docker-mailserver/docs/content/config/advanced/podman.md

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---
title: 'Advanced | Podman'
---
## Introduction
Podman is a daemonless container engine for developing, managing, and running OCI Containers on your Linux System.
!!! warning "About Support for Podman"
docs(chore): Normalize for consistency (#2206) "Brief" summary/overview of changes. See the PR discussion or individual commits from the PR for more details. --- Only applies to the `docs/content/**` content (_and `setup` command_). `target/` and `test/` can be normalized at a later date. * Normalize to `example.com` - Domains normalized to `example.com`: `mywebserver.com`, `myserver.tld`, `domain.com`, `domain.tld`, `mydomain.net`, `my-domain.tld`, `my-domain.com`, `example.org`, `whoami.com`. - Alternative domains normalized to `not-example.com`: `otherdomain.com`, `otherdomain.tld`, `domain2.tld`, `mybackupmx.com`, `whoareyou.org`. - Email addresses normalized to `admin@example.com` (in `ssl.md`): `foo@bar.com`, `yourcurrentemail@gmail.com`, `email@email.com`, `admin@domain.tld`. - Email addresses normalized to `external-account@gmail.com`: `bill@gates321boom.com`, `external@gmail.com`, `myemail@gmail.com`, `real-email-address@external-domain.com`. - **`faq.md`:** A FAQ entry title with `sample.domain.com` changed to `subdomain.example.com`. - **`mail-fetchmail.md`:** Config examples with FQDNs for `imap`/`pop3` used `example.com` domain for a third-party, changed to `gmail.com` as more familiar third-party/external MTA. * Normalize config volume path - Normalizing local config path references to `./docker-data/dms/config/`: `./config/`, `config/`, \``config`\`, `/etc/` (_volume mount src path prefix_). - Normalize DMS volume paths to `docker-data/dms/mail-{data,state,log}`: `./mail`, `./mail-state` `./data/mail`, `./data/state`, `./data/logs`, `./data/maildata`, `./data/mailstate`, `./data/maillogs`, (_dropped/converted data volumes: `maildata`, `mailstate`_). - Other docker images also adopt the `docker-data/{service name}/` prefix. * `ssl.md` - Use `dms/custom-certs` where appropriate. * Apply normalizations to README and example `docker-compose.yml` --- Common terms, sometimes interchangeably used or now invalid depending on context: `mail`, `mail container`, `mail server`, `mail-server`, `mailserver`,`docker-mailserver`, `Docker Mailserver`. Rough transformations applied to most matches (_conditionally, depending on context_): - 'Docker Mailserver' => '`docker-mailserver`' - 'mail container' => '`docker-mailserver`' (_optionally retaining ' container'_) - 'mail server' => 'mail-server' / '`docker-mailserver`' - 'mail-server' => '`docker-mailserver`' - 'mailserver' => 'mail-server' / '`docker-mailserver`' Additionally I checked `docker run` (_plus `exec`, `logs`, etc, sub-commands_) and `docker-compose` commands. Often finding usage of `mail` instead of the expected `mailserver` Additionally changes `mailserver` hostname in k8s to `mail` to align with other non-k8s examples. --- * drive-by revisions Mostly minor revisions or improvements to docs that aren't related to normalization effort.
2021-09-22 23:29:37 +00:00
Please note that Podman **is not** officially supported as `docker-mailserver` is built and verified on top of the _Docker Engine_. This content is entirely community supported. If you find errors, please open an issue and provide a PR.
!!! warning "About this Guide"
This guide was tested with Fedora 34 using `systemd` and `firewalld`. Moreover, it requires Podman version >= 3.2. You may be able to substitute `dnf` - Fedora's package maneger - with others such as `apt`.
!!! warning "About Security"
Running podman in rootless mode requires additional modifications in order to keep your mailserver secure.
Make sure to read the related documentation.
## Installation in Rootfull Mode
While using Podman, you can just manage docker-mailserver as what you did with Docker. Your best friend `setup.sh` includes the minimum code in order to support Podman since it's 100% compatible with the Docker CLI.
The installation is basically the same. Podman v3.2 introduced a RESTful API that is 100% compatible with the Docker API, so you can use docker-compose with Podman easily. Install Podman and docker-compose with your package manager first.
```bash
sudo dnf install podman docker-compose
```
Then enable `podman.socket` using `systemctl`.
```bash
systemctl enable --now podman.socket
```
This will create a unix socket locate under `/run/podman/podman.sock`, which is the entrypoint of Podman's API. Now, configure docker-mailserver and start it.
```bash
export DOCKER_HOST="unix:/run/podman/podman.sock"
docker-compose up -d mailserver
docker-compose ps
```
You should see that docker-mailserver is running now.
### Self-start in Rootfull Mode
Podman is daemonless, that means if you want docker-mailserver self-start while boot up the system, you have to generate a systemd file with Podman CLI.
```bash
podman generate systemd mailserver > /etc/systemd/system/mailserver.service
systemctl daemon-reload
systemctl enable --now mailserver.service
```
## Installation in Rootless Mode
Running rootless containers is one of Podman's major features. But due to some restrictions, deploying docker-mailserver in rootless mode is not as easy compared to rootfull mode.
- a rootless container is running in a user namespace so you cannot bind ports lower than 1024
- a rootless container's systemd file can only be placed in folder under `~/.config`
- a rootless container can result in an open relay, make sure to read the [security section](#security-in-rootless-mode).
Also notice that Podman's rootless mode is not about running as a non-root user inside the container, but about the mapping of (normal, non-root) host users to root inside the container.
!!! warning
docs(chore): Normalize for consistency (#2206) "Brief" summary/overview of changes. See the PR discussion or individual commits from the PR for more details. --- Only applies to the `docs/content/**` content (_and `setup` command_). `target/` and `test/` can be normalized at a later date. * Normalize to `example.com` - Domains normalized to `example.com`: `mywebserver.com`, `myserver.tld`, `domain.com`, `domain.tld`, `mydomain.net`, `my-domain.tld`, `my-domain.com`, `example.org`, `whoami.com`. - Alternative domains normalized to `not-example.com`: `otherdomain.com`, `otherdomain.tld`, `domain2.tld`, `mybackupmx.com`, `whoareyou.org`. - Email addresses normalized to `admin@example.com` (in `ssl.md`): `foo@bar.com`, `yourcurrentemail@gmail.com`, `email@email.com`, `admin@domain.tld`. - Email addresses normalized to `external-account@gmail.com`: `bill@gates321boom.com`, `external@gmail.com`, `myemail@gmail.com`, `real-email-address@external-domain.com`. - **`faq.md`:** A FAQ entry title with `sample.domain.com` changed to `subdomain.example.com`. - **`mail-fetchmail.md`:** Config examples with FQDNs for `imap`/`pop3` used `example.com` domain for a third-party, changed to `gmail.com` as more familiar third-party/external MTA. * Normalize config volume path - Normalizing local config path references to `./docker-data/dms/config/`: `./config/`, `config/`, \``config`\`, `/etc/` (_volume mount src path prefix_). - Normalize DMS volume paths to `docker-data/dms/mail-{data,state,log}`: `./mail`, `./mail-state` `./data/mail`, `./data/state`, `./data/logs`, `./data/maildata`, `./data/mailstate`, `./data/maillogs`, (_dropped/converted data volumes: `maildata`, `mailstate`_). - Other docker images also adopt the `docker-data/{service name}/` prefix. * `ssl.md` - Use `dms/custom-certs` where appropriate. * Apply normalizations to README and example `docker-compose.yml` --- Common terms, sometimes interchangeably used or now invalid depending on context: `mail`, `mail container`, `mail server`, `mail-server`, `mailserver`,`docker-mailserver`, `Docker Mailserver`. Rough transformations applied to most matches (_conditionally, depending on context_): - 'Docker Mailserver' => '`docker-mailserver`' - 'mail container' => '`docker-mailserver`' (_optionally retaining ' container'_) - 'mail server' => 'mail-server' / '`docker-mailserver`' - 'mail-server' => '`docker-mailserver`' - 'mailserver' => 'mail-server' / '`docker-mailserver`' Additionally I checked `docker run` (_plus `exec`, `logs`, etc, sub-commands_) and `docker-compose` commands. Often finding usage of `mail` instead of the expected `mailserver` Additionally changes `mailserver` hostname in k8s to `mail` to align with other non-k8s examples. --- * drive-by revisions Mostly minor revisions or improvements to docs that aren't related to normalization effort.
2021-09-22 23:29:37 +00:00
In order to make rootless `docker-mailserver` work we must modify some settings in the Linux system, it requires some basic linux server knowledge so don't follow this guide if you not sure what this guide is talking about. Podman rootfull mode and Docker are still good and security enough for normal daily usage.
First, enable `podman.socket` in systemd's userspace with a non-root user.
```bash
systemctl enable --now --user podman.socket
```
The socket file should be located at `/var/run/user/$(id -u)/podman/podman.sock`. Then, modify `docker-compose.yml` to make sure all ports are bindings are on non-privileged ports.
```yaml
services:
mailserver:
ports:
- "10025:25" # SMTP (explicit TLS => STARTTLS)
- "10143:143" # IMAP4 (explicit TLS => STARTTLS)
- "10465:465" # ESMTP (implicit TLS)
- "10587:587" # ESMTP (explicit TLS => STARTTLS)
- "10993:993" # IMAP4 (implicit TLS)
```
Then, setup your `mailserver.env` file follow the documentation and use docker-compose to start the container.
```bash
export DOCKER_HOST="unix:/var/run/user/1000/podman/podman.sock"
docker-compose up -d mailserver
docker-compose ps
```
### Security in Rootless Mode
In rootless mode, podman resolves all incoming IPs as localhost, which results in an open gateway in the default configuration. There are two workarounds to fix this problem, both of which have their own drawbacks.
#### Enforce authentication from localhost
The `PERMIT_DOCKER` variable in the `mailserver.env` file allows to specify trusted networks that do not need to authenticate. If the variable is left empty, only requests from localhost and the container IP are allowed, but in the case of rootless podman any IP will be resolved as localhost. Setting `PERMIT_DOCKER=none` enforces authentication also from localhost, which prevents sending unauthenticated emails.
#### Use the slip4netns network driver
The second workaround is slightly more complicated because the `docker-compose.yml` has to be modified.
As shown in the [fail2ban section](https://docker-mailserver.github.io/docker-mailserver/edge/config/security/fail2ban/#podman-with-slirp4netns-port-driver) the `slirp4netns` network driver has to be enabled.
This network driver enables podman to correctly resolve IP addresses but it is not compatible with
user defined networks which might be a problem depending on your setup.
[Rootless Podman][rootless::podman] requires adding the value `slirp4netns:port_handler=slirp4netns` to the `--network` CLI option, or `network_mode` setting in your `docker-compose.yml`.
You must also add the ENV `NETWORK_INTERFACE=tap0`, because Podman uses a [hard-coded interface name][rootless::podman::interface] for `slirp4netns`.
!!! example
```yaml
services:
mailserver:
network_mode: "slirp4netns:port_handler=slirp4netns"
environment:
- NETWORK_INTERFACE=tap0
...
```
!!! note
`podman-compose` is not compatible with configuration.
### Self-start in Rootless Mode
Generate a systemd file with the Podman CLI.
```bash
podman generate systemd mailserver > ~/.config/systemd/user/mailserver.service
systemctl --user daemon-reload
systemctl enable --user --now mailserver.service
```
Systemd's user space service is only started when a specific user logs in and stops when you log out. In order to make it to start with the system, we need to enable linger with `loginctl`
```bash
loginctl enable-linger <username>
```
Remember to run this command as root user.
### Port Forwarding
When it comes to forwarding ports using `firewalld`, see <https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/8/html/securing_networks/using-and-configuring-firewalld_securing-networks#port-forwarding_using-and-configuring-firewalld> for more infomation.
```bash
firewall-cmd --permanent --add-forward-port=port=<25|143|465|587|993>:proto=<tcp>:toport=<10025|10143|10465|10587|10993>
...
# After you set all ports up.
firewall-cmd --reload
```
Notice that this will only open the access to the external client. If you want to access privileges port in your server, do this:
```bash
firewall-cmd --permanent --direct --add-rule <ipv4|ipv6> nat OUTPUT 0 -p <tcp|udp> -o lo --dport <25|143|465|587|993> -j REDIRECT --to-ports <10025|10143|10465|10587|10993>
...
# After you set all ports up.
firewall-cmd --reload
```
Just map all the privilege port with non-privilege port you set in docker-compose.yml before as root user.