zydronium/google-nomulus
1
0
Fork 0
mirror of https://github.com/google/nomulus.git synced 2025-06-26 06:14:54 +02:00
Code Issues Projects Releases Packages Wiki Activity
Top-level domain name registry service on Google Cloud Platform
1844 commits 2 branches 2564 tags 147 MiB
Find a file
mcilwain b8d7d9da29 Don't delete the old premium list yet after updating to a new one 
The issue is that the premium list cache is configured to persist for 60
minutes. So after updating the list, checks/creates for up to the next 60
minutes could still be referring to the old list. That's fine and dandy, unless
you delete the old premium list immediately (*bad*), which makes all domains
appear to now be non-premium for as long as the cache lasts. The reason deleting
the premium list entries makes names appear as non-premium is that a load-by-key
existence check with the domain label itself is used to determine if a name is
premium.

I also removed a misleading cache update statement, which doesn't do what it
appears to be doing (it appears to fix this issue) because cache is
instance-level, and so even if the premium list were updated from the frontend
instance only one of 100 instances would have its cache updated. But it's
updated from the tools service anyway, so it's guaranteed to not be a shared
cache with any instance serving EPP traffic.

On a sidenote, I introduced this bug on 2014-10-27 in [] The domain
label list refactor was my Noogler project.

-------------
Created by MOE: https://github.com/google/moe
MOE_MIGRATED_REVID=197033604
2018-05-17 21:52:35 -04:00
docs Improve the error when trying to delete the registrant contact 2018-05-17 21:52:35 -04:00
java Don't delete the old premium list yet after updating to a new one 2018-05-17 21:52:35 -04:00
javatests/google/registry Don't delete the old premium list yet after updating to a new one 2018-05-17 21:52:35 -04:00
python Delete obsolete ICANN reporting python code 2017-11-21 18:23:10 -05:00
third_party Merge JUnitBackport's expectThrows into assertThrows 2018-03-06 18:56:15 -05:00
.gitignore Revert "Add vim file ignore rule, and make build work on MacOS" 2017-07-11 22:04:03 -04:00
AUTHORS Change all references to Domain Registry to Nomulus 2016-10-14 16:58:07 -04:00
CONTRIBUTING.md Add Google Java Style Guide info and link to CONTRIBUTING.md 2016-11-15 11:01:16 -05:00
CONTRIBUTORS Add larryruili and bbilbo to CONTRIBUTORS 2017-06-05 18:17:09 -04:00
LICENSE Rename LICENSE.txt to LICENSE 2016-07-13 15:26:51 -04:00
nomulus-logo.png Update Nomulus logo 2017-05-23 17:22:49 -04:00
README.md Add instructions on how to set up the GCP proxy 2018-03-19 18:51:57 -04:00
WORKSPACE Use bazel rules to build docker image and push to GCR 2018-03-06 19:08:24 -05:00

README.md

Nomulus

Build Status

Nomulus logo

Overview

Nomulus is an open source, scalable, cloud-based service for operating top-level domains (TLDs). It is the authoritative source for the TLDs that it runs, meaning that it is responsible for tracking domain name ownership and handling registrations, renewals, availability checks, and WHOIS requests. End-user registrants (i.e. people or companies that want to register a domain name) use an intermediate domain name registrar acting on their behalf to interact with the registry.

Nomulus runs on Google App Engine and is written primarily in Java. It is the software that Google Registry uses to operate TLDs such as .GOOGLE, .HOW, .SOY, and .みんな. It can run any number of TLDs in a single shared registry system using horizontal scaling. Its source code is publicly available in this repository under the Apache 2.0 free and open source license.

Getting started

The following resources provide information on getting the code and setting up a running system:

If you are thinking about running a production registry service using our platform, please drop by the user group and introduce yourself and your use case. To report issues or make contributions, use GitHub issues and pull requests.

Capabilities

Nomulus has the following capabilities:

  • Extensible Provisioning Protocol (EPP): An XML protocol that is the standard format for communication between registrars and registries. It includes operations for registering, renewing, checking, updating, and transferring domain names.
  • DNS interface: The registry provides a pluggable interface that can be implemented to handle different DNS providers. It includes a sample implementation using Google Cloud DNS as well as an RFC 2136 compliant implementation that works with BIND.
  • WHOIS: A text-based protocol that returns ownership and contact information on registered domain names.
  • Registration Data Access Protocol (RDAP): A JSON API that returns structured, machine-readable information about domain name ownership. It is essentially a newer version of WHOIS.
  • Registry Data Escrow (RDE): A daily export of all ownership information for a TLD to a third party escrow provider to allow take-over by another registry operator in the event of serious failure. This is required by ICANN for all new gTLDs.
  • Premium pricing: Communicates prices for premium domain names (i.e. those that are highly desirable) and supports configurable premium registration and renewal prices. An extensible interface allows fully programmatic pricing.
  • Billing history: A full history of all billable events is recorded, suitable for ingestion into an invoicing system.
  • Registration periods: Qualified Launch Partner, Sunrise, Landrush, Claims, and General Availability periods of the standard gTLD lifecycle are all supported.
  • Brand protection for trademark holders (via TMCH): Allows rights-holders to protect their brands by blocking registration of domains using their trademark. This is required by ICANN for all new gTLDs.
  • Registrar support console: A self-service web console that registrars can use to manage their accounts in the registry system.
  • Reporting: Support for required external reporting (such as ICANN monthly registry reports, CZDS, Billing and Registration Activity) as well as internal reporting using BigQuery.
  • Administrative tool: Performs the full range of administrative tasks needed to manage a running registry system, including creating and configuring new TLDs.
  • DNS interface: An interface for DNS operations is provided so you can write an implementation for your chosen provider, along with a sample implementation that uses Google Cloud DNS. If you are using Google Cloud DNS you may need to understand its capabilities and provide your own multi-AS solution.
  • GAE Proxy: App Engine Standard only serves HTTP/S traffic. A proxy to forward traffic on EPP and WHOIS ports to App Engine via HTTPS is provided. Instructions on setting up the proxy on Google Kubernetes Engine is available. Running the proxy on GKE supports IPv4 and IPv6 access, per ICANN's requirements for gTLDs. The proxy can also run as a single jar file, or on other Kubernetes providers, with modifications.

Additional components

Registry operators interested in deploying Nomulus will likely require some additional components that are need to be configured separately.

  • A way to invoice registrars for domain name registrations and accept payments. Nomulus records the information required to generate invoices in billing events.
  • Fully automated reporting to meet ICANN's requirements for gTLDs. Nomulus includes substantial reporting functionality but some additional work will be required by the operator in this area.
  • A secure method for storing cryptographic keys. A keyring interface is provided for plugging in your own implementation (see configuration doc for details).
  • System status and uptime monitoring.

Outside references

  • Donuts Registry has helped review the code and provided valuable feedback
  • CoCCa and FRED are other open-source registry platforms in use by many TLDs
  • We are not aware of any fully open source domain registrar projects, but open source EPP Toolkits (not yet tested with Nomulus; may require integration work) include:
  • Some Open Source DNS Projects that may be useful, but which we have not tested: