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#!/bin/sh
##############################################################################
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# Copyright (C) 2016 Eric Luehrsen
#
##############################################################################
#
# Unbound is a full featured recursive server with many options. The UCI
# provided tries to simplify and bundle options. This should make Unbound
# easier to deploy. Even light duty routers may resolve recursively instead of
# depending on a stub with the ISP. The UCI also attempts to replicate dnsmasq
# features as used in base LEDE/OpenWrt. If there is a desire for more
# detailed tuning, then manual conf file overrides are also made available.
#
##############################################################################
UB_B_SLAAC6_MAC=0
UB_B_DNSSEC=0
UB_B_DNS64=0
UB_B_EXT_STATS=0
UB_B_GATE_NAME=0
UB_B_HIDE_BIND=1
UB_B_LOCL_BLCK=0
UB_B_LOCL_SERV=1
UB_B_MAN_CONF=0
UB_B_NTP_BOOT=1
UB_B_QUERY_MIN=0
UB_B_QRY_MINST=0
UB_B_AUTH_ROOT=0
UB_D_CONTROL=0
UB_D_DOMAIN_TYPE=static
UB_D_DHCP_LINK=none
UB_D_EXTRA_DNS=0
UB_D_LAN_FQDN=0
UB_D_PRIV_BLCK=1
UB_D_PROTOCOL=mixed
UB_D_RESOURCE=small
UB_D_RECURSION=passive
UB_D_VERBOSE=1
UB_D_WAN_FQDN=0
UB_IP_DNS64="64:ff9b::/96"
UB_N_EDNS_SIZE=1280
UB_N_RX_PORT=53
UB_N_ROOT_AGE=9
UB_TTL_MIN=120
UB_TXT_DOMAIN=lan
UB_TXT_HOSTNAME=thisrouter
##############################################################################
# reset as a combo with UB_B_NTP_BOOT and some time stamp files
UB_B_READY=1
# keep track of assignments during inserted resource records
UB_LIST_NETW_ALL=""
UB_LIST_NETW_LAN=""
UB_LIST_NETW_WAN=""
UB_LIST_INSECURE=""
UB_LIST_ZONE_SERVERS=""
UB_LIST_ZONE_NAMES=""
##############################################################################
. /lib/functions.sh
. /lib/functions/network.sh
. /usr/lib/unbound/defaults.sh
. /usr/lib/unbound/dnsmasq.sh
. /usr/lib/unbound/iptools.sh
##############################################################################
bundle_all_networks() {
local cfg="$1"
local ifname ifdashname validip
local subnet subnets subnets4 subnets6
network_get_subnets subnets4 "$cfg"
network_get_subnets6 subnets6 "$cfg"
network_get_device ifname "$cfg"
ifdashname="${ifname//./-}"
subnets="$subnets4 $subnets6"
if [ -n "$subnets" ] ; then
for subnet in $subnets ; do
validip=$( valid_subnet_any $subnet )
if [ "$validip" = "ok" ] ; then
UB_LIST_NETW_ALL="$UB_LIST_NETW_ALL $ifdashname@$subnet"
fi
done
fi
}
##############################################################################
bundle_lan_networks() {
local cfg="$1"
local ifsubnet ifname ifdashname ignore
config_get_bool ignore "$cfg" ignore 0
network_get_device ifname "$cfg"
ifdashname="${ifname//./-}"
if [ "$ignore" -eq 0 -a -n "$ifdashname" -a -n "$UB_LIST_NETW_ALL" ] ; then
for ifsubnet in $UB_LIST_NETW_ALL ; do
case $ifsubnet in
"${ifdashname}"@*)
# Special GLA protection for local block; ULA protected as a catagory
UB_LIST_NETW_LAN="$UB_LIST_NETW_LAN $ifsubnet"
;;
esac
done
fi
}
##############################################################################
bundle_wan_networks() {
local ifsubnet
if [ -n "$UB_LIST_NETW_ALL" ] ; then
for ifsubnet in $UB_LIST_NETW_ALL ; do
case $UB_LIST_NETW_LAN in
*"${ifsubnet}"*)
# If LAN, then not WAN ...
;;
*)
UB_LIST_NETW_WAN="$UB_LIST_NETW_WAN $ifsubnet"
;;
esac
done
fi
}
##############################################################################
bundle_resolv_conf_servers() {
local resolvers=$( awk '/nameserver/ { print $2 }' /tmp/resolv.conf.auto )
UB_LIST_ZONE_SERVERS="$UB_LIST_ZONE_SERVERS $resolvers"
}
##############################################################################
bundle_zone_names() {
UB_LIST_ZONE_NAMES="$UB_LIST_ZONE_NAMES $1"
}
##############################################################################
bundle_zone_servers() {
UB_LIST_ZONE_SERVERS="$UB_LIST_ZONE_SERVERS $1"
}
##############################################################################
bundle_domain_insecure() {
UB_LIST_INSECURE="$UB_LIST_INSECURE $1"
}
##############################################################################
unbound_mkdir() {
local filestuff
if [ "$UB_D_DHCP_LINK" = "odhcpd" ] ; then
local dhcp_origin=$( uci_get dhcp.@odhcpd[0].leasefile )
local dhcp_dir=$( dirname $dhcp_origin )
if [ ! -d "$dhcp_dir" ] ; then
# make sure odhcpd has a directory to write (not done itself, yet)
mkdir -p "$dhcp_dir"
fi
fi
if [ -f $UB_RKEY_FILE ] ; then
filestuff=$( cat $UB_RKEY_FILE )
case "$filestuff" in
*"state=2 [ VALID ]"*)
# Lets not lose RFC 5011 tracking if we don't have to
cp -p $UB_RKEY_FILE $UB_RKEY_FILE.keep
;;
esac
fi
# Blind copy /etc/unbound to /var/lib/unbound
mkdir -p $UB_VARDIR
rm -f $UB_VARDIR/dhcp_*
touch $UB_TOTAL_CONF
cp -p /etc/unbound/* $UB_VARDIR/
if [ ! -f $UB_RHINT_FILE ] ; then
if [ -f /usr/share/dns/root.hints ] ; then
# Debian-like package dns-root-data
cp -p /usr/share/dns/root.hints $UB_RHINT_FILE
elif [ "$UB_B_READY" -eq 0 ] ; then
logger -t unbound -s "default root hints (built in root-servers.net)"
fi
fi
if [ ! -f $UB_RKEY_FILE ] ; then
if [ -f /usr/share/dns/root.key ] ; then
# Debian-like package dns-root-data
cp -p /usr/share/dns/root.key $UB_RKEY_FILE
elif [ -x $UB_ANCHOR ] ; then
$UB_ANCHOR -a $UB_RKEY_FILE
elif [ "$UB_B_READY" -eq 0 ] ; then
logger -t unbound -s "default trust anchor (built in root DS record)"
fi
fi
if [ -f $UB_RKEY_FILE.keep ] ; then
# root.key.keep is reused if newest
cp -u $UB_RKEY_FILE.keep $UB_RKEY_FILE
rm -f $UB_RKEY_FILE.keep
fi
if [ -f $UB_TLS_ETC_FILE ] ; then
# copy the cert bundle into jail
cp -p $UB_TLS_ETC_FILE $UB_TLS_FWD_FILE
fi
# Ensure access and prepare to jail
chown -R unbound:unbound $UB_VARDIR
chmod 755 $UB_VARDIR
chmod 644 $UB_VARDIR/*
if [ -f $UB_CTLKEY_FILE -o -f $UB_CTLPEM_FILE \
-o -f $UB_SRVKEY_FILE -o -f $UB_SRVPEM_FILE ] ; then
# Keys (some) exist already; do not create new ones
chmod 640 $UB_CTLKEY_FILE $UB_CTLPEM_FILE \
$UB_SRVKEY_FILE $UB_SRVPEM_FILE
elif [ -x /usr/sbin/unbound-control-setup ] ; then
case "$UB_D_CONTROL" in
[2-3])
# unbound-control-setup for encrypt opt. 2 and 3, but not 4 "static"
/usr/sbin/unbound-control-setup -d $UB_VARDIR
chown -R unbound:unbound $UB_CTLKEY_FILE $UB_CTLPEM_FILE \
$UB_SRVKEY_FILE $UB_SRVPEM_FILE
chmod 640 $UB_CTLKEY_FILE $UB_CTLPEM_FILE \
$UB_SRVKEY_FILE $UB_SRVPEM_FILE
cp -p $UB_CTLKEY_FILE /etc/unbound/unbound_control.key
cp -p $UB_CTLPEM_FILE /etc/unbound/unbound_control.pem
cp -p $UB_SRVKEY_FILE /etc/unbound/unbound_server.key
cp -p $UB_SRVPEM_FILE /etc/unbound/unbound_server.pem
;;
esac
fi
if [ -f "$UB_TIME_FILE" ] ; then
# NTP is done so its like you actually had an RTC
UB_B_READY=1
UB_B_NTP_BOOT=0
elif [ "$UB_B_NTP_BOOT" -eq 0 ] ; then
# time is considered okay on this device (ignore /etc/hotplug/ntpd/unbound)
date -Is > $UB_TIME_FILE
UB_B_READY=0
UB_B_NTP_BOOT=0
else
# DNSSEC-TIME will not reconcile
UB_B_READY=0
UB_B_NTP_BOOT=1
fi
}
##############################################################################
unbound_control() {
echo "# $UB_CTRL_CONF generated by UCI $( date -Is )" > $UB_CTRL_CONF
if [ "$UB_D_CONTROL" -gt 1 ] ; then
if [ ! -f $UB_CTLKEY_FILE -o ! -f $UB_CTLPEM_FILE \
-o ! -f $UB_SRVKEY_FILE -o ! -f $UB_SRVPEM_FILE ] ; then
# Key files need to be present; if unbound-control-setup was found, then
# they might have been made during unbound_makedir() above.
UB_D_CONTROL=0
fi
fi
case "$UB_D_CONTROL" in
1)
{
# Local Host Only Unencrypted Remote Control
echo "remote-control:"
echo " control-enable: yes"
echo " control-use-cert: no"
echo " control-interface: 127.0.0.1"
echo " control-interface: ::1"
echo
} >> $UB_CTRL_CONF
;;
2)
{
# Local Host Only Encrypted Remote Control
echo "remote-control:"
echo " control-enable: yes"
echo " control-use-cert: yes"
echo " control-interface: 127.0.0.1"
echo " control-interface: ::1"
echo " server-key-file: $UB_SRVKEY_FILE"
echo " server-cert-file: $UB_SRVPEM_FILE"
echo " control-key-file: $UB_CTLKEY_FILE"
echo " control-cert-file: $UB_CTLPEM_FILE"
echo
} >> $UB_CTRL_CONF
;;
[3-4])
{
# Network Encrypted Remote Control
# (3) may auto setup and (4) must have static key/pem files
# TODO: add UCI list for interfaces to bind
echo "remote-control:"
echo " control-enable: yes"
echo " control-use-cert: yes"
echo " control-interface: 0.0.0.0"
echo " control-interface: ::0"
echo " server-key-file: $UB_SRVKEY_FILE"
echo " server-cert-file: $UB_SRVPEM_FILE"
echo " control-key-file: $UB_CTLKEY_FILE"
echo " control-cert-file: $UB_CTLPEM_FILE"
echo
} >> $UB_CTRL_CONF
;;
esac
}
##############################################################################
unbound_zone() {
local cfg=$1
local servers_ip=""
local servers_host=""
local zone_sym zone_name zone_type zone_enabled zone_file
local tls_upstream fallback
local server port tls_port tls_index tls_suffix url_dir
if [ ! -f "$UB_ZONE_CONF" ] ; then
echo "# $UB_ZONE_CONF generated by UCI $( date -Is )" > $UB_ZONE_CONF
fi
config_get_bool zone_enabled "$cfg" enabled 0
if [ "$zone_enabled" -eq 1 ] ; then
# these lists are built for each zone; empty to start
UB_LIST_ZONE_NAMES=""
UB_LIST_ZONE_SERVERS=""
config_get zone_type "$cfg" zone_type ""
config_get port "$cfg" port ""
config_get tls_index "$cfg" tls_index ""
config_get tls_port "$cfg" tls_port 853
config_get url_dir "$cfg" url_dir ""
config_get_bool resolv_conf "$cfg" resolv_conf 0
config_get_bool fallback "$cfg" fallback 1
config_get_bool tls_upstream "$cfg" tls_upstream 0
config_list_foreach "$cfg" zone_name bundle_zone_names
config_list_foreach "$cfg" server bundle_zone_servers
# string formating for Unbound syntax
tls_suffix="${tls_port:+@${tls_port}${tls_index:+#${tls_index}}}"
[ "$fallback" -eq 0 ] && fallback=no || fallback=yes
[ "$tls_upstream" -eq 0 ] && tls_upstream=no || tls_upstream=yes
if [ $resolv_conf -eq 1 ] ; then
bundle_resolv_conf_servers
fi
else
zone_type=skip
fi
case $zone_type in
auth_zone)
if [ -n "$UB_LIST_ZONE_NAMES" \
-a \( -n "$url_dir" -o -n "$UB_LIST_ZONE_SERVERS" \) ] ; then
for zone_name in $UB_LIST_ZONE_NAMES ; do
if [ "$zone_name" = "." ] ; then
zone_sym=.
zone_name=root
zone_file=root.zone
else
zone_sym=$zone_name
zone_file=$zone_name.zone
zone_file=${zone_file//../.}
fi
{
# generate an auth-zone: with switches for prefetch cache
echo "auth-zone:"
echo " name: $zone_sym"
for server in $UB_LIST_ZONE_SERVERS ; do
echo " master: $server${port:+@${port}}"
done
if [ -n "$url_dir" ] ; then
echo " url: $url_dir$zone_file"
fi
echo " fallback-enabled: $fallback"
echo " for-downstream: no"
echo " for-upstream: yes"
echo " zonefile: $zone_file"
echo
} >> $UB_ZONE_CONF
done
fi
;;
forward_zone)
if [ ! -f $UB_TLS_FWD_FILE -a "$tls_upstream" = "yes" ] ; then
logger -p 4 -t unbound -s \
"Forward-zone TLS benefits from authentication in package 'ca-bundle'"
fi
if [ -n "$UB_LIST_ZONE_NAMES" -a -n "$UB_LIST_ZONE_SERVERS" ] ; then
for server in $UB_LIST_ZONE_SERVERS ; do
if [ "$( valid_subnet_any $server )" = "not" ] ; then
case $server in
*@[0-9]*)
# unique Unbound option for server host name
servers_host="$servers_host $server"
;;
*)
if [ "$tls_upstream" = "yes" ] ; then
servers_host="$servers_host $server${tls_port:+@${tls_port}}"
else
servers_host="$servers_host $server${port:+@${port}}"
fi
esac
else
case $server in
*[0-9]@[0-9]*)
# unique Unbound option for server address
servers_ip="$servers_ip $server"
;;
*)
if [ "$tls_upstream" = "yes" ] ; then
servers_ip="$servers_ip $server$tls_suffix"
else
servers_ip="$servers_ip $server${port:+@${port}}"
fi
esac
fi
done
for zonename in $UB_LIST_ZONE_NAMES ; do
{
# generate a forward-zone with or without tls
echo "forward-zone:"
echo " name: $zonename"
for server in $servers_host ; do
echo " forward-host: $server"
done
for server in $servers_ip ; do
echo " forward-addr: $server"
done
echo " forward-first: $fallback"
echo " forward-tls-upstream: $tls_upstream"
echo
} >> $UB_ZONE_CONF
done
fi
;;
stub_zone)
if [ -n "$UB_LIST_ZONE_NAMES" -a -n "$UB_LIST_ZONE_SERVERS" ] ; then
for zonename in $UB_LIST_ZONE_NAMES ; do
{
# generate a stub-zone: or ensure short cut to authority NS
echo "stub-zone:"
echo " name: $zonename"
for server in $UB_LIST_ZONE_SERVERS ; do
echo " stub-addr: $server${port:+@${port}}"
done
echo " stub-first: $fallback"
echo
} >> $UB_ZONE_CONF
done
fi
;;
esac
}
##############################################################################
unbound_conf() {
local rt_mem rt_conn rt_buff modulestring domain ifsubnet nsubnet
{
# server: for this whole function
echo "# $UB_CORE_CONF generated by UCI $( date -Is )"
echo "server:"
echo " username: unbound"
echo " chroot: $UB_VARDIR"
echo " directory: $UB_VARDIR"
echo " pidfile: $UB_PIDFILE"
} > $UB_CORE_CONF
if [ -f "$UB_TLS_FWD_FILE" ] ; then
# TLS cert bundle for upstream forwarder and https zone files
# This is loaded before drop to root, so pull from /etc/ssl
echo " tls-cert-bundle: $UB_TLS_FWD_FILE" >> $UB_CORE_CONF
fi
if [ -f "$UB_RHINT_FILE" ] ; then
# Optional hints if found
echo " root-hints: $UB_RHINT_FILE" >> $UB_CORE_CONF
fi
if [ "$UB_B_DNSSEC" -gt 0 -a -f "$UB_RKEY_FILE" ] ; then
{
echo " auto-trust-anchor-file: $UB_RKEY_FILE"
echo
} >> $UB_CORE_CONF
else
echo >> $UB_CORE_CONF
fi
{
# No threading
echo " num-threads: 1"
echo " msg-cache-slabs: 1"
echo " rrset-cache-slabs: 1"
echo " infra-cache-slabs: 1"
echo " key-cache-slabs: 1"
echo
# Logging
echo " use-syslog: yes"
echo " statistics-interval: 0"
echo " statistics-cumulative: no"
} >> $UB_CORE_CONF
if [ "$UB_D_VERBOSE" -ge 0 -a "$UB_D_VERBOSE" -le 5 ] ; then
echo " verbosity: $UB_D_VERBOSE" >> $UB_CORE_CONF
fi
if [ "$UB_B_EXT_STATS" -gt 0 ] ; then
{
# Log More
echo " extended-statistics: yes"
echo
} >> $UB_CORE_CONF
else
{
# Log Less
echo " extended-statistics: no"
echo
} >> $UB_CORE_CONF
fi
case "$UB_D_PROTOCOL" in
ip4_only)
{
echo " edns-buffer-size: $UB_N_EDNS_SIZE"
echo " port: $UB_N_RX_PORT"
echo " outgoing-port-permit: 10240-65535"
echo " interface: 0.0.0.0"
echo " interface: ::0"
echo " outgoing-interface: 0.0.0.0"
echo " do-ip4: yes"
echo " do-ip6: no"
echo
} >> $UB_CORE_CONF
;;
ip6_only)
{
echo " edns-buffer-size: $UB_N_EDNS_SIZE"
echo " port: $UB_N_RX_PORT"
echo " outgoing-port-permit: 10240-65535"
echo " interface: 0.0.0.0"
echo " interface: ::0"
echo " outgoing-interface: ::0"
echo " do-ip4: no"
echo " do-ip6: yes"
echo
} >> $UB_CORE_CONF
;;
ip6_prefer)
{
echo " edns-buffer-size: $UB_N_EDNS_SIZE"
echo " port: $UB_N_RX_PORT"
echo " outgoing-port-permit: 10240-65535"
echo " interface: 0.0.0.0"
echo " interface: ::0"
echo " outgoing-interface: 0.0.0.0"
echo " outgoing-interface: ::0"
echo " do-ip4: yes"
echo " do-ip6: yes"
echo " prefer-ip6: yes"
echo
} >> $UB_CORE_CONF
;;
mixed)
{
# Interface Wildcard (access contol handled by "option local_service")
echo " edns-buffer-size: $UB_N_EDNS_SIZE"
echo " port: $UB_N_RX_PORT"
echo " outgoing-port-permit: 10240-65535"
echo " interface: 0.0.0.0"
echo " interface: ::0"
echo " outgoing-interface: 0.0.0.0"
echo " outgoing-interface: ::0"
echo " do-ip4: yes"
echo " do-ip6: yes"
echo
} >> $UB_CORE_CONF
;;
*)
if [ "$UB_B_READY" -eq 0 ] ; then
logger -t unbound -s "default protocol configuration"
fi
{
# outgoing-interface has useful defaults; incoming is localhost though
echo " edns-buffer-size: $UB_N_EDNS_SIZE"
echo " port: $UB_N_RX_PORT"
echo " outgoing-port-permit: 10240-65535"
echo " interface: 0.0.0.0"
echo " interface: ::0"
echo
} >> $UB_CORE_CONF
;;
esac
{
# Other harding and options for an embedded router
echo " harden-short-bufsize: yes"
echo " harden-large-queries: yes"
echo " harden-glue: yes"
echo " harden-below-nxdomain: no"
echo " harden-referral-path: no"
echo " use-caps-for-id: no"
echo
} >> $UB_CORE_CONF
case "$UB_D_RESOURCE" in
# Tiny - Unbound's recommended cheap hardware config
tiny) rt_mem=1 ; rt_conn=2 ; rt_buff=1 ;;
# Small - Half RRCACHE and open ports
small) rt_mem=8 ; rt_conn=10 ; rt_buff=2 ;;
# Medium - Nearly default but with some added balancintg
medium) rt_mem=16 ; rt_conn=20 ; rt_buff=4 ;;
# Large - Double medium
large) rt_mem=32 ; rt_conn=40 ; rt_buff=4 ;;
# Whatever unbound does
*) rt_mem=0 ; rt_conn=0 ;;
esac
if [ "$rt_mem" -gt 0 ] ; then
{
# Set memory sizing parameters
echo " msg-buffer-size: $(($rt_buff*8192))"
echo " outgoing-range: $(($rt_conn*64))"
echo " num-queries-per-thread: $(($rt_conn*32))"
echo " outgoing-num-tcp: $(($rt_conn))"
echo " incoming-num-tcp: $(($rt_conn))"
echo " rrset-cache-size: $(($rt_mem*256))k"
echo " msg-cache-size: $(($rt_mem*128))k"
echo " key-cache-size: $(($rt_mem*128))k"
echo " neg-cache-size: $(($rt_mem*64))k"
echo " infra-cache-numhosts: $(($rt_mem*256))"
echo
} >> $UB_CORE_CONF
elif [ "$UB_B_READY" -eq 0 ] ; then
logger -t unbound -s "default memory configuration"
fi
# Assembly of module-config: options is tricky; order matters
modulestring="iterator"
if [ "$UB_B_DNSSEC" -gt 0 ] ; then
if [ "$UB_B_NTP_BOOT" -gt 0 ] ; then
# DNSSEC chicken and egg with getting NTP time
echo " val-override-date: -1" >> $UB_CORE_CONF
fi
{
echo " harden-dnssec-stripped: yes"
echo " val-clean-additional: yes"
echo " ignore-cd-flag: yes"
} >> $UB_CORE_CONF
modulestring="validator $modulestring"
fi
if [ "$UB_B_DNS64" -gt 0 ] ; then
echo " dns64-prefix: $UB_IP_DNS64" >> $UB_CORE_CONF
modulestring="dns64 $modulestring"
fi
{
# Print final module string
echo " module-config: \"$modulestring\""
echo
} >> $UB_CORE_CONF
case "$UB_D_RECURSION" in
passive)
{
# Some query privacy but "strict" will break some servers
if [ "$UB_B_QRY_MINST" -gt 0 \
-a "$UB_B_QUERY_MIN" -gt 0 ] ; then
echo " qname-minimisation: yes"
echo " qname-minimisation-strict: yes"
elif [ "$UB_B_QUERY_MIN" -gt 0 ] ; then
echo " qname-minimisation: yes"
else
echo " qname-minimisation: no"
fi
# Use DNSSEC to quickly understand NXDOMAIN ranges
if [ "$UB_B_DNSSEC" -gt 0 ] ; then
echo " aggressive-nsec: yes"
echo " prefetch-key: no"
fi
# On demand fetching
echo " prefetch: no"
echo " target-fetch-policy: \"0 0 0 0 0\""
echo
} >> $UB_CORE_CONF
;;
aggressive)
{
# Some query privacy but "strict" will break some servers
if [ "$UB_B_QRY_MINST" -gt 0 \
-a "$UB_B_QUERY_MIN" -gt 0 ] ; then
echo " qname-minimisation: yes"
echo " qname-minimisation-strict: yes"
elif [ "$UB_B_QUERY_MIN" -gt 0 ] ; then
echo " qname-minimisation: yes"
else
echo " qname-minimisation: no"
fi
# Use DNSSEC to quickly understand NXDOMAIN ranges
if [ "$UB_B_DNSSEC" -gt 0 ] ; then
echo " aggressive-nsec: yes"
echo " prefetch-key: yes"
fi
# Prefetch what can be
echo " prefetch: yes"
echo " target-fetch-policy: \"3 2 1 0 0\""
echo
} >> $UB_CORE_CONF
;;
*)
if [ "$UB_B_READY" -eq 0 ] ; then
logger -t unbound -s "default recursion configuration"
fi
;;
esac
{
# Reload records more than 20 hours old
# DNSSEC 5 minute bogus cool down before retry
# Adaptive infrastructure info kept for 15 minutes
echo " cache-min-ttl: $UB_TTL_MIN"
echo " cache-max-ttl: 72000"
echo " val-bogus-ttl: 300"
echo " infra-host-ttl: 900"
echo
} >> $UB_CORE_CONF
if [ "$UB_B_HIDE_BIND" -gt 0 ] ; then
{
# Block server id and version DNS TXT records
echo " hide-identity: yes"
echo " hide-version: yes"
echo
} >> $UB_CORE_CONF
fi
if [ "$UB_D_PRIV_BLCK" -gt 0 ] ; then
{
# Remove _upstream_ or global reponses with private addresses.
# Unbounds own "local zone" and "forward zone" may still use these.
# RFC1918, RFC3927, RFC4291, RFC6598, RFC6890
echo " private-address: 10.0.0.0/8"
echo " private-address: 100.64.0.0/10"
echo " private-address: 169.254.0.0/16"
echo " private-address: 172.16.0.0/12"
echo " private-address: 192.168.0.0/16"
echo " private-address: fc00::/7"
echo " private-address: fe80::/10"
echo
} >> $UB_CORE_CONF
fi
if [ -n "$UB_LIST_NETW_LAN" -a "$UB_D_PRIV_BLCK" -gt 1 ] ; then
{
for ifsubnet in $UB_LIST_NETW_LAN ; do
case $ifsubnet in
*@[1-9][0-9a-f][0-9a-f][0-9a-f]:*:[0-9a-f]*)
# Remove global DNS responses with your local network IP6 GLA
echo " private-address: ${ifsubnet#*@}"
;;
esac
done
echo
} >> $UB_CORE_CONF
fi
if [ "$UB_B_LOCL_BLCK" -gt 0 ] ; then
{
# Remove DNS reponses from upstream with loopback IP
# Black hole DNS method for ad blocking, so consider...
echo " private-address: 127.0.0.0/8"
echo " private-address: ::1/128"
echo
} >> $UB_CORE_CONF
fi
if [ -n "$UB_LIST_INSECURE" ] ; then
{
for domain in $UB_LIST_INSECURE ; do
# Except and accept domains without (DNSSEC); work around broken domains
echo " domain-insecure: $domain"
done
echo
} >> $UB_CORE_CONF
fi
if [ "$UB_B_LOCL_SERV" -gt 0 -a -n "$UB_LIST_NETW_ALL" ] ; then
{
for ifsubnet in $UB_LIST_NETW_ALL ; do
# Only respond to queries from subnets which have an interface.
# Prevent DNS amplification attacks by not responding to the universe.
echo " access-control: ${ifsubnet#*@} allow"
done
echo " access-control: 127.0.0.0/8 allow"
echo " access-control: ::1/128 allow"
echo " access-control: fe80::/10 allow"
echo
} >> $UB_CORE_CONF
else
{
echo " access-control: 0.0.0.0/0 allow"
echo " access-control: ::0/0 allow"
echo
} >> $UB_CORE_CONF
fi
}
##############################################################################
unbound_hostname() {
local ifsubnet ifarpa ifaddr ifname iffqdn
local ulaprefix hostfqdn name names namerec ptrrec
local zonetype=0
echo "# $UB_HOST_CONF generated by UCI $( date -Is )" > $UB_HOST_CONF
if [ "$UB_D_DHCP_LINK" = "dnsmasq" ] ; then
{
echo "# Local zone is handled by dnsmasq"
echo
} >> $UB_HOST_CONF
elif [ -n "$UB_TXT_DOMAIN" \
-a \( "$UB_D_WAN_FQDN" -gt 0 -o "$UB_D_LAN_FQDN" -gt 0 \) ] ; then
case "$UB_D_DOMAIN_TYPE" in
deny|inform_deny|refuse|static)
{
# type static means only this router has your domain
echo " domain-insecure: $UB_TXT_DOMAIN"
echo " private-domain: $UB_TXT_DOMAIN"
echo " local-zone: $UB_TXT_DOMAIN $UB_D_DOMAIN_TYPE"
echo " local-data: \"$UB_TXT_DOMAIN. $UB_XSOA\""
echo " local-data: \"$UB_TXT_DOMAIN. $UB_XNS\""
echo " local-data: '$UB_TXT_DOMAIN. $UB_XTXT'"
echo
# avoid upstream involvement in RFC6762
echo " domain-insecure: local"
echo " private-domain: local"
echo " local-zone: local $UB_D_DOMAIN_TYPE"
echo " local-data: \"local. $UB_XSOA\""
echo " local-data: \"local. $UB_XNS\""
echo " local-data: 'local. $UB_LTXT'"
echo
} >> $UB_HOST_CONF
zonetype=2
;;
transparent|typetransparent)
{
# transparent will permit forward-zone: or stub-zone: clauses
echo " private-domain: $UB_TXT_DOMAIN"
echo " local-zone: $UB_TXT_DOMAIN $UB_D_DOMAIN_TYPE"
echo
} >> $UB_HOST_CONF
zonetype=1
;;
esac
{
# Hostname as TLD works, but not transparent through recursion (singular)
echo " domain-insecure: $UB_TXT_HOSTNAME"
echo " private-domain: $UB_TXT_HOSTNAME"
echo " local-zone: $UB_TXT_HOSTNAME static"
echo " local-data: \"$UB_TXT_HOSTNAME. $UB_XSOA\""
echo " local-data: \"$UB_TXT_HOSTNAME. $UB_XNS\""
echo " local-data: '$UB_TXT_HOSTNAME. $UB_XTXT'"
echo
} >> $UB_HOST_CONF
if [ -n "$UB_LIST_NETW_WAN" ] ; then
for ifsubnet in $UB_LIST_NETW_WAN ; do
ifaddr=${ifsubnet#*@}
ifaddr=${ifaddr%/*}
ifarpa=$( host_ptr_any "$ifaddr" )
if [ -n "$ifarpa" ] ; then
if [ "$UB_D_WAN_FQDN" -gt 0 ] ; then
{
# Create a static zone for WAN host record only (singular)
echo " domain-insecure: $ifarpa"
echo " private-address: $ifaddr"
echo " local-zone: $ifarpa static"
echo " local-data: \"$ifarpa. $UB_XSOA\""
echo " local-data: \"$ifarpa. $UB_XNS\""
echo " local-data: '$ifarpa. $UB_MTXT'"
echo
} >> $UB_HOST_CONF
elif [ "$zonetype" -gt 0 ] ; then
{
echo " local-zone: $ifarpa transparent"
echo
} >> $UB_HOST_CONF
fi
fi
done
fi
if [ -n "$UB_LIST_NETW_LAN" ] ; then
for ifsubnet in $UB_LIST_NETW_LAN ; do
ifarpa=$( domain_ptr_any "${ifsubnet#*@}" )
if [ -n "$ifarpa" ] ; then
if [ "$zonetype" -eq 2 ] ; then
{
# Do NOT forward queries with your ip6.arpa or in-addr.arpa
echo " domain-insecure: $ifarpa"
echo " local-zone: $ifarpa static"
echo " local-data: \"$ifarpa. $UB_XSOA\""
echo " local-data: \"$ifarpa. $UB_XNS\""
echo " local-data: '$ifarpa. $UB_XTXT'"
echo
} >> $UB_HOST_CONF
elif [ "$zonetype" -eq 1 -a "$UB_D_PRIV_BLCK" -eq 0 ] ; then
{
echo " local-zone: $ifarpa transparent"
echo
} >> $UB_HOST_CONF
fi
fi
done
fi
ulaprefix=$( uci_get network.@globals[0].ula_prefix )
ulaprefix=${ulaprefix%%:/*}
hostfqdn="$UB_TXT_HOSTNAME.$UB_TXT_DOMAIN"
if [ -z "$ulaprefix" ] ; then
# Nonsense so this option isn't globbed below
ulaprefix="fdno:such:addr::"
fi
if [ "$UB_LIST_NETW_LAN" -a "$UB_D_LAN_FQDN" -gt 0 ] ; then
for ifsubnet in $UB_LIST_NETW_LAN ; do
ifaddr=${ifsubnet#*@}
ifaddr=${ifaddr%/*}
ifname=${ifsubnet%@*}
iffqdn="$ifname.$hostfqdn"
if [ "$UB_D_LAN_FQDN" -eq 4 ] ; then
names="$iffqdn $hostfqdn $UB_TXT_HOSTNAME"
ptrrec=" local-data-ptr: \"$ifaddr 300 $iffqdn\""
echo "$ptrrec" >> $UB_HOST_CONF
elif [ "$UB_D_LAN_FQDN" -eq 3 ] ; then
names="$hostfqdn $UB_TXT_HOSTNAME"
ptrrec=" local-data-ptr: \"$ifaddr 300 $hostfqdn\""
echo "$ptrrec" >> $UB_HOST_CONF
else
names="$UB_TXT_HOSTNAME"
ptrrec=" local-data-ptr: \"$ifaddr 300 $UB_TXT_HOSTNAME\""
echo "$ptrrec" >> $UB_HOST_CONF
fi
for name in $names ; do
case $ifaddr in
"${ulaprefix}"*)
# IP6 ULA only is assigned for OPTION 1
namerec=" local-data: \"$name. 300 IN AAAA $ifaddr\""
echo "$namerec" >> $UB_HOST_CONF
;;
[1-9]*.*[0-9])
namerec=" local-data: \"$name. 300 IN A $ifaddr\""
echo "$namerec" >> $UB_HOST_CONF
;;
*)
if [ "$UB_D_LAN_FQDN" -gt 1 ] ; then
# IP6 GLA is assigned for higher options
namerec=" local-data: \"$name. 300 IN AAAA $ifaddr\""
echo "$namerec" >> $UB_HOST_CONF
fi
;;
esac
done
echo >> $UB_HOST_CONF
done
fi
if [ -n "$UB_LIST_NETW_WAN" -a "$UB_D_WAN_FQDN" -gt 0 ] ; then
for ifsubnet in $UB_LIST_NETW_WAN ; do
ifaddr=${ifsubnet#*@}
ifaddr=${ifaddr%/*}
ifname=${ifsubnet%@*}
iffqdn="$ifname.$hostfqdn"
if [ "$UB_D_WAN_FQDN" -eq 4 ] ; then
names="$iffqdn $hostfqdn $UB_TXT_HOSTNAME"
ptrrec=" local-data-ptr: \"$ifaddr 300 $iffqdn\""
echo "$ptrrec" >> $UB_HOST_CONF
elif [ "$UB_D_WAN_FQDN" -eq 3 ] ; then
names="$hostfqdn $UB_TXT_HOSTNAME"
ptrrec=" local-data-ptr: \"$ifaddr 300 $hostfqdn\""
echo "$ptrrec" >> $UB_HOST_CONF
else
names="$UB_TXT_HOSTNAME"
ptrrec=" local-data-ptr: \"$ifaddr 300 $UB_TXT_HOSTNAME\""
echo "$ptrrec" >> $UB_HOST_CONF
fi
for name in $names ; do
case $ifaddr in
"${ulaprefix}"*)
# IP6 ULA only is assigned for OPTION 1
namerec=" local-data: \"$name. 300 IN AAAA $ifaddr\""
echo "$namerec" >> $UB_HOST_CONF
;;
[1-9]*.*[0-9])
namerec=" local-data: \"$name. 300 IN A $ifaddr\""
echo "$namerec" >> $UB_HOST_CONF
;;
*)
if [ "$UB_D_WAN_FQDN" -gt 1 ] ; then
# IP6 GLA is assigned for higher options
namerec=" local-data: \"$name. 300 IN AAAA $ifaddr\""
echo "$namerec" >> $UB_HOST_CONF
fi
;;
esac
done
echo >> $UB_HOST_CONF
done
fi
fi # end if uci valid
}
##############################################################################
unbound_uci() {
local cfg="$1"
local dnsmasqpath hostnm
hostnm=$( uci_get system.@system[0].hostname | awk '{print tolower($0)}' )
UB_TXT_HOSTNAME=${hostnm:-thisrouter}
config_get_bool UB_B_SLAAC6_MAC "$cfg" dhcp4_slaac6 0
config_get_bool UB_B_DNS64 "$cfg" dns64 0
config_get_bool UB_B_EXT_STATS "$cfg" extended_stats 0
config_get_bool UB_B_HIDE_BIND "$cfg" hide_binddata 1
config_get_bool UB_B_LOCL_SERV "$cfg" localservice 1
config_get_bool UB_B_MAN_CONF "$cfg" manual_conf 0
config_get_bool UB_B_QUERY_MIN "$cfg" query_minimize 0
config_get_bool UB_B_QRY_MINST "$cfg" query_min_strict 0
config_get_bool UB_B_AUTH_ROOT "$cfg" prefetch_root 0
config_get_bool UB_B_LOCL_BLCK "$cfg" rebind_localhost 0
config_get_bool UB_B_DNSSEC "$cfg" validator 0
config_get_bool UB_B_NTP_BOOT "$cfg" validator_ntp 1
config_get UB_IP_DNS64 "$cfg" dns64_prefix "64:ff9b::/96"
config_get UB_N_EDNS_SIZE "$cfg" edns_size 1280
config_get UB_N_RX_PORT "$cfg" listen_port 53
config_get UB_N_ROOT_AGE "$cfg" root_age 9
config_get UB_D_CONTROL "$cfg" unbound_control 0
config_get UB_D_DOMAIN_TYPE "$cfg" domain_type static
config_get UB_D_DHCP_LINK "$cfg" dhcp_link none
config_get UB_D_EXTRA_DNS "$cfg" add_extra_dns 0
config_get UB_D_LAN_FQDN "$cfg" add_local_fqdn 0
config_get UB_D_PRIV_BLCK "$cfg" rebind_protection 1
config_get UB_D_PROTOCOL "$cfg" protocol mixed
config_get UB_D_RECURSION "$cfg" recursion passive
config_get UB_D_RESOURCE "$cfg" resource small
config_get UB_D_VERBOSE "$cfg" verbosity 1
config_get UB_D_WAN_FQDN "$cfg" add_wan_fqdn 0
config_get UB_TTL_MIN "$cfg" ttl_min 120
config_get UB_TXT_DOMAIN "$cfg" domain lan
config_list_foreach "$cfg" domain_insecure bundle_domain_insecure
if [ "$UB_D_DHCP_LINK" = "none" ] ; then
config_get_bool UB_B_DNSMASQ "$cfg" dnsmasq_link_dns 0
if [ "$UB_B_DNSMASQ" -gt 0 ] ; then
UB_D_DHCP_LINK=dnsmasq
if [ "$UB_B_READY" -eq 0 ] ; then
logger -t unbound -s "Please use 'dhcp_link' selector instead"
fi
fi
fi
if [ "$UB_D_DHCP_LINK" = "dnsmasq" ] ; then
if [ ! -x /usr/sbin/dnsmasq -o ! -x /etc/init.d/dnsmasq ] ; then
UB_D_DHCP_LINK=none
else
/etc/init.d/dnsmasq enabled || UB_D_DHCP_LINK=none
fi
if [ "$UB_B_READY" -eq 0 -a "$UB_D_DHCP_LINK" = "none" ] ; then
logger -t unbound -s "cannot forward to dnsmasq"
fi
fi
if [ "$UB_D_DHCP_LINK" = "odhcpd" ] ; then
if [ ! -x /usr/sbin/odhcpd -o ! -x /etc/init.d/odhcpd ] ; then
UB_D_DHCP_LINK=none
else
/etc/init.d/odhcpd enabled || UB_D_DHCP_LINK=none
fi
if [ "$UB_B_READY" -eq 0 -a "$UB_D_DHCP_LINK" = "none" ] ; then
logger -t unbound -s "cannot receive records from odhcpd"
fi
fi
if [ "$UB_N_EDNS_SIZE" -lt 512 \
-o 4096 -lt "$UB_N_EDNS_SIZE" ] ; then
logger -t unbound -s "edns_size exceeds range, using default"
UB_N_EDNS_SIZE=1280
fi
if [ "$UB_N_RX_PORT" -ne 53 \
-a \( "$UB_N_RX_PORT" -lt 1024 -o 10240 -lt "$UB_N_RX_PORT" \) ] ; then
logger -t unbound -s "privileged port or in 5 digits, using default"
UB_N_RX_PORT=53
fi
if [ "$UB_TTL_MIN" -gt 1800 ] ; then
logger -t unbound -s "ttl_min could have had awful side effects, using 300"
UB_TTL_MIN=300
fi
}
##############################################################################
unbound_include() {
local adb_enabled
local adb_files=$( ls $UB_VARDIR/adb_list.* 2>/dev/null )
echo "# $UB_TOTAL_CONF generated by UCI $( date -Is )" > $UB_TOTAL_CONF
if [ -f "$UB_CORE_CONF" ] ; then
# Yes this all looks busy, but it is in TMPFS. Working on separate files
# and piecing together is easier. UCI order is less constrained.
cat $UB_CORE_CONF >> $UB_TOTAL_CONF
rm $UB_CORE_CONF
fi
if [ -f "$UB_HOST_CONF" ] ; then
# UCI definitions of local host or local subnet
cat $UB_HOST_CONF >> $UB_TOTAL_CONF
rm $UB_HOST_CONF
fi
if [ -f $UB_SRVMASQ_CONF ] ; then
# UCI found link to dnsmasq
cat $UB_SRVMASQ_CONF >> $UB_TOTAL_CONF
rm $UB_SRVMASQ_CONF
fi
if [ -f "$UB_DHCP_CONF" ] ; then
{
# Seed DHCP records because dhcp scripts trigger externally
# Incremental Unbound restarts may drop unbound-control records
echo "include: $UB_DHCP_CONF"
echo
}>> $UB_TOTAL_CONF
fi
if [ -z "$adb_files" \
-o ! -x /usr/bin/adblock.sh -o ! -x /etc/init.d/adblock ] ; then
adb_enabled=0
elif /etc/init.d/adblock enabled ; then
adb_enabled=1
{
# Pull in your selected openwrt/pacakges/net/adblock generated lists
echo "include: $UB_VARDIR/adb_list.*"
echo
} >> $UB_TOTAL_CONF
else
adb_enabled=0
fi
if [ -f $UB_SRV_CONF ] ; then
{
# Pull your own "server:" options here
echo "include: $UB_SRV_CONF"
echo
}>> $UB_TOTAL_CONF
fi
if [ -f "$UB_ZONE_CONF" ] ; then
# UCI defined forward, stub, and auth zones
cat $UB_ZONE_CONF >> $UB_TOTAL_CONF
rm $UB_ZONE_CONF
fi
if [ -f "$UB_CTRL_CONF" ] ; then
# UCI defined control application connection
cat $UB_CTRL_CONF >> $UB_TOTAL_CONF
rm $UB_CTRL_CONF
fi
if [ -f "$UB_EXTMASQ_CONF" ] ; then
# UCI found link to dnsmasq
cat $UB_EXTMASQ_CONF >> $UB_TOTAL_CONF
rm $UB_EXTMASQ_CONF
fi
if [ -f "$UB_EXT_CONF" ] ; then
{
# Pull your own extend feature clauses here
echo "include: $UB_EXT_CONF"
echo
} >> $UB_TOTAL_CONF
fi
}
##############################################################################
resolv_setup() {
if [ "$UB_N_RX_PORT" != "53" ] ; then
return
elif [ -x /etc/init.d/dnsmasq ] \
&& /etc/init.d/dnsmasq enabled \
&& nslookup localhost 127.0.0.1#53 >/dev/null 2>&1 ; then
# unbound is configured for port 53, but dnsmasq is enabled and a resolver
# listens on localhost:53, lets assume dnsmasq manages the resolver file.
# TODO:
# really check if dnsmasq runs a local (main) resolver in stead of using
# nslookup that times out when no resolver listens on localhost:53.
return
fi
# unbound is designated to listen on 127.0.0.1#53,
# set resolver file to local.
rm -f /tmp/resolv.conf
{
echo "# /tmp/resolv.conf generated by Unbound UCI $( date -Is )"
echo "nameserver 127.0.0.1"
echo "nameserver ::1"
echo "search $UB_TXT_DOMAIN."
} > /tmp/resolv.conf
}
##############################################################################
unbound_start() {
config_load unbound
config_foreach unbound_uci unbound
unbound_mkdir
if [ "$UB_B_MAN_CONF" -eq 0 ] ; then
# iterate zones before we load other UCI
# forward-zone: auth-zone: and stub-zone:
config_foreach unbound_zone zone
# associate potential DNS RR with interfaces
config_load network
config_foreach bundle_all_networks interface
config_load dhcp
config_foreach bundle_lan_networks dhcp
bundle_wan_networks
# server:
unbound_conf
unbound_hostname
# control:
unbound_control
# dnsmasq
dnsmasq_link
# merge
unbound_include
fi
resolv_setup
}
##############################################################################