README.tun - third_party/openssh-portable - Git at Google

 How to use OpenSSH-based virtual private networks
 -------------------------------------------------

 OpenSSH contains support for VPN tunneling using the tun(4) network
 tunnel pseudo-device which is available on most platforms, either for
 layer 2 or 3 traffic.

 The following brief instructions on how to use this feature use
 a network configuration specific to the OpenBSD operating system.

 (1) Server: Enable support for SSH tunneling

 To enable the ssh server to accept tunnel requests from the client, you
 have to add the following option to the ssh server configuration file
 (/etc/ssh/sshd_config):

 	PermitTunnel yes

 Restart the server or send the hangup signal (SIGHUP) to let the server
 reread it's configuration.

 (2) Server: Restrict client access and assign the tunnel

 The OpenSSH server simply uses the file /root/.ssh/authorized_keys to
 restrict the client to connect to a specified tunnel and to
 automatically start the related interface configuration command. These
 settings are optional but recommended:

 	tunnel="1",command="sh /etc/netstart tun1" ssh-rsa ... reyk@openbsd.org

 (3) Client: Configure the local network tunnel interface

 Use the hostname.if(5) interface-specific configuration file to set up
 the network tunnel configuration with OpenBSD. For example, use the
 following configuration in /etc/hostname.tun0 to set up the layer 3
 tunnel on the client:

 	inet 192.168.5.1 255.255.255.252 192.168.5.2

 OpenBSD also supports layer 2 tunneling over the tun device by adding
 the link0 flag:

 	inet 192.168.1.78 255.255.255.0 192.168.1.255 link0

 Layer 2 tunnels can be used in combination with an Ethernet bridge(4)
 interface, like the following example for /etc/bridgename.bridge0:

 	add tun0
 	add sis0
 	up

 (4) Client: Configure the OpenSSH client

 To establish tunnel forwarding for connections to a specified
 remote host by default, use the following ssh client configuration for
 the privileged user (in /root/.ssh/config):

 	Host sshgateway
 		Tunnel yes
 		TunnelDevice 0:any
 		PermitLocalCommand yes
 	        LocalCommand sh /etc/netstart tun0

 A more complicated configuration is possible to establish a tunnel to
 a remote host which is not directly accessible by the client.
 The following example describes a client configuration to connect to
 the remote host over two ssh hops in between. It uses the OpenSSH
 ProxyCommand in combination with the nc(1) program to forward the final
 ssh tunnel destination over multiple ssh sessions.

 	Host access.somewhere.net
 	        User puffy
 	Host dmzgw
 	        User puffy
 	        ProxyCommand ssh access.somewhere.net nc dmzgw 22
 	Host sshgateway
 	        Tunnel Ethernet
 	        TunnelDevice 0:any
 	        PermitLocalCommand yes
 	        LocalCommand sh /etc/netstart tun0
 	        ProxyCommand ssh dmzgw nc sshgateway 22

 The following network plan illustrates the previous configuration in
 combination with layer 2 tunneling and Ethernet bridging.

 +--------+       (          )      +----------------------+
 | Client |------(  Internet  )-----| access.somewhere.net |
 +--------+       (          )      +----------------------+
     : 192.168.1.78                             |
     :.............................         +-------+
      Forwarded ssh connection    :         | dmzgw |
      Layer 2 tunnel              :         +-------+
                                  :             |
                                  :             |
                                  :      +------------+
                                  :......| sshgateway |
                                       | +------------+
 --- real connection                 Bridge ->  |          +----------+
 ... "virtual connection"                     [ X ]--------| somehost |
 [X] switch                                                +----------+
                                                           192.168.1.25

 (5) Client: Connect to the server and establish the tunnel

 Finally connect to the OpenSSH server to establish the tunnel by using
 the following command:

 	ssh sshgateway

 It is also possible to tell the client to fork into the background after
 the connection has been successfully established:

 	ssh -f sshgateway true

 Without the ssh configuration done in step (4), it is also possible
 to use the following command lines:

 	ssh -fw 0:1 sshgateway true
 	ifconfig tun0 192.168.5.1 192.168.5.2 netmask 255.255.255.252

 Using OpenSSH tunnel forwarding is a simple way to establish secure
 and ad hoc virtual private networks. Possible fields of application
 could be wireless networks or administrative VPN tunnels.

 Nevertheless, ssh tunneling requires some packet header overhead and
 runs on top of TCP. It is still suggested to use the IP Security
 Protocol (IPSec) for robust and permanent VPN connections and to
 interconnect corporate networks.

 	Reyk Floeter

 $OpenBSD: README.tun,v 1.4 2006/03/28 00:12:31 deraadt Exp $
	How to use OpenSSH-based virtual private networks
	-------------------------------------------------

	OpenSSH contains support for VPN tunneling using the tun(4) network
	tunnel pseudo-device which is available on most platforms, either for
	layer 2 or 3 traffic.

	The following brief instructions on how to use this feature use
	a network configuration specific to the OpenBSD operating system.

	(1) Server: Enable support for SSH tunneling

	To enable the ssh server to accept tunnel requests from the client, you
	have to add the following option to the ssh server configuration file
	(/etc/ssh/sshd_config):

	PermitTunnel yes

	Restart the server or send the hangup signal (SIGHUP) to let the server
	reread it's configuration.

	(2) Server: Restrict client access and assign the tunnel

	The OpenSSH server simply uses the file /root/.ssh/authorized_keys to
	restrict the client to connect to a specified tunnel and to
	automatically start the related interface configuration command. These
	settings are optional but recommended:

	tunnel="1",command="sh /etc/netstart tun1" ssh-rsa ... reyk@openbsd.org

	(3) Client: Configure the local network tunnel interface

	Use the hostname.if(5) interface-specific configuration file to set up
	the network tunnel configuration with OpenBSD. For example, use the
	following configuration in /etc/hostname.tun0 to set up the layer 3
	tunnel on the client:

	inet 192.168.5.1 255.255.255.252 192.168.5.2

	OpenBSD also supports layer 2 tunneling over the tun device by adding
	the link0 flag:

	inet 192.168.1.78 255.255.255.0 192.168.1.255 link0

	Layer 2 tunnels can be used in combination with an Ethernet bridge(4)
	interface, like the following example for /etc/bridgename.bridge0:

	add tun0
	add sis0
	up

	(4) Client: Configure the OpenSSH client

	To establish tunnel forwarding for connections to a specified
	remote host by default, use the following ssh client configuration for
	the privileged user (in /root/.ssh/config):

	Host sshgateway
	Tunnel yes
	TunnelDevice 0:any
	PermitLocalCommand yes
	LocalCommand sh /etc/netstart tun0

	A more complicated configuration is possible to establish a tunnel to
	a remote host which is not directly accessible by the client.
	The following example describes a client configuration to connect to
	the remote host over two ssh hops in between. It uses the OpenSSH
	ProxyCommand in combination with the nc(1) program to forward the final
	ssh tunnel destination over multiple ssh sessions.

	Host access.somewhere.net
	User puffy
	Host dmzgw
	User puffy
	ProxyCommand ssh access.somewhere.net nc dmzgw 22
	Host sshgateway
	Tunnel Ethernet
	TunnelDevice 0:any
	PermitLocalCommand yes
	LocalCommand sh /etc/netstart tun0
	ProxyCommand ssh dmzgw nc sshgateway 22

	The following network plan illustrates the previous configuration in
	combination with layer 2 tunneling and Ethernet bridging.

	+--------+ ( ) +----------------------+
	\| Client \|------( Internet )-----\| access.somewhere.net \|
	+--------+ ( ) +----------------------+
	: 192.168.1.78 \|
	:............................. +-------+
	Forwarded ssh connection : \| dmzgw \|
	Layer 2 tunnel : +-------+
	: \|
	: \|
	: +------------+
	:......\| sshgateway \|
	\| +------------+
	--- real connection Bridge -> \| +----------+
	... "virtual connection" [ X ]--------\| somehost \|
	[X] switch +----------+
	192.168.1.25

	(5) Client: Connect to the server and establish the tunnel

	Finally connect to the OpenSSH server to establish the tunnel by using
	the following command:

	ssh sshgateway

	It is also possible to tell the client to fork into the background after
	the connection has been successfully established:

	ssh -f sshgateway true

	Without the ssh configuration done in step (4), it is also possible
	to use the following command lines:

	ssh -fw 0:1 sshgateway true
	ifconfig tun0 192.168.5.1 192.168.5.2 netmask 255.255.255.252

	Using OpenSSH tunnel forwarding is a simple way to establish secure
	and ad hoc virtual private networks. Possible fields of application
	could be wireless networks or administrative VPN tunnels.

	Nevertheless, ssh tunneling requires some packet header overhead and
	runs on top of TCP. It is still suggested to use the IP Security
	Protocol (IPSec) for robust and permanent VPN connections and to
	interconnect corporate networks.

	Reyk Floeter

	$OpenBSD: README.tun,v 1.4 2006/03/28 00:12:31 deraadt Exp $