard PC running Ubuntu 12.04 (LTS) and three network connections:

  1. The first connection is to your ISP so you can reach the Internet.
  2. The second connection is used to connect your normal "non-ham" devices to the Internet.
  3. The third connection is used to connect your "ham" devices so they can see and be seen by other devices on AMPRNet.

The following diagram illustrates are gateway design. (Click on the image to enlarge).

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Prerequisites (What do I need to get started?)

Hardware you will need

I'm running my gateway on an old Dell Optiplex GX260 (a Pentium 4 with 512 MB of RAM and a 20 GB Hard drive). You don't need much of a system if your Internet Service Provider's (ISP) bandwidth is 100Mb/s or less.

Along with the built in Ethernet network interface, I've installed two additional 10/100 Ethernet network cards I purchased from Amazon.

Software you will need

On the Dell I've installed Ubuntu 12.04 LTS (the 32-bit server version). With one exception all of the software you will need for the gateway you can get with the server.

Installing Required Linux Software

Install the Ubuntu Linux Distribution on your gateway hardware following the instructions on Ubuntu's web site.

After you have installed Ubuntu, you will need to upgrade it with the latest fixes and patches. To do this, you will need to login with the username and password you setup when installing Ubuntu and type the following commands:

sudo apt-get update

You will be prompted for your password and then the your gateway will update its database of software to the latest version.

To actually update the sotfware, type the following command:

sudo apt-get upgrade

Enter yes when prompted to install the updates.\

You will probably need to restart your gateway after installing your updates. To do this type:

sudo shutdown -r now

Your gateway should shutdown and restart. Log back in.

After you have completed upgrading your operating system, you will need to install the following software packages:

isc-dhcp-server
This software will be used to assign IP addresses dynamically to your "non-ham" and "ham" devices.
iptables
This software will help protect your gateway, "non-ham" devices, and AMPRNet devices from hackers.
iptables-persistent
You will need this make sure your iptables settings are remembered when you restart your gateway

To install the software packages type the following at the command line on your gateway hardware:

sudo apt-get install isc-dhcp-server iptables iptables-persistent

Obtain the IPv4 Addresses you will need

What is an IPv4 Address ?

An IPv4 address is a unique 32-bit binary number that is assigned to every publicly connected Internet device.

To make the address easy for humans to read, it is usually represented as a four decimal numbers separated by periods (example - 192.0.0.2).

More information on IPv4 addresses can be found in this Wikipedia article. Take some time to read it over, it will help make it easier to understand the following steps.

Obtain a "Static" IPv4 from your ISP

What is a "Static" IP ?

Normally your ISP assigns your router a public IPv4 address dynamically from a pool of IPv4 addresses shared by many customers. This means that your Public IPv4 address can change periodically and without notice. Usually this isn't a big issue for most normal users, however it can cause problems when trying implement an AMPRNet gateway. While it is possible to make AMPRNet gateways work with a dynamically assigned address, there could be a significant time lag between the time your Public IPv4 address changes and when others on AMPRNet learn about the new gateway address. During this time your AMPRNet subnet may be unreachable.

Therefore, I recommend asking your ISP for a "static" IPv4 address. A "static" IPv4 address is one that doesn't change. Usually your ISP will set you up with one for a small setup fee and small monthly recurring fee. It is well worth the extra cost to insure a stable gateway.

When you ask for a "static" IPv4 address, your ISP will provide you with the following information that you will need to configure your server.

Caution!!!: Once you request a "static" IPv4 address from your ISP, you will need to complete the rest of this setup before you will be able to re-connect your "non-ham" devices to the Internet!!!

IP Address (example - 192.0.2.2)
The "static" IP Address itself.
Netmask (example - 255.255.255.0)
The netmask is used to determine what part of the IPv4 address is the "network" portion and what portion is the "host" (a good analogy is a Postal Code (network) vs. a House Number (host)).
Default Gateway (example - 192.0.2.1)
The default gateway is an IP address that you send traffic to to reach the rest of the Internet.
DNS Server Addresses (example - 192.0.2.23,192.0.2.24
DNS server addresses are the IP addresses of systems that look up the IP address of a device you specify by name. (When you type "google.com" into your browser, the DNS Servers look up the IP address for "google.com" to know where to send your search request.

Please make sure you copy this information down carefully and verify it with your ISP. Your gateway will not work correctly without it!

Decide on Private IPv4 Addresses for "Non-Ham" Devices

Your "non-ham" devices will need their own IP Addresses, separate from AMPRNet. Normally these addresses are assigned from what is known as private address space. Your gateway will take care of routing traffic to and from this private address space to the public Internet.

For this example, let's use the private network 192.168.11.0. The relevant information would be:

  • IP Address for our gateway: 192.168.11.1
  • Netmask 255.255.255.0
  • Default Gateway: 192.168.11.1 (Our gateway will be the default gateway for devices on the "non-ham" network).
  • DNS Name Servers: Use the same DNS Name server IP Addresses given to you by your ISP.

Obtain an AMPRNet IPv4 Address Allocation and Register Your Gateway

Once you have your "static" IPv4 address from your ISP; you will need to go the AMPRNet Portal, request an AMPRNet subnet from a regional coordinator, and register your gateway.

For this example we will use a range of AMPRNet addresses that is reserved for testing and documentation.

Caution!!!: In order to make sure your AMPRNet gateway and subnet is reachable by others, you MUST obtain and use a production AMPRNet subnet!!!

  • IP Address : 44.128.10.1
  • Netmask : 255.255.255.0
  • Default Gateway : 44.128.10.1
  • DNS Name Servers : Use the same as assigned by your ISP.

Setting up the ISP (Internet) Interface

Configuring the interface

To configure the ISP Interface, type the following command to edit the file /etc/networking/interfaces:

sudo nano /etc/network/interfaces

Find the section that looks like this:

auto eth0
iface eth0 inet dhcp

Change it to look like the following (Remember to substitute the information you received from your ISP!!!):

auto eth0
#iface eth0 inet dhcp
iface eth0 inet static
   address 192.0.2.2
   netmask 255.255.255.0
   gateway 192.0.2.1
   dns-nameservers 192.0.2.23 192.0.2.24

Double check that the information is correct then save the file by pressing CTRL-X and then Y to save the file.

To make the changes take effect, type the following commands:

sudo ifdown eth0
sudo ifup eth0

Testing

At this point you should be able to reach the Internet from the gateway (but not from "non-ham" or "ham" devices yet). To test, type the following command:

ping 8.8.8.8

You should see something like:

njohnsn@srv01:~$ ping 8.8.8.8
PING 8.8.8.8 (8.8.8.8) 56(84) bytes of data.
64 bytes from 8.8.8.8: icmp_req=1 ttl=46 time=127 ms
64 bytes from 8.8.8.8: icmp_req=2 ttl=46 time=128 ms
64 bytes from 8.8.8.8: icmp_req=3 ttl=46 time=130 ms

Press CTRL-C to stop the program.

If you see something different, please check the following:

  1. That the correct network interface on the gateway system is connected to your ISP (cable or DSL modem).
  2. Double check the settings in the /etc/network/interfaces file.

Don't continue to the next steps until you are successfully able to get the gateway connected to the Internet.

Setting up the "Non-Ham" Network Interface

Now we need to configure things so that you can connect your "non-ham" devices to the Internet.

Configuring the Interface

Once again you will need to edit the file /etc/network/interfaces by type the following:

sudo nano /etc/network/interfaces

Find and edit or add the following section:

auto eth1
iface eth1 inet static
   address 192.168.11.1
   netmask 255.255.255.0

and execute the following commands:

sudo ifdown eth1
sudo ifup eth1

Setting up DHCP

DHCP stands for Dynamic Host Configuration Protocol and is used to assign IP addresses to hosts dynamically. To configure DHCP for our "non-ham" devices you will need to edit the file /etc/dhcp/dhcpd.conf.

sudo nano /etc/dhcp/dhcpd.conf

Uncomment (remove the # from the start of the line) the following line:

authoritative;

Add the following lines to the end of the file (Remember to substitute the address for your DNS Servers)

option domain-name "local";
option domain-name-servers 192.0.2.23, 192.0.2.24;

subnet 192.168.11.0 netmask 255.255.255.0 {
  range 192.168.11.20 192.168.11.128;
  option routers 192.168.11.1;
}

and save the file.

Next we will need to restart the DHCP server software by typing the following:

sudo service isc-dhcp-server restart

Enabling forwarding

Now, we will need to enable "forwarding" of traffic through the gateway. To do this we will need to edit the file /etc/sysctl.conf.

nano /etc/sysctl.conf

Find the following section and do what it recommends. It should end up looking like this:

# Uncomment the next line to enable packet forwarding for IPv4
net.ipv4.ip_forward=1

Save the file and restart your gateway with sudo shutdown -r now.

Setting up the Firewall

Now will we need to setup the Firewall using iptables. The following articlegives a good overview of iptables. The firewall will serve two purposes:

  1. Allow your "non-ham' devices on private address space to access the Internet buy using NAT.
  2. Help protect your gateway and "non-ham" devices.

What is NAT?

NAT stands for Network Address Translation.

NAT is what is used in your typical home router or wireless Access Point (AP) to allow you to connect multiple devices to one Internet Service Provider (ISP) connection.

Basically NAT makes all your devices on your home network appear as one device to the ISP. It does this by keeping track of the data coming from each of your devices and makes sure that the return data from the Internet gets back to the right device.

Setting up NAT

Setting up NAT for our "non-ham" devices requires the following command: (Be sure to substitute your "static" IP address in the --to-source option)

sudo iptables -T nat -A POSTROUTING -o eth0 -j SNAT --to-source 192.0.2.2

Protecting the Gateway

First, we need to define our default Firewall Policies:

  • DROP all traffic headed for our gateway
  • ACCEPT all traffic headed out from our gateway
  • DROP all traffic to be forwarded between interfaces

To do this type the following commands:

sudo iptables -P INPUT DROP
sudo iptables -P OUTPUT ACCEPT
sudo iptables -P FORWARD DROP

Next we need to allow access to the "loopback" interface (The loopback interface is used internally by Linux on the gateway).

sudo iptables -A INPUT -i lo -j ACCEPT
sudo iptables -A OUTPUT -i lo -j ACCEPT

Next, we need to allow traffic back into the gateway from connections that were made by the gateway.

sudo iptables -A INPUT -i eth0 -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT

Protecting the "Non-Ham" Network

Now we need to allow connections from the "non-ham" network to the Internet and allow the returning traffic from the Internet back to the "non-ham" network.

sudo iptables -A FORWARD -i eth1 -o eth0 -j ACCEPT
sudo iptables -A FORWARD -i eth0 -o eth1 -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT

Saving the firewall rules

To save our firewall rules so far, type the following commands.

sudo iptables-save > /etc/iptables/rules.v4

Testing

At this point you should be able to connect a "non-ham" device to the "non-ham" interface of your gateway, and be able to access the Internet.

Note: If you are using a home router or wireless access point, you will need to configure it for "bridging mode" in order to use it with your gateway. Check the documentation for your device to see how to do this.

Setting up the Local "Ham" Network (AMPRNet) Interface

Configuring the Interface

Once again you will need to edit the file /etc/network/interfaces by typing the following:

sudo nano /etc/network/interfaces

Find and edit or add the following section: NOTE: (Be sure to substitute your production AMPRNet subnet you obtained from your regional coordinator)

auto eth2
iface eth1 inet static
   address 44.128.10.1
   netmask 255.255.255.0

and execute the following commands:

sudo ifdown eth2
sudo ifup eth2

More DHCP

To configure DHCP for our "ham" devices you will need to edit the file /etc/dhcp/dhcpd.conf again.

sudo nano /etc/dhcp/dhcpd.conf

Add the following lines to the end of the file. NOTE: (Remember to substitute your production AMPRNet addresses for the ones in the example)

subnet 44.128.10.0 netmask 255.255.255.0 {
  range 44.128.10.2 44.128.10.254;
  option routers 44.128.10.1;
  option domain-name-servers 8.8.8.8, 8.8.4.4;
}

Next we will need to restart the DHCP server software by typing the following:

sudo service isc-dhcp-server restart

Setting up the Tunnel and Routing to AMPRNet

Automating Gateway Updates with ampr-ripd

The easiest way to receive updates is by running ampr-ripd ampr-ripd is a C program that listens for updates from the AMPRNet gateway at UCSD and populates a routing table with the routes to all other gateways.

Getting, compiling, and installing ampr-ripd

To get ampr-ripd and install it, type the following

mkdir ampr-ripd
cd ampr-ripd
wget http://www.yo2loj.ro/hamprojects/ampr-ripd-1.11.tgz
tar -xzvf ampr-ripd-1.11.tgz
sudo make
sudo make install

Creating a startup script to connect to AMPRNet

The following text can be appended to the end of the /etc/rc.local file on your gateway to do the following:

  1. Configure the AMPRNet IPIP Tunnel
  2. Configure local routing
  3. Start ampr-ripd

First a note about netmask notation in the file

In the file below your "netmask" is represented differently than you may receive from your ISP.

In this case we are using CIDR notaton.

For example the netmask 255.255.255.0 is represented by the CIDR notation /24.

A good table of netmask to CIDR notation can be found here.

To add the text edit the /etc/rc.local file by:

sudo nano /etc/rc.local

Here is the text to append to the file NOTE: Don't forget to substitute your IP addresses for for the ones in the file.

###
## Create AMPRNet Tunnel and routing
##

## Configure Tunnel
ip tunnel add ampr0 mode ipip local 192.0.2.2 ttl 255

## Bring it up
ip link set dev ampr0 up

## Enable Multicast in order to receive routes
ifconfig ampr0 multicast

## Configure Policy Based routing
# Packets to 44/8 network use routing table 44
ip rule add to 44.0.0.0/8 table 44 priority 44

# Packets from our 44 subnet use table 44
ip rule add from 44.128.10.0/24 table 44 priority 45

## Configure static routes
# Default route for table 44 is to send traffic to amprnet gateway at UCSD
ip route add default dev ampr0 via 169.228.66.251 onlink table 44

# Route packets for our net to local interface
ip route add 44.128.10.0/24 dev eth2 table 44

## Start ampr-ripd to learn rest of mesh routes
ampr-ripd -s -i ampr0 -a 192.0.2.2 -t 44 -p pLaInTeXtpAsSwD

exit 0

Setting up the Firewall (Part 2)

Protecting the Local "Ham" Network

Testing