/etc/netscript/network.conf is in netscript-2.4-upstart 5.3.0ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# General Settings
###############################################################################
#
# VERBOSE=(YES/NO) Default: Yes
# Be verbose about settings.
VERBOSE=YES
# IPV6_MODULE=(YES/NO) Default: NO
# If kernel is modular, enable IPv6 support by loading module. Once loaded,
# it cannot be unloaded due to kernel internal dependencies.
IPV6_MODULE=NO
# IPV6_DISABLE=(YES/NO) Default: NO
# Disable IPv6 protocol on all interfaces including lo
IPV6_DISABLE=NO
# IPV4_FWDING_KERNEL=(YES/NO/FILTER_ON) Default: NO
# IPV6_FWDING_KERNEL=(YES/NO/FILTER_ON) Default: NO
# Enable IP forwarding in the kernel. FILTER_ON means forwarding will
# only happen when IP filtering rules are loaded
IPV4_FWDING_KERNEL=FILTER_ON
IPV6_FWDING_KERNEL=FILTER_ON
# IPV4_DEFAULT_GW=nnn.nnn.nnn.nnn|OTHER|OFF|NO|NONE
# IPV4_DEFAULT_GWDEV=eth0
# IPV6_DEFAULT_GW=nnnn:nnnn:nnnn::n|OTHER|OFF|NO|NONE
# IPV6_DEFAULT_GWDEV=eth0
# IPV6_DEFAULT_PREFIX=2000::/3 # Default value
# DEFAULT_METRIC=999999999 # Default value
#
# Default Route Setup
# Use this to set the default route if required - ONLY one to be set.
# routed or gated could be used to set this so only use if not running these.
# These routes are installed at metric DEFAULT_METRIC so that netscript
# can identify its own routes. This means that it can delete them if these
# if the IPVn_DEFAULT_GW variables are not set. You can also specify a
# Default prefix for IPv6 as the kernel does some funny things around
# default IPv6 routes. Also, later kernels will only route if next hop is
# an fe80 link local address...
# OTHER|OFF|NO|NONE - stop netscript doing ANYTHING with default routes
# Use if you are going to run a routing daemon such as
# bird, gated, mrtd, routed, or zebra.
#IPV4_DEFAULT_GW=192.0.2.11
#IPV4_DEFAULT_GWDEV=eth0
#IPV6_DEFAULT_GW=fe80::1:11
#IPV6_DEFAULT_GWDEV=eth0
# IP_FILTER_KERNEL=(NONE/PACKET/STATEFUL/NAT) Default: PACKET
# Set the level of NetFilter/IP Filtering in the kernel by controlling
# which classes of NetFilter modules get loaded.
#
# NONE - don't load IP NetFilter modules. Gives fastest packet forwarding
# at expense of disabling QoS and any protection. Use when speed
# is an absolute necessity.
#
# PACKET - Normal operation as a router. This satisfies most operational
# routing conditions. QoS works as filter chains are used to
# classify the packets.
#
# STATEFUL/NAT - Turns on full connection tracking stateful filtering and NAT.
#
# **WARNING** - If this was set to STATEFUL everywhere in a network
# of routers, it can result in TCP connections failing and TCP connection
# resets.
#
# ONLY set this to STATEFUL/NAT if the box is a firewall or the single point of
# entry for a network, or an endpoint for port forwarding or a load
# balancer for a WWW server farm. DO NOT switch to STATEFUL/NAT if the box
# is a conventional router as it breaks the TCP/IP RFCes. This option is
# needed when using IP NAT, IP masquerading, IP auto firewalling, IP port
# forwarding, transperent proxying or other kernel operations that intercept a
# packet flow and redirect it.
#
# It is a usful tool when using a packet filtering router to protect
# directly attached ethernet networks of servers as it stops fragment
# attacks on the servers in behind the router. Another use is packet
# filtering router to protect dial-in Internet users on NASes
# (Portmasters, TC racks etc) from various SMB and fragment attacks
# and to redirect all WWW connections into a WWW proxy-caching server.
IP_FILTER_KERNEL=PACKET
NET_GLOBAL_SYSCTL="
# This section is set up so that various network global variables can be set.
# Please refrain from trying to set interface variables using this, and
# use the switches provided in this file. It is very easy to configure
# the interfaces insecurely.
# Set whether programs can bind to non local IP addresses. Useful for wierd
# NAT work
ipv4/ip_nonlocal_bind NO
# Set up the kernel to work with dynamic addressing on diald
ipv4/ip_dynaddr NO
# Control response to ICMP echo requests. the broadcast one also controls
# the response to multicast packets.
ipv4/icmp_echo_ignore_all NO
ipv4/icmp_echo_ignore_broadcasts YES
# Turn off ecn - a good idea for most situations
ipv4/tcp_ecn NO
"
###########################
# Backups and compilation #
###########################
#
# BACKUP_LEVELS - maximum level of back up kept. This is done by appending
# the number 0 to the setting below to the file name, and rotating them.
# Suggested minumum for this is 2, for 5 lots of backup. Can't be set
# any lower than 2.
BACKUP_LEVELS=3
###############################################################################
# Interfaces
###############################################################################
# IF_AUTO Default: "eth0"
# A space seperated list of interfaces that get started on boot. Tunneling
# interfaces like CIPE should be after the raw interfaces they depend on.
# The interfaces are started in the order they occur on the list, and are
# shutdown in the reverse order of IF_LIST.
IF_AUTO="eth0"
# IF_DYNAMIC Default: ""
# A space seperated list of dyanmic interfaces that are not created by
# the loading of a hardware driver etc. Examples are ppp0 et al.
# Insert an interface in here if it does not exist until the software
# program creates it. This is so that you can start these dynamic interfaces
# manually.
#IF_DYNAMIC="ppp0"
# IPv4 global proc flags
#
# Accept ICMP Redirects on ALL interfaces, also depends on /proc
# per interface IP forwarding flag. - YES/NO
ALLIF_ACCEPT_REDIRECTS=NO
# IPv6 global proc flags
#
# IF_DEFAULT_IPV6_DISABLE Default: NO - YES/NO
# Disable IPv6 on new interfaces by default. Useful when machine
# is a Virtual Machine server, heavily using bridges for network
# connections.
#IF_DEFAULT_IPV6_DISABLE=NO
# Need these both for interfaces run by daemons - ie PPP, CIPE, Sangoma
# WAN interfaces
# IPv4 spoofing protection by default for interfaces - YES/NO
DEF_IP_SPOOF=YES
# Kernel logging of spoofed packets by default for interfaces - YES/NO
DEF_IP_KRNL_LOGMARTIANS=YES
#############################
# Bridge Setup - Global stuff
#############################
# Enable bridging - YES/NO/number of bridges
BRG_SWITCH=no
#
# AND Additional named bridges to add
#BRG_LIST="brg0 inet0 dmz0 dbase0 admin0"
#
# Remove Bridges from Nefilter - default YES YES/NO
# Only need to turn this off if creating a transparent
# firewall!
#BRG_NETFILTER_REMOVE=YES
#############################
# Individual Interfaces setup
#############################
# eth0 stuff
# ----------
# ADDRESSING
#
# NB: WATCH LEADING ZEROES - address will not be added to interface!
#
# Use the old style:
#eth0_IPADDR=192.0.2.7
#eth0_MASKLEN=24
#eth0_BROADCAST=192.0.2.255
#
# Secondary IP addresses/networks on same wire - add them here
#eth0_IP_EXTRA_ADDRS="192.0.2.193 192.0.2.1/24"
#
# -OR- the new style which also supports IPv6...
#
#eth0_IPADDR="0192.0.002.07/24_brd_192.0.2.255 2001:db8:010a:0001::000:007/64"
#
# IP spoofing protection on this interface - YES/NO
eth0_IP_SPOOF=YES
#
# Kernel logging of spoofed packets on this interface - YES/NO
eth0_IP_KRNL_LOGMARTIANS=YES
#
# This setting affects the processing of ICMP redirects. Setting it to NO
# makes this more secure. Don't turn this off if you have two IP
# networks/subnets on the same media - YES/NO
#eth0_IP_SHARED_MEDIA=NO
#
# This setting configures the interface to either send redirects or not
# This is useful for use with openvpn, due to the fact it can route packets
# out the same interface they came in on! - YES/NO
#eth0_IP_SEND_REDIRECTS=NO
#
# Interface IPv6 MTU - set to 1280 (minimum) so that tunnelling works
# well without packet fragmentation
#eth0_IPV6_MTU=1500
#
# Disable IPv6 on this interface - default NO - YES/NO
#eth0_IPV6_DISABLE=NO
#
# Set the interface up in forwarding/non-forwarding configuration modes. This
# setting does not control the forwarding of packets via this interface. Use
# iptables for this. In host mode allows the acceptance of ICMP redirects and
# router advertisement packets (overridden by above flags in host mode), as
# well as setting the IsRouter bit in Neighbour advertisements, and whether
# router solicitation packets are sent - YES/NO
#eth0_IPV6_FWDING=YES
#
# Accept ICMP IPv6 redirects in host mode on this interface - YES/NO
#eth0_IPV6_ACCEPT_REDIRECTS=NO
#
# Accept IPv6 Router Adverstisement packets in host mode default YES - YES/NO
#eth0_IPV6_ACCEPT_RA=YES
#
# Accept Prefix for SLAC addressing in IPv6 Router Adverstisement packets
# in host mode default YES - YES/NO
#eth0_IPV6_ACCEPT_RA_PINFO=YES
#
# Accept routes advertised by Router Advertisements. Debian Kernel 2.6.32+
# This is the threshhold for the bit length of the prefixes accepted. Kernel
# defaults to zero, which means accept none. 64 will accept normal IPv6 routes
#eth0_IPV6_ACCEPT_RA_RT_INFO_MAX_PLEN=64
#
# Send router solicitations, gives number to send default 3 - YES/NO/0-9
#eth0_IPV6_ROUTER_SOLICITATIONS=0
#
# Enable IPV6 privacy extensions, default NO - YES/N0/0-2
# 1 enables privacy MAC addresses for global addressing, excluding ULA
# prefixes. 2 enables it for all ULA and global addresses, not recomended
#eth0_IPV6_PRIVACY=NO
#
# Set resolvconf details here. It takes /etc/resolv.conf settings as per
# resolv.conf(5) Note that you have to uncomment whole string below! Will take
# \n as well
#eth0_RESOLVCONF="options edns0 inet6\nsearch internal.foo.org foo.org\nnameserver 192.0.2.1"
# Automatically start/stop these interfaces if this interface is manually
# started/stopped. Interfaces started in order of list, shutdown in reverse
# order.
#eth0_IF_CHAIN_AUTO="tun0"
#
# Automatically stop these interfaces if this interface is manually stopped.
# Interfaces stopped in reverse order of this list before those in
# IF_CHAIN_AUTO
#eth0_IF_CHAIN=""
#
# Bridge this interface - YES/NO/bridge interface
#eth0_BRIDGE=yes
#
# Proxy-arp from this interface, no other config required to turn on proxy ARP!
# - YES/NO
#eth0_PROXY_ARP=NO
#
# Protocol MTU for interface
# - Set to override default interface value
#eth0_MTU=1500
#
# Multicast setting for interface
# Set to override configuration default - YES/NO|on/off
#eth0_MULTICAST=YES
#
# Simple QoS/fair queueing support
# Turn on Stochastic Fair Queueing - useful on busy DDS links - YES/NO
#eth0_FAIRQ=NO
#
# Ethernet Transmit Queue Length
#eth0_TXQLEN=100
#
# Complex QoS - Enable all of these + above to turn it on
# Device Bandwidth
#eth0_BNDWIDTH=10Mbit
#
# Queue Handles - both must be unique
# Use for running tunnel daemons or other dynamic inverfaces that
# can be here and gone very rapidly - not needed for async PPP
# eth0_HNDL1=1
# eth0_HNDL2=2
#
# Interactive Burst parameters - bandwidth and number of packets
#eth0_IABURST=100 # packets
#eth0_IARATE=1Mbit
#
# Device Physical MTU - includes link layer header
# NB FR has 8 bytes LL header, ethernet 14
#eth0_PXMTU=1514
#
# Committed Access Rate
# - if using FR, set to CIR, else to total combined bulk data
# through put (ie eth0_BULKRATE + sum of special queue rates)
#eth0_CARATE=3Mbit
#
# Optional parameters for Complex QoS
#
# Peak Rate
# Use this to set FR Burst capacity
#eth0_PEAKRATE=4MBit
#
# Parameters for Bulk Data bandwidth shaping
# Bulk Rate - set for ordinary traffic.
# MUST MUST MUST be used with special queues
# to indicate the ordinary traffic load. Has to satisfy
# BULKRATE <= (CARATE - total_special_queue_bandwidth)
#eth0_BULKRATE=2MBit
# Special Queues - see further down in fair queuing section
# as this needs unique mark values
#eth0_SPQUEUE
# eth1_IPADDR="192.0.2.1/29_brd_192.0.2.7"
# eth1_IP_SPOOF=YES
# eth1_IP_KRNL_LOGMARTIANS=YES
# eth1_FAIRQ=NO
# eth1_TXQLEN=100
# eth1_BNDWIDTH=10Mbit
# eth1_CARATE=7Mbit
# eth1_HNDL1=3
# eth1_HNDL2=4
# eth1_IABURST=100
# eth1_IARATE=1Mbit
# eth1_PXMTU=1514
# eth1_PEAKRATE=8Mbit
# eth1_BULKRATE=6Mbit
#ppp1_IPADDR=192.0.2.1
#chdlc0_IPADDR=192.0.2.1_peer_192.0.2.2
# PPP interface stuff - these apply to all ASYNC ppp interfaces
ppp_FAIRQ=YES
ppp_TXQLEN=30
# Complex stuff
ppp_BNDWIDTH=30Kbit
ppp_IABURST=20
ppp_CARATE=20Kbit
ppp_IARATE=10Kbit
ppp_PXMTU=1500
############################
# Special Interface Handling
############################
# If the interface requires the running of a daemon or configuration program
# two functions must be supplied taking the interface name as the first
# and only argument. Both of these functions have names of the form
# <if-name|if-type>_start and <if-name|iftype>_stop, with the former
# starting the interface and the latter shutting it down and deconfiguring it.
# The following global variables will be set for the <if-namei|if-type>_start
# function if they are configured.
#
# IPADDR - interface IP address/mask -OR- the new form as above
# BROADCAST - interface broadcast address
# PTPADDR - PTP address of interface
# IP_EXTRA_ADDRS - Extra IP addesses/networks bound to interface
#
# The if_addr_start function in if.conf should be used to set the addresses on
# the interface once it is created. It also sets the interface sysctl
# /proc flags, and brings the interface up, as well as enabling the use
# of multiple addresses on the interface. The if_addr_stop compleimentary
# function should be used to down the itnerface and clear the addresses off it.
#
# BOTH A START AND A STOP FUNCTIONS SHOULD PROBABLY DEFINED if you use them.
#
# The if-type of an interface name is given by the first alpha-numerics
# of the name excluding the instance number on the end - ie the type of "eth1"
# is "eth" and the type of "wan1a2" is "wan1a".
#
# The code in if.conf first of checks for an individual interface function,
# then a typed interface function, and then uses the default which is for
# ethernet type interfaces
#
# If you are starting a tunneling interface that is dependent on another
# interface being up to continue to function correctly, use the intX_IF_CHAIN
# and intX_IF_CHAIN_AUTO interface variables for the hardware interfaces to
# start and stop the tunneled interfaces. Also add the tunnel interface to
# IF_AUTO AFTER the hardware interface so that it is started on boot.
#
# Static routes and other network setup can be handled by using the
# <if-name>_network functions or those above, but the recomendation is to
# run the zebra routing daemons as this has problems with clearing
# unwanted routes etc.
#
# Here are some example functions, some of which are actually used
#
# PPP - interface ppp0
#
ppp0_start () {
# don't run pppd if link already exists...
[ -f /var/run/$1.pid ] && kill -0 `cat /var/run/$1.pid` && return 0
# call ISP
pppd call provider
}
#ppp1_start () {
# # don't run pppd if link already exists...
# [ -f /var/run/$1.pid ] && kill -0 `cat /var/run/$1.pid` && return 0
# pppd ttyS2 19200 passive local noauth ${IPADDR}:
#}
#
# NB Stop function is provided as a type function as it can cover all
# analogue ppp interface instances.
ppp_stop () {
[ ! -f /var/run/$1.pid ] && return 0
qt kill `cat /var/run/$1.pid`
sleep 5 # Wait for pppd to die
}
#
# DHCP interface setup
#
# Comment out or add change 'eth_' to 'eth0_'
eth_start () {
if [ -x /sbin/dhclient ]; then
qt /sbin/dhclient $1
elif [ -x /sbin/dhcpcd ]; then
qt /sbin/dhcpcd -R -N $1
elif [ -x /sbin/pump ]; then
/sbin/pump -i $1 -h `cat /etc/hostname`
fi
}
#
eth_stop () {
if [ -f /var/run/dhclient.pid ]; then
qt kill `cat /var/run/dhclient.pid`
elif [ -f "/var/run/dhcpcd-${1}.pid" ]; then
qt /sbin/dhcpcd -k $1
elif [ -e /var/run/pump.sock ]; then
/sbin/pump -i $1 -r
fi
if_addr_stop $1
}
# Openvpn setup
#tun_start () {
# local PIDFILE="/var/run/openvpn.${1}.pid"
# # don't run openvpn if link already exists...
# [ -f $PIDFILE ] && kill -0 `cat $PIDFILE` && return 0
# openvpn --config /etc/openvpn/$1.netscript \
# --writepid $PIDFILE \
# --cd /etc/openvpn \
# --daemon openvpn.$1
#
#}
#
#tun_stop () {
# local PIDFILE="/var/run/openvpn.${1}.pid"
# [ ! -f $PIDFILE ] && return 0
# qt kill `cat $PIDFILE`
# [ -f $PIDFILE ] && rm $PIDFILE
# sleep 5 # Wait for openvpn to die
#}
#
#tap_start () {
# tun_start "$@"
#}
#
#tap_stop () {
# tun_stop "$@"
#}
#
#
# Interesting example showing how to set
# resolvconf nameserver details
#brg1_start () {
# # default interface startup
# brg_iface $1 up "$BRIDGE" "$IPV6_DISABLE"
# # Start interface
# if_addr_start $1
# local NS="
#nameserver 192.0.2.254
#"
# echo "$NS" | resolvconf -a $1
#}
#
#brg1_stop () {
# resolvconf -d $1
# # default action
# brg_iface $1 down $IPV6_DISABLE
# if_addr_stop $1
#}
# More examples...
# inet0_start () {
# if_addr_start $1
# echo | resolvconf -a $1 <<INET0F
# nameserver 203.96.152.4
# nameserver 203.96.152.12
# INET0F
# }
#
# inet0_stop () {
# resolvconf -d $1
# if_addr_stop $1
# }
#
# Laptops
#
# Integration with whereami - uses dhclient
#
#if_laptop_fwdata () {
# local MAPPING=`/bin/cat /var/lib/whereami/iam`
#
# case $MAPPING in
# cmonline*)
# ;;
# home*)
# # Tupple of the form protocol_source_dstport(s)
# LAPTOP_IN="tcp_0/0_ssh tcp_0/0_ipp udp_0/0_ipp"
# # Tupple of the form protocol_dest_dstport(s)
# LAPTOP_OUT=""
# # Tupple of the form protocol_source_dstport(s)
# #IPV6_LAPTOP_IN="tcp_0/0_ssh tcp_0/0_ipp udp_0/0_ipp"
# # Tupple of the form protocol_dest_dstport(s)
# #IPV6_LAPTOP_OUT=""
# ;;
# lan)
# ;;
# # This is the shutdown/flush state, signal it to ipv4_laptop et al.
# undocked|shutdown)
# return 1;
# ;;
## '')
## ;;
# *)
# ;;
# esac
#
# return 0
#}
##
#eth_start () {
# qt ip link set dev $1 up
# local MAPPING=`/usr/sbin/whereami --mapping`
#
# # set up any RF interfaces
# /etc/netscript/wep.conf $1 $MAPPING
#
# case $MAPPING in
# cmonline*)
# # Set up firewall
# ipf4_laptopfw
# [ -f /var/run/dhclient.pid ] \
# && qt kill -0 `cat /var/run/dhclient.pid` \
# && return 0
# qt /sbin/dhclient $1
# ;;
# home*)
# # Set up firewall
# ipf4_laptopfw
# [ -f /var/run/dhclient.pid ] \
# && qt kill -0 `cat /var/run/dhclient.pid` \
# && return 0
# qt /sbin/dhclient $1
# ;;
# lan)
# # Set up firewall
# ipf4_laptopfw
# [ -f /var/run/dhclient.pid ] \
# && qt kill -0 `cat /var/run/dhclient.pid` \
# && return 0
# qt /sbin/dhclient $1
# ;;
# undocked)
# ;;
#
## Example of what to do if nothing is configured
## '')
## if_resolvconf_up $1 "some.place.com internal.some.place.com" 127.0.0.1
## # default interface startup
## brg_iface $1 up "$BRIDGE" "IPV6_DISABLE"
## # Start interface
## if_addr_start $1
##
## ;;
# *)
# # Nothing detected, shut link down
# qt ip link set dev $1 down
# ;;
# esac
#}
##
#eth_stop () {
# [ -f /var/run/dhclient.pid ] && qt kill `cat /var/run/dhclient.pid` || true
# if_resolvconf_down $1
# # default action
# # brg_iface $1 down
# if_addr_stop $1
#
# # Handle firewall
# local MAPPING=`/usr/sbin/whereami --mapping`
# ipf4_laptopfw -f
#}
#
#
# Routing samples
#
# Using 'ip route replace' will replace the same route, differing in the
# next hops used.
#eth1_network () {
# ip route replace 192.168.34.0/24 via 192.168.23.1
#}
#
# This sample shows you how to use this hook to refresh heartbeat configured
# for IP address fail over. You have to specify the IP address resource in
# the haresource configuration file as "router1 192.168.2.254/24/eth2" to
# get heartbeat to stop failing with large numbers of routing rules, and
# to specify which interface the IP address range is to be configured on.
#HB_NAME="heartbeat"
#HB_PID="/var/run/${HB_NAME}.pid"
#HB_PATH="/usr/lib/${HB_NAME}/${HB_NAME}"
#eth1_network () {
# # Check that heartbeat is installed
# [ ! -f "$HB_PATH" ] && return 0
# killall -9 $HB_NAME
# $HB_PATH
#}
#
#
# Sangoma Frame Relay
# - Type functions ought to cover this family if you follow a sane
# naming interface convention
#
# fr_start () {
# wanconfig card wanpipe1 dev $1 start
# if_addr_start $1
# }
#
# fr_stop () {
# if_addr_stop $1
# qt wanconfig card wanpipe1 dev $1 stop
# }
#
# Sangoma Cisco HDLC
# - needs individual interfacesi for both start and stop
#
#chdlc0_start () {
# wanconfig card wanpipe1 dev $1 start
# if_addr_start $1
#}
#
#chdlc0_stop () {
# if_addr_stop $1
# qt wanconfig card wanpipe1 dev $1 stop
#}
######################
# Fair Queuing support
######################
#
# List of Mark values
MRK_CRIT=0x1 # Critical traffic, routing, DNS
MRK_IA=0x2 # Interactive traffic - telnet, ssh, IRC
MRK_T1=0xa
MRK_T2=0x14
#
# List of traffic types and maps to mark values
# Setting this variable turns on the IPv4 fairq chain
CLS_FAIRQ="${MRK_CRIT}_89_0/0 ${MRK_CRIT}_udp_0/0_route ${MRK_CRIT}_tcp_0/0_bgp ${MRK_CRIT}_tcp_0/0_domain ${MRK_CRIT}_udp_0/0_domain ${MRK_IA}_tcp_0/0_telnet ${MRK_IA}_tcp_0/0_ssh"
#
IPV6_CLS_FAIRQ="${MRK_CRIT}_89_0/0 ${MRK_CRIT}_udp_0/0_route ${MRK_CRIT}_tcp_0/0_bgp ${MRK_CRIT}_tcp_0/0_domain ${MRK_CRIT}_udp_0/0_domain ${MRK_IA}_tcp_0/0_telnet ${MRK_IA}_tcp_0/0_ssh"
#
# List of tunneling protocols that should not be touched if the tunnel
# originates on this host - Mangling can cause rerouting to happen, and
# prevents Free S/WAN from functioning. Tunnels also pass on the mark value
# of tunneled packets, and this means that the special queues are still
# effective on this originated traffic for this host.
MANGLE_OUTPUT_BYPASS="gre_0/0 esp_0/0 ah_0/0 ipip_0/0 encap_0/0"
IPV6_MANGLE_OUTPUT_BYPASS="gre_0/0 esp_0/0 ipip_0/0 encap_0/0"
#
# Set up per device special queues here
#eth0_SPQUEUE="${MRK_T1}_128Kbit_bounded ${MRK_T2}_256Kbit_bounded_isolated"
#
############################################################################
# This set of variables is used with the bolierplate chain creation commands
############################################################################
# HINT: Create the log and rejectlog chains before any of the others
#
# with the 'netscript ipfilter exec log|rejectlog' command.
##################################
# log chain - for IPv4 and IPv6 #
##################################
# Syslog level for IP tables kernel messages - v4 and v6
LOG_LEVEL=warning
# Maximum log message rate - v4 and v6
LOG_MAXRATE=3 # messages per second
# Log target - DROP/REJECT
LOG_TARGET=REJECT
IPV6_LOG_TARGET=REJECT
###############################
# IPv6 ICMP chains - limit rates
###############################
# ICMP rate limit for this host
IPV6_ICMPHOST_MAXRATE=200 # messages per second
IPV6_ICMPFWD_MAXRATE=1000 # messages per second
# ICMPv6 we optionally want to accept of forward. All other ICMPv6 is logged
# and dropped See RFC 4980 and tail of 'ip6tables -p icmpv6 -h' output.
# MIPv6 ICMP messages are ICMP types 144, 145, 146, and 147
# MIPv6 is really useful when tunnelled via IPSEC
# Router Renumbering is type 138
#IPV6_ICMPHOST_OPTIONAL="redirect 144 145 146 147"
#IPV6_ICMPFWD_OPTIONAL="144 145 146 147"
###################
# martians chains #
###################
# Net blocks to bypass martians checking on - useful for internal
# RFC 1918 netblocks.
#MARTIAN_BYPASS="10.0.0.0/8 192.168.1.0/24"
#IPV6_MARTIAN_BYPASS="fd13:123:456::/48"
# Extra blocks for the martian chain
MARTIAN_NETS="" # List of additional martian/invalid
# IP source addresses - network/mask
IPV6_MARTIAN_NETS=""
# Logging of private networks - mostly 'noise'
# default is NO
LOG_NOISE="NO"
IPV6_LOG_NOISE="NO"
###########################################
# ingress chain - for IP spoof protection #
###########################################
# List of IP numbers common to the box - this is to protect against
# spoofing of the interface addresses on the machine when using Free S/WAN
# IPSEC. Insert your interface IPs here, and tie the chain in where
# appropriate on the INPUT and FORWARD chains
#INGRESS_IPS="127.0.0.1 192.168.1.1 192.168.2.1"
#IPV6_INGRESS_IPS="2001:db8:1::1 2001:db8:1::34"
# Same as above but for use in the ingrssfwd chain for FORWARD chain
# Note interface name can be added to end
#INGRESS_FWD_NETS="127.0.0.0/8 192.168.1.0/24_eth0 192.168.2.1_eth1"
#IPV6_INGRESS_FWD_NETS="2001:db8:1::/48 ::1"
##############
# snmp chain #
##############
# List of IP Nos used for SNMP management
SNMP_MANAGER_IPS="192.168.1.1"
IPV6_SNMP_MANAGER_IPS="::1"
# Destination block for SNMP blocking - set this to the address containing your
# routers
SNMP_DEST_BLOCK=0/0
IPV6_SNMP_DEST_BLOCK=::/0
########################
# Border router chains #
########################
# This set of variables is used with the inbrdr and outbrdr border
# router chains
# The Link network
# - Use these if your network link to the outside is in one of your
# IP Number Blocks
#LINK_NET="192.168.1.0/30"
#IPV6_LINK_NET="2001:db8:1:1::/64"
# Our IP number blocks
#IP_BLOCKS="10.0.100.2 10.0.0.0/8"
#IPV6_IP_BLOCKS="2001:db8:1::/48"
# Block incoming/outgoing SMB/Netbios - YES/NO (v4 and v6)
SMB_BLOCK=YES
# Block incoming SNMP, YES/NO (v4 and v6)
SNMP_BLOCK=YES
# Blocked inbound source addresses
#BLOCKED_INSRC="all_10.200.1.1"
#IPV6_BLOCKED_INSRC="all_2001:db8::1"
# Logged blocked inbound source addresses
#LOGGED_BLOCKED_INSRC="all_10.200.1.2"
#IPV6_LOGGED_BLOCKED_INSRC="all_2001:db8::2"
# Blocked inbound destinations
#BLOCKED_INDEST="tcp_10.0.2.1_23 udp_10.0.3.4_domain"
#IPV6_LOGGED_BLOCKED_INSRC="all_2001:db8::2"
# Logged blocked inbound dests
#LOGGED_BLOCKED_INDEST="tcp_192.168.45.6_smtp"
#IPV6_LOGGED_BLOCKED_INDEST="tcp_2001:db8::23_smtp"
# The DNS servers that are to do zone trasfers
#DNS_IPS="192.0.2.45"
#IPV6_DNS_IPS="2001:db8::4"
# Blocked outbound destinations
#BLOCKED_OUTDEST="tcp_10.0.0.1_23 udp_10.0.0.2_domain"
#IPV6_BLOCKED_OUTDEST="tcp_2001:db8::1_23 udp_2001:db8::2_domain"
# Logged blocked outbound dests
#LOGGED_BLOCKED_OUTDEST="tcp_10.0.0.1_smtp"
#IPV6_LOGGED_BLOCKED_OUTDEST="tcp_2001:db8::45_smtp"
# outbrdr output target - RETURN or ACCEPT
# RETURN is usefull with IPv6 CPE for SOHO / geek domestic
#OUT_TARGET=ACCEPT
#IPV6_OUT_TARGET=ACCEPT
#IPV6_OUT_TARGET=RETURN
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