############################################################################## # QUICK-START # # The quickest start is if you want to use DHCP. # In that case, everything should work out of the box, no configuration # necessary, though the startup script will warn you that you haven't # specified anything. # WARNING :- some examples have a mixture of IPv4 (ie 192.168.0.1) and IPv6 # (ie 4321:0:1:2:3:4:567:89ab) internet addresses. They only work if you have # the relevant kernel option enabled. So if you don't have an IPv6 enabled # kernel then remove the IPv6 address from your config. # If you want to use a static address or use DHCP explicitly, jump # down to the section labelled INTERFACE HANDLERS. # # If you want to do anything more fancy, you should take the time to # read through the rest of this file. ############################################################################## # VARIABLES # # We've changed from using arrays to evaluated strings. # This has the benefit of being slightly more readable but more importantly it # works across all shells. # OLD # config_eth0=( "192.168.0.24 netmask 255.255.255.0" "192.168.0.25/24" ) # NEW # config_eth0="'192.168.0.24 netmask 255.255.255.0' 192.168.0.25/24" # INVALID # config_eth0='192.168.0.24 netmask 255.255.255.0' # # As the 1st value has spaces in it, it needs additional quoting. The 2nd # value has no spaces, therefore no additional quoting is required. # The last statement is invalid because when it is evaluated, it only has one # set of quotes. ############################################################################## # MODULES # # We now support modular networking scripts which means we can easily # add support for new interface types and modules while keeping # compatability with existing ones. # # Modules load by default if the package they need is installed. If # you specify a module here that doesn't have it's package installed # then you get an error stating which package you need to install. # Ideally, you only use the modules setting when you have two or more # packages installed that supply the same service. # # In other words, you probably should DO NOTHING HERE... # Prefer ifconfig over iproute2 #modules="ifconfig" # You can also specify other modules for an interface # In this case we prefer udhcpc over dhcpcd #modules_eth0="udhcpc" # You can also specify which modules not to use - for example you may be # using a supplicant or linux-wlan-ng to control wireless configuration but # you still want to configure network settings per SSID associated with. #modules="!iwconfig !wpa_supplicant" # IMPORTANT: If you need the above, please disable modules in that order ############################################################################## # INTERFACE HANDLERS # # We provide two interface handlers presently: ifconfig and iproute2. # You need one of these to do any kind of network configuration. # For ifconfig support, emerge sys-apps/net-tools # For iproute2 support, emerge sys-apps/iproute2 # If you don't specify an interface then we prefer iproute2 if it's installed # To prefer ifconfig over iproute2 #modules="ifconfig" # For a static configuration, use something like this # (They all do exactly the same thing btw) #config_eth0="192.168.0.2/24" #config_eth0="'192.168.0.2 netmask 255.255.255.0'" # We can also specify a broadcast #config_eth0="'192.168.0.2/24 brd 192.168.0.255'" #config_eth0="'192.168.0.2 netmask 255.255.255.0 broadcast 192.168.0.255'" # If you need more than one address, you can use something like this # NOTE: ifconfig creates an aliased device for each extra IPv4 address # (eth0:1, eth0:2, etc) # iproute2 does not do this as there is no need to #config_eth0="'192.168.0.2/24' '192.168.0.3/24' '192.168.0.4/24'" # Or you can use sequence expressions #config_eth0="192.168.0.{2..4}/24" # FIXME - does it work? # which does the same as above. Be careful though as if you use this and # fallbacks, you have to ensure that both end up with the same number of # values otherwise your fallback won't work correctly. # You can also use IPv6 addresses # (you should always specify a prefix length with IPv6 here) #config_eth0="192.168.0.2/24 \ #4321:0:1:2:3:4:567:89ab/64 \ #4321:0:1:2:3:4:567:89ac/64" #) # If you wish to keep existing addresses + routing and the interface is up, # you can specify a noop (no operation). If the interface is down or there # are no addresses assigned, then we move onto the next step (default dhcp) # This is useful when configuring your interface with a kernel command line # or similar #config_eth0="noop 192.168.0.2/24" # If you don't want ANY address (only useful when calling for advanced stuff) #config_eth0="null" # Here's how to do routing if you need it # We add an IPv4 default route, IPv4 subnet route and an IPv6 unicast route #routes_eth0=" \ # 'default via 192.168.0.1' \ # '10.0.0.0/8 via 192.168.0.1' \ # '::/0' \ #" # If a specified module fails (like dhcp - see below), you can specify a # fallback like so #fallback_eth0="'192.168.0.2 netmask 255.255.255.0'" #fallback_route_eth0="'default via 192.168.0.1'" # NOTE: fallback entry must match the entry location in config_eth0 # As such you can only have one fallback route. # Some users may need to alter the MTU - here's how #mtu_eth0="1500" # Each module described below can set a default base metric, lower is # preferred over higher. This is so we can prefer a wired route over a # wireless route automaticaly. You can override this by setting #metric_eth0="100" # or on a global basis #metric="100" # The only downside of the global setting is that you have to ensure that # there are no conflicting routes yourself. For users with large routing # tables you may have to set a global metric as the due to a simple read of # the routing table taking over a minute at a time. ############################################################################## # OPTIONAL MODULES #----------------------------------------------------------------------------- # WIRELESS (802.11 support) # Wireless can be provided by iwconfig or wpa_supplicant # iwconfig # emerge net-wireless/wireless-tools ############################################### # HINTS # # Most users will just need to set the following options # key_SSID1="s:yourkeyhere enc open" # s: means a text key # key_SSID2="aaaa-bbbb-cccc-dd" # no s: means a hex key # preferred_aps="'SSID 1' 'SSID 2'" # # Clear? Good. Now configure your wireless network below ############################################### # SETTINGS # Hard code an SSID to an interface - leave this unset if you wish the driver # to scan for available Access Points # Set to "any" to connect to any SSID - the driver picks an Access Point # This needs to be done when the driver doesn't support scanning # This may work for drivers that don't support scanning but you need automatic # AP association # I would only set this as a last resort really - use the preferred_aps # setting at the bottom of this file # However, using ad-hoc (without scanning for APs) and master mode # do require the SSID to be set - do this here #essid_eth0="any" # Set the mode of the interface (managed, ad-hoc, master or auto) # The default is auto # If it's ad-hoc or master you also may need to specify the channel below #mode_eth0="auto" # If managed mode fails, drop to ad-hoc mode with the below SSID? #adhoc_essid_eth0="WLAN" # Some drivers/hardware don't scan all that well. We have no control over this # but we can say how many scans we want to do to try and get a better sweep of # the area. The default is 1. #scans_eth0="1" #Channel can be set (1-14), but defaults to 3 if not set. # # The below is taken verbatim from the BSD wavelan documentation found at # http://www.netbsd.org/Documentation/network/wavelan.html # There are 14 channels possible; We are told that channels 1-11 are legal for # North America, channels 1-13 for most of Europe, channels 10-13 for France, # and only channel 14 for Japan. If in doubt, please refer to the documentation # that came with your card or access point. Make sure that the channel you # select is the same channel your access point (or the other card in an ad-hoc # network) is on. The default for cards sold in North America and most of Europe # is 3; the default for cards sold in France is 11, and the default for cards # sold in Japan is 14. #channel_eth0="3" # Setup any other config commands. This is basically the iwconfig argument # without the iwconfig $iface. #iwconfig_eth0="" # Set private driver ioctls. This is basically the iwpriv argument without # the iwpriv $iface. If you use the rt2500 driver (not the rt2x00 one) then # you can set WPA here, below is an example. #iwpriv_eth0="" #iwpriv_SSID=" \ # 'set AuthMode=WPAPSK' \ # 'set EncrypType=TKIP' \ # 'set WPAPSK=yourpasskey' \ #" #NOTE: Even though you can use WPA like so, you may have to set a WEP key #if your driver claims the AP is encrypted. The WEP key itself will not be #used though. # Seconds to wait before scanning # Some drivers need to wait until they have finished "loading" # before they can scan - otherwise they error and claim that they cannot scan # or resource is unavailable. The default is to wait zero seconds #sleep_scan_eth0="1" # Seconds to wait until associated. The default is to wait 10 seconds. # 0 means wait indefinitely. WARNING: this can cause an infinite delay when # booting. #associate_timeout_eth0="5" # By default a successful association in Managed mode sets the MAC # address of the AP connected to. However, some drivers (namely # the ipw2100) don't set an invalid MAC address when association # fails - so we need to check on link quality which some drivers # don't report properly either. # So if you have connection problems try flipping this setting # Valid options are MAC, quality and all - defaults to MAC #associate_test_eth0="MAC" # Some driver/card combinations need to scan in Ad-Hoc mode # After scanning, the mode is reset to the one defined above #scan_mode_eth0="Ad-Hoc" # Below you can define private ioctls to run before and after scanning # Format is the same as the iwpriv_eth0 above # This is needed for the HostAP drivers #iwpriv_scan_pre_eth0="'host_roaming 2'" #iwpriv_scan_post_eth0="'host_roaming 0'" # Define a WEP key per SSID or MAC address (of the AP, not your card) # The encryption type (open or restricted) must match the # encryption type on the Access Point # You can't use "any" for an SSID here #key_SSID="1234-1234-1234-1234-1234-1234-56" # or you can use strings. Passphrase IS NOT supported # To use a string, prefix it with s: # Note - this example also sets the encryption method to open # which is regarded as more secure than restricted #key_SSID="s:foobar enc open" #key_SSID="s:foobar enc restricted" # If you have whitespace in your key, here's how to set it and use other # commands like using open encryption. #key_SSID="s:'foo bar' enc open" # WEP key for the AP with MAC address 001122334455 #mac_key_001122334455="s:foobar" # Here are some more examples of keys as some users find others work # and some don't where they should all do the same thing #key_SSID="open s:foobar" #key_SSID="open 1234-5678-9012" #key_SSID="s:foobar enc open" #key_SSID="1234-5678-9012 enc open" # You may want to set muliple keys - here's an example # It sets 4 keys on the card and instructs to use key 2 by default #key_SSID="[1] s:passkey1 key [2] s:passkey2 key [3] s:passkey3 key [4] s:passkey4 key [2]" # You can also override the interface settings found in /etc/conf.d/net # per SSID - which is very handy if you use different networks a lot #config_SSID="dhcp" #dhcpcd_SSID="-t 5" #routes_SSID= #fallback_SSID= # Setting name/domain server causes /etc/resolv.conf to be overwritten # Note that if DHCP is used, and you want this to take precedence then # please put -R in your dhcpcd options #dns_servers_SSID="192.168.0.1 192.168.0.2" #dns_domain_SSID="some.domain" #dns_search_path_SSID="search.this.domain search.that.domain" # Please check the man page for resolv.conf for more information # as domain and search (searchdomains) are mutually exclusive and # searchdomains takes precedence # You can also set any of the /etc/conf.d/net variables per MAC address # incase you use Access Points with the same SSID but need different # networking configs. Below is an example - of course you use the same # method with other variables #config_001122334455="dhcp" #dhcpcd_001122334455="-t 10" #dns_servers_001122334455="192.168.0.1 192.168.0.2" # Map a MAC address to an SSID # This is used when the Access Point is not broadcasting it's SSID # WARNING: This will override the SSID being broadcast due to some # Access Points sending an SSID even when they have been configured # not to! # Change 001122334455 to the MAC address and SSID to the SSID # it should map to #mac_essid_001122334455="SSID" # This lists the preferred SSIDs to connect to in order # SSID's can contain any characters here as they must match the broadcast # SSID exactly. # Surround each SSID with the " character and seperate them with a space # If the first SSID isn't found then it moves onto the next # If this isn't defined then it connects to the first one found #preferred_aps="'SSID 1' 'SSID 2'" # You can also define a preferred_aps list per interface #preferred_aps_eth0="'SSID 3' 'SSID 4'" # You can also say whether we only connect to preferred APs or not # Values are "any", "preferredonly", "forcepreferred", "forcepreferredonly" and "forceany" # "any" means it will connect to visible APs in the preferred list and then any # other available AP # "preferredonly" means it will only connect to visible APs in the preferred list # "forcepreferred" means it will forceably connect to APs in order if it does not find # them in a scan # "forcepreferredonly" means it forceably connects to the APs in order and does not bother # to scan # "forceany" does the same as forcepreferred + connects to any other available AP # Default is "any" #associate_order="any" #associate_order_eth0="any" # You can define blacklisted Access Points in the same way #blacklist_aps="'SSID 1' 'SSID 2'" #blacklist_aps_eth0="'SSID 3' 'SSID 4'" # If you have more than one wireless card, you can say if you want # to allow each card to associate with the same Access Point or not # Values are "yes" and "no" # Default is "yes" #unique_ap="yes" #unique_ap_eth0="yes" # IMPORTANT: preferred_only, blacklisted_aps and unique_ap only work when # essid_eth0 is not set and your card is capable of scanning # NOTE: preferred_aps list ignores blacklisted_aps - so if you have # the same SSID in both, well, you're a bit silly :p ############################################################ # wpa_supplicant # emerge net-wireless/wpa-supplicant # Wireless options are held in /etc/wpa_supplicant/wpa_supplicant.conf # Console the wpa_supplicant.conf.example that is installed in # /usr/share/doc/wpa_supplicant # To configure wpa_supplicant #wpa_supplicant_ath0="-Dmadwifi" # For Atheros based cards # Consult wpa_supplicant for more drivers - the default is -Dwext which should # work for most cards. # By default we don't wait for wpa_suppliant to associate and authenticate. # If you need to change this behaviour then you don't know how our scripts work # and setting this value could cause strange things to happen. # If you would like to, so can specify how long in seconds. #associate_timeout_eth0=60 # A value of 0 means wait forever. # You can also override any settings found here per SSID - which is very # handy if you use different networks a lot. See below for using the SSID # in our variables #config_SSID="dhcp" # See the System module below for setting dns/nis/ntp per SSID # You can also override any settings found here per MAC address of the AP # in case you use Access Points with the same SSID but need different # networking configs. Below is an example - of course you use the same # method with other variables #mac_config_001122334455="dhcp" #mac_dns_servers_001122334455="192.168.0.1 192.168.0.2" # When an interface has been associated with an Access Point, a global # variable called SSID is set to the Access Point's SSID for use in the # pre/post user functions below (although it's not available in preup as you # won't have associated then) # If you're using anything else to configure wireless on your interface AND # you have installed wpa_supplicant, you need to disable wpa_supplicant #modules="!iwconfig !wpa_supplicant" #or #modules="!wireless" ############################################################################## # WIRELESS SSID IN VARIABLES ############################################################################## # Remember to change SSID to your SSID. # Say that your SSID is My NET - the line # #key_SSID="s:passkey" # becomes # #key_My_NET="s:passkey" # Notice that the space has changed to an underscore - do the same with all # characters not in a-z A-Z (English alphabet) 0-9. This only applies to # variables and not values. # # Any SSID's in values like essid_eth0="My NET" may need to be escaped # This means placing the character \ before the character # \" need to be escaped for example # So if your SSID is # My "\ NET # it becomes # My \"\\ NET # for example # #essid_eth0="My\"\\NET" # # So using the above we can use # #dns_domain_My____NET="My\"\\NET" # which is an invalid dns domain, but shows the how to use the variable # structure ######################################################### #----------------------------------------------------------------------------- # DHCP # DHCP can be provided by dhclient, dhcpcd, pump or udhcpc. # # dhclient: emerge net-misc/dhcp # dhcpcd: emerge net-misc/dhcpcd # pump: emerge net-misc/pump # udhcpc: emerge net-misc/udhcp # If you have more than one DHCP client installed, you need to specify which # one to use - otherwise we default to dhcpcd if available. #modules=( "dhclient" ) # to select dhclient over dhcpcd # # Notes: # - All clients send the current hostname to the DHCP server by default # - dhcpcd does not daemonize when the lease time is infinite # - udhcp-0.9.3-r3 and earlier do not support getting NTP servers # - pump does not support getting NIS servers # - DHCP tends to erase any existing device information - so add # static addresses after dhcp if you need them # - dhclient and udhcpc can set other resolv.conf options such as "option" # and "sortlist"- see the System module for more details # Regardless of which DHCP client you prefer, you configure them the # same way using one of following depending on which interface modules # you're using. #config_eth0="dhcp" # For passing custom options to dhcpcd use something like the following. This # example reduces the timeout for retrieving an address from 60 seconds (the # default) to 10 seconds. #dhcpcd_eth0="-t 10" # dhclient, udhcpc and pump don't have many runtime options # You can pass options to them in a similar manner to dhcpcd though #dhclient_eth0="..." #udhcpc_eth0="..." #pump_eth0="..." # GENERIC DHCP OPTIONS # Set generic DHCP options like so #dhcp_eth0="release nodns nontp nonis nogateway nosendhost" # This tells the dhcp client to release it's lease when it stops, not to # overwrite dns, ntp and nis settings, not to set a default route and not to # send the current hostname to the dhcp server and when it starts. # You can use any combination of the above options - the default is not to # use any of them. #----------------------------------------------------------------------------- # For APIPA support, emerge net-misc/iputils or net-analyzer/arping # APIPA is a module that tries to find a free address in the range # 169.254.0.0-169.254.255.255 by arping a random address in that range on the # interface. If no reply is found then we assign that address to the interface # This is only useful for LANs where there is no DHCP server and you don't # connect directly to the internet. #config_eth0="dhcp" #fallback_eth0="apipa" #----------------------------------------------------------------------------- # ARPING Gateway configuration # and # Automatic Private IP Addressing (APIPA) # For arpingnet / apipa support, emerge net-misc/iputils or net-analyzer/arping # # This is a module that tries to find a gateway IP. If it exists then we use # that gateways configuration for our own. For the configuration variables # simply ensure that each octet is zero padded and the dots are removed. # Below is an example. # #gateways_eth0="192.168.0.1 10.0.0.1" #config_192168000001="192.168.0.2/24" #routes_192168000001="'default via 192.168.0.1'" #dns_servers_192168000001="192.168.0.1" #config_010000000001="10.0.0.254/8" #routes_010000000001="default via 10.0.0.1" #dns_servers_010000000001="10.0.0.1" # We can also specify a specific MAC address for each gateway if different # networks have the same gateway. #gateways_eth0="192.168.0.1,00:11:22:AA:BB:CC 10.0.0.1,33:44:55:DD:EE:FF" #config_192168000001_001122AABBCC="192.168.0.2/24" #routes_192168000001_001122AABBCC="default via 192.168.0.1" #dns_servers_192168000001_001122AABBCC="192.168.0.1" #config_010000000001_334455DDEEFF="10.0.0.254/8" #routes_010000000001_334455DDEEFF="default via 10.0.0.1" #dns_servers_010000000001_334455DDEEFF="10.0.0.1" # If we don't find any gateways (or there are none configured) then we try and # use APIPA to find a free address in the range 169.254.0.0-169.254.255.255 # by arping a random address in that range on the interface. If no reply is # found then we assign that address to the interface. # This is only useful for LANs where there is no DHCP server. #config_eth0="arping" # or if no DHCP server can be found #config_eth0="dhcp" #fallback_eth0="arping" # NOTE: We default to sleeping for 1 second the first time we attempt an # arping to give the interface time to settle on the LAN. This appears to # be a good default for most instances, but if not you can alter it here. #arping_sleep=5 #arping_sleep_lan=7 # NOTE: We default to waiting 3 seconds to get an arping response. You can # change the default wait like so. #arping_wait=3 #arping_wait_lan=2 #----------------------------------------------------------------------------- # VLAN (802.1q support) # For VLAN support, emerge net-misc/vconfig # Specify the VLAN numbers for the interface like so # Please ensure your VLAN IDs are NOT zero-padded #vlans_eth0="1 2" # You may not want to assign an IP the the physical interface, but we still # need it up. #config_eth0="null" # You can also configure the VLAN - see for vconfig man page for more details #vconfig_eth0="'set_name_type VLAN_PLUS_VID_NO_PAD'" #vconfig_vlan1="'set_flag 1' 'set_egress_map 2 6'" #config_vlan1="'172.16.3.1 netmask 255.255.254.0'" #config_vlan2="'172.16.2.1 netmask 255.255.254.0'" # NOTE: Vlans can be configured with a . in their interface names # When configuring vlans with this name type, you need to replace . with a _ #config_eth0.1="dhcp" - does not work #config_eth0_1="dhcp" - does work # NOTE: Vlans are controlled by their physical interface and not per vlan # This means you do not need to create init scripts in /etc/init.d for each # vlan, you must need to create one for the physical interface. # If you wish to control the configuration of each vlan through a separate # script, or wish to rename the vlan interface to something that vconfig # cannot then you need to do this. #vlan_start_eth0="no" # If you do the above then you may want to depend on eth0 like so # RC_NEED_vlan1="net.eth0" # NOTE: depend functions only work in /etc/conf.d/net # and not in profile configs such as /etc/conf.d/net.foo #----------------------------------------------------------------------------- # Bonding # For link bonding/trunking emerge net-misc/ifenslave # To bond interfaces together #slaves_bond0="eth0 eth1 eth2" #config_bond0="null" # You may not want to assign an IP the the bond # If any of the slaves require extra configuration - for example wireless or # ppp devices - we need to depend function on the bonded interfaces #RC_NEED_bond0="net.eth0 net.eth1" #----------------------------------------------------------------------------- # Classical IP over ATM # For CLIP support emerge net-dialup/linux-atm # Ensure that you have /etc/atmsigd.conf setup correctly # Now setup each clip interface like so #clip_atm0=( "peer_ip [if.]vpi.vci [opts]" ... ) # where "peer_ip" is the IP address of a PVC peer (in case of an ATM connection # with your ISP, your only peer is usually the ISP gateway closest to you), # "if" is the number of the ATM interface which will carry the PVC, "vpi.vci" # is the ATM VC address, and "opts" may optionally specify VC parameters like # qos, pcr, and the like (see "atmarp -s" for further reference). Please also # note quoting: it is meant to distinguish the VCs you want to create. You may, # in example, create an atm0 interface to more peers, like this: #clip_atm0="'1.1.1.254 0.8.35' 1.1.1.253 1.8.35'" # By default, the PVC will use the LLC/SNAP encapsulation. If you rather need a # null encapsulation (aka "VC mode"), please add the keyword "null" to opts. #----------------------------------------------------------------------------- # PPP # For PPP support, emerge net-dialup/ppp # PPP is used for most dialup connections, including ADSL. # The older ADSL module is documented below, but you are encouraged to try # this module first. # # You need to create the PPP net script yourself. Make it like so #ln -s net.lo /etc/init.d/net.ppp0 # # Each PPP interface requires an interface to use as a "Link" #link_ppp0="/dev/ttyS0" # Most PPP links will use a serial port #link_ppp0="eth0" # PPPoE requires an ethernet interface #link_ppp0="[itf.]vpi.vci" # PPPoA requires the ATM VC's address #link_ppp0="/dev/null" # ISDN links should have this #link_ppp0="pty 'your_link_command'" # PPP links over ssh, rsh, etc # #As PPP assigns the address itself we need to stop the assumption of DHCP #config_ppp0="null" # # Here you should specify what pppd plugins you want to use # Available plugins are: pppoe, pppoa, capi, dhcpc, minconn, radius, # radattr, radrealms and winbind #plugins_ppp0="pppoe" # Required plugin for PPPoE #plugins_ppp0="pppoa vc-encaps" # Required plugin for PPPoA with an option #plugins_ppp0="capi" # Required plugin for ISDN # # PPP requires at least a username. You can optionally set a password here too # If you don't, then it will use the password specified in /etc/ppp/*-secrets # against the specified username #username_ppp0='user' #password_ppp0='password' # NOTE: You can set a blank password like so #password_ppp0= # # The PPP daemon has many options you can specify - although there are many # and may seem daunting, it is recommended that you read the pppd man page # before enabling any of them #pppd_ppp0=( # "maxfail 0" # WARNING: It's not recommended you use this # # if you don't specify maxfail then we assume 0 # "updetach" # If not set, "/etc/init.d/net.ppp0 start" will return # # immediately, without waiting the link to come up # # for the first time. # # Do not use it for dial-on-demand links! # "debug" # Enables syslog debugging # "noauth" # Do not require the peer to authenticate itself # "defaultroute" # Make this PPP interface the default route # "usepeerdns" # Use the DNS settings provided by PPP # # On demand options # "demand" # Enable dial on demand # "idle 30" # Link goes down after 30 seconds of inactivity # "10.112.112.112:10.112.112.113" # Phony IP addresses # "ipcp-accept-remote" # Accept the peers idea of remote address # "ipcp-accept-local" # Accept the peers idea of local address # "holdoff 3" # Wait 3 seconds after link dies before re-starting # # Dead peer detection # "lcp-echo-interval 15" # Send a LCP echo every 15 seconds # "lcp-echo-failure 3" # Make peer dead after 3 consective # # echo-requests # # Compression options - use these to completely disable compression # noaccomp noccp nobsdcomp nodeflate nopcomp novj novjccomp # # Dial-up settings # "lock" # Lock serial port # "115200" # Set the serial port baud rate # "modem crtscts" # Enable hardware flow control # "192.168.0.1:192.168.0.2" # Local and remote IP addresses #) # # Dial-up PPP users need to specify at least one telephone number #phone_number_ppp0=( "12345689" ) # Maximum 2 phone numbers are supported # They will also need a chat script - here's a good one #chat_ppp0=( # 'ABORT' 'BUSY' # 'ABORT' 'ERROR' # 'ABORT' 'NO ANSWER' # 'ABORT' 'NO CARRIER' # 'ABORT' 'NO DIALTONE' # 'ABORT' 'Invalid Login' # 'ABORT' 'Login incorrect' # 'TIMEOUT' '5' # '' 'ATZ' # 'OK' 'AT' # Put your modem initialization string here # 'OK' 'ATDT\T' # 'TIMEOUT' '60' # 'CONNECT' '' # 'TIMEOUT' '5' # '~--' '' #) # If the link require extra configuration - for example wireless or # RFC 268 bridge - we need to depend on the bridge so they get # configured correctly. #RC_NEED_ppp0="net.nas0" #WARNING: if MTU of the PPP interface is less than 1500 and you use this #machine as a router, you should add the following rule to your firewall # #iptables -I FORWARD 1 -p tcp --tcp-flags SYN,RST SYN -j TCPMSS --clamp-mss-to-pmtu #----------------------------------------------------------------------------- # ADSL # For ADSL support, emerge net-dialup/rp-pppoe # WARNING: This ADSL module is being deprecated in favour of the PPP module # above. # You should make the following settings and also put your # username/password information in /etc/ppp/pap-secrets # Configure the interface to use ADSL #config_eth0="adsl" # You probably won't need to edit /etc/ppp/pppoe.conf if you set this #adsl_user_eth0="my-adsl-username" #----------------------------------------------------------------------------- # ISDN # For ISDN support, emerge net-dialup/isdn4k-utils # You should make the following settings and also put your # username/password information in /etc/ppp/pap-secrets # Configure the interface to use ISDN #config_ippp0="dhcp" # It's important to specify dhcp if you need it! #config_ippp0="192.168.0.1/24" # Otherwise, you can use a static IP # NOTE: The interface name must be either ippp or isdn followed by a number # You may need this option to set the default route #ipppd_eth0="defaultroute" #----------------------------------------------------------------------------- # MAC changer # To set a specific MAC address #mac_eth0="00:11:22:33:44:55" # For changing MAC addresses using the below, emerge net-analyzer/macchanger # - to randomize the last 3 bytes only #mac_eth0="random-ending" # - to randomize between the same physical type of connection (e.g. fibre, # copper, wireless) , all vendors #mac_eth0="random-samekind" # - to randomize between any physical type of connection (e.g. fibre, copper, # wireless) , all vendors #mac_eth0="random-anykind" # - full randomization - WARNING: some MAC addresses generated by this may NOT # act as expected #mac_eth0="random-full" # custom - passes all parameters directly to net-analyzer/macchanger #mac_eth0="some custom set of parameters" # You can also set other options based on the MAC address of your network card # Handy if you use different docking stations with laptops #config_001122334455="dhcp" #----------------------------------------------------------------------------- # TUN/TAP # For TUN/TAP support emerge net-misc/openvpn or sys-apps/usermode-utilities # # You must specify if we're a tun or tap device. Then you can give it any # name you like - such as vpn #tuntap_vpn="tun" #config_vpn="192.168.0.1/24" # Or stick wit the generic names - like tap0 #tuntap_tap0="tap" #config_tap0="192.168.0.1/24" # For passing custom options to tunctl use something like the following. This # example sets the owner to adm #tunctl_tun1="-u adm" # When using openvpn, there are no options #----------------------------------------------------------------------------- # Bridging (802.1d) # For bridging support emerge net-misc/bridge-utils # To add ports to bridge br0 #bridge_br0="eth0 eth1" # or dynamically add them when the interface comes up #bridge_add_eth0="br0" #bridge_add_eth1="br0" # You need to configure the ports to null values so dhcp does not get started #config_eth0="null" #config_eth1="null" # Finally give the bridge an address - dhcp or a static IP #config_br0="dhcp" # may not work when adding ports dynamically #config_br0="192.168.0.1/24" # If any of the ports require extra configuration - for example wireless or # ppp devices - we need to depend on them like so. #RC_NEED_br0="net.eth0 net.eth1" # Below is an example of configuring the bridge # Consult "man brctl" for more details #brctl_br0="'setfd 0' 'sethello 0' 'stp off'" #----------------------------------------------------------------------------- # RFC 2684 Bridge Support # For RFC 2684 bridge support emerge net-misc/br2684ctl # Interface names have to be of the form nas0, nas1, nas2, etc. # You have to specify a VPI and VCI for the interface like so #br2684ctl_nas0="-a 0.38" # UK VPI and VCI # You may want to configure the encapsulation method as well by adding the -e # option to the command above (may need to be before the -a command) # -e 0 # LLC (default) # -e 1 # VC mux # Then you can configure the interface as normal #config_nas0="'192.168.0.1/24'" #----------------------------------------------------------------------------- # Tunnelling # WARNING: For tunnelling it is highly recommended that you # emerge sys-apps/iproute2 # # For GRE tunnels #iptunnel_vpn0="mode gre remote 207.170.82.1 key 0xffffffff ttl 255" # For IPIP tunnels #iptunnel_vpn0="mode ipip remote 207.170.82.2 ttl 255" # To configure the interface #config_vpn0="'192.168.0.2 pointopoint 192.168.1.2'" # ifconfig style #config_vpn0="'192.168.0.2 peer 192.168.1.1'" # iproute2 style # 6to4 Tunnels allow IPv6 to work over IPv4 addresses, provided you # have a non-private address configured on an interface. # link_6to4="eth0" # Interface to base it's addresses on # config_6to4="ip6to4" # You may want to depend on eth0 like so #RC_NEED_6to4="net.eth0" # To ensure that eth0 is configured before 6to4. Of course, the tunnel could be # any name and this also works for any configured interface. # NOTE: If you're not using iproute2 then your 6to4 tunnel has to be called # sit0 - otherwise use a different name like 6to4 in the example above. # You can also specify a relay and suffix if you like. # The default relay is 192.88.99.1 and the defualt suffix is :1 #relay_6to4="192.168.3.2" #suffix_6to4=":ff" #----------------------------------------------------------------------------- # System # For configuring system specifics such as domain, dns, ntp and nis servers # It's rare that you would need todo this, but you can anyway. # This is most benefit to wireless users who don't use DHCP so they can change # their configs based on SSID. # To use dns settings such as these, dns_servers_eth0 must be set! # If you omit the _eth0 suffix, then it applies to all interfaces unless # overridden by the interface suffix. #dns_domain_eth0="your.domain" #dns_servers_eth0="192.168.0.2 192.168.0.3" #dns_search_eth0="this.domain that.domain" #dns_options_eth0="'timeout 1' rotate" #dns_sortlist_eth0="130.155.160.0/255.255.240.0 130.155.0.0" # See the man page for resolv.conf for details about the options and sortlist # directives #ntp_servers_eth0="192.168.0.2 192.168.0.3" #nis_domain_eth0="domain" #nis_servers_eth0="192.168.0.2 192.168.0.3" # NOTE: Setting any of these will stamp on the files in question. So if you # don't specify dns_servers but you do specify dns_domain then no nameservers # will be listed in /etc/resolv.conf even if there were any there to start # with. # If this is an issue for you then maybe you should look into a resolv.conf # manager like resolvconf-gentoo to manage this file for you. All packages # that baselayout supports use resolvconf-gentoo if installed. #----------------------------------------------------------------------------- # Cable in/out detection # Sometimes the cable is in, others it's out. Obviously you don't want to # restart net.eth0 every time when you plug it in either. # # netplug is a package that detects this and requires no extra configuration # on your part. # emerge sys-apps/netplug # or # emerge sys-apps/ifplugd # and you're done :) # By default we don't wait for netplug/ifplugd to configure the interface. # If you would like it to wait so that other services now that network is up # then you can specify a timeout here. #plug_timeout="10" # A value of 0 means wait forever. # If you don't want to use netplug on a specific interface but you have it # installed, you can disable it for that interface via the modules statement #modules_eth0="!netplugd" # You can do the same for ifplugd # # You can disable them both with the generic plug #modules_eth0="!plug" # To use specific ifplugd options, fex specifying wireless mode #ifplugd_eth0="--api-mode=wlan" # man ifplugd for more options ############################################################################## # ADVANCED CONFIGURATION # # Four functions can be defined which will be called surrounding the # start/stop operations. The functions are called with the interface # name first so that one function can control multiple adapters. An extra two # functions can be defined when an interface fails to start or stop. # # The return values for the preup and predown functions should be 0 # (success) to indicate that configuration or deconfiguration of the # interface can continue. If preup returns a non-zero value, then # interface configuration will be aborted. If predown returns a # non-zero value, then the interface will not be allowed to continue # deconfiguration. # # The return values for the postup, postdown, failup and faildown functions are # ignored since there's nothing to do if they indicate failure. # # ${IFACE} is set to the interface being brought up/down # ${IFVAR} is ${IFACE} converted to variable name bash allows #preup() { # # Test for link on the interface prior to bringing it up. This # # only works on some network adapters and requires the mii-diag # # package to be installed. # if mii-tool "${IFACE}" 2> /dev/null | grep -q 'no link'; then # ewarn "No link on ${IFACE}, aborting configuration" # return 1 # fi # # # Test for link on the interface prior to bringing it up. This # # only works on some network adapters and requires the ethtool # # package to be installed. # if ethtool "${IFACE}" | grep -q 'Link detected: no'; then # ewarn "No link on ${IFACE}, aborting configuration" # return 1 # fi # # # # Remember to return 0 on success # return 0 #} #predown() { # # The default in the script is to test for NFS root and disallow # # downing interfaces in that case. Note that if you specify a # # predown() function you will override that logic. Here it is, in # # case you still want it... # if is_net_fs /; then # eerror "root filesystem is network mounted -- can't stop ${IFACE}" # return 1 # fi # # # Remember to return 0 on success # return 0 #} #postup() { # # This function could be used, for example, to register with a # # dynamic DNS service. Another possibility would be to # # send/receive mail once the interface is brought up. # # Here is an example that allows the use of iproute rules # # which have been configured using the rules_eth0 variable. # #rules_eth0=" \ # # 'from 24.80.102.112/32 to 192.168.1.0/24 table localnet priority 100' \ # # 'from 216.113.223.51/32 to 192.168.1.0/24 table localnet priority 100' \ # #" # eval set -- $\rules_${IFVAR} # if [ -n "$@" ] ; then # einfo "Adding IP policy routing rules" # eindent # # Ensure that the kernel supports policy routing # if ! ip rule list | grep -q "^" ; then # eerror "You need to enable IP Policy Routing (CONFIG_IP_MULTIPLE_TABLES)" # eerror "in your kernel to use ip rules" # else # for x in "$@" ; do # ebegin "${x}" # ip rule add ${x} dev "${IFACE}" # eend $? # done # fi # eoutdent # # Flush the cache # ip route flush cache dev "${IFACE}" # fi #} #postdown() { # # Enable Wake-On-LAN for every interface except for lo # # Probably a good idea to set RC_DOWN_INTERFACE="no" in /etc/conf.d/rc # # as well ;) # [[ ${IFACE} != "lo" ]] && ethtool -s "${IFACE}" wol g # Automatically erase any ip rules created in the example postup above # if interface_exists "${IFACE}" ; then # # Remove any rules for this interface # local rule # ip rule list | grep " iif ${IFACE}[ ]*" | { # while read rule ; do # rule="${rule#*:}" # ip rule del ${rule} # done # } # # Flush the route cache # ip route flush cache dev "${IFACE}" # fi # # Return 0 always # return 0 #} #failup() { # # This function is mostly here for completeness... I haven't # # thought of anything nifty to do with it yet ;-) #} #faildown() { # # This function is mostly here for completeness... I haven't # # thought of anything nifty to do with it yet ;-) #}