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SimpleLogin

This is a self-hosted docker-compose configuration for SimpleLogin.

Prerequisites

  • a Linux server (either a VM or dedicated server). This doc shows the setup for Ubuntu 18.04 LTS but the steps could be adapted for other popular Linux distributions. As most of components run as Docker container and Docker can be a bit heavy, having at least 2 GB of RAM is recommended. The server needs to have the port 25 (email), 80, 443 (for the webapp), 22 (so you can ssh into it) open.

  • a domain for which you can config the DNS. It could be a sub-domain. In the rest of the doc, let's say it's mydomain.com for the email and app.mydomain.com for SimpleLogin webapp. Please make sure to replace these values by your domain name and subdomain name whenever they appear in the doc. A trick we use is to download this README file on your computer and replace all mydomain.com and app.mydomain.com occurrences by your domain.

Except for the DNS setup that is usually done on your domain registrar interface, all the below steps are to be done on your server. The commands are to run with bash (or any bash-compatible shell like zsh) being the shell. If you use other shells like fish, please make sure to adapt the commands.

Some utility packages

These packages are used to verify the setup. Install them by:

sudo apt update \
  && sudo apt install -y net-tools dnsutils

DNS Configuration

MX record

Create a MX record that points mydomain.com. to app.mydomain.com. with priority 10.

To verify if the DNS works, the following command:

dig @1.1.1.1 mydomain.com mx

should return:

mydomain.com.	3600	IN	MX	10 app.mydomain.com.

A record

Create an A record that points app.mydomain.com. to your server IP. To verify, the following command:

dig @1.1.1.1 app.mydomain.com a

should return your server IP.

Please note that DNS changes could take up to 24 hours to propagate. In practice, it's a lot faster though (~1 minute or so in our test). In DNS setup, we usually use domain with a trailing dot (.) at the end to to force using absolute domain.

PTR record

From Wikipedia https://en.wikipedia.org/wiki/Reverse_DNS_lookup

A reverse DNS lookup or reverse DNS resolution (rDNS) is the querying technique of the Domain Name System (DNS) to determine the domain name associated with an IP address – the reverse of the usual "forward" DNS lookup of an IP address from a domain name.

Create a PTR record that point your IP address to your domain name. Important Some providers require PTR configuration to be done from their dashboard and ignore DNS records. Please, make sure to properly configure reverse DNS lookup for your domain.

To verify, the following command:

dig @1.1.1.1 -x $( ip addr show eth0 | grep 'inet ' | awk '{print $2}' | cut -d'/' -f1)

should return your domain name.

DKIM

From Wikipedia https://en.wikipedia.org/wiki/DomainKeys_Identified_Mail

DomainKeys Identified Mail (DKIM) is an email authentication method designed to detect forged sender addresses in emails (email spoofing), a technique often used in phishing and email spam.

Setting up DKIM is highly recommended to reduce the chance for your emails ending up in the recipient's Spam folder.

First you need to generate a private and public key for DKIM:

openssl genrsa -traditional -out dkim.key 1024
openssl rsa -in dkim.key -pubout -out dkim.pub.key

You will need the files dkim.key and dkim.pub.key for the next steps.

For email gurus, we have chosen 1024 key length instead of 2048 for DNS simplicity as some registrars don't play well with long TXT record.

Set up DKIM by adding a TXT record for dkim._domainkey.mydomain.com. with the following value:

v=DKIM1; k=rsa; p=PUBLIC_KEY

with PUBLIC_KEY being your dkim.pub.key but

  • remove the -----BEGIN PUBLIC KEY----- and -----END PUBLIC KEY-----
  • join all the lines on a single line.

For example, if your dkim.pub.key is

-----BEGIN PUBLIC KEY-----
ab
cd
ef
gh
-----END PUBLIC KEY-----

then the PUBLIC_KEY would be abcdefgh.

You can get the PUBLIC_KEY by running this command:

sed "s/-----BEGIN PUBLIC KEY-----/v=DKIM1; k=rsa; p=/g" $(pwd)/dkim.pub.key | \
  sed 's/-----END PUBLIC KEY-----//g' | \
  tr -d '\n' | awk 1

To verify, the following command:

dig @1.1.1.1 dkim._domainkey.mydomain.com txt

should return the above value.

SPF

From Wikipedia https://en.wikipedia.org/wiki/Sender_Policy_Framework

Sender Policy Framework (SPF) is an email authentication method designed to detect forging sender addresses during the delivery of the email

Similar to DKIM, setting up SPF is highly recommended.

Create a TXT record for mydomain.com. with the value:

v=spf1 mx -all

What it means is only your server can send email with @mydomain.com domain. To verify, the following command

dig @1.1.1.1 mydomain.com txt

should return the above value.

DMARC

From Wikipedia https://en.wikipedia.org/wiki/DMARC

It (DMARC) is designed to give email domain owners the ability to protect their domain from unauthorized use, commonly known as email spoofing

Setting up DMARC is also recommended.

Create a TXT record for _dmarc.mydomain.com. with the following value

v=DMARC1; p=quarantine; adkim=r; aspf=r

This is a relaxed DMARC policy. You can also use a more strict policy with v=DMARC1; p=reject; adkim=s; aspf=s value.

To verify, the following command

dig @1.1.1.1 _dmarc.mydomain.com txt

should return the set value.

For more information on DMARC, please consult https://tools.ietf.org/html/rfc7489

HSTS

From Wikipedia https://en.wikipedia.org/wiki/HTTP_Strict_Transport_Security

HTTP Strict Transport Security (HSTS) is a policy mechanism that helps to protect websites against man-in-the-middle attacks such as protocol downgrade attacks and cookie hijacking.

HTTP Strict Transport Security is an extra step you can take to protect your web app from certain man-in-the-middle attacks. It does this by specifying an amount of time (usually a really long one) for which you should only accept HTTPS connections, not HTTP ones.

This repository already enables HSTS, thanks to the following line to the server block of the Nginx configuration file:

add_header Strict-Transport-Security "max-age: 31536000; includeSubDomains" always;

(The max-age is the time in seconds to not permit a HTTP connection, in this case it's one year.)

CAA

From Wikipedia https://en.wikipedia.org/wiki/DNS_Certification_Authority_Authorization

DNS Certification Authority Authorization (CAA) is an Internet security policy mechanism that allows domain name holders to indicate to certificate authorities whether they are authorized to issue digital certificates for a particular domain name.

Certificate Authority Authorization is a step you can take to restrict the list of certificate authorities that are allowed to issue certificates for your domains.

Use SSLMate’s CAA Record Generator to create a CAA record with the following configuration:

  • flags: 0
  • tag: issue
  • value: "sectigo.com"

To verify if the DNS works, the following command:

dig @1.1.1.1 mydomain.com caa

should return:

mydomain.com.	3600	IN	CAA	0 issue "sectigo.com"

Warning: setting up a CAA record will restrict which certificate authority can successfully issue SSL certificates for your domain. This will prevent certificate issuance from Let’s Encrypt staging servers. You may want to differ this DNS record until after SSL certificates are successfully issued for your domain.

MTA-STS

From Wikipedia https://en.wikipedia.org/wiki/Simple_Mail_Transfer_Protocol#SMTP_MTA_Strict_Transport_Security

SMTP MTA Strict Transport Security defines a protocol for mail servers to declare their ability to use secure channels in specific files on the server and specific DNS TXT records.

SMTP MTA Strict Transport Security is an extra step you can take to broadcast the ability of your instance to receive and, optionally enforce, TSL-secure SMTP connections to protect email traffic.

Note: a file /var/www/.well-known/mta-sts.txt.tpl is included in this repository with a content similar to the text shown hereafter.

version: STSv1
mode: testing
mx: app.mydomain.com
max_age: 86400

It is recommended to start with mode: testing for starters to get time to review failure reports.

You do not need to edit this file as it will be used to derive an appropriate file upon startup. However, you do need to create an A record that points mta-sts.mydomain.com. to your server IP.

To verify, the following command:

dig @1.1.1.1 mta-sts.mydomain.com a

should return your server IP.

Create a TXT record for _mta-sts.mydomain.com. with the following value:

v=STSv1; id=UNIX_TIMESTAMP

With UNIX_TIMESTAMP being the current date/time.

Use the following command to generate the record:

echo "v=STSv1; id=$(date +%s)"

To verify if the DNS works, the following command:

dig @1.1.1.1 _mta-sts.mydomain.com txt

should return a result similar to this one:

_mta-sts.mydomain.com.	3600	IN	TXT	"v=STSv1; id=1689416399"

TLSRPT

SMTP TLS Reporting is used by SMTP systems to report failures in establishing TLS-secure sessions as broadcast by the MTA-STS configuration.

Configuring MTA-STS in mode: testing as shown in the previous section gives you time to review failures from some SMTP senders.

Create a TXT record for _smtp._tls.mydomain.com. with the following value:

v=TSLRPTv1; rua=mailto:YOUR_EMAIL

The TLSRPT configuration at the DNS level allows SMTP senders that fail to initiate TLS-secure sessions to send reports to a particular email address. We suggest creating a tls-reports alias in SimpleLogin for this purpose.

To verify if the DNS works, the following command

dig @1.1.1.1 _smtp._tls.mydomain.com txt

should return a result similar to this one:

_smtp._tls.mydomain.com.	3600	IN	TXT	"v=TSLRPTv1; rua=mailto:[email protected]"

Docker

If you don't already have Docker installed on your server, please follow the steps on Docker CE for Ubuntu to install Docker.

You can also install Docker using the docker-install script which is

curl -fsSL https://get.docker.com | sh

Enable IPv6 for the default bridge network

{
  "ipv6": true,
  "fixed-cidr-v6": "2001:db8:1::/64",
  "experimental": true,
  "ip6tables": true
}

Setup

This procedure will guide you through running the entire stack using Docker containers. This includes:

Run SimpleLogin Docker containers

  1. Clone this repository in /opt/simplelogin
  2. Copy .env.example to .env and set appropriate values.
  • set the DOMAIN variable to your domain.
  • set the SUBDOMAIN variable to your domain. The default value is app.
  • set the POSTGRES_USER variable to match the postgres credentials.
  • set the POSTGRES_PASSWORD to match the postgres credentials.
  • set the FLASK_SECRET to an arbitrary secret key.

The SSL certs are issued by the ACME server using either:

  • HTTP-01 ACME challenge
  • DNS-01 ACME challenge using acme.sh DNS integration

Set the following variables in .env to appropriate values:

  • set the LE_STAGING to true or false.
  • set the ACME_CHALLENGE variable to either DNS-01 (default) or HTTP-01.
  • set the ACME_SERVER variable to any of the supported servers by acme.sh. Default value is zerossl.

If you are using DNS-01 ACME challenge, set ACME_SH_DNS_API to one of the supported acme.sh DNS API plugins.

This repository currently supports Microsoft Azure and Cloudflare DNS integrations.

If using Microsoft Azure, update the following values in .env:

  • set AZUREDNS_TENANTID to the Azure tenant hosting the domain DNS zone.
  • set AZUREDNS_SUSCRIPTIONID to the Azure subscription hosting the domain DNS zone.
  • set AZUREDNS_CLIENTID to the client id of a service principal with permissions to update the DNS zone.
  • set AZUREDNS_CLIENTSECRET to the client secret of a service principal with permissions to update the DNS zone.

If using Cloudflare, update the following values in .env:

  • set CF_Token to the Cloudflare API token.
  • set CF_Zone_ID to the Cloudflare DNS Zone identifier.
  • set CF_Account_ID to your Cloudflare account identifier.

The SSL certificates will be available at the following locations:

  • /etc/acme.sh/*.mydomain.com_ecc/fullchain.cer
  • /etc/acme.sh/*.mydomain.com_ecc/*.domain.tld.key

If you are using HTTP-01 challenge, update the SSL certificate and key locations in following files:

  • nginx/conf.d/default.conf.tpl
  • postfix/conf.d/main.cf.tpl

Specifically, using HTTP-01, the SSL certificates are available at the following locations:

  • /etc/acme.sh/mydomain.com_ecc/fullchain.cer
  • /etc/acme.sh/mydomain.com_ecc/domain.tld.key
  1. Run the application:

The up.sh shell script updates important configuration files from templates provided in this repository, so that it uses the correct domain and postgresql credentials. Here are the template files:

  • acme.sh/www/.well-known/mta-sts.txt.tpl
  • nginx/conf.d/default.conf.tpl
  • postfix/conf.d/aliases
  • postfix/conf.d/main.cf.tpl
  • postfix/conf.dl/pgsql-relay-domains.cf.tpl
  • postfix/conf.dl/pgsql-transport-maps.cf.tpl
  • postfix/conf.d/virtual.tpl
  • postfix/conf.d/virtual-regexp.tpl

Run the application using the following commands:

./up.sh --build && docker logs -f acme.sh

If you used the staging server to issue certificates, please review and troubleshoot. Once you are happy, set the LE_STAGING variable in .env to false and re-issue the certificates:

rm -rf acme.sh/conf.d/
./down.sh && ./up.sh && docker logs -f acme.sh

You may also want to setup Certificate Authority Authorization (CAA) at this point.

Wildcard subdomains

Note the following section documents wildcard certificates and subdomains. You may want to use builtin facility within SimpleLogin to achieve the same results.

This repository suppports issuing wildcard certificates for any number of subdomains using Letsencrypt DNS-01 challenge using acme.sh DNS integration. It also suppports issuing certificates for the following subdomains app.mydomain.com and mta-sts.mydomain.com using Letsencrypt HTTP-01 challenge.

If your DNS supports it, you can add a MX record to point *.mydomain.com to app.mydomain.com so that you can receive mails from any number of subdomains. To verify, the following command:

dig @1.1.1.1 *.mydomain.com mx

Should return:

*.mydomain.com. 3600  IN  MX    10 app.mydomain.com

Alternatively, you can update the acme.sh/Dockerfiles/docker-entrypoint.sh script and update the list of subdomains you want to issue SSL certificates for.

The postfix configuration supports virtual aliases using the postfix/conf.d/virtual and postfix/conf.d/virtual-regexp files. Those files are automatically created on startup based upon the corresponding postfix/conf.d/virtual.tpl and postfix/conf.d/virtual-regexp.tpl template files.

The default configuration is as follows:

virtual.tpl

The virtual file supports postfix virtual_alias_maps settings. It includes a rule that maps [email protected] to [email protected] to demonstrate receiving and email from a specific address that does not correspond to an existing alias, to another one that does.

virtual-regexp.tpl

The virtual-regexp file supports postfix virtual_alias_maps settings. It includes a rule that rewrite emails addressed to an arbitrary subdomain, which does not correspond to an existing alias, to a new alias that belongs to a directory whose name is taken from the subdomain. That alias may be created on the fly if it does not exist.

/^([^@]+)@([^.]+)\.mydomain.com/   $2/[email protected]

For instance, emails sent to [email protected] will be routed to directory/[email protected] by postfix.

Enjoy!

If all the above steps are successful, open http://app.mydomain.com/ and create your first account!

By default, new accounts are not premium so don't have unlimited aliases. To make your account premium, please go to the database, table "users" and set "lifetime" column to "1" or "TRUE":

docker compose exec -it postgres psql -U myuser simplelogin
> UPDATE users SET lifetime = TRUE;
> \q

Once you've created all your desired login accounts, add these lines to .env to disable further registrations:

DISABLE_REGISTRATION=1
DISABLE_ONBOARDING=true

Then restart the web app to apply: docker compose restart app

How-to Upgrade

  • Change the image version in .env
SL_VERSION=4.6.5-beta

For instance, to upgrade from 3.4.0 to 4.6.x-beta, the following change must be done in simplelogin-compose.yaml:

    volumes:
      - ./db:/var/lib/postgresql/data
    restart: unless-stopped

  migration:
    image: simplelogin/app:$SL_VERSION
-   command: [ "flask", "db", "upgrade" ]
+   command: [ "alembic", "upgrade", "head" ]
    container_name: sl-migration
    env_file: .env
  • Restart containers
./down.sh && ./up.sh

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Docker-based self-hosted SimpleLogin.io configuration

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