This doesn't replace all usage of `-v`, but it's a start. People sometimes troubleshoot by deleting files (especially bridge config files). Restarting Synapse with a missing registration.yaml file for a given bridge, causes the `-v /something/registration.yaml:/something/registration.yaml:ro` option to force-create `/something/registration.yaml` as a directory. When a path that's provided to the `-v` option is missing, Docker auto-creates that path as a directory. This causes more breakage and confusion later on. We'd rather fail, instead of magically creating directories. Using `--mount`, instead of `-v` is the solution to this. From Docker's documentation: > When you use --mount with type=bind, the host-path must refer to an existing path on the host. > The path will not be created for you and the service will fail with an error if the path does not exist.
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Server Delegation
To have a server on a subdomain (e.g. matrix.<your-domain>
) handle Matrix federation traffic for the base domain (<your-domain>
), we need to instruct the Matrix network of such a delegation.
By default, this playbook guides you into setting up Server Delegation via a well-known file. However, that method may have some downsides that are not to your liking. Hence this guide about alternative ways to set up Server Delegation.
It is a complicated matter, so unless you are affected by the Downsides of well-known-based Server Delegation, we suggest you stay on the simple/default path.
Server Delegation via a well-known file
Serving a /.well-known/matrix/server
file from the base domain is the most straightforward way to set up server delegation, but it suffers from some problems that we list in Downsides of well-known-based Server Delegation.
As we already mention in Configuring DNS and Configuring Service Discovery via .well-known,
this playbook already properly guides you into setting up such delegation by means of a /.well-known/matrix/server
file served from the base domain (<your-domain>
).
If this is okay with you, feel free to not read ahead.
Downsides of well-known-based Server Delegation
Server Delegation by means of a /.well-known/matrix/server
file is the most straightforward, but suffers from the following downsides:
-
you need to have a working HTTPS server for the base domain (
<your-domain>
) -
any downtime on the base domain (
<your-domain>
) or network trouble between the matrix subdomain (matrix.<your-domain>
) and the base<domain>
may cause Matrix Federation outages. As the Server-Server spec says:
Errors are recommended to be cached for up to an hour, and servers are encouraged to exponentially back off for repeated failures.
If this is not a concern for you, feel free to not read ahead.
Otherwise, you can decide to go against the default for this playbook, and instead set up Server Delegation via a DNS SRV record (advanced).
Server Delegation via a DNS SRV record (advanced)
NOTE: doing Server Delegation via a DNS SRV record is a more advanced way to do it and is not the default for this playbook.
As per the Server-Server spec, it's possible to do Server Delegation using only a SRV record (without a /.well-known/matrix/server
file).
This prevents you from suffering the Downsides of well-known-based Server Delegation.
To use DNS SRV record validation, you need to:
-
ensure that
/.well-known/matrix/server
is not served from the base domain, as that would interfere with DNS SRV record Server Delegation. To make the playbook not generate and serve the file, use the following configuration:matrix_well_known_matrix_server_enabled: false
. -
ensure that you have a
_matrix._tcp
DNS SRV record for your base domain (<your-domain>
) with a value of10 0 8448 matrix.<your-domain>
-
ensure that you are serving the Matrix Federation API (tcp/8448) with a certificate for
<your-domain>
(notmatrix.<your-domain>
!). See below.
Obtaining certificates
How you can obtain a valid certificate for <your-domain>
on the matrix.<your-domain>
server is up to you.
If <your-domain>
and matrix.<your-domain>
are hosted on the same machine, you can let the playbook obtain the certificate for you, by following our Obtaining SSL certificates for additional domains guide.
If <your-domain>
and matrix.<your-domain>
are not hosted on the same machine, you can copy over the certificate files manually.
Don't forget that they may get renewed once in a while, so you may also have to transfer them periodically. How often you do that is up to you, as long as the certificate files don't expire.
Serving the Federation API with your certificates
Regardless of which method for obtaining certificates you've used, once you've managed to get certificates for your base domain onto the matrix.<your-domain>
machine you can put them to use.
Based on your setup, you have different ways to go about it:
-
Serving the Federation API with your certificates and matrix-nginx-proxy
-
Serving the Federation API with your certificates and another webserver
-
Serving the Federation API with your certificates and Synapse handling Federation
Serving the Federation API with your certificates and matrix-nginx-proxy
If you are using matrix-nginx-proxy, a reverse-proxy webserver used by default in this playbook, you only need to override the certificates used for the Matrix Federation API. You can do that using:
# Adjust paths below to point to your certificate.
#
# NOTE: these are in-container paths. `/matrix/ssl` on the host is mounted into the container
# at the same path (`/matrix/ssl`) by default, so if that's the path you need, it would be seamless.
matrix_nginx_proxy_proxy_matrix_federation_api_ssl_certificate: /matrix/ssl/config/live/<your-domain>/fullchain.pem
matrix_nginx_proxy_proxy_matrix_federation_api_ssl_certificate_key: /matrix/ssl/config/live/<your-domain>/privkey.pem
If your files are not in /matrix/ssl
but in some other location, you would need to mount them into the container:
matrix_synapse_container_extra_arguments:
- "--mount type-bind,src=/some/path/on/the/host,dst=/some/path/inside/the/container,ro"
You then refer to them (for matrix_nginx_proxy_proxy_matrix_federation_api_ssl_certificate
and matrix_nginx_proxy_proxy_matrix_federation_api_ssl_certificate_key
) by using /some/path/inside/the/container
.
Make sure to reload matrix-nginx-proxy once in a while (systemctl reload matrix-nginx-proxy
), so that newer certificates can kick in.
Reloading doesn't cause any downtime.
Serving the Federation API with your certificates and another webserver
If you are NOT using matrix-nginx-proxy, but rather some other webserver, you can set up reverse-proxying for the tcp/8448
port by yourself.
Make sure to use the proper certificates for <your-domain>
(not for matrix.<your-domain>
) when serving the tcp/8448
port.
Proxying needs to happen to 127.0.0.1:8048
(unencrypted Synapse federation listener).
Make sure to reload/restart your webserver once in a while, so that newer certificates can kick in.
Serving the Federation API with your certificates and Synapse handling Federation
Alternatively, if you are NOT using matrix-nginx-proxy and would rather not use your own webserver for Federation traffic, you can let Synapse handle Federation by itself.
To do that, make sure the certificate files are mounted into the Synapse container:
matrix_synapse_container_extra_arguments:
- "--mount type-bind,src=/some/path/on/the/host,dst=/some/path/inside/the/container,ro"
You can then tell Synapse to serve Federation traffic over TLS on tcp/8448
:
matrix_synapse_tls_federation_listener_enabled: true
matrix_synapse_tls_certificate_path: /some/path/inside/the/container/certificate.crt
matrix_synapse_tls_private_key_path: /some/path/inside/the/container/private.key
Make sure to reload Synapse once in a while (systemctl reload matrix-synapse
), so that newer certificates can kick in.
Reloading doesn't cause any downtime.