cgorshing · August 20, 2022 13:01
diff --git a/gistfile1.txt b/gistfile1.txt
 server:
    # If no logfile is specified, syslog is used
    # logfile: "/var/log/unbound/unbound.log"
    verbosity: 0

    interface: 127.0.0.1
    port: 5335
    do-ip4: yes
    do-udp: yes
    do-tcp: yes

    # May be set to yes if you have IPv6 connectivity
    do-ip6: no

    # You want to leave this to no unless you have *native* IPv6. With 6to4 and
    # Terredo tunnels your web browser should favor IPv4 for the same reasons
    prefer-ip6: no

    # Use this only when you downloaded the list of primary root servers!
    # If you use the default dns-root-data package, unbound will find it automatically
    #root-hints: "/var/lib/unbound/root.hints"

    # Trust glue only if it is within the server's authority
    harden-glue: yes

    # Require DNSSEC data for trust-anchored zones, if such data is absent, the zone becomes BOGUS
    harden-dnssec-stripped: yes

    # Don't use Capitalization randomization as it known to cause DNSSEC issues sometimes
    # see https://discourse.pi-hole.net/t/unbound-stubby-or-dnscrypt-proxy/9378 for further details
    use-caps-for-id: no

    # Reduce EDNS reassembly buffer size.
    # IP fragmentation is unreliable on the Internet today, and can cause
    # transmission failures when large DNS messages are sent via UDP. Even
    # when fragmentation does work, it may not be secure; it is theoretically
    # possible to spoof parts of a fragmented DNS message, without easy
    # detection at the receiving end. Recently, there was an excellent study
    # >>> Defragmenting DNS - Determining the optimal maximum UDP response size for DNS <<<
    # by Axel Koolhaas, and Tjeerd Slokker (https://indico.dns-oarc.net/event/36/contributions/776/)
    # in collaboration with NLnet Labs explored DNS using real world data from the
    # the RIPE Atlas probes and the researchers suggested different values for
    # IPv4 and IPv6 and in different scenarios. They advise that servers should
    # be configured to limit DNS messages sent over UDP to a size that will not
    # trigger fragmentation on typical network links. DNS servers can switch
    # from UDP to TCP when a DNS response is too big to fit in this limited
    # buffer size. This value has also been suggested in DNS Flag Day 2020.
    edns-buffer-size: 1232

    # Perform prefetching of close to expired message cache entries
    # This only applies to domains that have been frequently queried
    prefetch: yes

    # One thread should be sufficient, can be increased on beefy machines. In reality for most users running on small networks or on a single machine, it should be unnecessary to seek performance enhancement by increasing num-threads above 1.
    num-threads: 1

    # Ensure kernel buffer is large enough to not lose messages in traffic spikes
    so-rcvbuf: 1m

    # Ensure privacy of local IP ranges
    private-address: 192.168.0.0/16
    private-address: 169.254.0.0/16
    private-address: 172.16.0.0/12
    private-address: 10.0.0.0/8
    private-address: fd00::/8
    private-address: fe80::/10
	server:
	# If no logfile is specified, syslog is used
	# logfile: "/var/log/unbound/unbound.log"
	verbosity: 0

	interface: 127.0.0.1
	port: 5335
	do-ip4: yes
	do-udp: yes
	do-tcp: yes

	# May be set to yes if you have IPv6 connectivity
	do-ip6: no

	# You want to leave this to no unless you have native IPv6. With 6to4 and
	# Terredo tunnels your web browser should favor IPv4 for the same reasons
	prefer-ip6: no

	# Use this only when you downloaded the list of primary root servers!
	# If you use the default dns-root-data package, unbound will find it automatically
	#root-hints: "/var/lib/unbound/root.hints"

	# Trust glue only if it is within the server's authority
	harden-glue: yes

	# Require DNSSEC data for trust-anchored zones, if such data is absent, the zone becomes BOGUS
	harden-dnssec-stripped: yes

	# Don't use Capitalization randomization as it known to cause DNSSEC issues sometimes
	# see https://discourse.pi-hole.net/t/unbound-stubby-or-dnscrypt-proxy/9378 for further details
	use-caps-for-id: no

	# Reduce EDNS reassembly buffer size.
	# IP fragmentation is unreliable on the Internet today, and can cause
	# transmission failures when large DNS messages are sent via UDP. Even
	# when fragmentation does work, it may not be secure; it is theoretically
	# possible to spoof parts of a fragmented DNS message, without easy
	# detection at the receiving end. Recently, there was an excellent study
	# >>> Defragmenting DNS - Determining the optimal maximum UDP response size for DNS <<<
	# by Axel Koolhaas, and Tjeerd Slokker (https://indico.dns-oarc.net/event/36/contributions/776/)
	# in collaboration with NLnet Labs explored DNS using real world data from the
	# the RIPE Atlas probes and the researchers suggested different values for
	# IPv4 and IPv6 and in different scenarios. They advise that servers should
	# be configured to limit DNS messages sent over UDP to a size that will not
	# trigger fragmentation on typical network links. DNS servers can switch
	# from UDP to TCP when a DNS response is too big to fit in this limited
	# buffer size. This value has also been suggested in DNS Flag Day 2020.
	edns-buffer-size: 1232

	# Perform prefetching of close to expired message cache entries
	# This only applies to domains that have been frequently queried
	prefetch: yes

	# One thread should be sufficient, can be increased on beefy machines. In reality for most users running on small networks or on a single machine, it should be unnecessary to seek performance enhancement by increasing num-threads above 1.
	num-threads: 1

	# Ensure kernel buffer is large enough to not lose messages in traffic spikes
	so-rcvbuf: 1m

	# Ensure privacy of local IP ranges
	private-address: 192.168.0.0/16
	private-address: 169.254.0.0/16
	private-address: 172.16.0.0/12
	private-address: 10.0.0.0/8
	private-address: fd00::/8
	private-address: fe80::/10