Provided by: maradns-deadwood_2.0.09-2_amd64 bug

NAME

       deadwood - A fully recursive caching DNS resolver

DESCRIPTION

       Deadwood is a fully recursive DNS cache. This is a DNS server with the following features:

       * Full support for both DNS recursion and DNS forwarding caching

       * Small size and memory footprint suitable for embedded systems

       * Simple and clean codebase

       * Secure design

       * Spoof protection: Strong cryptography used to determine the Query ID and source port

       * Ability to read and write the cache to a file

       * Dynamic cache that deletes entries not recently used

       * Ability to use expired entries in the cache when it is impossible to contact upstream
         DNS servers.

       * IPv6 support can be compiled in if desired

       * Both DNS-over-UDP and DNS-over-TCP are handled by the same daemon

       * Built-in dnswall functionality

COMMAND LINE ARGUMENTS

       Deadwood has a single optional command line argument: The location of the configuration
       file that Deadwood uses, specified with the "-f" flag.  If this is not defined, Deadwood
       uses the file "/etc/maradns/deadwood/dwood3rc" as the configuration file.

       In other words, invoking Deadwood as deadwood will cause Deadwood to use
       /etc/maradns/deadwood/dwood3rc as the configuration file; invoking Deadwood as deadwood -f
       foobar will cause Deadwood to use the file "foobar" in the current working directory (the
       directory one is in when starting Deadwood) as the configuration file.

CONFIGURATION FILE FORMAT

       The Deadwood configuration file is modeled after Python 2's syntax.  Any valid Deadwood
       configuration file should also correctly parse in both Python 2.4.3 and Python 2.6.6. If
       any configuration file does correctly parse in Deadwood but raises a syntax error in
       Python, this is a bug that should be fixed.

       This in mind, whitespace is significant; Deadwood parameters must be in the leftmost
       column with no leading whitespace. This is a valid line (as long as there are no spaces to
       its left):

       recursive_acl = "127.0.0.1/16"

       The following line, however, will raise a parse error:

        recursive_acl = "127.0.0.1/16"

       Observe the space to the left of the "recusive_acl" string in the incorrectly formatted
       line.

PARAMETER TYPES

       Deadwood has three different parameter types:

       * Numeric parameters. Numeric parameters must not be surrounded by quotes, such as this
         example:

         filter_rfc1918 = 0

         If a numeric parameter is surrounded by quotes, the error message "Unknown dwood3rc
         string parameter" will appear.

       * String parameters. String parameters must be surrounded by quotes, such as in this
         example:

         bind_address = "127.0.0.1"

       * Dictionary parameters. All dictionary parameters must be initialized before use, and
         dictionary parameters must have both the dictionary index and the value for said index
         surrounded by quotes, such as in this example:

         upstream_servers = {}
         upstream_servers["."]="8.8.8.8, 8.8.4.4"

       All dwood3rc parameters except the following are numeric parameters:

       * bind_address (string)

       * cache_file (string)

       * chroot_dir (string)

       * ip_blacklist (string)

       * ipv4_bind_addresses (string)

       * random_seed_file (string)

       * recursive_acl (string)

       * root_servers (dictionary)

       * upstream_servers (dictionary)

SUPPORTED PARAMETERS

       The Deadwood configuration file supports the following parameters:

    bind_address

       This is the IP (or possibly IPv6) address we bind to.

    cache_file

       This is the filename of the file used for reading and writing the cache to disk; this
       string can have lowercase letters, the '-' symbol, the '_' symbol, and the '/' symbol (for
       putting the cache in a subdirectory). All other symbols become a '_' symbol.

       This file is read and written as the user Deadwood runs as.

    chroot_dir

       This is the directory the program will run from.

    deliver_all

       This affects behavior in Deadwood 2.3, but has no effect in Deadwood 3.  This variable is
       only here so Deadwood 2 rc files can run in Deadwood 3.

    dns_port

       This is the port Deadwood binds to and listens on for incoming connections. The default
       value for this is the standard DNS port: port 53

    filter_rfc1918

       When this has a value of 1, a number of different IP ranges are not allowed to be in DNS A
       replies:

       * 192.168.x.x

       * 172.[16-31].x.x

       * 10.x.x.x

       * 127.x.x.x

       * 169.254.x.x

       * 224.x.x.x

       * 0.0.x.x

       If one of the above IPs is detected in a DNS reply, and filter_rfc1918 has a value of 1,
       Deadwood will return a synthetic "this host does not reply" response (a SOA record in the
       NS section) instead of the A record.

       The reason for this is to provide a "dnswall" that protects users for some kinds of
       attacks, as described at http://crypto.stanford.edu/dns/

       Please note that Deadwood only provides IPv4 "dnswall" functionality and does not help
       protect against IPv6 answers. If protection against certain IPv6 AAAA records is needed,
       either disable all AAAA answers by setting reject_aaaa to have a value of 1, or use an
       external program to filter undesired IPv4 answers (such as the dnswall program).

       The default value for this is 1

    handle_noreply

       When this is set to 0, Deadwood sends no reply back to the client (when the client is a
       TCP client, Deadwood closes the TCP connection) when a UDP query is sent upstream and the
       upstream DNS never sends a reply.

       When this is set to 1, Deadwood sends a SERVER FAIL back to the client when a UDP query is
       sent upstream and the upstream DNS never sends a reply.

       The default value for this is 1

    handle_overload

       When this has a value of 0, Deadwood sends no reply when a UDP query is sent and the
       server is overloaded (has too many pending connections); when it has a value of 1,
       Deadwood sends a SERVER FAIL packet back to the sender of the UDP query. The default value
       for this is 1.

    hash_magic_number

       This used to be used for Deadwood's internal hash generator to keep the hash generator
       somewhat random and immune to certain types of attacks.  In Deadwood 3.0, entropy for the
       hash function is created by looking at the contents of /dev/urandom (secret.txt on Windows
       machines) and the current timestamp. This parameter is only here so older configuration
       files do not break in Deadwood 3.0.

    ip_blacklist

       This is a list of IPs that we do not allow to be in the answer to a DNS request. The
       reason for this is to counteract the practice some ISPs have of converting a "this site
       does not exist" DNS answer in to a page controlled by the ISP; this results in possible
       security issues.

       This parameter only accepts individual IPs, and does not use netmasks.

    maradns_uid

       The user-id Deadwood runs as. This can be any number between 10 and 65535; the default
       value is 99 (nobody on RedHat-derived Linux distributions). This value is not used on
       Windows systems.

    maradns_gid

       The group-id Deadwood runs as. This can be any number between 10 and 65535; the default
       value is 99. This value is not used on Windows systems.

    max_ar_chain

       Whether resource record rotation is enabled. If this has a value of 1, resource record
       rotation is enabled, otherwise resource record rotation is disabled.

       Resource record rotation is usually desirable, since it allows DNS to act like a crude
       load balancer. However, on heavily loaded systems it may be desirable to disable it to
       reduce CPU usage.

       The reason for the unusual name for this variable is to retain compatibility with MaraDNS
       mararc files.

       The default value is 1: Resource record rotation enabled.

    max_inflights

       The maximum number of simultaneous clients we process at the same time for the same query.

       If, while processing a query for, say, "example.com.", another DNS client sends to
       Deadwood another query for example.com, instead of creating a new query to process
       example.com, Deadwood will attach the new client to the same query that is already "in
       flight", and send a reply to both clients once we have an answer for example.com.

       This is the number of simultaneous clients a given query can have. If this limit is
       exceeded, subsequents clients with the same query are refused until an answer is found. If
       this has a value of 1, we do not merge multiple requests for the same query, but give each
       request its own connection.

       The default value is 8.

    max_ttl

       The maximum amount of time we will keep an entry in the cache, in seconds.

       This is the longest we will keep an entry cached. The default value for this parameter is
       86400 (one day); the minimum value is 300 (5 minutes) and the maximum value this can have
       is 7776000 (90 days).

       The reason why this parameter is here is to protect Deadwood from attacks which exploit
       there being stale data in the cache, such as the "Ghost Domain Names" attack.

    maximum_cache_elements

       The maximum number of elements our cache is allowed to have. This is a number between 32
       and 16,777,216; the default value for this is 1024. Note that, if writing the cache to
       disk or reading the cache from disk, higher values of this will slow down cache
       reading/writing.

       The amount of memory each cache entry uses is variable depending on the operating system
       used and the size of memory allocation pages assigned.  In Windows XP, for example, each
       entry uses approximately four kilobytes of memory and Deadwood has an overhead of
       approximately 512 kilobytes.  So, if there are 512 cache elements, Deadwood uses
       approximately 2.5 megabytes of memory, and if there are 1024 cache elements, Deadwood uses
       approximately 4.5 megabytes of memory. Again, these numbers are for Windows XP and other
       operating systems will have different memory allocation numbers.

       Please note that each root_servers and upstream_servers entry takes up space in Deadwood's
       cache and that maximum_cache_elements will need to be increased to store a large number of
       these entries.

    maxprocs

       This is the maximum number of pending remote UDP connections Deadwood can have. The
       default value for this is 32.

    max_tcp_procs

       This is the number of allowed open TCP connections. Default value: 8

    num_retries

       The number of times we retry to send a query upstream before giving up. If this is 0, we
       only try once; if this is 1, we try twice, and so on, up to 32 retries. Note that each
       retry takes timeout_seconds seconds before we retry again. Default value: 5

    ns_glueless_type

       The RR type we send to resolve glueless records. This should be 1 (A) when mainly using
       IPv4 to resolve records. If glueless NS records have AAAA but not A records, and IPv6 is
       enabled, it may make sense to give this a value of 255 (ANY). If IPv4 ever stops being
       used on a large scale, it may eventually become possible to make this have a value of 28
       (AAAA).

       The default value is 1: An A (IPv4 IP) record. This parameter has not been tested; use at
       your own risk.

    random_seed_file

       This is a file that contains random numbers, and is used as a seed for the
       cryptographically strong random number generator.  Deadwood will try to read 256 bytes
       from this file (the RNG Deadwood uses can accept a stream of any arbitrary length).

       Note that the hash compression function obtains some of its entropy before parsing the
       mararc file, and is hard-coded to get entropy from /dev/urandom (secret.txt on Windows
       systems). Most other entropy used by Deadwood comes from the file pointed to by
       random_seed_file.

    recurse_min_bind_port

       The lowest numbered port Deadwood is allowed to bind to; this is a random port number used
       for the source port of outgoing queries, and is not 53 (see dns_port above). This is a
       number between 1025 and 32767, and has a default value of 15000.  This is used to make DNS
       spoofing attacks more difficult.

    recurse_number_ports

       The number of ports Deadwood binds to for the source port for outgoing connections; this
       is a power of 2 between 256 and 32768.  This is used to make DNS spoofing attacks more
       difficult. The default value is 4096.

    recursive_acl

       This is a list of who is allowed to use Deadwood to perform DNS recursion, in "ip/mask"
       format. Mask must be a number between 0 and 32 (for IPv6, between 0 and 128). For example,
       "127.0.0.1/8" allows local connections.

    reject_aaaa

       If this has a value of 1, a bogus SOA "not there" reply is sent whenever an AAAA query is
       sent to Deadwood. In other words, every time a program asks Deadwood for an IPv6 IP
       address, instead of trying to process the request, when this is set to 1, Deadwood
       pretends the host name in question does not have an IPv6 address.

       This is useful for people who aren't using IPv6 but use applications (usually *NIX command
       like applications like "telnet") which slow things down trying to find an IPv6 address.

       This has a default value of 0. In other words, AAAA queries are processed normally unless
       this is set.

    reject_mx

       When this has the default value of 1, MX queries are silently dropped with their IP
       logged. A MX query is a query that is only done by a machine if it wishes to be its own
       mail server sending mail to machines on the internet. This is a query an average desktop
       machine (including one that uses Outlook or another mail user agent to read and send
       email) will never make.

       Most likely, if a machine is trying to make a MX query, the machine is being controlled by
       a remote source to send out undesired "spam" email.  This in mind, Deadwood will not allow
       MX queries to be made unless reject_mx is explicitly set with a value of 0.

       Before disabling this, please keep in mind that Deadwood is optimized to be used for web
       surfing, not as a DNS server for a mail hub.  In particular, the IPs for MX records are
       removed from Deadwood's replies and Deadwood needs to perform additional DNS queries to
       get the IPs corresponding to MX records, and Deadwood's testing is more geared for web
       surfing (almost 100% A record lookup) and not for mail delivery (extensive MX record
       lookup).

    reject_ptr

       If this has a value of 1, a bogus SOA "not there" reply is sent whenever a PTR query is
       sent to Deadwood. In other words, every time a program asks Deadwood for "reverse DNS
       lookup" -- the hostname for a given IP address -- instead of trying to process the
       request, when this is set to 1, Deadwood pretends the IP address in question does not have
       a hostname.

       This is useful for people who are getting slow DNS timeouts when trying to perform a
       reverse DNS lookups on IPs.

       This has a default value of 0. In other words, PTR queries are processed normally unless
       this is set.

    resurrections

       If this is set to 1, Deadwood will try to send an expired record to the user before giving
       up. If it is 0, we don't. Default value: 1

    root_servers

       This is a list of root servers; its syntax is identical to upstream_servers (see below).
       This is the type of DNS service ICANN, for example, runs. These are servers used that do
       not give us complete answers to DNS questions, but merely tell us which DNS servers to
       connect to to get an answer closer to our desired answer.

       Please note that each root_servers entry takes up space in Deadwood's cache and that
       maximum_cache_elements will need to be increased to store a large number of these entries.

    tcp_listen

       In order to enable DNS-over-TCP, this variable must be set and have a value of 1. Default
       value: 0

    timeout_seconds

       This is how long Deadwood will wait before giving up and discarding a pending UDP DNS
       reply.  The default value for this is 1, as in 1 second, unless Deadwood was compiled with
       FALLBACK_TIME enabled.

    timeout_seconds_tcp

       How long to wait on an idle TCP connection before dropping it. The default value for this
       is 4, as in 4 seconds.

    ttl_age

       Whether TTL aging is enabled; whether entries in the cache have their TTLs set to be the
       amount of time the entries have left in the cache.

       If this has a value of 1, TTL entries are aged. Otherwise, they are not.  The default
       value for this is 1.

    upstream_port

       This is the port Deadwood uses to connect or send packets to the upstream servers. The
       default value for this is 53; the standard DNS port.

    upstream_servers

       This is a list of DNS servers that the load balancer will try to contact.  This is a
       dictionary variable (array indexed by a string instead of by a number) instead of a simple
       variable. Since upstream_servers is a dictionary variable, it needs to be initialized
       before being used.

       Deadwood will look at the name of the host that it is trying to find the upstream server
       for, and will match against the longest suffix it can find.

       For example, if someone sends a query for "www.foo.example.com" to Deadwood, Deadwood will
       first see if there is an upstream_servers variable for "www.foo.example.com.", then look
       for "foo.example.com.", then look for "example.com.", then "com.", and finally ".".

       Here is an example of upstream_servers:

       upstream_servers = {} # Initialize dictionary variable
       upstream_servers["foo.example.com."] = "192.168.42.1"
       upstream_servers["example.com."] = "192.168.99.254"
       upstream_servers["."] = "10.1.2.3, 10.1.2.4"

       In this example, anything ending in "foo.example.com" is resolved by the DNS server at
       192.168.42.1; anything else ending in "example.com" is resolved by 192.168.99.254; and
       anything not ending in "example.com" is resolved by either 10.1.2.3 or 10.1.2.4.

       Important: the domain name upstream_servers points to must end in a "." character. This is
       OK:

       upstream_servers["example.com."] = "192.168.42.1"

       But this is not OK:

       upstream_servers["example.com"] = "192.168.42.1"

       The reason for this is because BIND engages in unexpected behavior when a host name
       doesn't end in a dot, and by forcing a dot at the end of a hostname, Deadwood doesn't have
       to guess whether the user wants BIND's behavior or the "normal" behavior.

       If neither root_servers nor upstream_servers are set, Deadwood sets root_servers to use
       the default ICANN root servers, as follows:

       198.41.0.4      a.root-servers.net (VeriSign)
       192.228.79.201  b.root-servers.net (ISI)
       192.33.4.12     c.root-servers.net (Cogent)
       199.7.91.13     d.root-servers.net (UMaryland)
       192.203.230.10  e.root-servers.net (NASA Ames)
       192.5.5.241     f.root-servers.net (ISC)
       192.112.36.4    g.root-servers.net (DOD NIC)
       128.63.2.53     h.root-servers.net (ArmyRU)
       192.36.148.17   i.root-servers.net (NORDUnet)
       192.58.128.30   j.root-servers.net (VeriSign)
       193.0.14.129    k.root-servers.net (Reseaux)
       199.7.83.42     l.root-servers.net (IANA)
       202.12.27.33    m.root-servers.net (WIDE)

       This list is current as of May 3, 2010, and was last changed on November 1, 2007.

       Please note that each upstream_servers entry takes up space in Deadwood's cache and that
       maximum_cache_elements will need to be increased to store a large number of these entries.

    verbose_level

       This determines how many messages are logged on standard output; larger values log more
       messages. The default value for this is 3.

ip/mask format of IPs

       Deadwood uses a standard ip/netmask formats to specify IPs.  An ip is in dotted-decimal
       format, e.g. "10.1.2.3" (or in IPv6 format when IPv6 support is compiled in).

       The netmask is used to specify a range of IPs.  The netmask is a single number between 1
       and 32 (128 when IPv6 support is compiled in), which indicates the number of leading "1"
       bits in the netmask.

       10.1.1.1/24 indicates that any ip from 10.1.1.0 to 10.1.1.255 will match.

       10.2.3.4/16 indicates that any ip from 10.2.0.0 to 10.2.255.255 will match.

       127.0.0.0/8 indicates that any ip with "127" as the first octet (number) will match.

       The netmask is optional, and, if not present, indicates that only a single IP will match.

DNS over TCP

       DNS-over-TCP needs to be explicitly enabled by setting tcp_listen to 1.

       Deadwood extracts useful information from UDP DNS packets marked truncated which almost
       always removes the need to have DNS-over-TCP. However, Deadwood does not cache DNS packets
       larger than 512 bytes in size that need to be sent using TCP. In addition, DNS-over-TCP
       packets which are "incomplete" DNS replies (replies which a stub resolver can not use,
       which can be either a NS referral or an incomplete CNAME reply) are not handled correctly
       by Deadwood.

       Deadwood has support for both DNS-over-UDP and DNS-over-TCP; the same daemon listens on
       both the UDP and TCP DNS port.

       Only UDP DNS queries are cached. Deadwood does not support caching over TCP; it handles
       TCP to resolve the rare truncated reply without any useful information or to work with
       very uncommon non-RFC-compliant TCP-only DNS resolvers. In the real world, DNS-over-TCP is
       almost never used.

Parsing other files

       It is possible to have Deadwood, while parsing the dwood3rc file, read other files and
       parse them as if they were dwood3rc files.

       This is done using execfile.  To use execfile, place a line like this in the dwood3rc
       file:

       execfile("path/to/filename")

       Where path/to/filename is the path to the file to be parsed like a dwood3rc file.

       All files must be in or under the directory /etc/maradns/deadwood/execfile.  Filenames can
       only have lower-case letters and the underscore character ("_"). Absolute paths are not
       allowed as the argument to execfile; the filename can not start with a slash ("/")
       character.

       If there is a parse error in the file pointed to by execfile, Deadwood will report the
       error as being on the line with the execfile command in the main dwood3rc file. To find
       where a parse error is in the sub-file, use something like "Deadwood -f
       /etc/maradns/deadwood/execfile/filename" to find the parse error in the offending file,
       where "filename" is the file to to parsed via execfile.

IPV6 support

       This server can also be optionally compiled to have IPv6 support. In order to enable IPv6
       support, add '-DIPV6' to the compile-time flags.  For example, to compile this to make a
       small binary, and to have IPv6 support:

            export FLAGS='-Os -DIPV6'
            make

SECURITY

       Deadwood is a program written with security in mind.

       In addition to use a buffer-overflow resistant string library and a coding style and SQA
       process that checks for buffer overflows and memory leaks, Deadwood uses a strong pseudo-
       random number generator (The 32-bit version of RadioGatun) to generate both the query ID
       and source port. For the random number generator to be secure, Deadwood needs a good
       source of entropy; by default Deadwood will use /dev/urandom to get this entropy.  If you
       are on a system without /dev/urandom support, it is important to make sure that Deadwood
       has a good source of entropy so that the query ID and source port are hard to guess
       (otherwise it is possible to forge DNS packets).

       The Windows port of Deadwood includes a program called "mkSecretTxt.exe" that creates a
       64-byte (512 bit) random file called "secret.txt" that can be used by Deadwood (via the
       "random_seed_file" parameter); Deadwood also gets entropy from the timestamp when Deadwood
       is started and Deadwood's process ID number, so it is same to use the same static
       secret.txt file as the random_seed_file for multiple invocations of Deadwood.

       Note that Deadwood is not protected from someone on the same network viewing packets sent
       by Deadwood and sending forged packets as a reply.

       To protect Deadwood from certain possible denial-of-service attacks, it is best if
       Deadwood's prime number used for hashing elements in the cache is a random 31-bit prime
       number. The program RandomPrime.c generates a random prime that is placed in the file
       DwRandPrime.h that is regenerated whenever either the program is compiled or things are
       cleaned up with make clean. This program uses /dev/urandom for its entropy; the file
       DwRandPrime.h will not be regenerated on systems without /dev/urandom.

       On systems without direct /dev/urandom support, it is suggested to see if there is a
       possible way to give the system a working /dev/urandom. This way, when Deadwood is
       compiled, the hash magic number will be suitably random.

       If using a precompiled binary of Deadwood, please ensure that the system has /dev/urandom
       support (on Windows system, please ensure that the file with the name secret.txt is
       generated by the included mkSecretTxt.exe program); Deadwood, at runtime, uses
       /dev/urandom (secret.txt in Windows) as a hardcoded path to get entropy (along with the
       timestamp) for the hash algorithm.

DAEMONIZATION

       Deadwood does not have any built-in daemonization facilities; this is handled by the
       external program Duende or any other daemonizer.

Example configuration file

       Here is an example dwood3rc configuration file:

       # This is an example deadwood rc file
       # Note that comments are started by the hash symbol

       bind_address="127.0.0.1" # IP we bind to

       # The following line is disabled by being commented out
       #bind_address="::1" # We have optional IPv6 support

       # Directory we run program from (not used in Win32)
       chroot_dir = "/etc/maradns/deadwood"

       # The following upstream DNS servers are Google's
       # (as of December 2009) public DNS servers.  For
       # more information, see the page at
       # http://code.google.com/speed/public-dns/
       #
       # If neither root_servers nor upstream_servers are set,
       # Deadwood will use the default ICANN root servers.
       #upstream_servers = {}
       #upstream_servers["."]="8.8.8.8, 8.8.4.4"

       # Who is allowed to use the cache.  This line
       # allows anyone with "127.0" as the first two
       # digits of their IP to use Deadwood
       recursive_acl = "127.0.0.1/16"

       # Maximum number of pending requests
       maxprocs = 8

       # Send SERVER FAIL when overloaded
       handle_overload = 1

       maradns_uid = 99 # UID Deadwood runs as
       maradns_gid = 99 # GID Deadwood runs as

       maximum_cache_elements = 60000

       # If you want to read and write the cache from disk,
       # make sure chroot_dir above is readable and writable
       # by the maradns_uid/gid above, and uncomment the
       # following line.
       #cache_file = "dw_cache"

       # If your upstream DNS server converts "not there" DNS replies
       # in to IPs, this parameter allows Deadwood to convert any reply
       # with a given IP back in to a "not there" IP.  If any of the IPs
       # listed below are in a DNS answer, Deadwood converts the answer
       # in to a "not there"
       #ip_blacklist = "10.222.33.44, 10.222.3.55"

       # By default, for security reasons, Deadwood does not allow IPs in
       # the 192.168.x.x, 172.[16-31].x.x, 10.x.x.x, 127.x.x.x,
       # 169.254.x.x, 224.x.x.x, or 0.0.x.x range.  If using Deadwood
       # to resolve names on an internal network, uncomment the
       # following line:
       #filter_rfc1918 = 0

BUGS

       Deadwood does not follow RFC2181's advice to ignore DNS responses with the TC (truncated)
       bit set, but instead extracts the first RR. If this is not desired, set the undocumented
       parameter truncation_hack to 0 (but read the DNS over TCP section of this man page).

       Deadwood can not process DNS resource record types with numbers between 65392 and 65407.
       These RR types are marked by the IANA for "private use"; Deadwood reserves these record
       types for internal use. This is only 16 record types out of the 65536 possible DNS record
       types (only 71 have actually been assigned by IANA, so this is a non-issue in the real
       world).

       It is not clear whether the DNS RFCs allow ASCII control characters in DNS names. Even if
       they were, Deadwood does not allow ASCII control characters (bytes with a value less then
       32) in DNS names.  Other characters (UTF-8, etc.) are allowed.

LEGAL DISCLAIMER

       THIS SOFTWARE IS PROVIDED BY THE AUTHORS ''AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
       INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
       PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE
       FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
       (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
       DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
       WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
       IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
       DAMAGE.

AUTHORS

       Sam Trenholme (http://www.samiam.org) is responsible for this program and man page. He
       appreciates all of Jean-Jacques Sarton's help giving this program IPv6 support.