# -*- text -*- ###################################################################### # # This is a virtual server that handles DHCP. # # !!!! WARNING !!!! # # This code is experimental, and SHOULD NOT be used in a # production system. It is intended for validation and # experimentation ONLY. # # In order for this to work, you will need to run configure: # # $ ./configure --with-dhcp # $ make # $ vi share/dictionary # # ## Un-comment the line containing $INCLUDE dictionary.dhcp # ## Then, save the file. # # $ make install # # DHCP is NOT enabled by default. # # The goal of this effort is to get the code in front of # people who are interested in another DHCP server. # We NEED FEEDBACK, patches, bug reports, etc. Especially patches! # # Please contribute, or this work will be nothing more than # a curiosity. # # # Q: What does it do? # A: It allows the server to receive DHCP packets, and to # respond with static, pre-configured DHCP responses. # # Q: Does it do static/dynamic IP assignment? # A: No. Or, maybe. Try it and see. # # Q: Does it read ISC configuration or lease files? # A: No. Please submit patches. # # Q: Does it have DHCP feature X? # A: No. Please submit patches. # # Q: Does it support option 82? # A: Yes. # # Q: Does it support other options? # A: Maybe. See dictionary.dhcp. Please submit patches. # # Q: It doesn't seem to do much of anything! # A: Exactly. # # $Id: 33da1f10a67dd38b889300bc998737a268ef0948 $ # ###################################################################### # # The DHCP functionality goes into a virtual server. # server dhcp { # Define a DHCP socket. # # The default port below is 6700, so you don't break your network. # If you want it to do real DHCP, change this to 67, and good luck! # # You can also bind the DHCP socket to an interface. # See below, and raddb/radiusd.conf for examples. # # This lets you run *one* DHCP server instance and have it listen on # multiple interfaces, each with a separate policy. # # If you have multiple interfaces, it is a good idea to bind the # listen section to an interface. You will also need one listen # section per interface. # # FreeBSD does *not* support binding sockets to interfaces. Therefore, # if you have multiple interfaces, broadcasts may go out of the wrong # one, or even all interfaces. The solution is to use the "setfib" command. # If you have a network "10.10.0/24" on LAN1, you will need to do: # # Pick any IP on the 10.10.0/24 network # $ setfib 1 route add default 10.10.0.1 # # Edit /etc/rc.local, and add a line: # setfib 1 /path/to/radiusd # # The kern must be built with the following options: # options ROUTETABLES=2 # or any value larger than 2. # # The other only solution is to update FreeRADIUS to use BPF sockets. # # So that we only specify these values once, and then # use them in all of the listen sections. port = 6700 ipaddr = 127.0.0.1 interface = lo0 # When the machine is not Linux, or has only one network # interface, use the following listener. It receives # broadcast *and* unicast packets. listen { type = dhcp ipaddr = * port = ${..port} interface = ${..interface} # The DHCP server defaults to allowing broadcast packets. # Set this to "no" only when the server receives *all* packets # from a relay agent. i.e. when *no* clients are on the same # LAN as the DHCP server. # # It's set to "no" here for testing. broadcast = no } # When the machine is Linux and has multiple network interfaces, use # the following two listeners instead of the one above. # Listen for broadcasts on a specific interface. listen { type = dhcp ipaddr = 255.255.255.255 port = ${..port} interface = ${..interface} # # The source IP for unicast packets is chosen from the first # one of the following items which returns a valid IP # address: # # src_ipaddr # ipaddr # reply:DHCP-Server-IP-Address # reply:DHCP-DHCP-Server-Identifier # # For now, use the parent's "ipaddr", not the one # in this listen section # src_ipaddr = ${..ipaddr} } # Listen for unicasts on an IP, but not bound to any interface. # This allows Linux systems to receive packets on interface X # when the IP is associated with interface Y. # # Then, define which interface the packets go out of, via # "src_interface". This means that the outbound packets # get sent via the correct interface. listen { type = dhcp ipaddr = ${..ipaddr} port = ${..port} # # When sending unicast responses, this interface is # used as the source interface. If unset, the value # is taken from the "interface" field in this # section. # # This interface is also used when adding ARP entries. # FreeRADIUS doesn't open "raw" network sockets to send # unicast DHCP responses on the local network. Instead, # it updates the ARP table for this interface with the # MAX and IP of the DHCP client. The server can then # send a normal UDP unicast socket. # # NOTE: The server MUST be running as "root" in order # to update the ARP table. Or, it must have the # apropriate capabilities added to it after it starts up. # src_interface = ${..interface} } # Packets received on the socket will be processed through one # of the following sections, named after the DHCP packet type. # See dictionary.dhcp for the packet types. dhcp DHCP-Discover { update reply { DHCP-Message-Type = DHCP-Offer } # The contents here are invented. Change them! update reply { DHCP-Domain-Name-Server = 127.0.0.1 DHCP-Domain-Name-Server = 127.0.0.2 DHCP-Subnet-Mask = 255.255.255.0 DHCP-Router-Address = 192.168.1.1 DHCP-IP-Address-Lease-Time = 86400 DHCP-DHCP-Server-Identifier = 192.168.1.1 } # Do a simple mapping of MAC to assigned IP. # # See below for the definition of the "mac2ip" # module. # #mac2ip # If the MAC wasn't found in that list, do something else. # You could call a Perl, Python, or Java script here. #if (notfound) { # ... #} # Or, allocate IPs from the DHCP pool in SQL. # dhcp_sqlippool ok } dhcp DHCP-Request { update reply { DHCP-Message-Type = DHCP-Ack } # The contents here are invented. Change them! update reply { DHCP-Domain-Name-Server = 127.0.0.1 DHCP-Domain-Name-Server = 127.0.0.2 DHCP-Subnet-Mask = 255.255.255.0 DHCP-Router-Address = 192.168.1.1 DHCP-IP-Address-Lease-Time = 86400 DHCP-DHCP-Server-Identifier = 192.168.1.1 } # Do a simple mapping of MAC to assigned IP. # # See below for the definition of the "mac2ip" # module. # #mac2ip # If the MAC wasn't found in that list, do something else. # You could call a Perl, Python, or Java script here. #if (notfound) { # ... #} # Or, allocate IPs from the DHCP pool in SQL. # dhcp_sqlippool ok } # If there's no named section for the packet type, then the packet # is processed through this section. dhcp { # send a DHCP NAK. reject } } ###################################################################### # # This next section is a sample configuration for the "passwd" # module, that reads flat-text files. It should go into # radiusd.conf, in the "modules" section. # # The file is in the format , # # 00:01:02:03:04:05,192.168.1.100 # 01:01:02:03:04:05,192.168.1.101 # 02:01:02:03:04:05,192.168.1.102 # # This lets you perform simple static IP assignment. # ###################################################################### #passwd mac2ip { # filename = ${confdir}/mac2ip # format = "*DHCP-Client-Hardware-Address:=DHCP-Your-IP-Address" # delimiter = "," #}