Commit `604d8f0b967563b0ba9dcd4f09559fdd9e21dfbe` introduced during 9.19 development cycle a check to ensure the resolver never attempts to lookup more than 20 NS names. This limit was introduced by `3a44097fd6c6c260765b628cd1d2c9cb7efb0b2a` as part of the CVE-2022-2795. However, this test relies on the fact that, at the time, the NS names were processed in a specific order in the nameserver, as this snip from the log (from a build on `604d8f0` branch) running the test illustrates: ``` 24-Mar-2026 21:19:46.346 dispatch 0x7fdaa722d200: success, length == 19956, addr = 0x7fdaa0a7c102 24-Mar-2026 21:19:46.346 dispatch 0x7fdaa722d200: got valid DNS message header, /QR 1, id 14328 24-Mar-2026 21:19:46.346 dispatch 0x7fdaa722d200: search for response in bucket 7213: success 24-Mar-2026 21:19:46.354 received packet from 10.53.0.3#5300 ;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: 14328 ;; flags: qr aa; QUESTION: 1, ANSWER: 0, AUTHORITY: 999, ADDITIONAL: 1 ;; OPT PSEUDOSECTION: ; EDNS: version: 0, flags: do; udp: 1232 ; COOKIE: baf16b0241efc700 ;; QUESTION SECTION: ;large-referral.example.net. IN A ;; AUTHORITY SECTION: ;large-referral.example.net. 300 IN NS ns1.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns2.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns3.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns4.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns5.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns6.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns7.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns8.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns9.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns10.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns11.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns12.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns13.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns14.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns15.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns16.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns17.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns18.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns19.fake.redirect.com. ;large-referral.example.net. 300 IN NS ns20.fake.redirect.com. ``` This is not true anymore, as the NS are in a random order. Moreover, commit `3c33e7d9370006b1599e3d99c0d5fa6a6dad7979` introduced the randomization of the selection of the NS names to lookup, which make the test potentially unreliable, as it now doesn't mean anything to check the nameserver does not query `ns21.fake.redirect.com.`, as it could be the first one, or in any position form the randomized list. Another test has been added in commit `c67b52684f11652b07afaa75a917f6f0355dbca6` which test both the randomization of the NS name to be looked up, as well as the upper bound limit of NS name lookup to be done. For all those reasons, this specific legacy check is now removed. |
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| bin | ||
| ci | ||
| cocci | ||
| contrib | ||
| doc | ||
| fuzz | ||
| lib | ||
| LICENSES | ||
| tests | ||
| util | ||
| .clang-format | ||
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| .dir-locals.el | ||
| .editorconfig | ||
| .git-blame-ignore-revs | ||
| .gitattributes | ||
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| .gitlab-ci.yml | ||
| .mailmap | ||
| .readthedocs.yaml | ||
| .tsan-suppress | ||
| .uncrustify.cfg | ||
| AUTHORS | ||
| bind.keys | ||
| ChangeLog | ||
| CODE_OF_CONDUCT.md | ||
| CONTRIBUTING.md | ||
| COPYING | ||
| COPYRIGHT | ||
| dangerfile.py | ||
| dnstap.proto | ||
| gcovr.cfg | ||
| LICENSE | ||
| meson.build | ||
| meson.format | ||
| meson.options | ||
| NEWS | ||
| OPTIONS.md | ||
| pyproject.toml | ||
| README.md | ||
| REUSE.toml | ||
| SECURITY.md | ||
| sonar-project.properties | ||
| suppr-lsan.txt | ||
BIND 9
Contents
- Introduction
- Reporting bugs and getting help
- Contributing to BIND
- Building BIND
- Automated testing
- Documentation
- Acknowledgments
Introduction
BIND (Berkeley Internet Name Domain) is a complete, highly portable implementation of the Domain Name System (DNS) protocol.
The BIND name server, named, can act as an authoritative name
server, recursive resolver, DNS forwarder, or all three simultaneously. It
implements views for split-horizon DNS, automatic DNSSEC zone signing and
key management, catalog zones to facilitate provisioning of zone data
throughout a name server constellation, response policy zones (RPZ) to
protect clients from malicious data, response rate limiting (RRL) and
recursive query limits to reduce distributed denial of service attacks,
and many other advanced DNS features. BIND also includes a suite of
administrative tools, including the dig and delv DNS lookup tools,
nsupdate for dynamic DNS zone updates, rndc for remote name server
administration, and more.
BIND 9 began as a complete rewrite of the BIND architecture that was used in versions 4 and 8. Internet Systems Consortium (https://www.isc.org), a 501(c)(3) US public benefit corporation dedicated to providing software and services in support of the Internet infrastructure, developed BIND 9 and is responsible for its ongoing maintenance and improvement. BIND is open source software licensed under the terms of the Mozilla Public License, version 2.0.
For a detailed list of changes made throughout the history of BIND 9, see the changelog.
For up-to-date versions and release notes, see https://www.isc.org/download/.
For information about supported platforms, see the "Supported Platforms" section in the BIND 9 Administrator Reference Manual.
Reporting bugs and getting help
To report non-security-sensitive bugs or request new features, you may open an issue in the BIND 9 project on the ISC GitLab server at https://gitlab.isc.org/isc-projects/bind9.
Please note that, unless you explicitly mark the newly created issue as
"confidential," it will be publicly readable. Please do not include any
information in bug reports that you consider to be confidential unless
the issue has been marked as such. In particular, if submitting the
contents of your configuration file in a non-confidential issue, it is
advisable to obscure key secrets; this can be done automatically by
using named-checkconf -px.
For information about ISC's Security Vulnerability Disclosure Policy and
information about reporting potential security issues, please see
SECURITY.md.
Professional support and training for BIND are available from ISC. Contact us at https://www.isc.org/contact for more information.
To join the BIND Users mailing list, or view the archives, visit https://lists.isc.org/mailman/listinfo/bind-users.
Contributing to BIND
ISC maintains a public git repository for BIND; details can be found at https://www.isc.org/sourceaccess/.
Information for BIND contributors can be found in the following files:
- General information: CONTRIBUTING.md
- Code of Conduct: CODE_OF_CONDUCT.md
- BIND 9 code style: doc/dev/style.md
- BIND architecture and developer guide: doc/dev/dev.md
Patches for BIND may be submitted as merge requests on the ISC GitLab server.
By default, external contributors do not have the ability to fork BIND on the GitLab server; if you wish to contribute code to BIND, you may request permission to do so. Thereafter, you can create git branches and directly submit requests that they be reviewed and merged.
If you prefer, you may also submit code by opening a
GitLab issue and
including your patch as an attachment, preferably generated by
git format-patch.
Building BIND 9
For information about building BIND 9, see the "Building BIND 9" section in the BIND 9 Administrator Reference Manual.
Automated testing
A system test suite can be run with pytest bin/tests/system. The system
tests require you to configure a set of virtual IP addresses on your system
(this allows multiple servers to run locally and communicate with each other).
These IP addresses can be configured by running the command
bin/tests/system/ifconfig.sh up as root.
Some tests require Perl and the Net::DNS and/or IO::Socket::IP modules,
and are skipped if these are not available. Some tests require Python
and the dnspython module and are skipped if these are not available.
See bin/tests/system/README for further details.
Unit tests are implemented using the CMocka unit testing framework. To build
them, use the option -Dcmocka=enabled. Execution of unit tests is done by the
meson's test functionality; run by meson test.
Documentation
The BIND 9 Administrator Reference Manual (ARM) is included with the source
distribution, and in .rst format, in the doc/arm
directory. The HTML version is automatically generated and can
be viewed at https://bind9.readthedocs.io/en/latest/index.html.
The PDF version can be built by running:
meson setup build
ninja -C build arm-pdf
The above requires TeX Live in order to work. The PDF will be written to
build/arm-pdf/latex/Bv9ARM.pdf.
Man pages for some of the programs in the BIND 9 distribution are also included in the BIND ARM.
Frequently (and not-so-frequently) asked questions and their answers can be found in the ISC Knowledgebase at https://kb.isc.org.
Additional information on various subjects can be found in other
README files throughout the source tree.
Bug report identifiers
Most notes in the ARM Changelog appendix include a reference to a bug report or
issue number. Prior to 2018, these were usually of the form [RT #NNN]
and referred to entries in the "bind9-bugs" RT database, which was not open
to the public. More recent entries use the form [GL #NNN] or, less often,
[GL !NNN], which, respectively, refer to issues or merge requests in the
GitLab database. Most of these are publicly readable, unless they include
information which is confidential or security-sensitive.
To look up a GitLab issue by its number, use the URL https://gitlab.isc.org/isc-projects/bind9/issues/NNN. To look up a merge request, use https://gitlab.isc.org/isc-projects/bind9/merge_requests/NNN.
In rare cases, an issue or merge request number may be followed with the letter "P". This indicates that the information is in the private ISC GitLab instance, which is not visible to the public.
Acknowledgments
-
The original development of BIND 9 was underwritten by the following organizations:
Sun Microsystems, Inc. Hewlett Packard Compaq Computer Corporation IBM Process Software Corporation Silicon Graphics, Inc. Network Associates, Inc. U.S. Defense Information Systems Agency USENIX Association Stichting NLnet - NLnet Foundation Nominum, Inc. -
This product includes software developed by the OpenSSL Project for use in the OpenSSL Toolkit. https://www.OpenSSL.org/
-
This product includes cryptographic software written by Eric Young (eay@cryptsoft.com).
-
This product includes software written by Tim Hudson (tjh@cryptsoft.com).