# -*- text -*- ## ## clients.conf -- client configuration directives ## ## $Id$ ####################################################################### # # Define RADIUS clients (usually a NAS, Access Point, etc.). # # Defines a RADIUS client. # # '127.0.0.1' is another name for 'localhost'. It is enabled by default, # to allow testing of the server after an initial installation. If you # are not going to be permitting RADIUS queries from localhost, we suggest # that you delete, or comment out, this entry. # # # # Each client has a "short name" that is used to distinguish it from # other clients. # # In version 1.x, the string after the word "client" was the IP # address of the client. In 2.0, the IP address is configured via # the "ipaddr" or "ipv6addr" fields. For compatibility, the 1.x # format is still accepted. # client localhost { # Allowed values are: # dotted quad (1.2.3.4) # hostname (radius.example.com) ipaddr = 127.0.0.1 # OR, you can use an IPv6 address, but not both # at the same time. # ipv6addr = :: # any. ::1 == localhost # # A note on DNS: We STRONGLY recommend using IP addresses # rather than host names. Using host names means that the # server will do DNS lookups when it starts, making it # dependent on DNS. i.e. If anything goes wrong with DNS, # the server won't start! # # The server also looks up the IP address from DNS once, and # only once, when it starts. If the DNS record is later # updated, the server WILL NOT see that update. # # One client definition can be applied to an entire network. # e.g. 127/8 should be defined with "ipaddr = 127.0.0.0" and # "netmask = 8" # # If not specified, the default netmask is 32 (i.e. /32) # # We do NOT recommend using anything other than 32. There # are usually other, better ways to achieve the same goal. # Using netmasks of other than 32 can cause security issues. # # You can specify overlapping networks (127/8 and 127.0/16) # In that case, the smallest possible network will be used # as the "best match" for the client. # # Clients can also be defined dynamically at run time, based # on any criteria. e.g. SQL lookups, keying off of NAS-Identifier, # etc. # See raddb/sites-available/dynamic-clients for details. # # netmask = 32 # # The shared secret use to "encrypt" and "sign" packets between # the NAS and FreeRADIUS. You MUST change this secret from the # default, otherwise it's not a secret any more! # # The secret can be any string, up to 8k characters in length. # # Control codes can be entered vi octal encoding, # e.g. "\101\102" == "AB" # Quotation marks can be entered by escaping them, # e.g. "foo\"bar" # # A note on security: The security of the RADIUS protocol # depends COMPLETELY on this secret! We recommend using a # shared secret that is composed of: # # upper case letters # lower case letters # numbers # # And is at LEAST 8 characters long, preferably 16 characters in # length. The secret MUST be random, and should not be words, # phrase, or anything else that is recognizable. # # The default secret below is only for testing, and should # not be used in any real environment. # secret = mysecret # # Old-style clients do not send a Message-Authenticator # in an Access-Request. RFC 5080 suggests that all clients # SHOULD include it in an Access-Request. The configuration # item below allows the server to require it. If a client # is required to include a Message-Authenticator and it does # not, then the packet will be silently discarded. # # allowed values: yes, no require_message_authenticator = no # # The short name is used as an alias for the fully qualified # domain name, or the IP address. # # It is accepted for compatibility with 1.x, but it is no # longer necessary in 2.0 # # shortname = localhost # # the following three fields are optional, but may be used by # checkrad.pl for simultaneous use checks # # # The nastype tells 'checkrad.pl' which NAS-specific method to # use to query the NAS for simultaneous use. # # Permitted NAS types are: # # cisco # computone # livingston # max40xx # multitech # netserver # pathras # patton # portslave # tc # usrhiper # other # for all other types # nastype = other # localhost isn't usually a NAS... # # The following two configurations are for future use. # The 'naspasswd' file is currently used to store the NAS # login name and password, which is used by checkrad.pl # when querying the NAS for simultaneous use. # # login = !root # password = someadminpas # # As of 2.0, clients can also be tied to a virtual server. # This is done by setting the "virtual_server" configuration # item, as in the example below. # # virtual_server = home1 # # A pointer to the "home_server_pool" OR a "home_server" # section that contains the CoA configuration for this # client. For an example of a coa home server or pool, # see raddb/sites-available/originate-coa # coa_server = coa } client edugw.lnf.infn.it { secret = mysecret shortname = edugw nastype = other } # # Radius # client radius.lnf.infn.it { secret = mysecret shortname = radius nastype = other } # # Nagios # client 193.206.84.50 { secret = mysecret shortname = nagios nastype = other } # # DEFAULT GARR # client 192.84.145.15 { secret = mysecret shortname = eduroam nastype = other } client 172.16.14.9 { secret = mysecret shortname = swtest nastype = cisco } client 172.16.14.90 { secret = mysecret shortname = swmabtest nastype = cisco } # # WLC4400 AP Ports IP # client 172.16.14.18 { secret = mysecret shortname = wlc4400 nastype = cisco } client 172.16.14.19 { secret = mysecret shortname = wlc4400ap nastype = cisco } # # Elenco degli aironet dei LNF ordinati per IP Address (o N. di edificio) # client 172.16.1.2 { secret = mysecret shortname = ed1ap1 nastype = cisco } client 172.16.1.3 { secret = mysecret shortname = ed1ap2 nastype = cisco } client 172.16.2.5 { secret = mysecret shortname = ed2ap1 nastype = cisco } client 172.16.2.6 { secret = mysecret shortname = ed2ap2 nastype = cisco } client 172.16.2.7 { secret = mysecret shortname = ed2ap3 nastype = cisco } client 172.16.2.8 { secret = mysecret shortname = ed2ap4 nastype = cisco } client 172.16.4.4 { secret = mysecret shortname = ed4ap1 nastype = cisco } client 172.16.6.6 { secret = mysecret shortname = ed6ap1 nastype = cisco } client 172.16.9.14 { secret = mysecret shortname = ed9ap1 nastype = cisco } client 172.16.9.26 { secret = mysecret shortname = ed9btf nastype = cisco } client 172.16.11.13 { secret = mysecret shortname = ed11ap3 nastype = cisco } client 172.16.12.2 { secret = mysecret shortname = ed12ap1 nastype = cisco } client 172.16.14.11 { secret = mysecret shortname = ed14ap1 nastype = cisco } client 172.16.14.12 { secret = mysecret shortname = ed14ap2 nastype = cisco } client 172.16.14.43 { secret = mysecret shortname = edskelapn nastype = cisco } client 172.16.14.44 { secret = mysecret shortname = edspareapn nastype = cisco } client 172.16.14.100 { secret = mysecret shortname = ed14apn01 nastype = cisco } client 172.16.14.101 { secret = mysecret shortname = ed14apn02 nastype = cisco } client 172.16.15.2 { secret = mysecret shortname = ed15ap1 nastype = cisco } client 172.16.22.4 { secret = mysecret shortname = ed22ap1 nastype = cisco } client 172.16.22.5 { secret = mysecret shortname = ed22ap2 nastype = cisco } client 172.16.22.6 { secret = mysecret shortname = ed22ap3 nastype = cisco } client 172.16.22.7 { secret = mysecret shortname = ed22btf nastype = cisco } client 172.16.27.6 { secret = mysecret shortname = ed27ap1 nastype = cisco } client 172.16.27.7 { secret = mysecret shortname = ed27apn1 nastype = cisco } client 172.16.30.3 { secret = mysecret shortname = ed30ap1 nastype = cisco } client 172.16.30.4 { secret = mysecret shortname = ed30ap2 nastype = cisco } client 172.16.30.5 { secret = mysecret shortname = ed30ap3 nastype = cisco } client 172.16.30.6 { secret = mysecret shortname = ed30ap4 nastype = cisco } client 172.16.30.7 { secret = mysecret shortname = ed30ap5 nastype = cisco } client 172.16.30.8 { secret = mysecret shortname = ed30ap6 nastype = cisco } client 172.16.30.9 { secret = mysecret shortname = ed30ap7 nastype = cisco } client 172.16.36.5 { secret = mysecret shortname = ed36touschek nastype = cisco } client 172.16.36.6 { secret = mysecret shortname = ed36biblio nastype = cisco } client 172.16.36.75 { secret = mysecret shortname = ed36t75a nastype = cisco } client 172.16.36.76 { secret = mysecret shortname = ed36t75b nastype = cisco } client 172.16.36.104 { secret = mysecret shortname = ed36a34 nastype = cisco } client 172.16.36.204 { secret = mysecret shortname = ed36b75 nastype = cisco } client 172.16.36.205 { secret = mysecret shortname = ed36b1 nastype = cisco } client 172.16.36.206 { secret = mysecret shortname = ed36b34 nastype = cisco } # IPv6 Client #client ::1 { # secret = testing123 # shortname = localhost #} # # All IPv6 Site-local clients #client fe80::/16 { # secret = testing123 # shortname = localhost #} #client some.host.org { # secret = testing123 # shortname = localhost #} # # You can now specify one secret for a network of clients. # When a client request comes in, the BEST match is chosen. # i.e. The entry from the smallest possible network. # #client 192.168.0.0/24 { # secret = testing123-1 # shortname = private-network-1 #} # #client 192.168.0.0/16 { # secret = testing123-2 # shortname = private-network-2 #} #client 10.10.10.10 { # # secret and password are mapped through the "secrets" file. # secret = testing123 # shortname = liv1 # # the following three fields are optional, but may be used by # # checkrad.pl for simultaneous usage checks # nastype = livingston # login = !root # password = someadminpas #} ####################################################################### # # Per-socket client lists. The configuration entries are exactly # the same as above, but they are nested inside of a section. # # You can have as many per-socket client lists as you have "listen" # sections, or you can re-use a list among multiple "listen" sections. # # Un-comment this section, and edit a "listen" section to add: # "clients = per_socket_clients". That IP address/port combination # will then accept ONLY the clients listed in this section. # #clients per_socket_clients { # client 192.168.3.4 { # secret = testing123 # } #}