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204 lines
9.2 KiB
Markdown
# MSC1708: .well-known support for server name resolution
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Currently, mapping from a server name to a hostname for federation is done via
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`SRV` records. However,
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[MSC1711](https://github.com/matrix-org/matrix-doc/pull/1711) proposes
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requiring valid X.509 certificates on the federation endpoint. It will then be
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necessary for the homeserver to present a certificate which is valid for the
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server name. This presents difficulties for hosted server offerings: BigCorp
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may want to delegate responsibility for running its Matrix homeserver to an
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outside supplier, but it may be difficult for that supplier to obtain a TLS
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certificate for `bigcorp.com` (and BigCorp may be reluctant to let them have
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one).
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This MSC proposes to solve this problem by augmenting the current `SRV` record
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with a `.well-known` lookup.
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## Proposal
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For reference, the current [specification for resolving server
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names](https://github.com/matrix-org/matrix-doc/blob/6dab4b28f80f5beeb1d4f475ddc624cf9e7ad085/specification/server_server_api.rst#21resolving-server-names)
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is as follows:
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1. If the hostname is an IP literal, then that IP address should be used,
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together with the given port number, or 8448 if no port is given.
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2. Otherwise, if the port is present, then an IP address is discovered by
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looking up an AAAA or A record for the hostname, and the specified port is
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used.
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3. If the hostname is not an IP literal and no port is given, the server is
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discovered by first looking up a `_matrix._tcp` SRV record for the
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hostname, which may give a hostname (to be looked up using AAAA or A queries)
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and port.
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4. Finally, the server is discovered by looking up an AAAA or A record on the
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hostname, and taking the default fallback port number of 8448.
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We insert the following between Steps 3 and 4.
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If the SRV record does not exist, the requesting server should make a `GET`
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request to `https://<server_name>/.well-known/matrix/server`, with normal X.509
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certificate validation, and following 30x redirects (being careful to avoid
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redirect loops). If the request does not return a 200, continue to step 4,
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otherwise:
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The response must be valid JSON which follows the structure documented
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below. Otherwise, continue to the next step in the discovery process. It is
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NOT necessary for the response to have a `Content-Type` of `application/json`.
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If the response is valid, the `m.server` property is parsed as
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`<delegated_server_name>[:<delegated_port>]`, and processed as follows:
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* If `<delegated_server_name>` is an IP literal, then that IP address should be
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used, together with `<delegated_port>`, or 8448 if no port is given. The
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server should present a valid TLS certificate for `<delegated_server_name>`.
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* If `<delegated_server_name>` is not an IP literal, and `<delegated_port>` is
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present, then an IP address is discovered by looking up an AAAA or A record
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for `<delegated_server_name>`, and the specified port is used. The server
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should present a valid TLS certificate for `<delegated_server_name>`.
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(In other words, the federation connection is made to
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`https://<delegated_server_name>:<delegated_port>`).
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* If the hostname is not an IP literal and no port is given, a second SRV
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record is looked up; this time for `_matrix._tcp.<delegated_server_name>`,
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which may give yet another hostname (to be looked up using A/AAAA queries)
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and port. The server must present a TLS cert for the
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`<delegated_server_name>` from the .well-known.
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* If no SRV record is found, the server is discovered by looking up an AAAA
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or A record on `<delegated_server_name>`, and taking the default fallback
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port number of 8448.
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(In other words, the federation connection is made to
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`https://<delegated_server_name>:8448`).
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### Structure of the `.well-known` response
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The contents of the `.well-known` response should be structured as shown:
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```json
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{
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"m.server": "<server>[:<port>]"
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}
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```
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If the response cannot be parsed as JSON, or lacks a valid `m.server` property,
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the request is considered to have failed, and no fallback to port 8448 takes
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place.
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The formal grammar for the `m.server` property is the same as that of a [server
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name](https://matrix.org/docs/spec/appendices.html#server-name): it is a
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hostname or IP address, followed by an optional port.
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### Caching
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Servers should not look up the `.well-known` file for every request, as this
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would impose an unacceptable overhead on both sides. Instead, the results of
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the `.well-known` request should be cached according to the HTTP response
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headers, as per [RFC7234](https://tools.ietf.org/html/rfc7234). If the response
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does not include an explicit expiry time, the requesting server should use a
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sensible default: 24 hours is suggested.
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Because there is no way to request a revalidation, it is also recommended that
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requesting servers cap the expiry time. 48 hours is suggested.
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A failure to retrieve the `.well-known` file should also be cached, though care
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must be taken that a single 500 error or connection failure should not break
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federation for an extended period. A short cache time of about an hour might be
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appropriate; alternatively, servers might use an exponential backoff.
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## Problems
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It will take a while for `.well-known` to be supported across the ecosystem;
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until it is, it will be difficult to deploy homeservers which rely on it for
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their routing: if Alice is using a current homeserver implementation, and Bob
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deploys a new implementation which relies on `.well-known` for routing, then
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Alice will be unable to send messages to Bob. (This is the same problem we have with
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[SNI](https://github.com/matrix-org/synapse/issues/1491#issuecomment-415153428).)
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The main defence against this seems to be to release support for `.well-known`
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as soon as possible, to maximise uptake in the ecosystem. It is likely that, as
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we approach Matrix 1.0, there will be sufficient other new features (such as
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new Room versions) that upgrading will be necessary anyway.
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## Security considerations
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The `.well-known` file potentially broadens the attack surface for an attacker
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wishing to intercept federation traffic to a particular server.
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## Dismissed alternatives
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For future reference, here are the alternative solutions which have been
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considered and dismissed.
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### Look up the `.well-known` file before the SRV record
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We could make the request for `.well-known` before looking up the `SRV`
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record. On the one hand this is maybe marginally simpler (and avoids the
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overhead of having to make *two* `SRV` lookups in the case that a `.well-known`
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is found. It might also open a future path for using `.well-known` for
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information other than delegation.
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Ultimately we decided to include the initial `SRV` lookup so that deployments
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have a mechanism to avoid the `.well-known` overhead in the common case that it
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is not required.
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### Subdomain hack
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As well as accepting TLS certs for `example.com`, we could also accept them for
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`delegated--matrix.example.com`. This would allow `example.com` to delegate its
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matrix hosting by (a) setting up the SRV record at `_matrix._tcp.example.com`
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and (b) setting up a CNAME at `delegated--matrix.example.com`. The latter would
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enable the delegatee to obtain an acceptable TLS certificate.
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This was certainly an interesting idea, but we dismissed it for the following
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reasons:
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* There's a security trap for anybody who lets people sign up for subdomains
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(which is certainly not an uncommon business model): if you can register for
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delegated--matrix.example.com, you get to intercept all the matrix traffic
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for example.com.
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* Generally it feels quite unintuitive and violates the principle of least
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surprise.
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* The fact that we can't find any prior art for this sets off alarm bells too.
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### Rely on DNS/DNSSEC
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If we could trust SRV records, we would be able to accept TLS certs for the
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*target* of the SRV record, which avoids this whole problem.
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Such trust could come from assuming that plain DNS is "good enough". However,
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DNS cache poisoning attacks are a real thing, and the fact that the designers
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of TLS chose to implement a server-name check specifically to deal with this
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case suggests we would be foolish to make this assumption.
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The alternative is to rely on DNSSEC to provide security for SRV records. The
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problem here is simply that DNSSEC is not that widely deployed currently. A
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number of large organisations are actively avoiding enabling it on their
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domains, so requiring DNSSEC would be a direct impediment to the uptake of
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Matrix. Furthermore, if we required DNSSEC-authenticated SRV records for
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domains doing delegation, we would end up with a significant number of
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homeservers unable to talk to such domains, because their local DNS
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infrastructure may not implement DNSSEC.
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Finally, if we're expecting servers to present the cert for the *target* of the
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SRV record, then we'll have to change the Host and SNI fields, and that will
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break backwards compat everywhere (and it's hard to see how to mitigate that).
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### Stick with perspectives
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The final option is to double-down on the Perspectives approach, ie to skip
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[MSC1711](https://github.com/matrix-org/matrix-doc/pull/1711). MSC1711
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discusses the reasons we do not believe this to be a viable option.
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## Conclusion
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This proposal adds a new mechanism, alongside the existing `SRV` record lookup
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for finding the server responsible for a particular matrix server_name, which
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will allow greater flexibility in deploying homeservers.
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