Let's look at an example:
pass in on egress proto tcp from any to any port 80 rdr-to 192.168.1.20This line redirects TCP port 80 (web server) traffic to a machine inside the network at 192.168.1.20. So, even though 192.168.1.20 is behind the gateway and inside the network, the outside world can access it.
from any to any part of the above
rdr line can be
If the addresses or subnets that are supposed to have access to the web
server at port 80 are known, they can be restricted here:
pass in on egress proto tcp from 203.0.113.0/24 to any port 80 rdr-to 192.168.1.20This will redirect only the specified subnet. It's possible to redirect different incoming hosts to different machines behind the gateway. For example, users at remote sites could access their own desktop computers using the same port and IP address on the gateway as long as the IP addresses they will be connecting from are known.
pass in on egress proto tcp from 203.0.113.14 to any port 80 rdr-to 192.168.1.20 pass in on egress proto tcp from 198.51.100.89 to any port 80 rdr-to 192.168.1.22 pass in on egress proto tcp from 198.51.100.178 to any port 80 rdr-to 192.168.1.23A range of ports can also be redirected within the same rule:
pass in on egress proto tcp from any to any port 5000:5500 \ rdr-to 192.168.1.20 pass in on egress proto tcp from any to any port 5000:5500 \ rdr-to 192.168.1.20 port 6000 pass in on egress proto tcp from any to any port 5000:5500 \ rdr-to 192.168.1.20 port 7000:*These examples show ports 5000 to 5500 inclusive being redirected to 192.168.1.20. In rule #1, port 5000 is redirected to 5000, 5001 to 5001, etc. In rule #2, the entire port range is redirected to port 6000. And in rule #3, port 5000 is redirected to 7000, 5001 to 7001, etc.
These risks can be minimized by keeping the externally accessed system tightly confined on a separate network. This network is often referred to as a demilitarized zone (DMZ) or a private service network (PSN). This way, if the web server is compromised, the effects can be limited to the DMZ/PSN network by careful filtering of the traffic permitted to and from it.
server = 192.168.1.40 pass in on egress proto tcp from any to egress port 80 rdr-to $server port 80But when the redirection rule is tested from a client on the LAN, it doesn't work. The reason is that redirection rules only apply to packets that pass through the specified interface (egress, the external interface, in the example). Connecting to the external address of the firewall from a host on the LAN, however, does not mean the packets will actually pass through its external interface. The TCP/IP stack on the firewall compares the destination address of incoming packets with its own addresses and aliases and detects connections to itself as soon as they have passed the internal interface. Such packets do not physically pass through the external interface, and the stack does not simulate such a passage in any way. Thus, PF never sees these packets on the external interface, and the redirection rule, specifying the external interface, does not apply.
Adding a second redirection rule for the internal interface does not have the desired effect either. When the local client connects to the external address of the firewall, the initial packet of the TCP handshake reaches the firewall through the internal interface. The redirection rule does apply and the destination address gets replaced with that of the internal server. The packet gets forwarded back through the internal interface and reaches the internal server. But the source address has not been translated, and still contains the local client's address, so the server sends its replies directly to the client. The firewall never sees the reply and has no chance to properly reverse the translation. The client receives a reply from a source it never expected and drops it. The TCP handshake then fails and no connection can be established.
Still, it's often desirable for clients on the LAN to connect to the same internal server as external clients and to do so transparently. There are several solutions for this problem:
pass in on $int_if proto tcp from $int_net to egress port 80 rdr-to $server pass out on $int_if proto tcp to $server port 80 received-on $int_if nat-to $int_ifThis will cause the initial packet from the client to be translated again when it's forwarded back through the internal interface, replacing the client's source address with the firewall's internal address. The internal server will reply back to the firewall, which can reverse both NAT and RDR translations when forwarding to the local client. This construct is rather complex as it creates two separate states for each reflected connection. Care must be taken to prevent the NAT rule from applying to other traffic, for instance connections originating from external hosts (through other redirections) or the firewall itself. Note that the
rdr-torule above will cause the TCP/IP stack to see packets arriving on the internal interface with a destination address inside the internal network.