CKAN Docker Compose - Open Data & GIS

Overview • Branch roadmap • Environment: docker • Install CKAN • CKAN images • Extending guide • Applying patches • Addons • Info & Backups • API

Requirements:

• Docker

Overview

Contains Docker images for the different components of CKAN Cloud and a Docker compose environment (based on ckan) for development and testing Open Data portals.

Tip

• Use the deploy in 5 minutes to see ckan-docker in 5 minutes ⏱!
• Or use Codespaces to test ckan-docker in your browser:

Important

This is a custom installation of Docker Compose with specific extensions for spatial data and GeoDCAT-AP/INSPIRE metadata profiles. For official installations, please have a look: CKAN documentation: Installation.

Available components:

• CKAN custom multi-stage build with spatial capabilities from ckan-docker-spatial¹, an image used as a base and built from the official CKAN repo. The following versions of CKAN are available:

CKAN Version	Type	Docker tag	Notes
2.9.8	custom image	ghcr.io/mjanez/ckan-spatial:ckan-2.9.8	Stable version with CKAN 2.9.8
2.9.9	custom image	ghcr.io/mjanez/ckan-docker:ckan-2.9.9	Stable version with CKAN 2.9.9
2.9.10	custom image	ghcr.io/mjanez/ckan-docker:ckan-2.9.10	Stable version with CKAN 2.9.10
2.9.11	custom image	ghcr.io/mjanez/ckan-docker:ckan-2.9.11	Stable version with CKAN 2.9.11
2.9.11	latest custom image	ghcr.io/mjanez/ckan-docker:master	Latest ckan-docker image.

The non-CKAN images are as follows:

• PostgreSQL: Custom image based on official PostgreSQL image. Database files are stored in a named volume.
• Solr: Custom image based on official CKAN pre-configured Solr image. The index data is stored in a named volume and has a custom spatial schema upgrades. ²
• Redis: Standard Redis image
• NGINX: Latest stable nginx image that includes SSL and Non-SSL endpoints.
• ckan-pycsw: Custom image based on pycsw CKAN harvester ISO19139 for INSPIRE Metadata CSW Endpoint.

Optional HTTP Endpoint (docker-compose.apache.yml):

• docker-compose.apache.yml:
  • Apache HTTP Server: Custom image based on official latest stable httpd image. Configured to serve multiple routes for the ckan-pycsw CSW endpoint ({CKAN_SITE_URL}/csw) and CKAN ({CKAN_SITE_URL}/catalog). Only HTTP.

Compose files	Repository	Type	Docker tag	Size	Notes
docker-compose.yml / docker-compose.apache.yml	CKAN 2.9.11	custom image	mjanez/ckan-docker:ckan-2.9.11	800 MB	Custom Dockerfile: ckan/Dockerfile
docker-compose.yml / docker-compose.apache.yml	PostgreSQL 15	base image	postgres/postgres:15-alpine	89.74 MB	Custom Dockerfile: postgresql/Dockerfile
docker-compose.yml / docker-compose.apache.yml	Solr 9	custom image	ckan/ckan-solr:2.9-solr9-spatial	331.1 MB	CKAN's pre-configured spatial Solr image.
docker-compose.yml / docker-compose.apache.yml	Redis 7	base image	redis/redis:7-alpine	11.82 MB	-
docker-compose.yml	Apache HTTP Server 2.4	custom image	httpd/httpd:2.4	54.47 MB	Custom Dockerfile: apache/Dockerfile
docker-compose.yml	pycsw CKAN harvester ISO19139	custom image	mjanez/ckan-pycsw:latest	175 MB	Custom Dockerfile: ckan-pycsw/Dockerfile
docker-compose.apache.yml	NGINX stable	base image	nginx:stable-alpine	9.74 MB	No routing, only CKAN. Custom Dockerfile: nginx/Dockerfile

The site is configured using environment variables that you can set in the .env file for an NGINX and ckan-pycsw deployment (default .env.example), or replace it with the .env.apache.example for a Apache HTTP Server deployment using the Docker Compose file: docker-compose.apache.yml.

ckan-docker roadmap

Information about extensions installed in the main image. More info described in the Extending the base images

Note

Switch branches to see the roadmap for other projects: ckan-docker/branches

Element	Description	version	Status	DEV3	PRO4	Remarks
Core	CKAN	2.9.11	Completed	✔️	✔️	Stable installation for version 2.9.11 (Production & Dev images) via Docker Compose based on official images). Initial configuration, basic customisation and operation guide.
Core +	Datastore	2.9.11	Completed	✔️	✔️	Stable installation (Production & Dev images) via Docker Compose.
Core +	Datapusher	0.0.19	Deprecated	❌	❌	Updated to xloader, an express Loader - quickly load data into DataStore.
Extension	ckanext-xloader	1.0.1	Completed	✔️	✔️	Stable installation, a replacement for DataPusher because it offers ten times the speed and more robustness
Extension	ckanext-harvest	v1.5.6	Completed	✔️	✔️	Stable installation, necessary for the implementation of the Collector (ogc_ckan)
Extension	ckanext-geoview	0.0.20	Completed	✔️	✔️	Stable installation.
Extension	ckanext-spatial	2.0.0	Completed	✔️	✔️	Stable installation, necessary for the implementation of the Collector (ogc_ckan)
Extension	ckanext-dcat	1.1.0	Completed	✔️	✔️	Stable installation, include DCAT-AP 2.1 profile compatible with GeoDCAT-AP.
Extension	ckanext-scheming	3.0.0	WIP	✔️	✔️	Stable installation. Customised ckanext schema5 based on the Spanish Metadata Core with the aim of completing the minimum metadata elements included in the current datasets in accordance with GeoDCAT-AP and INSPIRE.
Extension	ckanext-resourcedictionary	v1.0.1	Completed	✔️	✔️	Stable installation. This extension extends the default CKAN Data Dictionary functionality by adding possibility to create data dictionary before actual data is uploaded to datastore.
Extension	ckanext-pages	0.5.2	Completed	✔️	✔️	Stable installation. This extension gives you an easy way to add simple pages to CKAN.
Extension	ckanext-pdfview	0.0.8	Completed	✔️	✔️	Stable installation. This extension provides a view plugin for PDF files using an html object tag.
Extension	ckanext-schemingdcat	2.0.0	Completed	✔️	✔️	Stable installation for version 1.2.0, provides functions and templates specifically designed to extend ckanext-scheming and includes DCAT enhancements to adapt CKAN schema to GeoDCAT-AP and several improvements such as multilang for datasets, orgs and groups or new theming.
Extension	ckanext-fluent	1.0.1	Completed	✔️	✔️	Multilingual fields for CKAN, stable version.
Software	ckan-pycsw	main	Completed	✔️	✔️	Stable installation. PyCSW Endpoint of Open Data Portal with docker compose config. Harvest the CKAN catalogue in a CSW endpoint based on existing spatial datasets in the open data portal.

Environment: docker

docker compose vs docker-compose

All Docker Compose commands in this README will use the V2 version of Compose ie: docker compose. The older version (V1) used the docker-compose command. Please see Docker Compose for more information.

Install docker-engine

Follow the installation instructions for your environment to install Docker Engine.

To verify a successful Docker installation, run docker run hello-world and docker version. These commands should output versions for client and server.

Note

Learn more about Docker/Docker Compose basic commands.

Install (build and run) CKAN plus dependencies

Clone and configure

Before starting the deployment, you'll need to set up a .env file. This file is crucial as it contains environment variables that the application needs to run properly. These variables include site urls, credentials, API keys, and other configuration details that should not be hard-coded into the application's source code for security reasons.

1. Clone project

   cd /path/to/my/project
   git clone https://github.com/mjanez/ckan-docker.git & cd ckan-docker

2. Copy the .env.example template (or use another from /samples/) and modify the resulting .env to suit your needs.

   cp .env.example .env

   • NGINX: Host ports: (NGINX_PORT_HOST and NGINX_SSLPORT_HOST)
   • Apache HTTP Server: Host ports: (APACHE_PORT_HOST)

   Then modify the variables about the site URL or locations (CKAN_SITE_URL, CKAN_URL, PYCSW_URL, CKANEXT__DCAT__BASE_URI, PROXY_SERVER_NAME, PROXY_CKAN_LOCATION, PROXY_PYCSW_LOCATION, etc.) using the port hosts above.

Note

Please note that when accessing CKAN directly (via a browser) ie: not going through Apache/NGINX you will need to make sure you have "ckan" set up to be an alias to localhost in the local hosts file. Either that or you will need to change the .env entry for CKAN_SITE_URL For more information about the `.env' file, see .env docs

Warning

Using the default values on the .env file will get you a working CKAN instance. There is a sysadmin user created by default with the values defined in CKAN_SYSADMIN_NAME and CKAN_SYSADMIN_PASSWORD (ckan_admin and test1234 by default). All envvars with API_TOKEN are automatically regenerated when CKAN is loaded, no editing is required.

This should be obviously changed before running this setup as a public CKAN instance.

You are now ready to proceed with deployment.

Base mode

Use this if you are a maintainer and will not be making code changes to CKAN or to CKAN extensions.

1. Build the images:

   docker compose build 

Note

You can use a deploy in 5 minutes if you just want to test the package.

2. Start the containers:

   docker compose up

This will start up the containers in the current window. By default the containers will log direct to this window with each container using a different colour. You could also use the -d "detach mode" option ie: docker compose up -d if you wished to use the current window for something else.

Note

• Or docker compose up --build to build & up the containers.
• Or docker compose -f docker-compose.apache.yml up -d --build to use the Apache HTTP Server version.

Note

Learn more about configuring this ckan docker:

• Backup the CKAN Database
• Configuring a docker compose service to start on boot

At the end of the container start sequence there should be 6 containers running.

After this step, CKAN should be running at http://{PROXY_SERVER_NAME}/{PROXY_CKAN_LOCATION} and ckan-pycsw at http://{PROXY_SERVER_NAME}/{PROXY_PYCSW_LOCATION}, i.e: http://localhost/catalog or http://localhost/csw

CONTAINER ID	IMAGE	COMMAND	CREATED	STATUS	PORTS	NAMES
0217537f717e	ckan-docker-nginx/ckan-docker-apache	/docker-entrypoint.…	6 minutes ago	Up 4 minutes	80/tcp,0.0.0.0:80->80/tcp,0.0.0.0:8443->443/tcp	ckan-docker-nginx-1/ckan-docker-apache-1
7b06ab2e060a	ckan-docker-ckan	/srv/app/start_ckan…	6 minutes ago	Up 5 minutes (healthy)	0.0.0.0:5000->5000/tcp	ckan-docker-ckan-1
1b8d9789c29a	redis:7-alpine	docker-entrypoint.s…	6 minutes ago	Up 4 minutes (healthy)	6379/tcp	ckan-docker-redis-1
7f162741254d	ckan/ckan-solr:2.9-solr9-spatial	docker-entrypoint.s…	6 minutes ago	Up 4 minutes (healthy)	8983/tcp	ckan-docker-solr-1
2cdd25cea0de	ckan-docker-db	docker-entrypoint.s…	6 minutes ago	Up 4 minutes (healthy)	5432/tcp	ckan-docker-db-1
9cdj25dae6gr	ckan-docker-pycsw	docker-entrypoint.s…	6 minutes ago	Up 4 minutes (healthy)	8000/tcp	ckan-docker-pycsw-1

Quick mode

If you just want to test the package and see the general functionality of the platform, you can use the ckan-docker image from the Github container registry:

# Edit the envvars in the .env as you like and start the containers.
docker compose -f docker-compose.ghcr.yml up -d --build 

Note

It will download the pre-built image and deploy all the containers. Remember to use your own domain by changing localhost in the .env file.

Development mode

Use this mode if you are making code changes to CKAN and either creating new extensions or making code changes to existing extensions. This mode also uses the .env file for config options.

To develop local extensions use the docker compose.dev.yml file:

To build the images: bash docker compose -f docker-compose.dev.yml build

To start the containers: bash docker compose -f docker-compose.dev.yml up

See CKAN images for more details of what happens when using development mode.

Tip

To enable the Flask tool console, you need to enable tool debugging mode. This is done by setting the tool logging level to DEBUG in the CKAN configuration file, ckan.ini. Here is the code snippet you need to add to your ckan.ini file:

[logger_werkzeug]
level = DEBUG

Create an extension

You can use the ckan extension instructions to create a CKAN extension, only executing the command inside the CKAN container and setting the mounted src/ folder as output:

docker compose -f docker-compose.dev.yml exec ckan-dev /bin/sh -c "ckan -c /srv/app/ckan.ini generate extension --output-dir /srv/app/src_extensions"

Then, answer the prompts to configure the plugin:

Extension's name [must begin 'ckanext-']: ckanext-newextension
Author's name []: Joe Bloggs
Author's email []: joe@bloggs.com
Your Github user or organization name []: joebloggs
Brief description of the project []: test creating a new extension
List of keywords (separated by spaces) [CKAN]: ckanext-newextension
Do you want to include code examples? [y/N]: y

Written: /srv/app/src_extensions/ckanext-newextension

The new extension files and directories are created in the /srv/app/src_extensions/ folder in the running container. They will also exist in the local src/ directory as local /src directory is mounted as /srv/app/src_extensions/ on the ckan container. You might need to change the owner of its folder to have the appropiate permissions.

Running HTTPS on development mode

Sometimes is useful to run your local development instance under HTTPS, for instance if you are using authentication extensions like ckanext-saml2auth. To enable it, set the following in your .env file:

  USE_HTTPS_FOR_DEV=true

and update the site URL setting:

  CKAN_SITE_URL=https://localhost:5000

After recreating the ckan-dev container, you should be able to access CKAN at https://localhost:5000

CKAN images

The Docker image config files used to build your CKAN project are located in the ckan/ folder. There are two Docker files:

• Dockerfile: this is based on mjanez/ckan-base-spatial:<version>, a base image located in the Github Package Registry, that has CKAN installed along with all its dependencies, properly configured and running on uWSGI (production setup)

• Dockerfile.dev: this is based on mjanez/ckan-base-spatial:<version>-dev also located located in the Github Package Registry, and extends mjanez/ckan-base-spatial:<version> to include:

  • Any extension cloned on the ./src folder will be installed in the CKAN container when booting up Docker Compose (docker compose up). This includes installing any requirements listed in a requirements.txt (or pip-requirements.txt) file and running python setup.py develop.
  • CKAN is started running this: /usr/bin/ckan -c /srv/app/ckan.ini run -H 0.0.0.0.
  • Make sure to add the local plugins to the CKAN__PLUGINS env var in the .env file.

• Any custom changes to the scripts run during container start up can be made to scripts in the setup/ directory. For instance if you wanted to change the port on which CKAN runs you would need to make changes to the Docker Compose yaml file, and the start_ckan.sh.override file. Then you would need to add the following line to the Dockerfile ie: COPY setup/start_ckan.sh.override ${APP_DIR}/start_ckan.sh. The start_ckan.sh file in the locally built image would override the start_ckan.sh file included in the base image

Tip

If you get an error like doesn't have execute permissions:

Daemon error response: failed to create shim task: OCI runtime create failed: runc create failed: unable to start container process: exec: "/srv/app/start_ckan.sh": permission denied: unknown

It may be necessary to give execute permissions to the file in the Dockerfile:

...
# Override start_ckan.sh
COPY setup/start_ckan.sh.override ${APP_DIR}/start_ckan.sh
RUN chmod +x ${APP_DIR}/start_ckan.sh
...

CKAN images enhancement

Extending the base images

You can modify the docker files to build your own customized image tailored to your project, installing any extensions and extra requirements needed. For example here is where you would update to use a different CKAN base image ie: ckan/ckan-base-spatial:<new version>

To perform extra initialization steps you can add scripts to your custom images and copy them to the /docker-entrypoint.d folder (The folder should be created for you when you build the image). Any *.sh and *.py file in that folder will be executed just after the main initialization script (prerun.py) is executed and just before the web server and supervisor processes are started.

For instance, consider the following custom image:

ckan
├── docker-entrypoint.d
│   └── setup_validation.sh
├── Dockerfile
└── Dockerfile.dev

We want to install an extension like ckanext-validation that needs to create database tables on startup time. We create a setup_validation.sh script in a docker-entrypoint.d folder with the necessary commands:

#!/bin/bash

# Create DB tables if not there
ckan -c /srv/app/ckan.ini validation init-db 

And then in our Dockerfile.dev file we install the extension and copy the initialization scripts:

FROM ckan/ckan-base-spatial:2.9.11

RUN pip install -e git+https://github.com/frictionlessdata/ckanext-validation.git#egg=ckanext-validation && \
    pip install -r https://raw.githubusercontent.com/frictionlessdata/ckanext-validation/master/requirements.txt

COPY docker-entrypoint.d/* /docker-entrypoint.d/

Tip

There are a number of extension examples commented out in the Dockerfile.dev file

Applying patches

When building your project specific CKAN images (the ones defined in the ckan/ folder), you can apply patches to CKAN core or any of the built extensions. To do so create a folder inside ckan/patches with the name of the package to patch (ie ckan or ckanext-??). Inside you can place patch files that will be applied when building the images. The patches will be applied in alphabetical order, so you can prefix them sequentially if necessary.

For instance, check the following example image folder:

ckan
├── patches
│   ├── ckan
│   │   ├── 01_datasets_per_page.patch
│   │   ├── 02_groups_per_page.patch
│   │   ├── 03_or_filters.patch
│   └── ckanext-harvest
│       └── 01_resubmit_objects.patch
├── setup
├── Dockerfile
└── Dockerfile.dev

Note

Git diff is a command to output the changes between two sources inside the Git repository. The data sources can be two different branches, commits, files, etc.

• Show changes between working directory and staging area: git diff > [file.patch]
• Shows any changes between the staging area and the repository: git diff --staged [file]

Applying patches in dev mode

To apply patches in development mode, you would need to follow these steps:

1. Ensure that your patches are placed in the ckan/patches directory. The patches should be organized into subdirectories named after the package they are intended to patch (e.g., ckan or ckanext-??). Each patch file should end with the .patch extension.

   For example, your directory structure might look like this:

   ckan
   ├── patches
   │   ├── ckan
   │   │   ├── 01_datasets_per_page.patch
   │   │   ├── 02_groups_per_page.patch
   │   │   ├── 03_or_filters.patch
   │   └── ckanext-harvest
   │       └── 01_resubmit_objects.patch
   ├── setup
   ├── Dockerfile
   └── Dockerfile.dev

2. Navigate to the /src directory.

3. Apply the patches using the patch command:

   find /path/to/ckan/patches -name '*.patch' -exec patch -p1 < {} \;

   This command will recursively search the /path/to/ckan/patches directory for files ending with .patch and apply them using the patch command. Replace /path/to/ckan/patches with the actual path to your ckan/patches directory.

ckan-docker addons

Debugging

Debugging CKAN Development Instance with VSCode Dev Containers and debugpy

The Visual Studio Code Dev Containers extension is a powerful tool that enables developers to use a container as a complete development environment. With this extension, developers can open any folder inside a container and take advantage of the full range of features provided by Visual Studio Code. To do this, developers create a devcontainer.json file in their project that specifies how to access or create a development container with a predefined tool and runtime stack. This allows developers to work in an isolated environment, ensuring that the development environment is consistent across team members and that project dependencies are easy to manage.

To set this up:

1. Install VSCode.

2. Install the Remote Development extension for VSCode.

3. In your project directory, create a devcontainer.json file. This file will contain the configuration for your development container.

4. In the devcontainer.json file, specify the Docker image for your development container and any additional configuration settings, such as environment variables, ports to expose, and startup commands.

5. Enable debugpy for your development instance in your .env file:

USE_DEBUGPY_FOR_DEV=true

6. Start the containers in development mode and launch VS Code.

7. Install the "Dev Container" extension: press CTRL+SHIFT+X, type "dev container", click "install".

8. Click the Open a Remote Window button in the bottom-left of the VS Code window.

9. Click Attach to Running Container... and select your ckan-dev container, e.g. ckan-docker-ckan-dev-1.

10. Click the Run and Debug icon on the left panel then create a launch.json, select Python Debugger, Remote Attach, host localhost and port 5678.

11. Press F5 or click the Run menu and Start Debugging.

You can now set breakpoints and remote debug your CKAN development instance using VSCode Dev Containers and debugpy.

pdb

Add these lines to the ckan-dev service in the docker compose.dev.yml file

ports:
  - "0.0.0.0:${CKAN_PORT}:5000"

stdin_open: true
tty: true

Debug with pdb (example) - Interact with docker attach $(docker container ls -qf name=ckan)

command: python -m pdb /usr/lib/ckan/venv/bin/ckan --config /srv/app/ckan.ini run --host 0.0.0.0 --passthrough-errors

Reverse proxy

NGINX

The default Docker Compose configuration (docker-compose.yml) uses an NGINX image as the front-end (ie: reverse proxy). It includes HTTPS running on port number 8443 and an HTTP port (81). A "self-signed" SSL certificate is generated beforehand and the server certificate and key files are included. The NGINX server_name (ENV: PROXY_SERVER_NAME) directive and the CN field in the SSL certificate have been both set to 'localhost'. This should obviously not be used for production.

The proxy locations, ports and other NGINX options can be modified in the .env file:

# Host Ports
NGINX_PORT_HOST=81
NGINX_SSLPORT_HOST=8443

# NGINX
NGINX_PORT=80
NGINX_SSLPORT=443
NGINX_LOG_DIR=/var/log/nginx

# Check CKAN__ROOT_PATH and CKANEXT__DCAT__BASE_URI. If you don't need to use domain locations, it is better to use the nginx configuration. Leave blank or use the root `/`.
PROXY_SERVER_NAME=localhost
PROXY_CKAN_LOCATION=/catalog
PROXY_PYCSW_LOCATION=/csw

The base Docker Compose configuration uses an NGINX image as the front-end (ie: reverse proxy). It includes HTTPS running on port number 8443. A "self-signed" SSL certificate is generated as part of the ENTRYPOINT. The ENV PROXY_SERVER_NAME, NGINX server_name directive and the CN field in the SSL certificate have been both set to 'localhost'. This should obviously not be used for production.

Creating the SSL cert and key files as follows: openssl req -new -newkey rsa:4096 -days 365 -nodes -x509 -subj "/C=DE/ST=Berlin/L=Berlin/O=None/CN=localhost" -keyout ckan-local.key -out ckan-local.crt The ckan-local.* files will then need to be moved into the nginx/setup/ directory

Apache HTTP Server

The Docker Compose configuration (docker-compose.apache.yml) uses an httpd image as the front-end. It has two routes for the ckan (default location: /catalog) and ckan-pycsw (default location: /csw) services.

The proxy locations, ports and other Apache Web Server options can be modified in the .env file:

# Host Ports
APACHE_PORT_HOST=81

# Apache HTTP Server
APACHE_VERSION=2.4-alpine
APACHE_PORT=80
APACHE_LOG_DIR=/var/log/apache

# Check CKAN__ROOT_PATH and CKANEXT__DCAT__BASE_URI. If you don't need to use domain locations, it is better to use the nginx configuration. Leave blank or use the root `/`.
PROXY_SERVER_NAME=localhost
PROXY_CKAN_LOCATION=/catalog
PROXY_PYCSW_LOCATION=/csw

envvars

The ckanext-envvars extension is used in the CKAN Docker base repo to build the base images. This extension checks for environmental variables conforming to an expected format and updates the corresponding CKAN config settings with its value.

For the extension to correctly identify which env var keys map to the format used for the config object, env var keys should be formatted in the following way:

All uppercase
Replace periods ('.') with two underscores ('__')
Keys must begin with 'CKAN' or 'CKANEXT', if they do not you can prepend them with 'CKAN___'

For example:

• CKAN__PLUGINS="envvars image_view text_view recline_view datastore datapusher"
• CKAN__DATAPUSHER__CALLBACK_URL_BASE=http://ckan:5000
• CKAN___BEAKER__SESSION__SECRET=CHANGE_ME

These parameters can be added to the .env file

For more information please see ckanext-envvars

Warning

When deploying under a proxy, such as in a corporate environment, to avoid errors when resolving urls with container_names/hostnames associated with the container on internal networks, use the no_proxy' variable, in lower case, with the names of the services/containers, the IP of the Docker network, etc. e.g: no_proxy="127.0.0.1,192.168.192.0/23,172.0.0.0/0,redis,solr,${DB_CONTAINER_NAME}"`

Datastore

The Datastore database and user is created as part of the entrypoint scripts for the db container.

xloader

This deployment replaces DataPusher with XLoader using Supervisor, more info about other alternatives on the wiki page for this: https://github.com/ckan/ckan-docker/wiki/Replacing-DataPusher-with-XLoader

ckan-pycsw

ckan-pycsw is a docker compose environment (based on pycsw) for development and testing with CKAN Open Data portals.⁵

Available components:

• pycsw: The pycsw app. An OARec and OGC CSW server implementation written in Python.
• ckan2pycsw: Software to achieve interoperability with the open data portals based on CKAN. To do this, ckan2pycsw reads data from an instance using the CKAN API, generates ISO-19115/ISO-19139 metadata using pygeometa, or a custom schema that is based on a customized CKAN schema, and populates a pycsw instance that exposes the metadata using CSW and OAI-PMH.

Harvester consumers on a deployed CKAN

ckanext-harvest supervisor allows you to harvest metadata from multiple sources on a production deployment. Here it is deployed by a worker consumers in the ckan container, also the ckanext-harvest extension and other custom harvesters (ckanext-schemingdcat or ckanext-dcat) are included in the CKAN docker images.

![TIP] To enable harvesters you need to set up in the .env file the CKAN__PLUGINS variable with the harvest plugin:

ckan-docker/.env.example

Lines 126 to 127 in a18e0c8

# Extensions

CKAN__PLUGINS="envvars stats text_view image_view webpage_view recline_view resourcedictionary datastore xloader harvest ckan_harvester spatial_metadata spatial_query spatial_harvest_metadata_api csw_harvester waf_harvester doc_harvester resource_proxy geo_view geojson_view wmts_view shp_view dcat dcat_rdf_harvester dcat_json_harvester dcat_json_interface scheming_dcat_datasets scheming_dcat_groups scheming_dcat_organizations scheming_dcat pdf_view pages fluent"

ckan-docker tips

CKAN. Backups

PostgreSQL offers the command line tools pg_dump and pg_restore for dumping and restoring a database and its content to/from a file.

Backup service for db container

1. Create a new file called ckan_backup_custom.sh and open it in your preferred text editor.

2. Add the following code to the script, replacing the placeholders with your actual values:

   #!/bin/bash
   
   # Set the necessary variables
   CONTAINER_NAME="db"
   DATABASE_NAME="ckandb"
   POSTGRES_USER="postgres"
   POSTGRES_PASSWORD="your_postgres_password"
   BACKUP_DIRECTORY="/path/to/your/backup/directory"
   DATE=$(date +%Y%m%d%H%M%S)
   MONTH=$(date +%m)
   YEAR=$(date +%Y)
   
   # Create the monthly backup directory if it doesn't exist
   mkdir -p "$BACKUP_DIRECTORY/monthly/$YEAR-$MONTH"
   
   # Run the backup command
   docker exec -e PGPASSWORD=$POSTGRES_PASSWORD $CONTAINER_NAME pg_dump -U $POSTGRES_USER -Fc $DATABASE_NAME > "$BACKUP_DIRECTORY/monthly/$YEAR-$MONTH/ckan_backup_$DATE.dump"
   
   # Compress the dump files into a zip archive
   cd "$BACKUP_DIRECTORY/monthly/$YEAR-$MONTH" || exit
   zip "backup_${YEAR}-${MONTH}.zip" *.dump
   
   # Remove the original dump files
   rm -f *.dump

3. Replace the following placeholders with your actual values:

   • your_postgres_password: The password for the PostgreSQL user.
   • /path/to/your/backup/directory: The path to the directory where you want to store the backup files.

   [!WARNING] If you have changed the values of the PostgreSQL container, database or user, change them too. Check that zip package is installed: sudo apt-get install zip

4. Save and close the file.

5. Make the script executable:

   chmod +x ckan_backup_custom.sh

6. Open the crontab for the current user:

   crontab -e

7. Add the following line to schedule the backup to run daily at midnight (adjust the schedule as needed):

   0 0 * * * /path/to/your/script/ckan_backup_custom.sh

Note

Replace /path/to/your/script with the actual path to the ckan_backup_custom.sh script.

8. Save and close the file.

The cronjob is now set up and will backup your CKAN PostgreSQL database daily at midnight using the custom format. The backups will be stored in the specified directory with the timestamp in the filename.

Note

Sample scripts for backing up CKAN: doc/scripts

Restore a backup

If need to use a backup, restore it:

1. First clean the database. Caution, this will delete all data from your CKAN database!

   docker exec -it ckan /bin/bash -c "export TERM=xterm; exec bash"
   
   # Delete everything in the CKAN database, including the tables, to start from scratch
   ckan -c $CKAN_INI db clean

2. After cleaning the database you must do either initialize it or import a previously created dump.

   docker exec -i -e PGPASSWORD=$POSTGRES_PASSWORD $POSTGRESQL_CONTAINER_NAME pg_restore -U $POSTGRES_USER --clean --if-exists -d $DATABASE_NAME < /path/to/your/backup/directory/ckan.dump

3. Restart the ckan container.

CKAN. Manage new users

1. Create a new user from the Docker host, for example to create a new user called user_example

   docker exec -it <container-id> ckan -c ckan.ini user add user_example email=user_example@localhost
   
   # Admin user
   docker exec -it <container-id> ckan -c ckan.ini sysadmin add admin_example email=admin_example@localhost name=admin_example

   To delete the 'user_example' user

   docker exec -it <container-id> ckan -c ckan.ini user remove user_example`

2. Create a new user from within the ckan container. You will need to get a session on the running container

   ckan -c ckan.ini user add user_example email=user_example@localhost`

   To delete the 'user_example' user

   ckan -c ckan.ini user remove user_example`

Docker. Basic commands

For more information about Docker and Docker Compose's basic commands and post-installation procedures, see Docker/Docker Compose Info

Docker Compose. Configure a docker compose service to start on boot

To have Docker Compose run automatically when you reboot a machine, you can follow the steps below:

1. Create a systemd service file for Docker Compose. You can create a file named ckan-docker-compose.service in the /etc/systemd/system/ folder with the following content:

   [Unit]
   Description=CKAN Docker Compose Application Service
   Requires=docker.service
   After=docker.service
   
   [Service]
   User=docker
   Group=docker
   Type=oneshot
   RemainAfterExit=yes
   WorkingDirectory=/path/to/project/ckan-docker/
   ExecStart=/bin/docker compose up -d
   ExecStop=/bin/docker compose down
   TimeoutStartSec=0
   
   [Install]
   WantedBy=multi-user.target

2. Replace /path/to/project/ckan-docker/ with the path where your project's docker-compose.yml file is located and and check the path to the docker compose binary on execution and stop: /bin/docker. Also change the User / Group to execute the service.

3. Load the systemd service file with the following command:

   sudo systemctl daemon-reload

4. Enables the service to start automatically when the machine boots up:

   sudo systemctl enable ckan-docker-compose

5. You can now start the service with the following command:

   sudo systemctl start ckan-docker-compose

6. If you want to stop or check the status of the service, use the following commands:

   # Stop the service
   sudo systemctl stop ckan-docker-compose
   
   # Check the status
   sudo systemctl status ckan-docker-compose

CKAN API

Note

params: Parameters to pass to the action function. The parameters are specific to each action function.

• fl (text): Fields of the dataset to return. The parameter controls which fields are returned in the solr query. fl can be None or a list of result fields, such as: id,name,extras_custom_schema_field.

  Example: All datasets with the fields id, name, title and a custom schema field extras_inspire_id: {ckan-instance}/api/3/action/package_search?fl=id,name,title,extras_inspire_id

• fq (text): Any filter queries to apply. Example: All datasets that have tag economy: http://demo.ckan.org/api/3/action/package_search?fq=tags:economy

• rows (int): The maximum number of matching rows (datasets) to return. (optional, default: 10, upper limit: 1000 unless set in site’s configuration ckan.search.rows_max)

More info: CKAN API Documentation and data.gov.uk

List datasets by fields

Request: {ckan-instance}/api/3/action/package_search?fl=id,extras_publisher_name

Response:

{
  "help": "{ckan-instance}/api/3/action/help_show?name=package_search",
  "success": true,
  "result": {
    "count": 32,
    "facets": {},
    "results": [
      {
        "id": "e4a607d0-0875-4043-b8c7-36f731ba5ca8",
        "publisher_name": "Example publisher"
      },
      {
        "id": "5319a6b3-f439-4f53-9732-71699b9f62c8",
        "publisher_name": "Example publisher"
      },
      {
        "id": "02a30269-7665-4f6a-a43d-c288003f5cbb",
        "publisher_name": "Example publisher"
      }
    ],
    "sort": "score desc, metadata_modified desc",
    "search_facets": {}
  }
}

All datasets in organization (with some fields)

Request: {ckan-instance}/api/3/action/package_search?fq=organization:iepnb&fl=id,name,extras_alternate_identifier&rows=100

Response:

{
  "help": "{ckan-instance}/api/3/action/help_show?name=package_search",
  "success": true,
  "result": {
    "count": 56,
    "facets": {},
    "results": [
      {
        "id": "fe757d64-436c-482d-b65b-f24348139fd6",
        "name": "example_dataset_1",
        "alternate_identifier": "IDEXAMPLEDATASET1"
      },
      {
        "id": "fc21c1a5-4c02-4157-9d2f-9a2cd200f908",
        "name": "example_dataset_2",
        "alternate_identifier": "IDEXAMPLEDATASET2"
      },
      {
        "id": "fb326c11-18d4-4ee1-aa23-a40cb90cf8d8",
        "name": "example_dataset_3",
        "alternate_identifier": "IDEXAMPLEDATASET3"
      }
    ],
    "sort": "score desc, metadata_modified desc",
    "search_facets": {}
  }
}

All info about a dataset by field

Request: {ckan-instance}/api/3/action/package_search?q=name:"spa_example_dataset_1_2023"

Response:

{
  "help": "https://demo.ckan.org/api/3/action/help_show?name=package_search",
  "success": true,
  "result": {
    "count": 1,
    "facets": {},
    "results": [
      {
        "author": "Test Author",
        "author_email": "test@email.com",
        "creator_user_id": "47c7f1b1-0ef5-4d7b-b43c-811c51c9e349",
        "id": "c322307a-b871-44fe-a602-32ee8437ff04",
        "isopen": true,
        "license_id": "cc-by",
        "license_title": "Creative Commons Attribution",
        "license_url": "http://www.opendefinition.org/licenses/cc-by",
        "maintainer": "Test Maintainer",
        "maintainer_email": "test@email.com",
        "metadata_created": "2021-04-09T11:39:37.657233",
        "metadata_modified": "2022-05-20T09:20:43.998956",
        "name": "sample-dataset-1",
        "notes": "A CKAN Dataset is a collection of data resources (such as files), together with a description and other information (what is known as metadata), at a fixed URL. \r\n\r\n",
        "num_resources": 9,
        "num_tags": 8,
        "organization": {
          "id": "1fa89238-ee96-4439-a885-22d15244d070",
          "name": "sample-organization",
          "title": "Sample Organization",
          "type": "organization",
          "description": "This is a sample organization.",
          "image_url": "2022-05-20-084702.929838siurana.jpg",
          "created": "2021-04-09T14:27:17.753798",
          "is_organization": true,
          "approval_status": "approved",
          "state": "active"
        },
        "owner_org": "1fa89238-ee96-4439-a885-22d15244d070",
        "private": false,
        "state": "active",
        "title": "Sample Dataset",
        "type": "dataset",
        "url": "",
        "version": "1.0",
        "groups": [
          {
            "description": "",
            "display_name": "Test Group",
            "id": "5d423f6b-137e-4d15-a156-868763fa7a64",
            "image_display_url": "https://demo.ckan.org/uploads/group/2021-04-21-153504.571229064c7c.png",
            "name": "test-group",
            "title": "Test Group"
          }
        ],
        "resources": [
          {
            "cache_last_updated": null,
            "cache_url": null,
            "created": "2021-04-09T14:31:09.032858",
            "datastore_active": true,
            "description": "This is a sample resource added via url.",
            "format": "CSV",
            "hash": "",
            "id": "e687245d-7835-44b0-8ed3-0827de123895",
            "last_modified": null,
            "metadata_modified": "2021-04-09T14:31:09.021596",
            "mimetype": "text/csv",
            "mimetype_inner": null,
            "name": "sample-linked.csv",
            "package_id": "c322307a-b871-44fe-a602-32ee8437ff04",
            "position": 0,
            "resource_type": null,
            "size": null,
            "state": "active",
            "url": "https://raw.githubusercontent.com/datopian/CKAN_Demo_Datasets/main/resources/org1_sample.csv",
            "url_type": null
          },
          {
            "cache_last_updated": null,
            "cache_url": null,
            "created": "2021-04-09T14:31:45.092631",
            "datastore_active": true,
            "description": "Sample csv (uploaded).",
            "format": "CSV",
            "hash": "",
            "id": "b53c9e72-6b59-4cda-8c0c-7d6a51dad12a",
            "last_modified": "2021-04-09T16:13:57.353205",
            "metadata_modified": "2021-04-09T16:13:57.367140",
            "mimetype": "application/csv",
            "mimetype_inner": null,
            "name": "sample.csv",
            "package_id": "c322307a-b871-44fe-a602-32ee8437ff04",
            "position": 1,
            "resource_type": null,
            "size": 6731,
            "state": "active",
            "url": "https://demo.ckan.org/dataset/c322307a-b871-44fe-a602-32ee8437ff04/resource/b53c9e72-6b59-4cda-8c0c-7d6a51dad12a/download/sample.csv",
            "url_type": "upload"
          }
        ],
        "tags": [
          {
            "display_name": "csv",
            "id": "b5e651dd-8f42-445c-b9c4-2f09a3268427",
            "name": "csv",
            "state": "active",
            "vocabulary_id": null
          },
          {
            "display_name": "economy",
            "id": "0c4f9ad5-a372-4bda-a59b-e560cf264b0f",
            "name": "economy",
            "state": "active",
            "vocabulary_id": null
          }
        ],
        "extras": [],
        "relationships_as_subject": [],
        "relationships_as_object": []
      }
    ],
    "sort": "score desc, metadata_modified desc",
    "search_facets": {}
  }
}

Copying and License

This material is copyright (c) 2006-2023 Open Knowledge Foundation and contributors.

It is open and licensed under the GNU Affero General Public License (AGPL) v3.0 whose full text may be found at:

http://www.fsf.org/licensing/licenses/agpl-3.0.html

Footnotes

1. Official CKAN repo: https://github.com/ckan/ckan-docker-base ↩

2. Contains fields needed for the ckanext-spatial geo search ↩

3. Development environment. ↩

4. Production environment. ↩

5. ckan_geodcatap, more info: https://github.com/mjanez/ckanext-scheming/pull/1 ↩ ↩²