## mailcow UI configuration Several configuration parameters of the mailcow UI can be changed by creating a file `data/web/inc/vars.local.inc.php` which overrides defaults settings found in `data/web/inc/vars.inc.php`. The local configuration file is persistent over updates of mailcow. Try not to change values inside `data/web/inc/vars.inc.php`, but use them as template for the local override. mailcow UI configuration parameters can be to... - ...change the default language* - ...change the default bootstrap theme - ...set a password complexity regex - ...add mailcow app buttons to the login screen - ...set a pagination trigger - ...set action after submitting forms (stay in form, return to previous page) \* To change SOGos default language, you will need to edit `data/conf/sogo/sogo.conf` and replace "English" by your preferred language. ## Backup and restore maildir (simple tar file) ### Backup This line backups the vmail directory to a file backup_vmail.tar.gz in the mailcow root directory: ``` cd /path/to/mailcow-dockerized source mailcow.conf DATE=$(date +"%Y%m%d_%H%M%S") docker run --rm -it -v $(docker inspect --format '{{ range .Mounts }}{{ if eq .Destination "/var/vmail" }}{{ .Name }}{{ end }}{{ end }}' $(docker-compose ps -q dovecot-mailcow)):/vmail -v ${PWD}:/backup debian:jessie tar cvfz /backup/backup_vmail.tar.gz /vmail ``` You can change the path by adjusting ${PWD} (which equals to the current directory) to any path you have write-access to. Set the filename `backup_vmail.tar.gz` to any custom name, but leave the path as it is. Example: `[...] tar cvfz /backup/my_own_filename_.tar.gz` ### Restore ``` cd /path/to/mailcow-dockerized source mailcow.conf DATE=$(date +"%Y%m%d_%H%M%S") docker run --rm -it -v $(docker inspect --format '{{ range .Mounts }}{{ if eq .Destination "/var/vmail" }}{{ .Name }}{{ end }}{{ end }}' $(docker-compose ps -q dovecot-mailcow)):/vmail -v ${PWD}:/backup debian:jessie tar xvfz /backup/backup_vmail.tar.gz ``` ## Docker Compose Bash completion For the tab-tab... :-) ``` curl -L https://raw.githubusercontent.com/docker/compose/$(docker-compose version --short)/contrib/completion/bash/docker-compose -o /etc/bash_completion.d/docker-compose ``` ## Black and Whitelist Edit a domain as (domain) administrator to add an item to the filter table. Beware that a mailbox user can login to mailcow and override a domain policy filter item. ## Customize Dockerfiles Make your changes in `data/Dockerfiles/$service` and build the image locally: ``` docker build data/Dockerfiles/service -t andryyy/mailcow-dockerized:$service ``` Now auto-recreate modified containers: ``` docker-compose up -d ``` ## Disable sender addresses verification This option is not best-practice and should only be implemented when there is no other option available to archive whatever you are trying to do. Simply create a file `data/conf/postfix/check_sasl_access` and enter the following content. This user must exist in your installation and needs to authenticate before sending mail. ``` user-to-allow-everything@example.com OK ``` Open `data/conf/postfix/main.cf` and find `smtpd_sender_restrictions`. Prepend `check_sasl_access hash:/opt/postfix/conf/check_sasl_access` like this: ``` smtpd_sender_restrictions = check_sasl_access hash:/opt/postfix/conf/check_sasl_access reject_authenticated_sender_login_mismatch [...] ``` Run postmap on check_sasl_access: ``` docker-compose exec postfix-mailcow postmap /opt/postfix/conf/check_sasl_access ``` Restart the Postfix container. ## Install Roundcube Download Roundcube 1.3.x (beta at the time of Feb 2017) to the web htdocs directory and extract it (here `rc/`): ``` cd data/web/rc wget -O - https://github.com/roundcube/roundcubemail/releases/download/1.3-beta/roundcubemail-1.3-beta-complete.tar.gz | tar xfvz - # Change folder name mv roundcubemail-1.3* rc # Change permissions chown -R root: rc/ ``` Create a file `data/web/rc/config/config.inc.php` with the following content. **Change the `des_key` parameter to a random value.** It is used to temporarily store your IMAP password. ``` array('verify_peer' => false, 'verify_peer_name' => false, 'allow_self_signed' => true) ); $config['enable_installer'] = false; $config['smtp_conn_options'] = array( 'ssl' => array('verify_peer' => false, 'verify_peer_name' => false, 'allow_self_signed' => true) ); ``` Point your browser to `https://myserver/rc/installer` and follow the instructions. Initialize the database and leave the installer. **Delete the directory `data/web/rc/installer` after a successful installation!** ### Enable change password function in Roundcube Open `data/web/rc/config/config.inc.php` and enable the password plugin: ``` ... $config['plugins'] = array( 'archive', 'password', ); ... ``` Open `data/web/rc/plugins/password/password.php`, search for `case 'ssha':` and add above: ``` case 'ssha256': $salt = rcube_utils::random_bytes(8); $crypted = base64_encode( hash('sha256', $password . $salt, TRUE ) . $salt ); $prefix = '{SSHA256}'; break; ``` Open `data/web/rc/plugins/password/config.inc.php` and change the following parameters (or add them at the bottom of that file): ``` $config['password_driver'] = 'sql'; $config['password_algorithm'] = 'ssha256'; $config['password_algorithm_prefix'] = '{SSHA256}'; $config['password_query'] = "UPDATE mailbox SET password = %P WHERE username = %u"; ``` ## MySQL ### Connect ``` source mailcow.conf docker-compose exec mysql-mailcow mysql -u${DBUSER} -p${DBPASS} ${DBNAME} ``` ### Backup ``` cd /path/to/mailcow-dockerized source mailcow.conf DATE=$(date +"%Y%m%d_%H%M%S") docker-compose exec mysql-mailcow mysqldump --default-character-set=utf8mb4 -u${DBUSER} -p${DBPASS} ${DBNAME} > backup_${DBNAME}_${DATE}.sql ``` ### Restore ``` cd /path/to/mailcow-dockerized source mailcow.conf docker-compose exec mysql-mailcow mysql -u${DBUSER} -p${DBPASS} ${DBNAME} < backup_file.sql ``` ## Debugging You can use `docker-compose logs $service-name` for all containers. Run `docker-compose logs` for all logs at once. Follow the log output by running docker-compose with `logs -f`. ## Redirect port 80 to 443 Since February the 28th 2017 mailcow does come with port 80 and 443 enabled. Open `mailcow.conf` and set `HTTP_BIND=0.0.0.0`. Open `data/conf/nginx/site.conf` and add a new "catch-all" site at the top of that file: ``` server { listen 80 default_server; include /etc/nginx/conf.d/server_name.active; return 301 https://$host$request_uri; } ``` Restart the stack, changed containers will be updated: `docker-compose up -d` ## Redis ### Client ``` docker-compose exec redis-mailcow redis-cli ``` ## Remove persistent data - Remove volume `mysql-vol-1` to remove all MySQL data. - Remove volume `redis-vol-1` to remove all Redis data. - Remove volume `vmail-vol-1` to remove all contents of `/var/vmail` mounted to `dovecot-mailcow`. - Remove volume `dkim-vol-1` to remove all DKIM keys. - Remove volume `rspamd-vol-1` to remove all Rspamd data. Running `docker-compose down -v` will **destroy all mailcow: dockerized volumes** and delete any related containers. ## Reset admin password Reset mailcow admin to `admin:moohoo`: 1\. Drop admin table ``` source mailcow.conf docker-compose exec mysql-mailcow mysql -u${DBUSER} -p${DBPASS} ${DBNAME} -e "DROP TABLE admin;" ``` 2\. Open mailcow UI to auto-init the db ## Rspamd ### Learn spam and ham Rspamd learns mail as spam or ham when you move a message in or out of the junk folder to any mailbox besides trash. This is archived by using the Dovecot plugin "antispam" and a simple parser script. Rspamd also auto-learns mail when a high or low score is detected (see https://rspamd.com/doc/configuration/statistic.html#autolearning) The bayes statistics are written to Redis as keys `BAYES_HAM` and `BAYES_SPAM`. You can also use Rspamd's web ui to learn ham and/or spam. ### Learn ham or spam from existing directory You can use a one-liner to learn mail in plain-text (uncompressed) format: ``` # Ham for file in /my/folder/cur/*; do docker exec -i $(docker-compose ps -q rspamd-mailcow) rspamc learn_ham < $file; done # Spam for file in /my/folder/.Junk/cur/*; do docker exec -i $(docker-compose ps -q rspamd-mailcow) rspamc learn_spam < $file; done ``` Consider attaching a local folder as new volume to `rspamd-mailcow` in `docker-compose.yml` and learn given files inside the container. This can be used as workaround to parse compressed data with zcat. Example: ``` for file in /data/old_mail/.Junk/cur/*; do rspamc learn_spam < zcat $file; done ``` ### CLI tools ``` docker-compose exec rspamd-mailcow rspamc --help docker-compose exec rspamd-mailcow rspamadm --help ``` See [Rspamd documentation](https://rspamd.com/doc/index.html) ## Adjust service configurations The most important configuration files are mounted from the host into the related containers: ``` data/conf ├── bind9 │   └── named.conf ├── dovecot │   ├── dovecot.conf │   ├── dovecot-master.passwd │   ├── sieve_after │   └── sql │   ├── dovecot-dict-sql.conf │   └── dovecot-mysql.conf ├── mysql │   └── my.cnf ├── nginx │   ├── dynmaps.conf │   ├── site.conf │   └── templates │   ├── listen_plain.template │   ├── listen_ssl.template │   └── server_name.template ├── pdns │   ├── pdns_custom.lua │   └── recursor.conf ├── postfix │   ├── main.cf │   ├── master.cf │   ├── postscreen_access.cidr │   ├── smtp_dsn_filter │   └── sql │   ├── mysql_relay_recipient_maps.cf │   ├── mysql_tls_enforce_in_policy.cf │   ├── mysql_tls_enforce_out_policy.cf │   ├── mysql_virtual_alias_domain_catchall_maps.cf │   ├── mysql_virtual_alias_domain_maps.cf │   ├── mysql_virtual_alias_maps.cf │   ├── mysql_virtual_domains_maps.cf │   ├── mysql_virtual_mailbox_maps.cf │   ├── mysql_virtual_relay_domain_maps.cf │   ├── mysql_virtual_sender_acl.cf │   └── mysql_virtual_spamalias_maps.cf ├── rmilter │   └── rmilter.conf ├── rspamd │   ├── dynmaps │   │   ├── authoritative.php │   │   ├── settings.php │   │   ├── tags.php │   │   └── vars.inc.php -> ../../../web/inc/vars.inc.php │   ├── local.d │   │   ├── dkim.conf │   │   ├── metrics.conf │   │   ├── options.inc │   │   ├── redis.conf │   │   ├── rspamd.conf.local │   │   └── statistic.conf │   ├── lua │   │   └── rspamd.local.lua │   └── override.d │   ├── logging.inc │   ├── worker-controller.inc │   └── worker-normal.inc └── sogo ├── sieve.creds └── sogo.conf ``` Just change the according configuration file on the host and restart the related service: ``` docker-compose restart service-mailcow ``` ## Tagging Mailbox users can tag their mail address like in `me+facebook@example.org` and choose between to setups to handle this tag: 1\. Move this message to a subfolder "facebook" (will be created lower case if not existing) 2\. Prepend the tag to the subject: "[facebook] Subject" ## Two-factor authentication So far two methods for TFA are implemented. Both work with the fantastic [Yubikey](https://www.yubico.com). While Yubi OTP needs an active internet connection and an API ID and key, U2F will work with any FIDO U2F USB key out of the box, but can only be used when mailcow is accessed over HTTPS. Both methods support multiple YubiKeys. As administrator you are able to temporary disable a domain administrators TFA login until they successfully logged in. The key used to login will be displayed in green, while other keys remain grey. ### Yubi OTP The Yubi API ID and Key will be checked against the Yubico Cloud API. When setting up TFA you will be asked for your personal API account for this key. The API ID, API key and the first 12 characters (your YubiKeys ID in modhex) are stored in the MySQL table as secret. ### U2F Only Google Chrome (+derivates) and Opera support U2F authentication to this day natively. For Firefox you will need to install the "U2F Support Add-on" as provided on [mozilla.org](https://addons.mozilla.org/en-US/firefox/addon/u2f-support-add-on/). U2F works without an internet connection. ## Why Bind? For DNS blacklist lookups and DNSSEC. Most systems use either a public or a local caching DNS resolver. That's a very bad idea when it comes to filter spam using DNS-based blackhole lists (DNSBL) or similar technics. Most if not all providers apply a rate limit based on the DNS resolver that is used to query their service. Using a public resolver like Googles 4x8, OpenDNS or any other shared DNS resolver like your ISPs will hit that limit very soon.