Name of project:
CoreDNS is a fast, flexible and modern DNS server. Its performant and
flexible implementation allows CoreDNS to be easily extended to support various data sources and to implement rich DNS service behaviors: for example, response caching, query rewrite, load-balancing, zone transfer and signing. CoreDNS is the successor of SkyDNS
a DNS server that uses etcd as its datastore backend. SkyDNS is widely used in cloud deployments, but lacks the flexibility we envision for CoreDNS.
Sponsor / Advisor from TOC:
Apache License v2.0
Source control repositories:
Miek Gieben github: miekg
Michael Richmond github: mrichmon
Felix Cantournet github: fcantournet
Matt Layher github: mdlayher
Vasily Vailyev github: pixelbender
Infrastructure requirements (CI / CNCF Cluster):
Release methodology and mechanics: As a young project, no method for
official releases has been established, and no official releases have been made; the current rule is that the master branch is production-ready at all times. A more formal release process is on its way, and may introduce semantic versioning, but a final decision
has not yet been made. Precompiled binaries will be distributed by hooking into Caddy’s download website (https://caddyserver.com/download),
where "DNS" will be a Server Type option.
Social media accounts:
Infoblox contributing developer time to implement CoreDNS→Kubernetes integration component.
The community is small, but growing. Current number of Twitter followers is 100+ (after a week of having the Twitter account). By aligning ourselves with the Caddy community, we hope to leverage Caddy’s popularity for CoreDNS. By positioning CoreDNS as a better
SkyDNS, we hope to entice existing users of SkyDNS to migrate to and embrace CoreDNS.
CoreDNS depends on Caddy (https://caddyserver.com/).
Caddy is a framework that CoreDNS uses in two ways:
much of the CoreDNS code plugs into the framework to add DNS behavior.
CoreDNS provides a wrapper around the framework to provide a DNS-tuned command-line interface.
Statement on alignment with CNCF mission:
CoreDNS is a focused, lightweight DNS server. A microservice philosophy
guides the internal design of CoreDNS. Individual DNS functions are provided by discrete, composable plugins that are enabled via runtime configuration. CoreDNS can be thought of as a DNS protocol head that can be configured to front various backend data sources.
A flexible DNS server is a necessary component to provide “Naming and Discovery” services to containers running in the CNCF distributed system services environment.
Comparison with KubeDNS:
The incumbent DNS service for Kubernetes, “kubedns”, consists of four
components: * etcd provides a DNS data cache, * kube2sky provides the mechanism for updating the etcd data cache, * skydns provides the DNS service based on the data cached in etcd, * exechealthz provides health-check status.
Running CoreDNS with Kubernetes requires only the coredns component.
CoreDNS does not require a separate data cache or update service. CoreDNS includes an optional health-check “middleware” component that can be used for service monitoring.
CoreDNS provides a cleaner, more extensible codebase as compared to SkyDNS.
(Both SkyDNS and CoreDNS were authored primarily by Miek Gieben.)
CoreDNS is currently being extended to operate directly with Kubernetes
to access the service data. This “middleware” implementation for CoreDNS provides the same client-facing behavior as KubeDNS. The pipeline-based design of CoreDNS allows easy extension to use any container orchestrator as a DNS data source.
With the Kubernetes middleware, CoreDNS can be considered as an alternative
to SkyDNS with lower runtime complexity. Performance testing to compare against SkyDNS is pending.