--- date: "2020-01-16" title: "Database Preparation" slug: "database-prep" weight: 10 toc: false draft: false menu: sidebar: parent: "installation" name: "Database preparation" weight: 20 identifier: "database-prep" --- # Database Preparation You need a database to use Gitea. Gitea supports PostgreSQL, MySQL, SQLite, and MSSQL. This page will guide into preparing database. Only PostgreSQL and MySQL will be covered here since those database engines are widely-used in production. Database instance can be on same machine as Gitea (local database setup), or on different machine (remote database). Note: All steps below requires that the database engine of your choice is installed on your system. For remote database setup, install the server application on database instance and client program on your Gitea server. The client program is used to test connection to the database from Gitea server, while Gitea itself use database driver provided by Go to accomplish the same thing. In addition, make sure you use same engine version for both server and client for some engine features to work. For security reason, protect `root` (MySQL) or `postgres` (PostgreSQL) database superuser with secure password. The steps assumes that you run Linux for both database and Gitea servers. **Table of Contents** {{< toc >}} ## MySQL 1. For remote database setup, you will need to make MySQL listen to your IP address. Edit `bind-address` option on `/etc/mysql/my.cnf` on database instance to: ```ini bind-address = 203.0.113.3 ``` 2. On database instance, login to database console as root: ``` mysql -u root -p ``` Enter the password as prompted. 3. Create database user which will be used by Gitea, authenticated by password. This example uses `'gitea'` as password. Please use a secure password for your instance. For local database: ```sql SET old_passwords=0; CREATE USER 'gitea' IDENTIFIED BY 'gitea'; ``` For remote database: ```sql SET old_passwords=0; CREATE USER 'gitea'@'192.0.2.10' IDENTIFIED BY 'gitea'; ``` where `192.0.2.10` is the IP address of your Gitea instance. Replace username and password above as appropriate. 4. Create database with UTF-8 charset and collation. Make sure to use `utf8mb4` charset instead of `utf8` as the former supports all Unicode characters (including emojis) beyond _Basic Multilingual Plane_. Also, collation chosen depending on your expected content. When in doubt, use either `unicode_ci` or `general_ci`. ```sql CREATE DATABASE giteadb CHARACTER SET 'utf8mb4' COLLATE 'utf8mb4_unicode_ci'; ``` Replace database name as appropriate. 5. Grant all privileges on the database to database user created above. For local database: ```sql GRANT ALL PRIVILEGES ON giteadb.* TO 'gitea'; FLUSH PRIVILEGES; ``` For remote database: ```sql GRANT ALL PRIVILEGES ON giteadb.* TO 'gitea'@'192.0.2.10'; FLUSH PRIVILEGES; ``` 6. Quit from database console by `exit`. 7. On your Gitea server, test connection to the database: ``` mysql -u gitea -h 203.0.113.3 -p giteadb ``` where `gitea` is database username, `giteadb` is database name, and `203.0.113.3` is IP address of database instance. Omit `-h` option for local database. You should be connected to the database. ## PostgreSQL 1. For remote database setup, configure PostgreSQL on database instance to listen to your IP address by editing `listen_addresses` on `postgresql.conf` to: ```ini listen_addresses = 'localhost, 203.0.113.3' ``` 2. PostgreSQL uses `md5` challenge-response encryption scheme for password authentication by default. Nowadays this scheme is not considered secure anymore. Use SCRAM-SHA-256 scheme instead by editing the `postgresql.conf` configuration file on the database server to: ```ini password_encryption = scram-sha-256 ``` Restart PostgreSQL to apply the setting. 3. On the database server, login to the database console as superuser: ``` su -c "psql" - postgres ``` 4. Create database user (role in PostgreSQL terms) with login privilege and password. Please use a secure, strong password instead of `'gitea'` below: ```sql CREATE ROLE gitea WITH LOGIN PASSWORD 'gitea'; ``` Replace username and password as appropriate. 5. Create database with UTF-8 charset and owned by the database user created earlier. Any `libc` collations can be specified with `LC_COLLATE` and `LC_CTYPE` parameter, depending on expected content: ```sql CREATE DATABASE giteadb WITH OWNER gitea TEMPLATE template0 ENCODING UTF8 LC_COLLATE 'en_US.UTF-8' LC_CTYPE 'en_US.UTF-8'; ``` Replace database name as appropriate. 6. Allow the database user to access the database created above by adding the following authentication rule to `pg_hba.conf`. For local database: ```ini local giteadb gitea scram-sha-256 ``` For remote database: ```ini host giteadb gitea 192.0.2.10/32 scram-sha-256 ``` Replace database name, user, and IP address of Gitea instance with your own. Note: rules on `pg_hba.conf` are evaluated sequentially, that is the first matching rule will be used for authentication. Your PostgreSQL installation may come with generic authentication rules that match all users and databases. You may need to place the rules presented here above such generic rules if it is the case. Restart PostgreSQL to apply new authentication rules. 7. On your Gitea server, test connection to the database. For local database: ``` psql -U gitea -d giteadb ``` For remote database: ``` psql "postgres://gitea@203.0.113.3/giteadb" ``` where `gitea` is database user, `giteadb` is database name, and `203.0.113.3` is IP address of your database instance. You should be prompted to enter password for the database user, and connected to the database. ## Database Connection over TLS If the communication between Gitea and your database instance is performed through a private network, or if Gitea and the database are running on the same server, this section can be omitted since the security between Gitea and the database instance is not critically exposed. If instead the database instance is on a public network, use TLS to encrypt the connection to the database, as it is possible for third-parties to intercept the traffic data. ### Prerequisites - You need two valid TLS certificates, one for the database instance (database server) and one for the Gitea instance (database client). Both certificates must be signed by a trusted CA. - The database certificate must contain `TLS Web Server Authentication` in the `X509v3 Extended Key Usage` extension attribute, while the client certificate needs `TLS Web Client Authentication` in the corresponding attribute. - On the database server certificate, one of `Subject Alternative Name` or `Common Name` entries must be the fully-qualified domain name (FQDN) of the database instance (e.g. `db.example.com`). On the database client certificate, one of the entries mentioned above must contain the database username that Gitea will be using to connect. - You need domain name mappings of both Gitea and database servers to their respective IP addresses. Either set up DNS records for them or add local mappings to `/etc/hosts` (`%WINDIR%\System32\drivers\etc\hosts` in Windows) on each system. This allows the database connections to be performed by domain name instead of IP address. See documentation of your system for details. ### PostgreSQL The PostgreSQL driver used by Gitea supports two-way TLS. In two-way TLS, both database client and server authenticate each other by sending their respective certificates to their respective opposite for validation. In other words, the server verifies client certificate, and the client verifies server certificate. 1. On the server with the database instance, place the following credentials: - `/path/to/postgresql.crt`: Database instance certificate - `/path/to/postgresql.key`: Database instance private key - `/path/to/root.crt`: CA certificate chain to validate client certificates 2. Add following options to `postgresql.conf`: ```ini ssl = on ssl_ca_file = '/path/to/root.crt' ssl_cert_file = '/path/to/postgresql.crt' ssl_key_file = '/path/to/postgresql.key' ssl_min_protocol_version = 'TLSv1.2' ``` 3. Adjust credentials ownership and permission, as required by PostgreSQL: ``` chown postgres:postgres /path/to/root.crt /path/to/postgresql.crt /path/to/postgresql.key chmod 0600 /path/to/root.crt /path/to/postgresql.crt /path/to/postgresql.key ``` 4. Edit `pg_hba.conf` rule to only allow Gitea database user to connect over SSL, and to require client certificate verification. For PostgreSQL 12: ```ini hostssl giteadb gitea 192.0.2.10/32 scram-sha-256 clientcert=verify-full ``` For PostgreSQL 11 and earlier: ```ini hostssl giteadb gitea 192.0.2.10/32 scram-sha-256 clientcert=1 ``` Replace database name, user, and IP address of Gitea instance as appropriate. 5. Restart PostgreSQL to apply configurations above. 6. On the server running the Gitea instance, place the following credentials under the home directory of the user who runs Gitea (e.g. `git`): - `~/.postgresql/postgresql.crt`: Database client certificate - `~/.postgresql/postgresql.key`: Database client private key - `~/.postgresql/root.crt`: CA certificate chain to validate server certificate Note: Those file names above are hardcoded in PostgreSQL and it is not possible to change them. 7. Adjust credentials, ownership and permission as required: ``` chown git:git ~/.postgresql/postgresql.crt ~/.postgresql/postgresql.key ~/.postgresql/root.crt chown 0600 ~/.postgresql/postgresql.crt ~/.postgresql/postgresql.key ~/.postgresql/root.crt ``` 8. Test the connection to the database: ``` psql "postgres://gitea@example.db/giteadb?sslmode=verify-full" ``` You should be prompted to enter password for the database user, and then be connected to the database. ### MySQL While the MySQL driver used by Gitea also supports two-way TLS, Gitea currently supports only one-way TLS. See issue #10828 for details. In one-way TLS, the database client verifies the certificate sent from server during the connection handshake, and the server assumes that the connected client is legitimate, since client certificate verification doesn't take place. 1. On the database instance, place the following credentials: - `/path/to/mysql.crt`: Database instance certificate - `/path/to/mysql.key`: Database instance key - `/path/to/ca.crt`: CA certificate chain. This file isn't used on one-way TLS, but is used to validate client certificates on two-way TLS. 2. Add following options to `my.cnf`: ```ini [mysqld] ssl-ca = /path/to/ca.crt ssl-cert = /path/to/mysql.crt ssl-key = /path/to/mysql.key tls-version = TLSv1.2,TLSv1.3 ``` 3. Adjust credentials ownership and permission: ``` chown mysql:mysql /path/to/ca.crt /path/to/mysql.crt /path/to/mysql.key chmod 0600 /path/to/ca.crt /path/to/mysql.crt /path/to/mysql.key ``` 4. Restart MySQL to apply the setting. 5. The database user for Gitea may have been created earlier, but it would authenticate only against the IP addresses of the server running Gitea. To authenticate against its domain name, recreate the user, and this time also set it to require TLS for connecting to the database: ```sql DROP USER 'gitea'@'192.0.2.10'; CREATE USER 'gitea'@'example.gitea' IDENTIFIED BY 'gitea' REQUIRE SSL; GRANT ALL PRIVILEGES ON giteadb.* TO 'gitea'@'example.gitea'; FLUSH PRIVILEGES; ``` Replace database user name, password, and Gitea instance domain as appropriate. 6. Make sure that the CA certificate chain required to validate the database server certificate is on the system certificate store of both the database and Gitea servers. Consult your system documentation for instructions on adding a CA certificate to the certificate store. 7. On the server running Gitea, test connection to the database: ``` mysql -u gitea -h example.db -p --ssl ``` You should be connected to the database.