BIND 9.16 is a stable branch of BIND. This document summarizes significant changes since the last production release on that branch.
Please see the file CHANGES
for a more
detailed list of changes and bug fixes.
As of BIND 9.13/9.14, BIND has adopted the "odd-unstable/even-stable" release numbering convention. BIND 9.16 contains new features added during the BIND 9.15 development process. Henceforth, the 9.16 branch will be limited to bug fixes and new feature development will proceed in the unstable 9.17 branch.
To build on UNIX-like systems, BIND requires support for POSIX.1c threads (IEEE Std 1003.1c-1995), the Advanced Sockets API for IPv6 (RFC 3542), and standard atomic operations provided by the C compiler.
The libuv
asynchronous I/O library and the
OpenSSL cryptography library must be available for the target
platform. A PKCS#11 provider can be used instead of OpenSSL for
Public Key cryptography (i.e., DNSSEC signing and validation),
but OpenSSL is still required for general cryptography operations
such as hashing and random number generation.
More information can be found in the PLATFORMS.md
file that is included in the source distribution of BIND 9. If your
compiler and system libraries provide the above features, BIND 9
should compile and run. If that isn't the case, the BIND
development team will generally accept patches that add support
for systems that are still supported by their respective vendors.
The latest versions of BIND 9 software can always be found at https://www.isc.org/download/. There you will find additional information about each release, source code, and pre-compiled versions for Microsoft Windows operating systems.
DNS rebinding protection was ineffective when BIND 9 is configured as a forwarding DNS server. Found and responsibly reported by Tobias Klein. [GL #1574]
We have received reports that in some circumstances, receipt of an IXFR can cause the processing of queries to slow significantly. Some of these were related to RPZ processing, which has been fixed in this release (see below). Others appear to occur where there are NSEC3-related changes (such as an operator changing the NSEC3 salt used in the hash calculation). These are being investigated. [GL #1685]
The previous DNSSEC sign statistics used lots of memory. The number of keys to track is reduced to four per zone, which should be enough for 99% of all signed zones. [GL #1179]
When an RPZ policy zone was updated via zone transfer and a large number of records was deleted, named could become nonresponsive for a short period while deleted names were removed from the RPZ summary database. This database cleanup is now done incrementally over a longer period of time, reducing such delays. [GL #1447]
When trying to migrate an already-signed zone from auto-dnssec maintain to one based on dnssec-policy, the existing keys were immediately deleted and replaced with new ones. As the key rollover timing constraints were not being followed, it was possible that some clients would not have been able to validate responses until all old DNSSEC information had timed out from caches. BIND now looks at the time metadata of the existing keys and incorporates it into its DNSSEC policy operation. [GL #1706]
UDP network ports used for listening can no longer simultaneously be
used for sending traffic. An example configuration which triggers
this issue would be one which uses the same
address:port
pair for
listen-on(-v6) statements as for
notify-source(-v6) or
transfer-source(-v6). While this issue affects all
operating systems, it only triggers log messages (e.g. "unable to
create dispatch for reserved port") on some of them. There are
currently no plans to make such a combination of settings work again.
The system-provided POSIX Threads read-write lock implementation is now used by default instead of the native BIND 9 implementation. Please be aware that glibc versions 2.26 through 2.29 had a bug that could cause BIND 9 to deadlock. A fix was released in glibc 2.30, and most current Linux distributions have patched or updated glibc, with the notable exception of Ubuntu 18.04 (Bionic) which is a work in progress. If you are running on an affected operating system, compile BIND 9 with --disable-pthread-rwlock until a fixed version of glibc is available. [GL !3125]
Note: this section only lists changes from BIND 9.14 (the previous stable branch of BIND).
A new asynchronous network communications system based on libuv is now used by named for listening for incoming requests and responding to them. This change will make it easier to improve performance and implement new protocol layers (for example, DNS over TLS) in the future. [GL #29]
The new dnssec-policy option allows the configuration of a key and signing policy (KASP) for zones. This option enables named to generate new keys as needed and automatically roll both ZSK and KSK keys. (Note that the syntax for this statement differs from the DNSSEC policy used by dnssec-keymgr.) [GL #1134]
In order to clarify the configuration of DNSSEC keys, the trusted-keys and managed-keys statements have been deprecated, and the new trust-anchors statement should now be used for both types of key.
When used with the keyword initial-key, trust-anchors has the same behavior as managed-keys, i.e., it configures a trust anchor that is to be maintained via RFC 5011.
When used with the new keyword static-key, trust-anchors has the same behavior as trusted-keys, i.e., it configures a permanent trust anchor that will not automatically be updated. (This usage is not recommended for the root key.) [GL #6]
Two new keywords have been added to the trust-anchors statement: initial-ds and static-ds. These allow the use of trust anchors in DS format instead of DNSKEY format. DS format allows trust anchors to be configured for keys that have not yet been published; this is the format used by IANA when announcing future root keys.
As with the initial-key and static-key keywords, initial-ds configures a dynamic trust anchor to be maintained via RFC 5011, and static-ds configures a permanent trust anchor. [GL #6] [GL #622]
dig, mdig and delv can all now take a +yaml option to print output in a detailed YAML format. [GL #1145]
dig now has a new command line option: +[no]unexpected. By default, dig won't accept a reply from a source other than the one to which it sent the query. Add the +unexpected argument to enable it to process replies from unexpected sources. [RT #44978]
dig now accepts a new command line option, +[no]expandaaaa, which causes the IPv6 addresses in AAAA records to be printed in full 128-bit notation rather than the default RFC 5952 format. [GL #765]
Statistics channel groups can now be toggled. [GL #1030]
When static and managed DNSSEC keys were both configured for the
same name, or when a static key was used to
configure a trust anchor for the root zone and
dnssec-validation was set to the default
value of auto
, automatic RFC 5011 key
rollovers would be disabled. This combination of settings was
never intended to work, but there was no check for it in the
parser. This has been corrected, and it is now a fatal
configuration error. [GL #868]
DS and CDS records are now generated with SHA-256 digests
only, instead of both SHA-1 and SHA-256. This affects the
default output of dnssec-dsfromkey, the
dsset
files generated by
dnssec-signzone, the DS records added to
a zone by dnssec-signzone based on
keyset
files, the CDS records added to
a zone by named and
dnssec-signzone based on "sync" timing
parameters in key files, and the checks performed by
dnssec-checkds. [GL #1015]
named will now log a warning if a static key is configured for the root zone. [GL #6]
A SipHash 2-4 based DNS Cookie (RFC 7873) algorithm has been added and made default. Old non-default HMAC-SHA based DNS Cookie algorithms have been removed, and only the default AES algorithm is being kept for legacy reasons. This change has no operational impact in most common scenarios. [GL #605]
If you are running multiple DNS servers (different versions of BIND 9 or DNS servers from multiple vendors) responding from the same IP address (anycast or load-balancing scenarios), make sure that all the servers are configured with the same DNS Cookie algorithm and same Server Secret for the best performance.
The information from the dnssec-signzone and dnssec-verify commands is now printed to standard output. The standard error output is only used to print warnings and errors, and in case the user requests the signed zone to be printed to standard output with the -f - option. A new configuration option -q has been added to silence all output on standard output except for the name of the signed zone. [GL #1151]
The DNSSEC validation code has been refactored for clarity and to reduce code duplication. [GL #622]
Compile-time settings enabled by the --with-tuning=large option for configure are now in effect by default. Previously used default compile-time settings can be enabled by passing --with-tuning=small to configure. [GL !2989]
JSON-C is now the only supported library for enabling JSON support for BIND statistics. The configure option has been renamed from --with-libjson to --with-json-c. Set the PKG_CONFIG_PATH environment variable accordingly to specify a custom path to the json-c library, as the new configure option does not take the library installation path as an optional argument. [GL #855]
./configure no longer sets --sysconfdir to /etc or --localstatedir to /var when --prefix is not specified and the aforementioned options are not specified explicitly. Instead, Autoconf's defaults of $prefix/etc and $prefix/var are respected. [GL #658]
The dnssec-enable option has been obsoleted and no longer has any effect. DNSSEC responses are always enabled if signatures and other DNSSEC data are present. [GL #866]
DNSSEC Lookaside Validation (DLV) is now obsolete.
The dnssec-lookaside option has been
marked as deprecated; when used in named.conf
,
it will generate a warning but will otherwise be ignored.
All code enabling the use of lookaside validation has been removed
from the validator, delv, and the DNSSEC tools.
[GL #7]
The cleaning-interval option has been removed. [GL !1731]
BIND 9 is open source software licensed under the terms of the Mozilla
Public License, version 2.0 (see the LICENSE
file for the full text).
The license requires that if you make changes to BIND and distribute them outside your organization, those changes must be published under the same license. It does not require that you publish or disclose anything other than the changes you have made to our software. This requirement does not affect anyone who is using BIND, with or without modifications, without redistributing it, nor anyone redistributing BIND without changes.
Those wishing to discuss license compliance may contact ISC at https://www.isc.org/contact/.
The end of life date for BIND 9.16 has not yet been determined. At some point in the future BIND 9.16 will be designated as an Extended Support Version (ESV). Until then, the current ESV is BIND 9.11, which will be supported until at least December 2021.
See https://kb.isc.org/docs/aa-00896 for details of ISC's software support policy.