Reverse Proxy
You don't need to change the Nginx site that comes with mailcow: dockerized. mailcow: dockerized trusts the default gateway IP 172.22.1.1 as proxy.
1. Make sure you change HTTP_BIND and HTTPS_BIND in mailcow.conf
to a local address and set the ports accordingly, for example:
HTTP_BIND=127.0.0.1
HTTP_PORT=8080
HTTPS_BIND=127.0.0.1
HTTPS_PORT=8443
This will also change the bindings inside the Nginx container! This is important, if you decide to use a proxy within Docker.
IMPORTANT: Do not use port 8081, 9081 or 65510!
Recreate affected containers by running docker compose up -d
.
Important information, please read them carefully!
Info
If you plan to use a reverse proxy and want to use another server name that is not MAILCOW_HOSTNAME, you need to read Adding additional server names for mailcow UI at the bottom of this page.
Warning
Make sure you run generate_config.sh
before you enable any site configuration examples below.
The script generate_config.sh
copies snake-oil certificates to the correct location, so the services will not fail to start due to missing files.
Warning
If you enable TLS SNI (ENABLE_TLS_SNI
in mailcow.conf), the certificate paths in your reverse proxy must match the correct paths in data/assets/ssl/{hostname}. The certificates will be split into data/assets/ssl/{hostname1,hostname2,etc}
and therefore will not work when you copy the examples from below pointing to data/assets/ssl/cert.pem
etc.
Info
Using the site configs below will forward ACME requests to mailcow and let it handle certificates itself. The downside of using mailcow as ACME client behind a reverse proxy is, that you will need to reload your webserver after acme-mailcow changed/renewed/created the certificate. You can either reload your webserver daily or write a script to watch the file for changes. On many servers logrotate will reload the webserver daily anyway.
If you want to use a local certbot installation, you will need to change the SSL certificate parameters accordingly. Make sure you run a post-hook script when you decide to use external ACME clients. You will find an example at the bottom of this page.
2. Configure your local webserver as reverse proxy:
Apache 2.4¶
Required modules:
a2enmod rewrite proxy proxy_http headers ssl
Let's Encrypt will follow our rewrite, certificate requests in mailcow will work fine.
Take care of highlighted lines.
<VirtualHost *:80>
ServerName CHANGE_TO_MAILCOW_HOSTNAME
ServerAlias autodiscover.*
ServerAlias autoconfig.*
RewriteEngine on
RewriteCond %{HTTPS} off
RewriteRule ^/?(.*) https://%{HTTP_HOST}/$1 [R=301,L]
ProxyPass / http://127.0.0.1:8080/
ProxyPassReverse / http://127.0.0.1:8080/
ProxyPreserveHost On
ProxyAddHeaders On
RequestHeader set X-Forwarded-Proto "http"
</VirtualHost>
<VirtualHost *:443>
ServerName CHANGE_TO_MAILCOW_HOSTNAME
ServerAlias autodiscover.*
ServerAlias autoconfig.*
# You should proxy to a plain HTTP session to offload SSL processing
ProxyPass /Microsoft-Server-ActiveSync http://127.0.0.1:8080/Microsoft-Server-ActiveSync connectiontimeout=4000
ProxyPassReverse /Microsoft-Server-ActiveSync http://127.0.0.1:8080/Microsoft-Server-ActiveSync
ProxyPass / http://127.0.0.1:8080/
ProxyPassReverse / http://127.0.0.1:8080/
ProxyPreserveHost On
ProxyAddHeaders On
RequestHeader set X-Forwarded-Proto "https"
SSLCertificateFile MAILCOW_PATH/data/assets/ssl/cert.pem
SSLCertificateKeyFile MAILCOW_PATH/data/assets/ssl/key.pem
# If you plan to proxy to a HTTPS host:
#SSLProxyEngine On
# If you plan to proxy to an untrusted HTTPS host:
#SSLProxyVerify none
#SSLProxyCheckPeerCN off
#SSLProxyCheckPeerName off
#SSLProxyCheckPeerExpire off
</VirtualHost>
Nginx¶
Let's Encrypt will follow our rewrite, certificate requests will work fine.
Take care of highlighted lines.
server {
listen 80 default_server;
listen [::]:80 default_server;
server_name CHANGE_TO_MAILCOW_HOSTNAME autodiscover.* autoconfig.*;
return 301 https://$host$request_uri;
}
server {
listen 443 ssl http2;
listen [::]:443 ssl http2;
server_name CHANGE_TO_MAILCOW_HOSTNAME autodiscover.* autoconfig.*;
ssl_certificate MAILCOW_PATH/data/assets/ssl/cert.pem;
ssl_certificate_key MAILCOW_PATH/data/assets/ssl/key.pem;
ssl_session_timeout 1d;
ssl_session_cache shared:SSL:50m;
ssl_session_tickets off;
# See https://ssl-config.mozilla.org/#server=nginx for the latest ssl settings recommendations
# An example config is given below
ssl_protocols TLSv1.2;
ssl_ciphers HIGH:!aNULL:!MD5:!SHA1:!kRSA;
ssl_prefer_server_ciphers off;
location /Microsoft-Server-ActiveSync {
proxy_pass http://127.0.0.1:8080/Microsoft-Server-ActiveSync;
proxy_set_header Host $http_host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Proto $scheme;
proxy_connect_timeout 75;
proxy_send_timeout 3650;
proxy_read_timeout 3650;
proxy_buffers 64 512k; # Needed since the 2022-04 Update for SOGo
client_body_buffer_size 512k;
client_max_body_size 0;
}
location / {
proxy_pass http://127.0.0.1:8080/;
proxy_set_header Host $http_host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Proto $scheme;
client_max_body_size 0;
# The following Proxy Buffers has to be set if you want to use SOGo after the 2022-04 (April 2022) Update
# Otherwise a Login will fail like this: https://github.com/mailcow/mailcow-dockerized/issues/4537
proxy_buffer_size 128k;
proxy_buffers 64 512k;
proxy_busy_buffers_size 512k;
}
}
HAProxy (community supported)¶
Warning
This is an unsupported community contribution. Feel free to provide fixes.
Important/Fixme: This example only forwards HTTPS traffic and does not use mailcows built-in ACME client.
frontend https-in
bind :::443 v4v6 ssl crt mailcow.pem
default_backend mailcow
backend mailcow
option forwardfor
http-request set-header X-Forwarded-Proto https if { ssl_fc }
http-request set-header X-Forwarded-Proto http if !{ ssl_fc }
server mailcow 127.0.0.1:8080 check
Traefik v2 (community supported)¶
Warning
This is an unsupported community contribution. Feel free to provide fixes.
Important: This config only covers the "reverseproxing" of the webpannel (nginx-mailcow) using Traefik v2, if you also want to reverseproxy the mail services such as dovecot, postfix... you'll just need to adapt the following config to each container and create an EntryPoint on your traefik.toml
or traefik.yml
(depending which config you use) for each port.
For this section we'll assume you have your Traefik 2 [certificatesresolvers]
properly configured on your traefik configuration file, and also using acme, also, the following example uses Lets Encrypt, but feel free to change it to your own cert resolver. You can find a basic Traefik 2 toml config file with all the above implemented which can be used for this example here traefik.toml if you need one, or a hint on how to adapt your config.
So, first of all, we are going to disable the acme-mailcow container since we'll use the certs that traefik will provide us.
For this we'll have to set SKIP_LETS_ENCRYPT=y
on our mailcow.conf
, and run docker compose up -d
to apply the changes.
Then we'll create a docker-compose.override.yml
file in order to override the main docker-compose.yml
found in your mailcow root folder.
version: '2.1'
services:
nginx-mailcow:
networks:
# Add Traefik's network
web:
labels:
- traefik.enable=true
# Creates a router called "moo" for the container, and sets up a rule to link the container to certain rule,
# in this case, a Host rule with our MAILCOW_HOSTNAME var.
- traefik.http.routers.moo.rule=Host(`${MAILCOW_HOSTNAME}`)
# Enables tls over the router we created before.
- traefik.http.routers.moo.tls=true
# Specifies which kind of cert resolver we'll use, in this case le (Lets Encrypt).
- traefik.http.routers.moo.tls.certresolver=le
# Creates a service called "moo" for the container, and specifies which internal port of the container
# should traefik route the incoming data to.
- traefik.http.services.moo.loadbalancer.server.port=${HTTP_PORT}
# Specifies which entrypoint (external port) should traefik listen to, for this container.
# websecure being port 443, check the traefik.toml file liked above.
- traefik.http.routers.moo.entrypoints=websecure
# Make sure traefik uses the web network, not the mailcowdockerized_mailcow-network
- traefik.docker.network=web
certdumper:
image: humenius/traefik-certs-dumper
command: --restart-containers ${COMPOSE_PROJECT_NAME}-postfix-mailcow-1,${COMPOSE_PROJECT_NAME}-nginx-mailcow-1,${COMPOSE_PROJECT_NAME}-dovecot-mailcow-1
network_mode: none
volumes:
# Mount the volume which contains Traefik's `acme.json' file
# Configure the external name in the volume definition
- acme:/traefik:ro
# Mount mailcow's SSL folder
- ./data/assets/ssl/:/output:rw
# Mount docker socket to restart containers
- /var/run/docker.sock:/var/run/docker.sock:ro
restart: always
environment:
# only change this, if you're using another domain for mailcow's web frontend compared to the standard config
- DOMAIN=${MAILCOW_HOSTNAME}
networks:
web:
external: true
# Name of the external network
name: traefik_web
volumes:
acme:
external: true
# Name of the external docker volume which contains Traefik's `acme.json' file
name: traefik_acme
Start the new containers with docker compose up -d
.
Now, there's only one thing left to do, which is setup the certs so that the mail services can use them as well, since Traefik 2 uses an acme v2 format to save ALL the license from all the domains we have, we'll need to find a way to dump the certs, lucky we have this tiny container which grabs the acme.json
file trough a volume, and a variable DOMAIN=example.org
, and with these, the container will output the cert.pem
and key.pem
files, for this we'll simply run the traefik-certs-dumper
container binding the /traefik
volume to the folder where our acme.json
is saved, bind the /output
volume to our mailcow data/assets/ssl/
folder, and set up the DOMAIN=example.org
variable to the domain we want the certs dumped from.
This container will watch over the acme.json
file for any changes, and regenerate the cert.pem
and key.pem
files directly into data/assets/ssl/
being the path binded to the container's /output
path.
You can use the command line to run it, or use the docker compose shown here.
After we have the certs dumped, we'll have to reload the configs from our postfix and dovecot containers, and check the certs, you can see how here.
Aaand that should be it 😊, you can check if the Traefik router works fine trough Traefik's dashboard / traefik logs / accessing the setted domain trough https, or / and check HTTPS, SMTP and IMAP trough the commands shown on the page linked before.
Caddy v2 (supported by the community)¶
Warning
This is an unsupported community contribution. Feel free to provide fixes.
The configuration of Caddy with mailcow is very simple.
In the caddyfile you just have to create a section for the mailserver.
For example
MAILCOW_HOSTNAME autodiscover.MAILCOW_HOSTNAME autoconfig.MAILCOW_HOSTNAME {
log {
output file /var/log/caddy/MAILCOW_HOSTNAME.log {
roll_disabled
roll_size 512M
roll_uncompressed
roll_local_time
roll_keep 3
roll_keep_for 48h
}
}
reverse_proxy 127.0.0.1:HTTP_BIND
}
This allows Caddy to automatically create the certificates and accept traffic for these mentioned domains and forward them to mailcow.
Important: The ACME client of mailcow must be disabled, otherwise mailcow will fail.
Since Caddy takes care of the certificates itself, we can use the following script to include the Caddy generated certificates into mailcow:
#!/bin/bash
MD5SUM_CURRENT_CERT=($(md5sum /opt/mailcow-dockerized/data/assets/ssl/cert.pem))
MD5SUM_NEW_CERT=($(md5sum /var/lib/caddy/.local/share/caddy/certificates/acme-v02.api.letsencrypt.org-directory/develcow.derlinkman.de/develcow.derlinkman.de.crt))
if [ $MD5SUM_CURRENT_CERT != $MD5SUM_NEW_CERT ]; then
cp /var/lib/caddy/.local/share/caddy/certificates/acme-v02.api.letsencrypt.org-directory/develcow.derlinkman.de/develcow.derlinkman.de.crt /opt/mailcow-dockerized/data/assets/ssl/cert.pem
cp /var/lib/caddy/.local/share/caddy/certificates/acme-v02.api.letsencrypt.org-directory/develcow.derlinkman.de/develcow.derlinkman.de.key /opt/mailcow-dockerized/data/assets/ssl/key.pem
postfix_c=$(docker ps -qaf name=postfix-mailcow)
dovecot_c=$(docker ps -qaf name=dovecot-mailcow)
nginx_c=$(docker ps -qaf name=nginx-mailcow)
docker restart ${postfix_c} ${dovecot_c} ${nginx_c}
else
echo "Certs not copied from Caddy (Not needed)"
fi
Attention
Caddy's certificate path varies depending on the installation type.
In this installation example, Caddy was installed using the Caddy repo (more informations here).
To find out the Caddy certificate path on your system, just run a find / -name "certificates"
.
This script could be called as a cronjob every hour:
0 * * * * /bin/bash /path/to/script/deploy-certs.sh >/dev/null 2>&1
Optional: Post-hook script for non-mailcow ACME clients¶
Using a local certbot (or any other ACME client) requires to restart some containers, you can do this with a post-hook script. Make sure you change the paths accordingly:
#!/bin/bash
cp /etc/letsencrypt/live/my.domain.tld/fullchain.pem /opt/mailcow-dockerized/data/assets/ssl/cert.pem
cp /etc/letsencrypt/live/my.domain.tld/privkey.pem /opt/mailcow-dockerized/data/assets/ssl/key.pem
postfix_c=$(docker ps -qaf name=postfix-mailcow)
dovecot_c=$(docker ps -qaf name=dovecot-mailcow)
nginx_c=$(docker ps -qaf name=nginx-mailcow)
docker restart ${postfix_c} ${dovecot_c} ${nginx_c}
Adding additional server names for mailcow UI¶
If you plan to use a server name that is not MAILCOW_HOSTNAME
in your reverse proxy, make sure to populate that name in mailcow.conf via ADDITIONAL_SERVER_NAMES
first. Names must be separated by commas and must not contain spaces. If you skip this step, mailcow may respond to your reverse proxy with an incorrect site.
ADDITIONAL_SERVER_NAMES=webmail.domain.tld,other.example.tld
Run docker compose up -d
to apply.