2016-10-17 07:51:44 +01:00
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# Middleware
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## Writing Middleware
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2016-03-19 19:56:58 +00:00
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From the Caddy docs:
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> Oh yes, those pesky return values on ServeHTTP(). You read the documentation so you already know
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> what they mean. But what does that imply for the behavior of your middleware?
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>
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> Basically, return a status code only if you did NOT write to the response body. If you DO write to
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> the response body, return a status code of 0. Return an error value if your middleware encountered
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> an error that you want logged. It is common to return an error status and an error value together,
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> so that the error handler up the chain can write the correct error page.
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>
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> The returned status code is not logged directly; rather, it tells middleware higher up the chain
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> what status code to use if/when the response body is written. Again, return a 0 status if you've
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> already written a body!
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In the DNS status codes are called rcodes and it's slightly harder to return the correct
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answer in case of failure.
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2016-04-11 07:59:30 +01:00
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So CoreDNS treats:
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2016-03-19 20:53:37 +00:00
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* SERVFAIL (dns.RcodeServerFailure)
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2017-06-05 07:28:26 +01:00
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* REFUSED (dns.RcodeRefused)
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2016-03-19 20:53:37 +00:00
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* FORMERR (dns.RcodeFormatError)
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* NOTIMP (dns.RcodeNotImplemented)
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2016-08-28 09:34:29 +01:00
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as special and will then assume nothing has written to the client. In all other cases it is assumes
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something has been written to the client (by the middleware).
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2016-10-17 07:51:44 +01:00
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2017-02-20 21:00:00 +00:00
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## Hooking It Up
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2016-10-17 07:51:44 +01:00
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2017-02-20 21:00:00 +00:00
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See a couple of blog posts on how to write and add middleware to CoreDNS:
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2017-06-03 08:26:51 +01:00
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* <https://blog.coredns.io/2017/03/01/how-to-add-middleware-to-coredns/>
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2017-02-20 21:00:00 +00:00
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* <https://blog.coredns.io/2016/12/19/writing-middleware-for-coredns/>, slightly older, but useful.
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2016-10-17 07:51:44 +01:00
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2016-10-18 07:47:18 +01:00
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## Metrics
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When exporting metrics the *Namespace* should be `middleware.Namespace` (="coredns"), and the
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2016-10-26 10:01:52 +01:00
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*Subsystem* should be the name of the middleware. The README.md for the middleware should then
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also contain a *Metrics* section detailing the metrics.
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2016-10-18 07:47:18 +01:00
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## Documentation
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2016-10-17 07:51:44 +01:00
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Each middleware should have a README.md explaining what the middleware does and how it is
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configured. The file should have the following layout:
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* Title: use the middleware's name
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* Subsection titled: "Syntax"
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* Subsection titled: "Examples"
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More sections are of course possible.
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2016-10-18 07:47:18 +01:00
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### Style
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2016-10-17 07:51:44 +01:00
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We use the Unix manual page style:
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* The name of middleware in the running text should be italic: *middleware*.
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* all CAPITAL: user supplied argument, in the running text references this use strong text: `**`:
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**EXAMPLE**.
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* Optional text: in block quotes: `[optional]`.
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* Use three dots to indicate multiple options are allowed: `arg...`.
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* Item used literal: `literal`.
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2017-02-20 21:00:00 +00:00
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### Example Domain Names
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Please be sure to use `example.org` or `example.net` in any examples you provide. These are the
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standard domain names created for this purpose.
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## Fallthrough
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In a perfect world the following would be true for middleware: "Either you are responsible for
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a zone or not". If the answer is "not", the middleware should call the next middleware in the chain.
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If "yes" it should handle *all* names that fall in this zone and the names below - i.e. it should
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handle the entire domain.
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~~~ txt
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. {
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file example.org db.example
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}
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~~~
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In this example the *file* middleware is handling all names below (and including) `example.org`. If
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a query comes in that is not a subdomain (or equal to) `example.org` the next middleware is called.
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Now, the world isn't perfect, and there are good reasons to "fallthrough" to the next middlware,
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meaning a middleware is only responsible for a subset of names within the zone. The first of these
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to appear was the *reverse* middleware that synthesis PTR and A/AAAA responses (useful with IPv6).
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The nature of the *reverse* middleware is such that it only deals with A,AAAA and PTR and then only
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for a subset of the names. Ideally you would want to layer *reverse* **in front off** another
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middleware such as *file* or *auto* (or even *proxy*). This means *reverse* handles some special
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reverse cases and **all other** request are handled by the backing middleware. This is exactly what
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"fallthrough" does. To keep things explicit we've opted that middlewares implement such behavior
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should implement a `fallthrough` keyword.
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### Example Fallthrough Usage
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The following Corefile example, sets up the *reverse* middleware, but disables fallthrough. It
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also defines a zonefile for use with the *file* middleware for other names in the `compute.internal`.
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~~~ txt
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arpa compute.internal {
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reverse 10.32.0.0/16 {
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hostname ip-{ip}.{zone[2]}
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#fallthrough
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}
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file db.compute.internal compute.internal
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}
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~~~
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This works for returning a response to a PTR request:
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~~~ sh
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% dig +nocmd @localhost +noall +ans -x 10.32.0.1
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1.0.32.10.in-addr.arpa. 3600 IN PTR ip-10-32-0-1.compute.internal.
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~~~
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And for the forward:
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~~~ sh
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% dig +nocmd @localhost +noall +ans A ip-10-32-0-1.compute.internal
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ip-10-32-0-1.compute.internal. 3600 IN A 10.32.0.1
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~~~
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But a query for `mx compute.internal` will return SERVFAIL. Now when we remove the '#' from
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fallthrough and reload (on Unix: `kill -SIGUSR1 $(pidof coredns)`) CoreDNS, we *should* get an
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answer for the MX query:
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~~~ sh
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% dig +nocmd @localhost +noall +ans MX compute.internal
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compute.internal. 3600 IN MX 10 mx.compute.internal.
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~~~
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2017-06-03 08:26:51 +01:00
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## Qualifying for main repo
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Middleware for CoreDNS can live out-of-tree, `middleware.cfg` defaults to CoreDNS' repo but other
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repos work just as well. So when do we consider the inclusion of a new middleware in the main repo?
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* First, the middleware should be useful for other people. "Useful" is a subjective term. We will
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probably need to further refine this.
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2017-06-13 00:58:13 +01:00
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* It should be sufficiently different from other middleware to warrant inclusion.
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2017-06-03 08:26:51 +01:00
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* Current internet standards need be supported: IPv4 and IPv6, so A and AAAA records should be
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handled (if your middleware is in the business of dealing with address records that is).
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* It must have tests.
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* It must have a README.md for documentation.
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