# Bitnami Secure Image for PostgreSQL HA ## What is PostgreSQL HA? > This PostgreSQL cluster solution includes the PostgreSQL replication manager, an open-source tool for managing replication and failover on PostgreSQL clusters. [Overview of PostgreSQL HA](https://www.postgresql.org/) Trademarks: This software listing is packaged by Bitnami. The respective trademarks mentioned in the offering are owned by the respective companies, and use of them does not imply any affiliation or endorsement. ## TL;DR ```console docker run --name postgresql-repmgr bitnami/postgresql-repmgr:latest ``` You can find the default credentials and available configuration options in the [Environment Variables](#environment-variables) section. ## ⚠️ Important Notice: Upcoming changes to the Bitnami Catalog Beginning August 28th, 2025, Bitnami will evolve its public catalog to offer a curated set of hardened, security-focused images under the new [Bitnami Secure Images initiative](https://news.broadcom.com/app-dev/broadcom-introduces-bitnami-secure-images-for-production-ready-containerized-applications). As part of this transition: - Granting community users access for the first time to security-optimized versions of popular container images. - Bitnami will begin deprecating support for non-hardened, Debian-based software images in its free tier and will gradually remove non-latest tags from the public catalog. As a result, community users will have access to a reduced number of hardened images. These images are published only under the “latest” tag and are intended for development purposes - Starting August 28th, over two weeks, all existing container images, including older or versioned tags (e.g., 2.50.0, 10.6), will be migrated from the public catalog (docker.io/bitnami) to the “Bitnami Legacy” repository (docker.io/bitnamilegacy), where they will no longer receive updates. - For production workloads and long-term support, users are encouraged to adopt Bitnami Secure Images, which include hardened containers, smaller attack surfaces, CVE transparency (via VEX/KEV), SBOMs, and enterprise support. These changes aim to improve the security posture of all Bitnami users by promoting best practices for software supply chain integrity and up-to-date deployments. For more details, visit the [Bitnami Secure Images announcement](https://github.com/bitnami/containers/issues/83267). ## Why use Bitnami Secure Images? - Bitnami Secure Images and Helm charts are built to make open source more secure and enterprise ready. - Triage security vulnerabilities faster, with transparency into CVE risks using industry standard Vulnerability Exploitability Exchange (VEX), KEV, and EPSS scores. - Our hardened images use a minimal OS (Photon Linux), which reduces the attack surface while maintaining extensibility through the use of an industry standard package format. - Stay more secure and compliant with continuously built images updated within hours of upstream patches. - Bitnami containers, virtual machines and cloud images use the same components and configuration approach - making it easy to switch between formats based on your project needs. - Hardened images come with attestation signatures (Notation), SBOMs, virus scan reports and other metadata produced in an SLSA-3 compliant software factory. Only a subset of BSI applications are available for free. Looking to access the entire catalog of applications as well as enterprise support? Try the [commercial edition of Bitnami Secure Images today](https://www.arrow.com/globalecs/uk/products/bitnami-secure-images/). ## Why use a non-root container? Non-root container images add an extra layer of security and are generally recommended for production environments. However, because they run as a non-root user, privileged tasks are typically off-limits. Learn more about non-root containers [in our docs](https://techdocs.broadcom.com/us/en/vmware-tanzu/application-catalog/tanzu-application-catalog/services/tac-doc/apps-tutorials-work-with-non-root-containers-index.html). ## How to deploy Postgresql-repmgr in Kubernetes? Deploying Bitnami applications as Helm Charts is the easiest way to get started with our applications on Kubernetes. Read more about the installation in the [Bitnami PostgreSQL HA Chart GitHub repository](https://github.com/bitnami/charts/tree/master/bitnami/postgresql-ha). ## Supported tags and respective `Dockerfile` links Learn more about the Bitnami tagging policy and the difference between rolling tags and immutable tags [in our documentation page](https://techdocs.broadcom.com/us/en/vmware-tanzu/application-catalog/tanzu-application-catalog/services/tac-doc/apps-tutorials-understand-rolling-tags-containers-index.html). You can see the equivalence between the different tags by taking a look at the `tags-info.yaml` file present in the branch folder, i.e `bitnami/ASSET/BRANCH/DISTRO/tags-info.yaml`. Subscribe to project updates by watching the [bitnami/containers GitHub repo](https://github.com/bitnami/containers). ## Get this image The recommended way to get the Bitnami PostgreSQL HA Docker Image is to pull the prebuilt image from the [Docker Hub Registry](https://hub.docker.com/r/bitnami/postgresql-repmgr). ```console docker pull bitnami/postgresql-repmgr:latest ``` To use a specific version, you can pull a versioned tag. You can view the [list of available versions](https://hub.docker.com/r/bitnami/postgresql-repmgr/tags/) in the Docker Hub Registry. ```console docker pull bitnami/postgresql-repmgr:[TAG] ``` If you wish, you can also build the image yourself by cloning the repository, changing to the directory containing the Dockerfile and executing the `docker build` command. Remember to replace the `APP`, `VERSION` and `OPERATING-SYSTEM` path placeholders in the example command below with the correct values. ```console git clone https://github.com/bitnami/containers.git cd bitnami/APP/VERSION/OPERATING-SYSTEM docker build -t bitnami/APP:latest . ``` ## Persisting your application If you remove the container all your data will be lost, and the next time you run the image the database will be reinitialized. To avoid this loss of data, you should mount a volume that will persist even after the container is removed. For persistence you should mount a directory at the `/bitnami/postgresql` path. If the mounted directory is empty, it will be initialized on the first run. ```console docker run \ -v /path/to/postgresql-repmgr-persistence:/bitnami/postgresql \ bitnami/postgresql-repmgr:latest ``` The [`docker-compose.yml`](https://github.com/bitnami/containers/tree/main/bitnami/postgresql/docker-compose.yml) file present in this repository already configures persistence. > NOTE: As this is a non-root container, the mounted files and directories must have the proper permissions for the UID `1001`. ## Connecting to other containers Using [Docker container networking](https://docs.docker.com/engine/userguide/networking/), a PostgreSQL server running inside a container can easily be accessed by your application containers and vice-versa. Containers attached to the same network can communicate with each other using the container name as the hostname. ### Using the Command Line In this example, we will create a PostgreSQL client instance that will connect to the server instance that is running on the same docker network as the client. #### Step 1: Create a network ```console docker network create my-network --driver bridge ``` #### Step 2: Launch the postgresql-repmgr container within your network Use the `--network ` argument to the `docker run` command to attach the container to the `my-network` network. ```console docker run --detach --rm --name pg-0 \ --network my-network \ --env REPMGR_PARTNER_NODES=pg-0 \ --env REPMGR_NODE_NAME=pg-0 \ --env REPMGR_NODE_NETWORK_NAME=pg-0 \ --env REPMGR_PRIMARY_HOST=pg-0 \ --env REPMGR_PASSWORD=repmgrpass \ --env POSTGRESQL_PASSWORD=secretpass \ bitnami/postgresql-repmgr:latest ``` #### Step 3: Launch your PostgreSQL client instance Finally we create a new container instance to launch the PostgreSQL client and connect to the server created in the previous step: ```console docker run -it --rm \ --network my-network \ bitnami/postgresql:latest \ psql -h pg-0 -U postgres ``` ### Using a Docker Compose file When not specified, Docker Compose automatically sets up a new network and attaches all deployed services to that network. However, we will explicitly define a new `bridge` network named `my-network`. In this example we assume that you want to connect to the PostgreSQL server from your own custom application image which is identified in the following snippet by the service name `myapp`. ```yaml version: '2' networks: my-network: driver: bridge services: pg-0: image: bitnami/postgresql-repmgr:latest networks: - my-network environment: - POSTGRESQL_PASSWORD=custompassword - REPMGR_PASSWORD=repmgrpassword - REPMGR_PRIMARY_HOST=pg-0 - REPMGR_NODE_NETWORK_NAME=pg-0 - REPMGR_NODE_NAME=pg-0 - REPMGR_PARTNER_NODES=pg-0 myapp: image: YOUR_APPLICATION_IMAGE networks: - my-network ``` > **IMPORTANT**: > > 1. Please update the **YOUR_APPLICATION_IMAGE_** placeholder in the above snippet with your application image > 2. In your application container, use the hostname `pg-0` to connect to the PostgreSQL server Launch the containers using: ```console docker-compose up -d ``` ## Configuration ### Initializing a new instance When the container is executed for the first time, it will execute the files with extensions `.sh`, `.sql` and `.sql.gz` located at `/docker-entrypoint-initdb.d`. In order to have your custom files inside the docker image you can mount them as a volume. ### Setting the root and repmgr passwords on first run In the above commands you may have noticed the use of the `POSTGRESQL_PASSWORD` and `REPMGR_PASSWORD` environment variables. Passing the `POSTGRESQL_PASSWORD` environment variable when running the image for the first time will set the password of the `postgres` user to the value of `POSTGRESQL_PASSWORD` (or the content of the file specified in `POSTGRESQL_PASSWORD_FILE`). In the same way, passing the `REPMGR_PASSWORD` environment variable sets the password of the `repmgr` user to the value of `REPMGR_PASSWORD` (or the content of the file specified in `REPMGR_PASSWORD_FILE`). ```console docker run --name pg-0 --env REPMGR_PASSWORD=repmgrpass --env POSTGRESQL_PASSWORD=secretpass bitnami/postgresql-repmgr:latest ``` or by modifying the [`docker-compose.yml`](https://github.com/bitnami/containers/tree/main/bitnami/postgresql-repmgr/docker-compose.yml) file present in this repository: ```diff ... services: pg-0: ... environment: - - POSTGRESQL_PASSWORD=adminpassword + - POSTGRESQL_PASSWORD=password123 - - REPMGR_PASSWORD=repmgrpassword + - REPMGR_PASSWORD=password123 ... pg-1: ... environment: - - POSTGRESQL_PASSWORD=adminpassword + - POSTGRESQL_PASSWORD=password123 - - REPMGR_PASSWORD=repmgrpassword + - REPMGR_PASSWORD=password123 ... ``` **Note!** Both `postgres` and `repmgr` users are superusers and have full administrative access to the PostgreSQL database. Refer to [Creating a database user on first run](#creating-a-database-user-on-first-run) if you want to set an unprivileged user and a password for the `postgres` user. ### Creating a database on first run By passing the `POSTGRESQL_DATABASE` environment variable when running the image for the first time, a database will be created. This is useful if your application requires that a database already exists, saving you from having to manually create the database using the PostgreSQL client. ```console docker run --name pg-0 --env POSTGRESQL_DATABASE=my_database bitnami/postgresql-repmgr:latest ``` ### Creating a database user on first run You can also create a restricted database user that only has permissions for the database created with the [`POSTGRESQL_DATABASE`](#creating-a-database-on-first-run) environment variable. To do this, provide the `POSTGRESQL_USERNAME` environment variable. ```console docker run --name pg-0 --env POSTGRESQL_USERNAME=my_user --env POSTGRESQL_PASSWORD=password123 --env POSTGRESQL_DATABASE=my_database bitnami/postgresql-repmgr:latest ``` The [`docker-compose.yml`](https://github.com/bitnami/containers/tree/main/bitnami/postgresql/docker-compose.yml) file present in this repository already configures this setup. **Note!** When `POSTGRESQL_USERNAME` is specified, the `postgres` user is not assigned a password and as a result you cannot login remotely to the PostgreSQL server as the `postgres` user. If you still want to have access with the user `postgres`, please set the `POSTGRESQL_POSTGRES_PASSWORD` environment variable (or the content of the file specified in `POSTGRESQL_POSTGRES_PASSWORD_FILE`). ### Setting up a HA PostgreSQL cluster with streaming replication and repmgr A HA PostgreSQL cluster with [Streaming replication](https://www.postgresql.org/docs/10/warm-standby.html#STREAMING-REPLICATION) and [repmgr](https://repmgr.org) can easily be setup with the Bitnami PostgreSQL HA Docker Image using the following environment variables: - `POSTGRESQL_PASSWORD`: Password for `postgres` user. No defaults. - `POSTGRESQL_PASSWORD_FILE`: Path to a file that contains the `postgres` user password. This will override the value specified in `POSTGRESQL_PASSWORD`. No defaults. - `REPMGR_USERNAME`: Username for `repmgr` user. Defaults to `repmgr`. - `REPMGR_PASSWORD_FILE`: Path to a file that contains the `repmgr` user password. This will override the value specified in `REPMGR_PASSWORD`. No defaults. - `REPMGR_PASSWORD`: Password for `repmgr` user. No defaults. - `REPMGR_USE_PASSFILE`: Configure repmgr to use `passfile` and `PGPASSFILE` instead of plain-text password in its configuration. - `REPMGR_PASSFILE_PATH`: Location of the passfile, if it doesn't exist it will be created using REPMGR credentials. - `REPMGR_PRIMARY_HOST`: Hostname of the initial primary node. No defaults. - `REPMGR_PARTNER_NODES`: Comma separated list of partner nodes in the cluster. No defaults. - `REPMGR_NODE_NAME`: Node name. No defaults. - `REPMGR_NODE_TYPE`: Node type. Defaults to `data`. Allowed values: `data` for data nodes (master or replicas), `witness` for witness nodes. - `REPMGR_NODE_NETWORK_NAME`: Node hostname. No defaults. - `REPMGR_PGHBA_TRUST_ALL`: This will set the auth-method in the generated pg_hba.conf. Set it to `yes` only if you are using pgpool with LDAP authentication. Default to `no`. In a HA PostgreSQL cluster you can have one primary and zero or more standby nodes. The primary node is in read-write mode, while the standby nodes are in read-only mode. For best performance its advisable to limit the reads to the standby nodes. > NOTE: REPMGR_USE_PASSFILE and REPMGR_PASSFILE_PATH will be ignored for Postgresql prior to version 9.6. > > When mounting an external passfile using REPMGR_PASSFILE_PATH, it is necessary to also configure REPMGR_PASSWORD and REPMGR_USERNAME accordingly. #### Step 1: Create a network and the initial primary node The first step is to start the initial primary node: ```console docker network create my-network --driver bridge docker run --detach --name pg-0 \ --network my-network \ --env REPMGR_PARTNER_NODES=pg-0,pg-1 \ --env REPMGR_NODE_NAME=pg-0 \ --env REPMGR_NODE_NETWORK_NAME=pg-0 \ --env REPMGR_PRIMARY_HOST=pg-0 \ --env REPMGR_PASSWORD=repmgrpass \ --env POSTGRESQL_PASSWORD=secretpass \ bitnami/postgresql-repmgr:latest ``` #### Step 2: Create a standby node Next we start a standby node: ```console docker run --detach --name pg-1 \ --network my-network \ --env REPMGR_PARTNER_NODES=pg-0,pg-1 \ --env REPMGR_NODE_NAME=pg-1 \ --env REPMGR_NODE_NETWORK_NAME=pg-1 \ --env REPMGR_PRIMARY_HOST=pg-0 \ --env REPMGR_PASSWORD=repmgrpass \ --env POSTGRESQL_PASSWORD=secretpass \ bitnami/postgresql-repmgr:latest ``` With these three commands you now have a two node PostgreSQL primary-standby streaming replication cluster up and running. You can scale the cluster by adding/removing standby nodes without incurring any downtime. > **Note**: The cluster replicates the primary in its entirety, which includes all users and databases. If the master goes down, **repmgr** will ensure any of the standby nodes takes the primary role, guaranteeing high availability. > **Note**: The configuration of the other nodes in the cluster needs to be updated so that they are aware of them. This would require you to restart the old nodes adapting the `REPMGR_PARTNER_NODES` environment variable. With Docker Compose the HA PostgreSQL cluster can be setup using the [`docker-compose.yml`](https://github.com/bitnami/containers/tree/main/bitnami/postgresql-repmgr/docker-compose.yml) file present in this repository: ```console curl -sSL https://raw.githubusercontent.com/bitnami/containers/main/bitnami/postgresql-repmgr/docker-compose.yml > docker-compose.yml docker-compose up -d ``` ### Securing PostgreSQL traffic PostgreSQL supports the encryption of connections using the SSL/TLS protocol. Should you desire to enable this optional feature, you may use the following environment variables to configure the application: - `POSTGRESQL_ENABLE_TLS`: Whether to enable TLS for traffic or not. Defaults to `no`. - `POSTGRESQL_TLS_CERT_FILE`: File containing the certificate file for the TLS traffic. No defaults. - `POSTGRESQL_TLS_KEY_FILE`: File containing the key for certificate. No defaults. - `POSTGRESQL_TLS_CA_FILE`: File containing the CA of the certificate. If provided, PostgreSQL will authenticate TLS/SSL clients by requesting them a certificate (see [ref](https://www.postgresql.org/docs/9.6/auth-methods.html)). No defaults. - `POSTGRESQL_TLS_CRL_FILE`: File containing a Certificate Revocation List. No defaults. - `POSTGRESQL_TLS_PREFER_SERVER_CIPHERS`: Whether to use the server's TLS cipher preferences rather than the client's. Defaults to `yes`. When enabling TLS, PostgreSQL will support both standard and encrypted traffic by default, but prefer the latter. Below there are some examples on how to quickly set up TLS traffic: 1. Using `docker run` ```console $ docker run \ -v /path/to/certs:/opt/bitnami/postgresql/certs \ -e POSTGRESQL_ENABLE_TLS=yes \ -e POSTGRESQL_TLS_CERT_FILE=/opt/bitnami/postgresql/certs/postgres.crt \ -e POSTGRESQL_TLS_KEY_FILE=/opt/bitnami/postgresql/certs/postgres.key \ bitnami/postgresql-repmgr:latest ``` 2. Modifying the `docker-compose.yml` file present in this repository: ```yaml services: pg-0: ... environment: ... - POSTGRESQL_ENABLE_TLS=yes - POSTGRESQL_TLS_CERT_FILE=/opt/bitnami/postgresql/certs/postgres.crt - POSTGRESQL_TLS_KEY_FILE=/opt/bitnami/postgresql/certs/postgres.key ... volumes: ... - /path/to/certs:/opt/bitnami/postgresql/certs ... ``` Alternatively, you may also provide this configuration in your [custom](https://github.com/bitnami/containers/tree/main/bitnami/postgresql-repmgr) configuration file. ### Configuration file The image looks for the `repmgr.conf`, `postgresql.conf` and `pg_hba.conf` files in `/opt/bitnami/repmgr/conf/` and `/opt/bitnami/postgresql/conf/`. You can mount a volume at `/bitnami/repmgr/conf/` and copy/edit the configuration files in the `/path/to/custom-conf/`. The default configurations will be populated to the `conf/` directories if `/bitnami/repmgr/conf/` is empty. ```console /path/to/custom-conf/ └── postgresql.conf ``` As the PostgreSQL with Replication manager image is non-root, you need to set the proper permissions to the mounted directory in your host: ```console sudo chgrp -R root /path/to/custom-conf/ sudo chmod -R g+rwX /path/to/custom-conf/ ``` #### Step 1: Run the PostgreSQL image Run the PostgreSQL image, mounting a directory from your host. ```console docker run --name pg-0 \ -v /path/to/custom-conf/:/bitnami/repmgr/conf/ \ bitnami/postgresql-repmgr:latest ``` or using Docker Compose: ```yaml version: '2' services: pg-0: image: bitnami/postgresql-repmgr:latest ports: - 5432:5432 volumes: - /path/to/custom-conf/:/bitnami/repmgr/conf/ pg-1: image: bitnami/postgresql-repmgr:latest ports: - 5432:5432 volumes: - /path/to/custom-conf/:/bitnami/repmgr/conf/ ``` #### Step 2: Edit the configuration Edit the configuration on your host using your favorite editor. ```console vi /path/to/custom-conf/postgresql.conf ``` #### Step 3: Restart PostgreSQL After changing the configuration, restart your PostgreSQL container for changes to take effect. ```console docker restart pg-0 ``` or using Docker Compose: ```console docker-compose restart pg-0 docker-compose restart pg-1 ``` Refer to the [server configuration](http://www.postgresql.org/docs/10/static/runtime-config.html) manual for the complete list of configuration options. #### Allow settings to be loaded from files other than the default `postgresql.conf` Apart of using a custom `repmgr.conf`, `postgresql.conf` or `pg_hba.conf`, you can include files ending in `.conf` from the `conf.d` directory in the volume at `/bitnami/postgresql/conf/`. For this purpose, the default `postgresql.conf` contains the following section: ```config ##------------------------------------------------------------------------------ ## CONFIG FILE INCLUDES ##------------------------------------------------------------------------------ ## These options allow settings to be loaded from files other than the ## default postgresql.conf. include_dir = 'conf.d' # Include files ending in '.conf' from directory 'conf.d' ``` If you are using your custom `postgresql.conf`, you should create (or uncomment) the above section in your config file, in this case the structure should be something like ```console /path/to/custom-conf/ └── postgresql.conf /path/to/extra-custom-conf/ └── extended.conf ``` Remember to set the proper permissions to the mounted directory in your host: ```console sudo chgrp -R root /path/to/extra-custom-conf/ sudo chmod -R g+rwX /path/to/extra-custom-conf/ ``` #### Step 1: Deploy the PostgreSQL image Run the PostgreSQL image, mounting a directory from your host. ```console docker run --name pg-0 \ -v /path/to/extra-custom-conf/:/bitnami/postgresql/conf/conf.d/ \ -v /path/to/custom-conf/:/bitnami/repmgr/conf/ \ bitnami/postgresql-repmgr:latest ``` or using Docker Compose: ```yaml version: '2' services: pg-0: image: bitnami/postgresql-repmgr:latest ports: - 5432:5432 volumes: - /path/to/extra-custom-conf/:/bitnami/postgresql/conf/conf.d/ - /path/to/custom-conf/:/bitnami/repmgr/conf/ pg-1: image: bitnami/postgresql-repmgr:latest ports: - 5432:5432 volumes: - /path/to/extra-custom-conf/:/bitnami/postgresql/conf/conf.d/ - /path/to/custom-conf/:/bitnami/repmgr/conf/ ``` #### Step 2: Edit the configuration file Edit the configuration on your host using your favorite editor. ```console vi /path/to/extra-custom-conf/extended.conf ``` #### Step 3: Restart the PostgreSQL container After changing the configuration, restart your PostgreSQL container for changes to take effect. ```console docker restart pg-0 ``` or using Docker Compose: ```console docker-compose restart pg-0 docker-compose restart pg-1 ``` ### Adding extra services to base docker-compose.yaml It is possible to add extra services to the provided `docker-compose.yaml` file, like [a witness node](https://repmgr.org/docs/4.3/repmgrd-witness-server.html). When adding the new service, please take into account the cluster set up process relays on the `REPMGR_NODE_ID_START_SEED` environment variable plus the service ID in the name (if present, or zero (`0`) by default) to assign cluster's ID to each service/node involved on it. In the case of docker-compose based clusters, this may lead to collisions in the internal IDs in case two or more services share the same ID in their names, making the service initialization process to fail. This isn't an issue on Kubernetes environments, as the Kubernetes controller enumerates the pods with different ID numbers by default. We recommend setting a different value for the `REPMGR_NODE_ID_START_SEED` in those nodes, or ensuring no services names use repeated numbers. Find below a sample service for a witness service: ```yaml pg-0: (...) pg-1: (...) pgw-0: image: bitnami/postgresql-repmgr:latest ports: - 6439:5432 volumes: - /docker/local/database_repmgr2/pgw-0:/bitnami/postgresql environment: (...) - REPMGR_PRIMARY_HOST=pg-0 - REPMGR_PRIMARY_PORT=5432 - REPMGR_PARTNER_NODES=pg-0:5432,pg-1:5432,pgw-0:5432 - REPMGR_NODE_NAME=pgw-0 - REPMGR_NODE_NETWORK_NAME=pgw-0 - REPMGR_PORT_NUMBER=5432 - REPMGR_NODE_TYPE=witness # Avoid naming collision with 'pg-0' service - REPMGR_NODE_ID_START_SEED=2000 (...) ``` Refer to [issues/27124](https://github.com/bitnami/containers/issues/27124) for further details on this. ### Environment variables #### Customizable environment variables | Name | Description | Default Value | |--------------------------------------------|------------------------------------------------------------------------------------------------------|--------------------------------------------| | `POSTGRESQL_VOLUME_DIR` | Persistence base directory | `/bitnami/postgresql` | | `POSTGRESQL_DATA_DIR` | PostgreSQL data directory | `${POSTGRESQL_VOLUME_DIR}/data` | | `POSTGRESQL_EXTRA_FLAGS` | Extra flags for PostgreSQL initialization | `nil` | | `POSTGRESQL_INIT_MAX_TIMEOUT` | Maximum initialization waiting timeout | `60` | | `POSTGRESQL_PGCTLTIMEOUT` | Maximum waiting timeout for pg_ctl commands | `60` | | `POSTGRESQL_SHUTDOWN_MODE` | Default mode for pg_ctl stop command | `fast` | | `POSTGRESQL_CLUSTER_APP_NAME` | Replication cluster default application name | `walreceiver` | | `POSTGRESQL_DATABASE` | Default PostgreSQL database | `postgres` | | `POSTGRESQL_INITDB_ARGS` | Optional args for PostreSQL initdb operation | `nil` | | `ALLOW_EMPTY_PASSWORD` | Allow password-less access | `no` | | `POSTGRESQL_INITDB_WAL_DIR` | Optional init db wal directory | `nil` | | `POSTGRESQL_MASTER_HOST` | PostgreSQL master host (used by slaves) | `nil` | | `POSTGRESQL_MASTER_PORT_NUMBER` | PostgreSQL master host port (used by slaves) | `5432` | | `POSTGRESQL_NUM_SYNCHRONOUS_REPLICAS` | Number of PostgreSQL replicas that should use synchronous replication | `0` | | `POSTGRESQL_SYNCHRONOUS_REPLICAS_MODE` | PostgreSQL synchronous replication mode (values: empty, FIRST, ANY) | `nil` | | `POSTGRESQL_PORT_NUMBER` | PostgreSQL port number | `5432` | | `POSTGRESQL_ALLOW_REMOTE_CONNECTIONS` | Modify pg_hba settings so users can access from the outside | `yes` | | `POSTGRESQL_REPLICATION_MODE` | PostgreSQL replication mode (values: master, slave) | `master` | | `POSTGRESQL_REPLICATION_USER` | PostgreSQL replication user | `nil` | | `POSTGRESQL_REPLICATION_USE_PASSFILE` | Use PGPASSFILE instead of PGPASSWORD | `no` | | `POSTGRESQL_REPLICATION_PASSFILE_PATH` | Path to store passfile | `${POSTGRESQL_CONF_DIR}/.pgpass` | | `POSTGRESQL_SR_CHECK` | Create user on PostgreSQL for Stream Replication Check | `no` | | `POSTGRESQL_SR_CHECK_USERNAME` | Stream Replication Check user | `sr_check_user` | | `POSTGRESQL_SR_CHECK_DATABASE` | Stream Replication Check database | `postgres` | | `POSTGRESQL_SYNCHRONOUS_COMMIT_MODE` | Enable synchronous replication in slaves (number defined by POSTGRESQL_NUM_SYNCHRONOUS_REPLICAS) | `on` | | `POSTGRESQL_FSYNC` | Enable fsync in write ahead logs | `on` | | `POSTGRESQL_USERNAME` | PostgreSQL default username | `postgres` | | `POSTGRESQL_ENABLE_LDAP` | Enable LDAP for PostgreSQL authentication | `no` | | `POSTGRESQL_LDAP_URL` | PostgreSQL LDAP server url (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_PREFIX` | PostgreSQL LDAP prefix (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_SUFFIX` | PostgreSQL LDAP suffix (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_SERVER` | PostgreSQL LDAP server (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_PORT` | PostgreSQL LDAP port (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_SCHEME` | PostgreSQL LDAP scheme (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_TLS` | PostgreSQL LDAP tls setting (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_BASE_DN` | PostgreSQL LDAP base DN settings (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_BIND_DN` | PostgreSQL LDAP bind DN settings (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_BIND_PASSWORD` | PostgreSQL LDAP bind password (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_SEARCH_ATTR` | PostgreSQL LDAP search attribute (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_LDAP_SEARCH_FILTER` | PostgreSQL LDAP search filter (requires POSTGRESQL_ENABLE_LDAP=yes) | `nil` | | `POSTGRESQL_INITSCRIPTS_USERNAME` | Username for the psql scripts included in /docker-entrypoint.initdb | `$POSTGRESQL_USERNAME` | | `POSTGRESQL_PASSWORD` | Password for the PostgreSQL created user | `nil` | | `POSTGRESQL_POSTGRES_PASSWORD` | Password for the PostgreSQL postgres user | `nil` | | `POSTGRESQL_REPLICATION_PASSWORD` | Password for the PostgreSQL replication user | `nil` | | `POSTGRESQL_SR_CHECK_PASSWORD` | Password for the Stream Replication Check user | `nil` | | `POSTGRESQL_INITSCRIPTS_PASSWORD` | Password for the PostgreSQL init scripts user | `$POSTGRESQL_PASSWORD` | | `POSTGRESQL_ENABLE_TLS` | Whether to enable TLS for traffic or not | `no` | | `POSTGRESQL_TLS_CERT_FILE` | File containing the certificate for the TLS traffic | `nil` | | `POSTGRESQL_TLS_KEY_FILE` | File containing the key for certificate | `nil` | | `POSTGRESQL_TLS_CA_FILE` | File containing the CA of the certificate | `nil` | | `POSTGRESQL_TLS_CRL_FILE` | File containing a Certificate Revocation List | `nil` | | `POSTGRESQL_TLS_PREFER_SERVER_CIPHERS` | Whether to use the server TLS cipher preferences rather than the client | `yes` | | `POSTGRESQL_SHARED_PRELOAD_LIBRARIES` | List of libraries to preload at PostgreSQL initialization | `pgaudit` | | `POSTGRESQL_PGAUDIT_LOG` | Comma-separated list of actions to log with pgaudit | `nil` | | `POSTGRESQL_PGAUDIT_LOG_CATALOG` | Enable pgaudit log catalog (pgaudit.log_catalog setting) | `nil` | | `POSTGRESQL_PGAUDIT_LOG_PARAMETER` | Enable pgaudit log parameter (pgaudit.log_parameter setting) | `nil` | | `POSTGRESQL_LOG_CONNECTIONS` | Add a log entry per user connection | `nil` | | `POSTGRESQL_LOG_DISCONNECTIONS` | Add a log entry per user disconnection | `nil` | | `POSTGRESQL_LOG_HOSTNAME` | Log the client host name when accessing | `nil` | | `POSTGRESQL_CLIENT_MIN_MESSAGES` | Set log level of errors to send to the client | `error` | | `POSTGRESQL_LOG_LINE_PREFIX` | Set the format of the log lines | `nil` | | `POSTGRESQL_LOG_TIMEZONE` | Set the log timezone | `nil` | | `POSTGRESQL_TIMEZONE` | Set the timezone | `nil` | | `POSTGRESQL_MAX_CONNECTIONS` | Set the maximum amount of connections | `nil` | | `POSTGRESQL_TCP_KEEPALIVES_IDLE` | Set the TCP keepalive idle time | `nil` | | `POSTGRESQL_TCP_KEEPALIVES_INTERVAL` | Set the TCP keepalive interval time | `nil` | | `POSTGRESQL_TCP_KEEPALIVES_COUNT` | Set the TCP keepalive count | `nil` | | `POSTGRESQL_STATEMENT_TIMEOUT` | Set the SQL statement timeout | `nil` | | `POSTGRESQL_PGHBA_REMOVE_FILTERS` | Comma-separated list of strings for removing pg_hba.conf lines (example: md5, local) | `nil` | | `POSTGRESQL_USERNAME_CONNECTION_LIMIT` | Set the user connection limit | `nil` | | `POSTGRESQL_POSTGRES_CONNECTION_LIMIT` | Set the postgres user connection limit | `nil` | | `POSTGRESQL_WAL_LEVEL` | Set the write-ahead log level | `replica` | | `POSTGRESQL_DEFAULT_TOAST_COMPRESSION` | Set the postgres default compression | `nil` | | `POSTGRESQL_PASSWORD_ENCRYPTION` | Set the passwords encryption method | `nil` | | `POSTGRESQL_DEFAULT_TRANSACTION_ISOLATION` | Set transaction isolation | `nil` | | `POSTGRESQL_REPLICATION_NODES` | Override value for synchronous_standby_names in postgresql.conf. Should be set if `REPMGR_NODE_NAME` | `nil` | | `POSTGRESQL_PERFORM_RESTORE` | Flag to skip deletion of `recovery.signal` file to enable native recovery. e.g by using `wal-g` | `no` | | `POSTGRESQL_AUTOCTL_CONF_DIR` | Path to the configuration dir for the pg_autoctl command | `${POSTGRESQL_AUTOCTL_VOLUME_DIR}/.config` | | `POSTGRESQL_AUTOCTL_MODE` | pgAutoFailover node type, valid values [monitor, postgres] | `postgres` | | `POSTGRESQL_AUTOCTL_MONITOR_HOST` | Hostname for the monitor component | `monitor` | | `POSTGRESQL_AUTOCTL_HOSTNAME` | Hostname by which postgres is reachable | `$(hostname --fqdn)` | | `REPMGR_DATA_DIR` | Replication Manager data directory | `${REPMGR_VOLUME_DIR}/repmgr/data` | | `REPMGR_SKIP_SETUP` | Skip Replication manager (and PostgreSQL) setup. | `no` | | `REPMGR_NODE_ID` | Replication Manager node identifier | `nil` | | `REPMGR_NODE_ID_START_SEED` | Replication Manager node identifier start seed | `1000` | | `REPMGR_NODE_NAME` | Replication Manager node name | `$(hostname)` | | `REPMGR_NODE_NETWORK_NAME` | Replication Manager node network name | `nil` | | `REPMGR_NODE_PRIORITY` | Replication Manager node priority | `100` | | `REPMGR_NODE_LOCATION` | Replication Manager node location | `default` | | `REPMGR_NODE_TYPE` | Replication Manager node type | `data` | | `REPMGR_PORT_NUMBER` | Replication Manager port number | `5432` | | `REPMGR_LOG_LEVEL` | Replication Manager logging level | `NOTICE` | | `REPMGR_USE_PGREWIND` | (Experimental) Use pg_rewind to synchronize from primary node | `no` | | `REPMGR_START_OPTIONS` | Options to add when starting the node | `nil` | | `REPMGR_CONNECT_TIMEOUT` | Replication Manager node connection timeout (in seconds) | `5` | | `REPMGR_RECONNECT_ATTEMPTS` | Number of attempts to connect to the cluster before failing | `3` | | `REPMGR_RECONNECT_INTERVAL` | Replication Manager node reconnect interval (in seconds) | `5` | | `REPMGR_PARTNER_NODES` | List of other Replication Manager nodes in the cluster | `nil` | | `REPMGR_PRIMARY_HOST` | Replication Manager cluster primary node | `nil` | | `REPMGR_PRIMARY_PORT` | Replication Manager cluster primary node port | `5432` | | `REPMGR_USE_REPLICATION_SLOTS` | Replication Manager replication slots | `1` | | `REPMGR_MASTER_RESPONSE_TIMEOUT` | Time (in seconds) to wait for the master to reply | `20` | | `REPMGR_PRIMARY_VISIBILITY_CONSENSUS` | Replication Manager flag to enable consult each other to build a quorum | `false` | | `REPMGR_MONITORING_HISTORY` | Replication Manager flag to enable monitoring history | `no` | | `REPMGR_MONITOR_INTERVAL_SECS` | Replication Manager interval at which to write monitoring data | `2` | | `REPMGR_DEGRADED_MONITORING_TIMEOUT` | Replication Manager degraded monitoring timeout | `5` | | `REPMGR_UPGRADE_EXTENSION` | Replication Manager upgrade extension | `no` | | `REPMGR_FENCE_OLD_PRIMARY` | Replication Manager fence old primary | `no` | | `REPMGR_FAILOVER` | Replication failover mode | `automatic` | | `REPMGR_CHILD_NODES_CHECK_INTERVAL` | Replication Manager time interval to check nodes | `5` | | `REPMGR_CHILD_NODES_CONNECTED_MIN_COUNT` | Replication Manager minimal connected nodes | `1` | | `REPMGR_CHILD_NODES_DISCONNECT_TIMEOUT` | Replication Manager disconnected nodes timeout | `30` | | `REPMGR_SWITCH_ROLE` | Flag to switch current node role | `no` | | `REPMGR_CURRENT_PRIMARY_HOST` | Current primary host | `nil` | | `REPMGR_USERNAME` | Replication manager username | `repmgr` | | `REPMGR_DATABASE` | Replication manager database | `repmgr` | | `REPMGR_PGHBA_TRUST_ALL` | Add trust all in Replication Manager pg_hba.conf | `no` | | `REPMGR_PASSWORD` | Replication manager password | `nil` | | `REPMGR_USE_PASSFILE` | Use PGPASSFILE instead of PGPASSWORD | `nil` | | `REPMGR_PASSFILE_PATH` | Path to store passfile | `$REPMGR_CONF_DIR/.pgpass` | | `PGCONNECT_TIMEOUT` | PostgreSQL connection timeout | `10` | #### Read-only environment variables | Name | Description | Value | |----------------------------------------------|-----------------------------------------------------------------|-----------------------------------------------| | `POSTGRESQL_BASE_DIR` | PostgreSQL installation directory | `/opt/bitnami/postgresql` | | `POSTGRESQL_DEFAULT_CONF_DIR` | PostgreSQL configuration directory | `$POSTGRESQL_BASE_DIR/conf.default` | | `POSTGRESQL_CONF_DIR` | PostgreSQL configuration directory | `$POSTGRESQL_BASE_DIR/conf` | | `POSTGRESQL_MOUNTED_CONF_DIR` | PostgreSQL mounted configuration directory | `$POSTGRESQL_VOLUME_DIR/conf` | | `POSTGRESQL_CONF_FILE` | PostgreSQL configuration file | `$POSTGRESQL_CONF_DIR/postgresql.conf` | | `POSTGRESQL_PGHBA_FILE` | PostgreSQL pg_hba file | `$POSTGRESQL_CONF_DIR/pg_hba.conf` | | `POSTGRESQL_RECOVERY_FILE` | PostgreSQL recovery file | `$POSTGRESQL_DATA_DIR/recovery.conf` | | `POSTGRESQL_LOG_DIR` | PostgreSQL logs directory | `$POSTGRESQL_BASE_DIR/logs` | | `POSTGRESQL_LOG_FILE` | PostgreSQL log file | `$POSTGRESQL_LOG_DIR/postgresql.log` | | `POSTGRESQL_TMP_DIR` | PostgreSQL temporary directory | `$POSTGRESQL_BASE_DIR/tmp` | | `POSTGRESQL_PID_FILE` | PostgreSQL PID file | `$POSTGRESQL_TMP_DIR/postgresql.pid` | | `POSTGRESQL_BIN_DIR` | PostgreSQL executables directory | `$POSTGRESQL_BASE_DIR/bin` | | `POSTGRESQL_INITSCRIPTS_DIR` | Init scripts directory | `/docker-entrypoint-initdb.d` | | `POSTGRESQL_PREINITSCRIPTS_DIR` | Pre-init scripts directory | `/docker-entrypoint-preinitdb.d` | | `POSTGRESQL_DAEMON_USER` | PostgreSQL system user | `postgres` | | `POSTGRESQL_DAEMON_GROUP` | PostgreSQL system group | `postgres` | | `POSTGRESQL_USE_CUSTOM_PGHBA_INITIALIZATION` | Initialize PostgreSQL with the custom, mounted pg_hba.conf file | `no` | | `POSTGRESQL_AUTOCTL_VOLUME_DIR` | The pg_autoctl home directory | `${POSTGRESQL_VOLUME_DIR}/pgautoctl` | | `POSTGRESQL_PGBACKREST_VOLUME_DIR` | The pgbackrest home directory | `${POSTGRESQL_VOLUME_DIR}/pgbackrest` | | `POSTGRESQL_PGBACKREST_LOGS_DIR` | The pgbackrest logs directory | `${POSTGRESQL_PGBACKREST_VOLUME_DIR}/logs` | | `POSTGRESQL_PGBACKREST_BACKUPS_DIR` | The pgbackrest backups directory | `${POSTGRESQL_PGBACKREST_VOLUME_DIR}/backups` | | `POSTGRESQL_PGBACKREST_SPOOL_DIR` | The pgbackrest spool directory | `${POSTGRESQL_PGBACKREST_VOLUME_DIR}/spool` | | `POSTGRESQL_PGBACKREST_CONF_FILE` | The pgbackrest configuration file | `${POSTGRESQL_DATA_DIR}/pgbackrest.conf` | | `POSTGRESQL_FIRST_BOOT` | Flag for startup (necessary for repmgr) | `yes` | | `NSS_WRAPPER_LIB` | Flag for startup (necessary for repmgr) | `/opt/bitnami/common/lib/libnss_wrapper.so` | | `REPMGR_BASE_DIR` | Replication Manager installation directory | `/opt/bitnami/repmgr` | | `REPMGR_CONF_DIR` | Replication Manager configuration directory | `$REPMGR_BASE_DIR/conf` | | `REPMGR_VOLUME_DIR` | Persistence base directory | `/bitnami/repmgr` | | `REPMGR_MOUNTED_CONF_DIR` | Replication Manager mounted configuration directory | `$REPMGR_VOLUME_DIR/conf` | | `REPMGR_TMP_DIR` | Replication Manager temporary directory | `$REPMGR_BASE_DIR/tmp` | | `REPMGR_EVENTS_DIR` | Replication Manager events directory | `$REPMGR_BASE_DIR/events` | | `REPMGR_LOCK_DIR` | Replication Manager lock files directory | `$POSTGRESQL_VOLUME_DIR/lock` | | `REPMGR_PRIMARY_ROLE_LOCK_FILE_NAME` | Replication Manager lock file for the primary role | `$REPMGR_LOCK_DIR/master.lock` | | `REPMGR_STANDBY_ROLE_LOCK_FILE_NAME` | Replication Manager lock file for the standby node | `$REPMGR_LOCK_DIR/standby.lock` | | `REPMGR_BIN_DIR` | Replication Manager executables directory | `$REPMGR_BASE_DIR/bin` | | `REPMGR_CONF_FILE` | Replication Manager configuration file | `$REPMGR_CONF_DIR/repmgr.conf` | | `REPMGR_PID_FILE` | Replication Manager PID file. | `${REPMGR_TMP_DIR}/repmgr.pid` | | `REPMGR_CURRENT_PRIMARY_PORT` | Current primary host port | `$REPMGR_PRIMARY_PORT` | | `POSTGRESQL_REPLICATION_USER` | PostgreSQL replication user | `$REPMGR_USERNAME` | | `POSTGRESQL_REPLICATION_PASSWORD` | Password for the PostgreSQL replication user | `$REPMGR_PASSWORD` | | `POSTGRESQL_REPLICATION_USE_PASSFILE` | Use PGPASSFILE instead of PGPASSWORD | `$REPMGR_USE_PASSFILE` | | `POSTGRESQL_REPLICATION_PASSFILE_PATH` | Path to store passfile | `$REPMGR_PASSFILE_PATH` | | `POSTGRESQL_MASTER_HOST` | PostgreSQL master host | `$REPMGR_PRIMARY_HOST` | | `POSTGRESQL_MASTER_PORT_NUMBER` | PostgreSQL master host port | `$REPMGR_PRIMARY_PORT` | ### FIPS configuration in Bitnami Secure Images The Bitnami PostgreSQL HA Docker image from the [Bitnami Secure Images](https://www.arrow.com/globalecs/uk/products/bitnami-secure-images/) catalog includes extra features and settings to configure the container with FIPS capabilities. You can configure the next environment variables: - `OPENSSL_FIPS`: whether OpenSSL runs in FIPS mode or not. `yes` (default), `no`. ## Logging The Bitnami PostgreSQL HA Docker image sends the container logs to `stdout`. To view the logs: ```console docker logs pg-0 ``` You can configure the containers [logging driver](https://docs.docker.com/engine/admin/logging/overview/) using the `--log-driver` option if you wish to consume the container logs differently. In the default configuration docker uses the `json-file` driver. ## Maintenance ### Upgrade this image Bitnami provides up-to-date versions of PostgreSQL HA, including security patches, soon after they are made upstream. We recommend that you follow these steps to upgrade your container. #### Step 1: Get the updated image ```console docker pull bitnami/postgresql-repmgr:latest ``` or if you're using Docker Compose, update the value of the image property to `bitnami/postgresql-repmgr:latest`. #### Step 2: Stop the running container Stop the currently running container using the command ```console docker stop pg-0 ``` or using Docker Compose: ```console docker-compose stop pg-0 docker-compose stop pg-1 ``` Next, take a snapshot of the persistent volume `/path/to/postgresql-persistence` using: ```console rsync -a /path/to/postgresql-persistence /path/to/postgresql-persistence.bkp.$(date +%Y%m%d-%H.%M.%S) ``` #### Step 3: Remove the currently running container ```console docker rm -v pg-0 ``` or using Docker Compose: ```console docker-compose rm -v pg-0 docker-compose rm -v pg-1 ``` #### Step 4: Run the new image Re-create your container from the new image. ```console docker run --name pg-0 bitnami/postgresql-repmgr:latest ``` or using Docker Compose: ```console docker-compose up pg-0 docker-compose up pg-1 ``` ## Notable Changes ### 9.6.16-centos-7-r71, 10.11.0-centos-7-r71, 11.6.0-centos-7-r67, and 12.1.0-centos-7-r67 - `9.6.16-centos-7-r71`, `10.11.0-centos-7-r71`, `11.6.0-centos-7-r67`, and `12.1.0-centos-7-r67` are considered the latest images based on CentOS. - Standard supported distros: Debian & OEL. ### 9.6.15-r18, 9.6.15-ol-7-r23, 9.6.15-centos-7-r23, 10.10.0-r18, 10.10.0-ol-7-r23, 10.10.0-centos-7-r23, 11.5.0-r19, 11.5.0-centos-7-r23, 11.5.0-ol-7-r23 - Adds Postgis extension to postgresql, version 2.3.x to Postgresiql 9.6 and version 2.5 to 10, 11 and 12. ## Using `docker-compose.yaml` Please be aware this file has not undergone internal testing. Consequently, we advise its use exclusively for development or testing purposes. For production-ready deployments, we highly recommend utilizing its associated [Bitnami Helm chart](https://github.com/bitnami/charts/tree/main/bitnami/postgresql-ha). If you detect any issue in the `docker-compose.yaml` file, feel free to report it or contribute with a fix by following our [Contributing Guidelines](https://github.com/bitnami/containers/blob/main/CONTRIBUTING.md). ## Contributing We'd love for you to contribute to this container. You can request new features by creating an [issue](https://github.com/bitnami/containers/issues) or submitting a [pull request](https://github.com/bitnami/containers/pulls) with your contribution. ## Issues If you encountered a problem running this container, you can file an [issue](https://github.com/bitnami/containers/issues/new/choose). For us to provide better support, be sure to fill the issue template. ## License Copyright © 2025 Broadcom. The term "Broadcom" refers to Broadcom Inc. and/or its subsidiaries. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.