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m (Security considerations)
 
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[[File:Unbound.png|thumb]]
 
[[File:Unbound.png|thumb]]
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'''Unbound''' is a validating, recursive, and caching DNS server. It is quite useful for enforcing DNSSEC and caching DNS queries. Best used in conjunction with [[DNSCrypt]].
  
'''Unbound''' is a validating, recursive, and caching DNS server. It is quite useful for enforcing DNSSEC and caching DNS queries.
+
== Installation ==
 +
=== Unix-like ===
 +
Install it from your distro's repository, or download it from [https://www.unbound.net/downloads/unbound-latest.tar.gz here]. Alternatively, you can build it yourself.
  
Best used in conjunction with [[DNSCrypt]].
+
==== Requirements & dependencies ====
 +
`--  dev-libs/expat
 +
`--  dev-libs/libevent
  
 +
==== Building ====
 +
# git clone git://github.com/jedisct1/unbound.git
 +
# cd unbound
 +
# CFLAGS="-O3 -march=native" ./configure --enable-systemd --with-pthreads --enable-pie --prefix=/usr --with-libevent=yes
 +
# make -jn (where n is the number of threads you want to spawn)
 +
# sudo make install
  
= Installation =
+
{{note|For systemd support, add --enable-systemd to step 3.}}
== GNU/Linux ==
 
Install it from your distro's repository, or download it from [https://www.unbound.net/downloads/unbound-latest.tar.gz here].
 
  
== Windows ==
+
=== Windows ===
 
Windows children may download it from the [https://www.unbound.net/download.html official page].
 
Windows children may download it from the [https://www.unbound.net/download.html official page].
  
= What to expect =
+
== What to expect ==
 
There are numerous advantages to having a DNS server like Unbound, most of which can be summed up in a few short sentences:
 
There are numerous advantages to having a DNS server like Unbound, most of which can be summed up in a few short sentences:
* Enforces DNSSEC;
+
* Enforces DNSSEC.
* Reduces privacy exposure by caching DNS queries;
+
* Reduces privacy exposure by caching DNS queries.
* Consequentially, decreases DNS look up latency if the DNS query has already been cached;
+
* Consequentially, decreases DNS look up latency if the DNS query has already been cached.
 
* Hardens DNS queries.
 
* Hardens DNS queries.
  
= Configuration =
+
== Configuration ==
This is how a proper unbound.conf file ought to look like: [http://pastebin.com/raw.php?i=hXPPNdhP unbound.conf].
+
This is how a proper unbound.conf file ought to look like: [http://pastebin.com/raw.php?i=hXPPNdhP unbound.conf] (do not copy paste this unless your CPU has 4 threads, you're using Linux, and have libevent).
  
== General ==
+
=== General ===
<pre>
+
{{bc|<nowiki>
 
server:
 
server:
 
         interface: 127.0.0.1
 
         interface: 127.0.0.1
         interface: ::1
+
         # Using zero means to listen on _all_ interfaces, but unsupported on some systems
 +
        # interface 0.0.0.0
 +
        # interface ::0 #IPv6
 +
        access-control: <YOUR ROUTER'S IP Range, for example 192.168.1.1>/16 allow
 +
        access-control: ::1 allow #IPv6 localhost
 +
        # Only use access-control if you want to stray away from the default, in which only the localhost is allowed, and the rest is refused
 
         verbosity: 1
 
         verbosity: 1
         port: 53
+
         port: 40 #make sure it's open
 +
        user:<user you want it to run as, check security considerations>
 
         do-ip4: yes
 
         do-ip4: yes
 
         do-ip6: <yes, if your ISP/router supports it>
 
         do-ip6: <yes, if your ISP/router supports it>
 
         do-udp: yes
 
         do-udp: yes
 
         do-tcp: yes
 
         do-tcp: yes
         do-daemonize: yes
+
         use-systemd: yes|no
         logfile: "<where you want your log files to be>"
+
         do-daemonize: yes #no if you're using systemd
</pre>
+
</nowiki>}}
  
== Performance ==
+
=== Performance ===
<pre>
+
{{bc|<nowiki>
         # use all threads
+
         # Use all threads
 
         num-threads: <number of threads>   
 
         num-threads: <number of threads>   
 
          
 
          
Line 49: Line 64:
 
         key-cache-slabs: <same>
 
         key-cache-slabs: <same>
  
         # more cache memory, rrset=msg*2
+
         # More cache memory
 
         rrset-cache-size: 100m
 
         rrset-cache-size: 100m
         msg-cache-size: 50m
+
         msg-cache-size: <rrset-cache-size/2>
  
         # more outgoing connections
+
         # More outgoing connections
         # depends on number of threads
+
         # Depends on number of threads
         outgoing-range: <(1024/threads)-50>
+
         outgoing-range: <4096/8192>
         num-queries-per-thread: <(1024/threads)/2>
+
         num-queries-per-thread: <outgoing-range/2>
  
 
         # Larger socket buffer
 
         # Larger socket buffer
Line 62: Line 77:
 
         so-sndbuf: 4m
 
         so-sndbuf: 4m
  
         # Faster UDP with multithreading (only on Linux).
+
         # Faster UDP with multithreading (only on Linux)
 
         so-reuseport: yes
 
         so-reuseport: yes
</pre>
+
</nowiki>}}
  
Note: If you have libevent, the outgoing-range can be increased to 4096 or 8192, for a slight performance gain. In which case, num-queries-threads should be <(outgoing-range/2)+50> to guarantee that every query can get a socket, and some to spare for queries-for-nameservers.
+
Note: If you have libevent, the outgoing-range can be increased to 4096 or 8192, for a slight performance gain. In which case, {{ic|num-queries-threads}} should be {{ic|<(outgoing-range/2)+50>}} to guarantee that every query can get a socket, and some to spare for queries-for-nameservers.
  
== Security ==
+
=== Security ===
<pre>
+
{{bc|<nowiki>
 
         hide-identity: yes
 
         hide-identity: yes
 
         hide-version: yes
 
         hide-version: yes
 +
        qname-minimisation: yes
 +
        qname-minimisation-strict: no #else it will break a few nameservers, so enable at your own risk
 
         harden-short-bufsize: yes
 
         harden-short-bufsize: yes
 
         harden-large-queries: yes
 
         harden-large-queries: yes
Line 79: Line 96:
 
         harden-referral-path: yes
 
         harden-referral-path: yes
 
         use-caps-for-id: yes
 
         use-caps-for-id: yes
         # enables support for DNSSEC(!)
+
         # Enables support for DNSSEC(!)
         auto-trust-anchor-file: "<path to your root.key file>"
+
         auto-trust-anchor-file: "<path to your root.key file, whose location should ideally be inside the unbound folder. Generate it using 'sudo unbound-anchor -a '/desired/path/to/root.key' as root>"
</pre>
+
</nowiki>}}
  
== w/ DNSCrypt ==
+
{{Tip|[[Unbound#Security_considerations|Security considerations]].}}
<pre>
+
 
         # this is necessary for the local host, in this case DNSCrypt, to be used to send queries
+
=== with [[DNSCrypt]] ===
         do-not-query-localhost: no
+
{{bc|<nowiki>
 +
         # This is necessary for the local host, in this case DNSCrypt, to be used to send queries
 +
         do-not-query-localhost: yes
 
forward-zone:
 
forward-zone:
 
         name: "."
 
         name: "."
         # 127.0.0.1 is DNSCrypt's --local-address; 40 is the port DNSCrypt is using
+
         # 127.0.0.1 is DNSCrypt's --local-address; 40 is the port DNSCrypt is using, which is probably either 40 or 53
         forward-addr: 127.0.0.1@40
+
         forward-addr: 127.0.0.1@53
</pre>
+
</nowiki>}}
 +
 
 +
If you would like to run multiple instances of DNSCrypt, to have fallback servers, you will need to forward all of the addresses they are using here. The above example works if your single instance of DNSCrypt was set up to use the 127.0.0.1 local address and port 53.
 +
 
 +
== Security considerations ==
 +
=== Creating a new user and group ===
 +
It is possible to sandbox Unbound, and even recommended. You can also create an extra user/group to run it, with no privileges, and no home folder for an additional layer of protection, by issuing {{ic|sudo useradd -U -r -d /var/unbound -m -s /sbin/nologin unbound}} (for the user), and {{ic|sudo usermod -g unbound unbound}} (for the group).
 +
 
 +
=== Sandboxing ===
 +
To sandbox Unbound, simply install firejail, and edit your systemd/OpenRC scripts, adding the prefix 'firejail' before unbound. Firejail comes bundled with a profile for Unbound and many more, which you can analyse, and even edit, by issuing {{ic|vim /etc/firejail}}. Alternatively, you can use systemd's native sandbox.
  
= External links =
+
== Troubleshooting ==
[https://www.unbound.net Official site]
+
The log file will most definitely wield the answer to your woes. In most cases, the problem will lie in either not setting the path to the root.key file right, setting the forward-address to the wrong port and thus conflicting with another piece of software, or a port that's already being used ([[Unbound#General|Unbound generally binds itself to port 53]]).
  
[https://github.com/jedisct1/unbound Github project mirror]
+
Example of a log file, where the path to the root-anchors file was deliberately wrong (or, in my case, didn't belong to the right user): [http://pastebin.com/raw.php?i=0tT8NfmZ unbound.log].
  
[https://www.unbound.net/documentation/index.html Documentation]
+
== External links ==
 +
*[https://www.unbound.net Official site]
 +
*[https://github.com/jedisct1/unbound Github project mirror]
 +
*[https://www.unbound.net/documentation/index.html Documentation]
 +
*[https://data.iana.org/root-anchors/ Root anchors]
  
[[Category:Software]]
+
[[Category:DNS]][[Category:Security]][[Category:Software]]

Latest revision as of 15:28, 14 February 2017

Unbound.png

Unbound is a validating, recursive, and caching DNS server. It is quite useful for enforcing DNSSEC and caching DNS queries. Best used in conjunction with DNSCrypt.

Installation

Unix-like

Install it from your distro's repository, or download it from here. Alternatively, you can build it yourself.

Requirements & dependencies

`--  dev-libs/expat
`--  dev-libs/libevent

Building

  1. git clone git://github.com/jedisct1/unbound.git
  2. cd unbound
  3. CFLAGS="-O3 -march=native" ./configure --enable-systemd --with-pthreads --enable-pie --prefix=/usr --with-libevent=yes
  4. make -jn (where n is the number of threads you want to spawn)
  5. sudo make install
Note: For systemd support, add --enable-systemd to step 3.

Windows

Windows children may download it from the official page.

What to expect

There are numerous advantages to having a DNS server like Unbound, most of which can be summed up in a few short sentences:

  • Enforces DNSSEC.
  • Reduces privacy exposure by caching DNS queries.
  • Consequentially, decreases DNS look up latency if the DNS query has already been cached.
  • Hardens DNS queries.

Configuration

This is how a proper unbound.conf file ought to look like: unbound.conf (do not copy paste this unless your CPU has 4 threads, you're using Linux, and have libevent).

General

server:
        interface: 127.0.0.1
        # Using zero means to listen on _all_ interfaces, but unsupported on some systems
        # interface 0.0.0.0
        # interface ::0 #IPv6
        access-control: <YOUR ROUTER'S IP Range, for example 192.168.1.1>/16 allow
        access-control: ::1 allow #IPv6 localhost
        # Only use access-control if you want to stray away from the default, in which only the localhost is allowed, and the rest is refused
        verbosity: 1
        port: 40 #make sure it's open
        user:<user you want it to run as, check security considerations>
        do-ip4: yes
        do-ip6: <yes, if your ISP/router supports it>
        do-udp: yes
        do-tcp: yes
        use-systemd: yes|no
        do-daemonize: yes #no if you're using systemd

Performance

        # Use all threads
        num-threads: <number of threads>  
        
        # 2^{number_of_threads}  
        msg-cache-slabs: <same>
        rrset-cache-slabs: <same>
        infra-cache-slabs: <same>
        key-cache-slabs: <same>

        # More cache memory
        rrset-cache-size: 100m
        msg-cache-size: <rrset-cache-size/2>

        # More outgoing connections
        # Depends on number of threads
        outgoing-range: <4096/8192>
        num-queries-per-thread: <outgoing-range/2>

        # Larger socket buffer
        so-rcvbuf: 4m
        so-sndbuf: 4m

        # Faster UDP with multithreading (only on Linux)
        so-reuseport: yes

Note: If you have libevent, the outgoing-range can be increased to 4096 or 8192, for a slight performance gain. In which case, num-queries-threads should be <(outgoing-range/2)+50> to guarantee that every query can get a socket, and some to spare for queries-for-nameservers.

Security

        hide-identity: yes
        hide-version: yes
        qname-minimisation: yes
        qname-minimisation-strict: no #else it will break a few nameservers, so enable at your own risk
        harden-short-bufsize: yes
        harden-large-queries: yes
        harden-glue: yes
        harden-dnssec-stripped: yes
        harden-below-nxdomain: yes
        harden-referral-path: yes
        use-caps-for-id: yes
        # Enables support for DNSSEC(!)
        auto-trust-anchor-file: "<path to your root.key file, whose location should ideally be inside the unbound folder. Generate it using 'sudo unbound-anchor -a '/desired/path/to/root.key' as root>"
Tip: Security considerations.

with DNSCrypt

        # This is necessary for the local host, in this case DNSCrypt, to be used to send queries
        do-not-query-localhost: yes
forward-zone:
        name: "."
        # 127.0.0.1 is DNSCrypt's --local-address; 40 is the port DNSCrypt is using, which is probably either 40 or 53
        forward-addr: 127.0.0.1@53

If you would like to run multiple instances of DNSCrypt, to have fallback servers, you will need to forward all of the addresses they are using here. The above example works if your single instance of DNSCrypt was set up to use the 127.0.0.1 local address and port 53.

Security considerations

Creating a new user and group

It is possible to sandbox Unbound, and even recommended. You can also create an extra user/group to run it, with no privileges, and no home folder for an additional layer of protection, by issuing sudo useradd -U -r -d /var/unbound -m -s /sbin/nologin unbound (for the user), and sudo usermod -g unbound unbound (for the group).

Sandboxing

To sandbox Unbound, simply install firejail, and edit your systemd/OpenRC scripts, adding the prefix 'firejail' before unbound. Firejail comes bundled with a profile for Unbound and many more, which you can analyse, and even edit, by issuing vim /etc/firejail. Alternatively, you can use systemd's native sandbox.

Troubleshooting

The log file will most definitely wield the answer to your woes. In most cases, the problem will lie in either not setting the path to the root.key file right, setting the forward-address to the wrong port and thus conflicting with another piece of software, or a port that's already being used (Unbound generally binds itself to port 53).

Example of a log file, where the path to the root-anchors file was deliberately wrong (or, in my case, didn't belong to the right user): unbound.log.

External links